JVMTM Tool Interface

Version 1.2


What is the JVM Tool Interface?

The JVMTM Tool Interface (JVM TI) is a programming interface used by development and monitoring tools. It provides both a way to inspect the state and to control the execution of applications running in the JavaTM virtual machine (VM).

JVM TI is intended to provide a VM interface for the full breadth of tools that need access to VM state, including but not limited to: profiling, debugging, monitoring, thread analysis, and coverage analysis tools.

JVM TI may not be available in all implementations of the JavaTM virtual machine.

JVM TI is a two-way interface. A client of JVM TI, hereafter called an agent, can be notified of interesting occurrences through events. JVM TI can query and control the application through many functions, either in response to events or independent of them.

Agents run in the same process with and communicate directly with the virtual machine executing the application being examined. This communication is through a native interface (JVM TI). The native in-process interface allows maximal control with minimal intrusion on the part of a tool. Typically, agents are relatively compact. They can be controlled by a separate process which implements the bulk of a tool's function without interfering with the target application's normal execution.

Architecture

Tools can be written directly to JVM TI or indirectly through higher level interfaces. The Java Platform Debugger Architecture includes JVM TI, but also contains higher-level, out-of-process debugger interfaces. The higher-level interfaces are more appropriate than JVM TI for many tools. For more information on the Java Platform Debugger Architecture, see the Java Platform Debugger Architecture website.

Writing Agents

Agents can be written in any native language that supports C language calling conventions and C or C++ definitions.

The function, event, data type, and constant definitions needed for using JVM TI are defined in the include file jvmti.h. To use these definitions add the J2SETM include directory to your include path and add
#include <jvmti.h>
    
to your source code.

Deploying Agents

An agent is deployed in a platform specific manner but is typically the platform equivalent of a dynamic library. On the WindowsTM operating system, for example, an agent library is a "Dynamic Linked Library" (DLL). On the SolarisTM Operating Environment, an agent library is a shared object (.so file).

An agent may be started at VM startup by specifying the agent library name using a command line option. Some implementations may support a mechanism to start agents in the live phase. The details of how this is initiated are implementation specific.

Agent Command Line Options

The term "command-line option" is used below to mean options supplied in the JavaVMInitArgs argument to the JNI_CreateJavaVM function of the JNI Invocation API.

One of the two following command-line options is used on VM startup to properly load and run agents. These arguments identify the library containing the agent as well as an options string to be passed in at startup.
-agentlib:<agent-lib-name>=<options>
The name following -agentlib: is the name of the library to load. Lookup of the library, both its full name and location, proceeds in a platform-specific manner. Typically, the <agent-lib-name> is expanded to an operating system specific file name. The <options> will be passed to the agent on start-up. For example, if the option -agentlib:foo=opt1,opt2 is specified, the VM will attempt to load the shared library foo.dll from the system PATH under WindowsTM or libfoo.so from the LD_LIBRARY_PATH under the SolarisTM operating environment.
-agentpath:<path-to-agent>=<options>
The path following -agentpath: is the absolute path from which to load the library. No library name expansion will occur. The <options> will be passed to the agent on start-up. For example, if the option -agentpath:c:\myLibs\foo.dll=opt1,opt2 is specified, the VM will attempt to load the shared library c:\myLibs\foo.dll.
The start-up routine Agent_OnLoad in the library will be invoked.

Libraries loaded with -agentlib: or -agentpath: will be searched for JNI native method implementations to facilitate the use of Java programming language code in tools, as is needed for bytecode instrumentation.

The agent libraries will be searched after all other libraries have been searched (agents wishing to override or intercept the native method implementations of non-agent methods can use the NativeMethodBind event).

These switches do the above and nothing more - they do not change the state of the VM or JVM TI. No command line options are needed to enable JVM TI or aspects of JVM TI, this is handled programmatically by the use of capabilities.

Agent Start-Up

The VM starts each agent by invoking a start-up function. If the agent is started in the OnLoad phase the function Agent_OnLoad will be invoked. If the agent is started in the live phase the function Agent_OnAttach will be invoked. Exactly one call to a start-up function is made per agent.

Agent Start-Up (OnLoad phase)

If an agent is started during the OnLoad phase then its agent library must export a start-up function with the following prototype:
JNIEXPORT jint JNICALL 
Agent_OnLoad(JavaVM *vm, char *options, void *reserved)
The VM will start the agent by calling this function. It will be called early enough in VM initialization that:

The VM will call the Agent_OnLoad function with <options> as the second argument - that is, using the command-line option examples, "opt1,opt2" will be passed to the char *options argument of Agent_OnLoad. The options argument is encoded as a modified UTF-8 string. If =<options> is not specified, a zero length string is passed to options. The lifespan of the options string is the Agent_OnLoad call. If needed beyond this time the string or parts of the string must be copied. The period between when Agent_OnLoad is called and when it returns is called the OnLoad phase. Since the VM is not initialized during the OnLoad phase, the set of allowed operations inside Agent_OnLoad is restricted (see the function descriptions for the functionality available at this time). The agent can safely process the options and set event callbacks with SetEventCallbacks. Once the VM initialization event is received (that is, the VMInit callback is invoked), the agent can complete its initialization.

Rationale: Early startup is required so that agents can set the desired capabilities, many of which must be set before the VM is initialized. In JVMDI, the -Xdebug command-line option provided very coarse-grain control of capabilities. JVMPI implementations use various tricks to provide a single "JVMPI on" switch. No reasonable command-line option could provide the fine-grain of control required to balance needed capabilities vs performance impact. Early startup is also needed so that agents can control the execution environment - modifying the file system and system properties to install their functionality.

The return value from Agent_OnLoad is used to indicate an error. Any value other than zero indicates an error and causes termination of the VM.

Agent Start-Up (Live phase)

A VM may support a mechanism that allows agents to be started in the VM during the live phase. The details of how this is supported, are implementation specific. For example, a tool may use some platform specific mechanism, or implementation specific API, to attach to the running VM, and request it start a given agent.

If an agent is started during the live phase then its agent library must export a start-up function with the following prototype:
JNIEXPORT jint JNICALL 
Agent_OnAttach(JavaVM* vm, char *options, void *reserved)

The VM will start the agent by calling this function. It will be called in the context of a thread that is attached to the VM. The first argument <vm> is the Java VM. The <options> argument is the startup options provided to the agent. <options> is encoded as a modified UTF-8 string. If startup options were not provided, a zero length string is passed to options. The lifespan of the options string is the Agent_OnAttach call. If needed beyond this time the string or parts of the string must be copied.

Note that some capabilities may not be available in the live phase.

The Agent_OnAttach function initializes the agent and returns a value to the VM to indicate if an error occurred. Any value other than zero indicates an error. An error does not cause the VM to terminate. Instead the VM ignores the error, or takes some implementation specific action -- for example it might print an error to standard error, or record the error in a system log.

Agent Shutdown

The library may optionally export a shutdown function with the following prototype:
JNIEXPORT void JNICALL 
Agent_OnUnload(JavaVM *vm)
This function will be called by the VM when the library is about to be unloaded. The library will be unloaded and this function will be called if some platform specific mechanism causes the unload (an unload mechanism is not specified in this document) or the library is (in effect) unloaded by the termination of the VM whether through normal termination or VM failure, including start-up failure. Uncontrolled shutdown is, of couse, an exception to this rule. Note the distinction between this function and the VM Death event: for the VM Death event to be sent, the VM must have run at least to the point of initialization and a valid JVM TI environment must exist which has set a callback for VMDeath and enabled the event None of these are required for Agent_OnUnload and this function is also called if the library is unloaded for other reasons. In the case that a VM Death event is sent, it will be sent before this function is called (assuming this function is called due to VM termination). This function can be used to clean-up resources allocated by the agent.

JAVA_TOOL_OPTIONS

Since the command-line cannot always be accessed or modified, for example in embedded VMs or simply VMs launched deep within scripts, a JAVA_TOOL_OPTIONS variable is provided so that agents may be launched in these cases.

Platforms which support environment variables or other named strings, may support the JAVA_TOOL_OPTIONS variable. This variable will be broken into options at white-space boundaries. White-space characters include space, tab, carriage-return, new-line, vertical-tab, and form-feed. Sequences of white-space characters are considered equivalent to a single white-space character. No white-space is included in the options unless quoted. Quoting is as follows: JNI_CreateJavaVM (in the JNI Invocation API) will prepend these options to the options supplied in its JavaVMInitArgs argument. Platforms may disable this feature in cases where security is a concern; for example, the Reference Implementation disables this feature on Unix systems when the effective user or group ID differs from the real ID. This feature is intended to support the initialization of tools -- specifically including the launching of native or Java programming language agents. Multiple tools may wish to use this feature, so the variable should not be overwritten, instead, options should be appended to the variable. Note that since the variable is processed at the time of the JNI Invocation API create VM call, options processed by a launcher (e.g., VM selection options) will not be handled.

Environments

The JVM TI specification supports the use of multiple simultaneous JVM TI agents. Each agent has its own JVM TI environment. That is, the JVM TI state is separate for each agent - changes to one environment do not affect the others. The state of a JVM TI environment includes: Although their JVM TI state is separate, agents inspect and modify the shared state of the VM, they also share the native environment in which they execute. As such, an agent can perturb the results of other agents or cause them to fail. It is the responsibility of the agent writer to specify the level of compatibility with other agents. JVM TI implementations are not capable of preventing destructive interactions between agents. Techniques to reduce the likelihood of these occurrences are beyond the scope of this document.

An agent creates a JVM TI environment by passing a JVM TI version as the interface ID to the JNI Invocation API function GetEnv. See Accessing JVM TI Functions for more details on the creation and use of JVM TI environments. Typically, JVM TI environments are created by calling GetEnv from Agent_OnLoad.

Bytecode Instrumentation

This interface does not include some events that one might expect in an interface with profiling support. Some examples include object allocation events and full speed method enter and exit events. The interface instead provides support for bytecode instrumentation, the ability to alter the Java virtual machine bytecode instructions which comprise the target program. Typically, these alterations are to add "events" to the code of a method - for example, to add, at the beginning of a method, a call to MyProfiler.methodEntered(). Since the changes are purely additive, they do not modify application state or behavior. Because the inserted agent code is standard bytecodes, the VM can run at full speed, optimizing not only the target program but also the instrumentation. If the instrumentation does not involve switching from bytecode execution, no expensive state transitions are needed. The result is high performance events. This approach also provides complete control to the agent: instrumentation can be restricted to "interesting" portions of the code (e.g., the end user's code) and can be conditional. Instrumentation can run entirely in Java programming language code or can call into the native agent. Instrumentation can simply maintain counters or can statistically sample events.

Instrumentation can be inserted in one of three ways:

The class modification functionality provided in this interface is intended to provide a mechanism for instrumentation (the ClassFileLoadHook event and the RetransformClasses function) and, during development, for fix-and-continue debugging (the RedefineClasses function).

Care must be taken to avoid perturbing dependencies, especially when instrumenting core classes. For example, an approach to getting notification of every object allocation is to instrument the constructor on Object. Assuming that the constructor is initially empty, the constructor could be changed to:
      public Object() {
        MyProfiler.allocationTracker(this);
      }
    
However, if this change was made using the ClassFileLoadHook event then this might impact a typical VM as follows: the first created object will call the constructor causing a class load of MyProfiler; which will then cause object creation, and since MyProfiler isn't loaded yet, infinite recursion; resulting in a stack overflow. A refinement of this would be to delay invoking the tracking method until a safe time. For example, trackAllocations could be set in the handler for the VMInit event.
      static boolean trackAllocations = false;

      public Object() {
        if (trackAllocations) {
          MyProfiler.allocationTracker(this);
        }
      }
    

The SetNativeMethodPrefix allows native methods to be instrumented by the use of wrapper methods.

Modified UTF-8 String Encoding

JVM TI uses modified UTF-8 to encode character strings. This is the same encoding used by JNI. Modified UTF-8 differs from standard UTF-8 in the representation of supplementary characters and of the null character. See the Modified UTF-8 Strings section of the JNI specification for details.

Specification Context

Since this interface provides access to the state of applications running in the Java virtual machine; terminology refers to the Java platform and not the native platform (unless stated otherwise). For example:

Sun, Sun Microsystems, the Sun logo, Java, and JVM are trademarks or registered trademarks of Oracle and/or its affiliates, in the U.S. and other countries.


Functions

Accessing Functions

Native code accesses JVM TI features by calling JVM TI functions. Access to JVM TI functions is by use of an interface pointer in the same manner as Java Native Interface (JNI) functions are accessed. The JVM TI interface pointer is called the environment pointer.

An environment pointer is a pointer to an environment and has the type jvmtiEnv*. An environment has information about its JVM TI connection. The first value in the environment is a pointer to the function table. The function table is an array of pointers to JVM TI functions. Every function pointer is at a predefined offset inside the array.

When used from the C language: double indirection is used to access the functions; the environment pointer provides context and is the first parameter of each function call; for example:
jvmtiEnv *jvmti;
...
jvmtiError err = (*jvmti)->GetLoadedClasses(jvmti, &class_count, &classes);
    

When used from the C++ language: functions are accessed as member functions of jvmtiEnv; the environment pointer is not passed to the function call; for example:
jvmtiEnv *jvmti;
...
jvmtiError err = jvmti->GetLoadedClasses(&class_count, &classes);
    
Unless otherwise stated, all examples and declarations in this specification use the C language.

A JVM TI environment can be obtained through the JNI Invocation API GetEnv function:
jvmtiEnv *jvmti;
...
(*jvm)->GetEnv(jvm, &jvmti, JVMTI_VERSION_1_0);
    
Each call to GetEnv creates a new JVM TI connection and thus a new JVM TI environment. The version argument of GetEnv must be a JVM TI version. The returned environment may have a different version than the requested version but the returned environment must be compatible. GetEnv will return JNI_EVERSION if a compatible version is not available, if JVM TI is not supported or JVM TI is not supported in the current VM configuration. Other interfaces may be added for creating JVM TI environments in specific contexts. Each environment has its own state (for example, desired events, event handling functions, and capabilities). An environment is released with DisposeEnvironment. Thus, unlike JNI which has one environment per thread, JVM TI environments work across threads and are created dynamically.

Function Return Values

JVM TI functions always return an error code via the jvmtiError function return value. Some functions can return additional values through pointers provided by the calling function. In some cases, JVM TI functions allocate memory that your program must explicitly deallocate. This is indicated in the individual JVM TI function descriptions. Empty lists, arrays, sequences, etc are returned as NULL.

In the event that the JVM TI function encounters an error (any return value other than JVMTI_ERROR_NONE) the values of memory referenced by argument pointers is undefined, but no memory will have been allocated and no global references will have been allocated. If the error occurs because of invalid input, no action will have occurred.

Managing JNI Object References

JVM TI functions identify objects with JNI references (jobject and jclass) and their derivatives (jthread and jthreadGroup). References passed to JVM TI functions can be either global or local, but they must be strong references. All references returned by JVM TI functions are local references--these local references are created during the JVM TI call. Local references are a resource that must be managed (see the JNI Documentation). When threads return from native code all local references are freed. Note that some threads, including typical agent threads, will never return from native code. A thread is ensured the ability to create sixteen local references without the need for any explicit management. For threads executing a limited number of JVM TI calls before returning from native code (for example, threads processing events), it may be determined that no explicit management is needed. However, long running agent threads will need explicit local reference management--usually with the JNI functions PushLocalFrame and PopLocalFrame. Conversely, to preserve references beyond the return from native code, they must be converted to global references. These rules do not apply to jmethodID and jfieldID as they are not jobjects.

Prerequisite State for Calling Functions

Unless the function explicitly states that the agent must bring a thread or the VM to a particular state (for example, suspended), the JVM TI implementation is responsible for bringing the VM to a safe and consistent state for performing the function.

Exceptions and Functions

JVM TI functions never throw exceptions; error conditions are communicated via the function return value. Any existing exception state is preserved across a call to a JVM TI function. See the Java Exceptions section of the JNI specification for information on handling exceptions.

Function Index


Memory Management

Memory Management functions: These functions provide for the allocation and deallocation of memory used by JVM TI functionality and can be used to provide working memory for agents. Memory managed by JVM TI is not compatible with other memory allocation libraries and mechanisms.


Allocate

jvmtiError
Allocate(jvmtiEnv* env,
            jlong size,
            unsigned char** mem_ptr)
Allocate an area of memory through the JVM TI allocator. The allocated memory should be freed with Deallocate.

PhaseCallback SafePositionSince
may be called during any phase This function may be called from the callbacks to the Heap iteration functions, or from the event handlers for the GarbageCollectionStart, GarbageCollectionFinish, and ObjectFree events. 461.0

Capabilities
Required Functionality

Parameters
Name Type Description
sizejlong The number of bytes to allocate.

Rationale: jlong is used for compatibility with JVMDI.

mem_ptrunsigned char** On return, a pointer to the beginning of the allocated memory. If size is zero, NULL is returned.

Agent passes a pointer to a unsigned char*. On return, the unsigned char* points to a newly allocated array of size size. The array should be freed with Deallocate.

Errors
This function returns either a universal error or one of the following errors
Error Description
JVMTI_ERROR_OUT_OF_MEMORY Memory request cannot be honored.
JVMTI_ERROR_ILLEGAL_ARGUMENT size is less than zero.
JVMTI_ERROR_NULL_POINTER mem_ptr is NULL.

Deallocate

jvmtiError
Deallocate(jvmtiEnv* env,
            unsigned char* mem)
Deallocate mem using the JVM TI allocator. This function should be used to deallocate any memory allocated and returned by a JVM TI function (including memory allocated with Allocate). All allocated memory must be deallocated or the memory cannot be reclaimed.

PhaseCallback SafePositionSince
may be called during any phase This function may be called from the callbacks to the Heap iteration functions, or from the event handlers for the GarbageCollectionStart, GarbageCollectionFinish, and ObjectFree events. 471.0

Capabilities
Required Functionality

Parameters
Name Type Description
mem unsigned char * A pointer to the beginning of the allocated memory. Please ignore "On return, the elements are set."

Agent passes an array of unsigned char. The incoming values of the elements of the array are ignored. On return, the elements are set. If mem is NULL, the call is ignored.

Errors
This function returns a universal error


Thread

Thread functions: Thread function types: Thread types: Thread flags and constants:


Get Thread State

jvmtiError
GetThreadState(jvmtiEnv* env,
            jthread thread,
            jint* thread_state_ptr)
Get the state of a thread. The state of the thread is represented by the answers to the hierarchical set of questions below:

The answers are represented by the following bit vector.
Thread State Flags
Constant Value Description
JVMTI_THREAD_STATE_ALIVE0x0001 Thread is alive. Zero if thread is new (not started) or terminated.
JVMTI_THREAD_STATE_TERMINATED0x0002 Thread has completed execution.
JVMTI_THREAD_STATE_RUNNABLE0x0004 Thread is runnable.
JVMTI_THREAD_STATE_BLOCKED_ON_MONITOR_ENTER0x0400 Thread is waiting to enter a synchronization block/method or, after an Object.wait(), waiting to re-enter a synchronization block/method.
JVMTI_THREAD_STATE_WAITING0x0080 Thread is waiting.
JVMTI_THREAD_STATE_WAITING_INDEFINITELY0x0010 Thread is waiting without a timeout. For example, Object.wait().
JVMTI_THREAD_STATE_WAITING_WITH_TIMEOUT0x0020 Thread is waiting with a maximum time to wait specified. For example, Object.wait(long).
JVMTI_THREAD_STATE_SLEEPING0x0040 Thread is sleeping -- Thread.sleep(long).
JVMTI_THREAD_STATE_IN_OBJECT_WAIT0x0100 Thread is waiting on an object monitor -- Object.wait.
JVMTI_THREAD_STATE_PARKED0x0200 Thread is parked, for example: LockSupport.park, LockSupport.parkUtil and LockSupport.parkNanos.
JVMTI_THREAD_STATE_SUSPENDED0x100000 Thread suspended. java.lang.Thread.suspend() or a JVM TI suspend function (such as SuspendThread) has been called on the thread. If this bit is set, the other bits refer to the thread state before suspension.
JVMTI_THREAD_STATE_INTERRUPTED0x200000 Thread has been interrupted.
JVMTI_THREAD_STATE_IN_NATIVE0x400000 Thread is in native code--that is, a native method is running which has not called back into the VM or Java programming language code.

This flag is not set when running VM compiled Java programming language code nor is it set when running VM code or VM support code. Native VM interface functions, such as JNI and JVM TI functions, may be implemented as VM code.
JVMTI_THREAD_STATE_VENDOR_10x10000000 Defined by VM vendor.
JVMTI_THREAD_STATE_VENDOR_20x20000000 Defined by VM vendor.
JVMTI_THREAD_STATE_VENDOR_30x40000000 Defined by VM vendor.
The following definitions are used to convert JVM TI thread state to java.lang.Thread.State style states.
java.lang.Thread.State Conversion Masks
Constant Value Description
JVMTI_JAVA_LANG_THREAD_STATE_MASKJVMTI_THREAD_STATE_TERMINATED | JVMTI_THREAD_STATE_ALIVE | JVMTI_THREAD_STATE_RUNNABLE | JVMTI_THREAD_STATE_BLOCKED_ON_MONITOR_ENTER | JVMTI_THREAD_STATE_WAITING | JVMTI_THREAD_STATE_WAITING_INDEFINITELY | JVMTI_THREAD_STATE_WAITING_WITH_TIMEOUT Mask the state with this before comparison
JVMTI_JAVA_LANG_THREAD_STATE_NEW0 java.lang.Thread.State.NEW
JVMTI_JAVA_LANG_THREAD_STATE_TERMINATEDJVMTI_THREAD_STATE_TERMINATED java.lang.Thread.State.TERMINATED
JVMTI_JAVA_LANG_THREAD_STATE_RUNNABLEJVMTI_THREAD_STATE_ALIVE | JVMTI_THREAD_STATE_RUNNABLE java.lang.Thread.State.RUNNABLE
JVMTI_JAVA_LANG_THREAD_STATE_BLOCKEDJVMTI_THREAD_STATE_ALIVE | JVMTI_THREAD_STATE_BLOCKED_ON_MONITOR_ENTER java.lang.Thread.State.BLOCKED
JVMTI_JAVA_LANG_THREAD_STATE_WAITINGJVMTI_THREAD_STATE_ALIVE | JVMTI_THREAD_STATE_WAITING | JVMTI_THREAD_STATE_WAITING_INDEFINITELY java.lang.Thread.State.WAITING
JVMTI_JAVA_LANG_THREAD_STATE_TIMED_WAITINGJVMTI_THREAD_STATE_ALIVE | JVMTI_THREAD_STATE_WAITING | JVMTI_THREAD_STATE_WAITING_WITH_TIMEOUT java.lang.Thread.State.TIMED_WAITING
Rules

There can be no more than one answer to a question, although there can be no answer (because the answer is unknown, does not apply, or none of the answers is correct). An answer is set only when the enclosing answers match. That is, no more than one of can be set (a J2SETM compliant implementation will always set one of these if JVMTI_THREAD_STATE_ALIVE is set). And if any of these are set, the enclosing answer JVMTI_THREAD_STATE_ALIVE is set. No more than one of can be set (a J2SETM compliant implementation will always set one of these if JVMTI_THREAD_STATE_WAITING is set). And if either is set, the enclosing answers JVMTI_THREAD_STATE_ALIVE and JVMTI_THREAD_STATE_WAITING are set. No more than one of can be set. And if any of these is set, the enclosing answers JVMTI_THREAD_STATE_ALIVE and JVMTI_THREAD_STATE_WAITING are set. Also, if JVMTI_THREAD_STATE_SLEEPING is set, then JVMTI_THREAD_STATE_WAITING_WITH_TIMEOUT is set. If a state A is implemented using the mechanism of state B then it is state A which is returned by this function. For example, if Thread.sleep(long) is implemented using Object.wait(long) then it is still JVMTI_THREAD_STATE_SLEEPING which is returned. More than one of can be set, but if any is set, JVMTI_THREAD_STATE_ALIVE is set.

And finally, JVMTI_THREAD_STATE_TERMINATED cannot be set unless JVMTI_THREAD_STATE_ALIVE is not set.

The thread state representation is designed for extension in future versions of the specification; thread state values should be used accordingly, that is they should not be used as ordinals. Most queries can be made by testing a single bit, if use in a switch statement is desired, the state bits should be masked with the interesting bits. All bits not defined above are reserved for future use. A VM, compliant to the current specification, must set reserved bits to zero. An agent should ignore reserved bits -- they should not be assumed to be zero and thus should not be included in comparisons.

Examples

Note that the values below exclude reserved and vendor bits.

The state of a thread blocked at a synchronized-statement would be:
            JVMTI_THREAD_STATE_ALIVE + JVMTI_THREAD_STATE_BLOCKED_ON_MONITOR_ENTER
        
The state of a thread which hasn't started yet would be:
            0
        
The state of a thread at a Object.wait(3000) would be:
            JVMTI_THREAD_STATE_ALIVE + JVMTI_THREAD_STATE_WAITING + 
                JVMTI_THREAD_STATE_WAITING_WITH_TIMEOUT + 
                JVMTI_THREAD_STATE_MONITOR_WAITING
        
The state of a thread suspended while runnable would be:
            JVMTI_THREAD_STATE_ALIVE + JVMTI_THREAD_STATE_RUNNABLE + JVMTI_THREAD_STATE_SUSPENDED
        

Testing the State

In most cases, the thread state can be determined by testing the one bit corresponding to that question. For example, the code to test if a thread is sleeping:
	jint state;
	jvmtiError err;

	err = (*jvmti)->GetThreadState(jvmti, thread, &state);
	if (err == JVMTI_ERROR_NONE) {
	   if (state & JVMTI_THREAD_STATE_SLEEPING) {  ...
        

For waiting (that is, in Object.wait, parked, or sleeping) it would be:
	   if (state & JVMTI_THREAD_STATE_WAITING) {  ...
        
For some states, more than one bit will need to be tested as is the case when testing if a thread has not yet been started:
	   if ((state & (JVMTI_THREAD_STATE_ALIVE | JVMTI_THREAD_STATE_TERMINATED)) == 0)  {  ...
        
To distinguish timed from untimed Object.wait:
	   if (state & JVMTI_THREAD_STATE_IN_OBJECT_WAIT)  {  
             if (state & JVMTI_THREAD_STATE_WAITING_WITH_TIMEOUT)  {
               printf("in Object.wait(long timeout)\n");
             } else {
               printf("in Object.wait()\n");
             }
           }
        

Relationship to java.lang.Thread.State

The thread state represented by java.lang.Thread.State returned from java.lang.Thread.getState() is a subset of the information returned from this function. The corresponding java.lang.Thread.State can be determined by using the provided conversion masks. For example, this returns the name of the java.lang.Thread.State thread state:
	    err = (*jvmti)->GetThreadState(jvmti, thread, &state);
	    abortOnError(err);
            switch (state & JVMTI_JAVA_LANG_THREAD_STATE_MASK) {
            case JVMTI_JAVA_LANG_THREAD_STATE_NEW:
              return "NEW";
            case JVMTI_JAVA_LANG_THREAD_STATE_TERMINATED:
              return "TERMINATED";
            case JVMTI_JAVA_LANG_THREAD_STATE_RUNNABLE:
              return "RUNNABLE";
            case JVMTI_JAVA_LANG_THREAD_STATE_BLOCKED:
              return "BLOCKED";
            case JVMTI_JAVA_LANG_THREAD_STATE_WAITING:
              return "WAITING";
            case JVMTI_JAVA_LANG_THREAD_STATE_TIMED_WAITING:
              return "TIMED_WAITING";
            }
        

PhaseCallback SafePositionSince
may only be called during the live phase No 171.0

Capabilities
Required Functionality

Parameters
Name Type Description
threadjthread The thread to query. If thread is NULL, the current thread is used.
thread_state_ptrjint* On return, points to state flags, as defined by the Thread State Flags.

Agent passes a pointer to a jint. On return, the jint has been set.

Errors
This function returns either a universal error or one of the following errors
Error Description
JVMTI_ERROR_INVALID_THREAD thread is not a thread object.
JVMTI_ERROR_NULL_POINTER thread_state_ptr is NULL.

Get Current Thread

jvmtiError
GetCurrentThread(jvmtiEnv* env,
            jthread* thread_ptr)
Get the current thread. The current thread is the Java programming language thread which has called the function.

Note that most JVM TI functions that take a thread as an argument will accept NULL to mean the current thread.

PhaseCallback SafePositionSince
may only be called during the start or the live phase No 181.1

Capabilities
Required Functionality

Parameters
Name Type Description
thread_ptrjthread* On return, points to the current thread.

Agent passes a pointer to a jthread. On return, the jthread has been set. The object returned by thread_ptr is a JNI local reference and must be managed.

Errors
This function returns either a universal error or one of the following errors
Error Description
JVMTI_ERROR_NULL_POINTER thread_ptr is NULL.

Get All Threads

jvmtiError
GetAllThreads(jvmtiEnv* env,
            jint* threads_count_ptr,
            jthread** threads_ptr)
Get all live threads. The threads are Java programming language threads; that is, threads that are attached to the VM. A thread is live if java.lang.Thread.isAlive() would return true, that is, the thread has been started and has not yet died. The universe of threads is determined by the context of the JVM TI environment, which typically is all threads attached to the VM. Note that this includes JVM TI agent threads (see RunAgentThread).

PhaseCallback SafePositionSince
may only be called during the live phase No 41.0

Capabilities
Required Functionality

Parameters
Name Type Description
threads_count_ptrjint* On return, points to the number of running threads.

Agent passes a pointer to a jint. On return, the jint has been set.
threads_ptrjthread** On return, points to an array of references, one for each running thread.

Agent passes a pointer to a jthread*. On return, the jthread* points to a newly allocated array of size *threads_count_ptr. The array should be freed with Deallocate. The objects returned by threads_ptr are JNI local references and must be managed.

Errors
This function returns either a universal error or one of the following errors
Error Description
JVMTI_ERROR_NULL_POINTER threads_count_ptr is NULL.
JVMTI_ERROR_NULL_POINTER threads_ptr is NULL.

Suspend Thread

jvmtiError
SuspendThread(jvmtiEnv* env,
            jthread thread)
Suspend the specified thread. If the calling thread is specified, this function will not return until some other thread calls ResumeThread. If the thread is currently suspended, this function does nothing and returns an error.

PhaseCallback SafePositionSince
may only be called during the live phase No 51.0

Capabilities
Optional Functionality: might not be implemented for all virtual machines. The following capability (as returned by GetCapabilities) must be true to use this function.
Capability Effect
can_suspend Can suspend and resume threads

Parameters
Name Type Description
threadjthread The thread to suspend. If thread is NULL, the current thread is used.

Errors
This function returns either a universal error or one of the following errors
Error Description
JVMTI_ERROR_MUST_POSSESS_CAPABILITY The environment does not possess the capability can_suspend. Use AddCapabilities.
JVMTI_ERROR_THREAD_SUSPENDED Thread already suspended.
JVMTI_ERROR_INVALID_THREAD thread is not a thread object.
JVMTI_ERROR_THREAD_NOT_ALIVE thread is not live (has not been started or is now dead).

Suspend Thread List

jvmtiError
SuspendThreadList(jvmtiEnv* env,
            jint request_count,
            const jthread* request_list,
            jvmtiError* results)
Suspend the request_count threads specified in the request_list array. Threads may be resumed with ResumeThreadList or ResumeThread. If the calling thread is specified in the request_list array, this function will not return until some other thread resumes it. Errors encountered in the suspension of a thread are returned in the results array, not in the return value of this function. Threads that are currently suspended do not change state.

PhaseCallback SafePositionSince
may only be called during the live phase No 921.0

Capabilities
Optional Functionality: might not be implemented for all virtual machines. The following capability (as returned by GetCapabilities) must be true to use this function.
Capability Effect
can_suspend Can suspend and resume threads

Parameters
Name Type Description
request_countjint The number of threads to suspend.
request_listconst jthread* The list of threads to suspend.

Agent passes in an array of request_count elements of jthread.
resultsjvmtiError* An agent supplied array of request_count elements. On return, filled with the error code for the suspend of the corresponding thread. The error code will be JVMTI_ERROR_NONE if the thread was suspended by this call. Possible error codes are those specified for SuspendThread.

Agent passes an array large enough to hold request_count elements of jvmtiError. The incoming values of the elements of the array are ignored. On return, the elements are set.

Errors
This function returns either a universal error or one of the following errors
Error Description
JVMTI_ERROR_MUST_POSSESS_CAPABILITY The environment does not possess the capability can_suspend. Use AddCapabilities.
JVMTI_ERROR_ILLEGAL_ARGUMENT request_count is less than 0.
JVMTI_ERROR_NULL_POINTER request_list is NULL.
JVMTI_ERROR_NULL_POINTER results is NULL.

Resume Thread

jvmtiError
ResumeThread(jvmtiEnv* env,
            jthread thread)
Resume a suspended thread. Any threads currently suspended through a JVM TI suspend function (eg. SuspendThread) or java.lang.Thread.suspend() will resume execution; all other threads are unaffected.

PhaseCallback SafePositionSince
may only be called during the live phase No 61.0

Capabilities
Optional Functionality: might not be implemented for all virtual machines. The following capability (as returned by GetCapabilities) must be true to use this function.
Capability Effect
can_suspend Can suspend and resume threads

Parameters
Name Type Description
threadjthread The thread to resume.

Errors
This function returns either a universal error or one of the following errors
Error Description
JVMTI_ERROR_MUST_POSSESS_CAPABILITY The environment does not possess the capability can_suspend. Use AddCapabilities.
JVMTI_ERROR_THREAD_NOT_SUSPENDED Thread was not suspended.
JVMTI_ERROR_INVALID_TYPESTATE The state of the thread has been modified, and is now inconsistent.
JVMTI_ERROR_INVALID_THREAD thread is not a thread object.
JVMTI_ERROR_THREAD_NOT_ALIVE thread is not live (has not been started or is now dead).

Resume Thread List

jvmtiError
ResumeThreadList(jvmtiEnv* env,
            jint request_count,
            const jthread* request_list,
            jvmtiError* results)
Resume the request_count threads specified in the request_list array. Any thread suspended through a JVM TI suspend function (eg. SuspendThreadList) or java.lang.Thread.suspend() will resume execution.

PhaseCallback SafePositionSince
may only be called during the live phase No 931.0

Capabilities
Optional Functionality: might not be implemented for all virtual machines. The following capability (as returned by GetCapabilities) must be true to use this function.
Capability Effect
can_suspend Can suspend and resume threads

Parameters
Name Type Description
request_countjint The number of threads to resume.
request_listconst jthread* The threads to resume.

Agent passes in an array of request_count elements of jthread.
resultsjvmtiError* An agent supplied array of request_count elements. On return, filled with the error code for the resume of the corresponding thread. The error code will be JVMTI_ERROR_NONE if the thread was suspended by this call. Possible error codes are those specified for ResumeThread.

Agent passes an array large enough to hold request_count elements of jvmtiError. The incoming values of the elements of the array are ignored. On return, the elements are set.

Errors
This function returns either a universal error or one of the following errors
Error Description
JVMTI_ERROR_MUST_POSSESS_CAPABILITY The environment does not possess the capability can_suspend. Use AddCapabilities.
JVMTI_ERROR_ILLEGAL_ARGUMENT request_count is less than 0.
JVMTI_ERROR_NULL_POINTER request_list is NULL.
JVMTI_ERROR_NULL_POINTER results is NULL.

Stop Thread

jvmtiError
StopThread(jvmtiEnv* env,
            jthread thread,
            jobject exception)
Send the specified asynchronous exception to the specified thread (similar to java.lang.Thread.stop). Normally, this function is used to kill the specified thread with an instance of the exception ThreadDeath.

PhaseCallback SafePositionSince
may only be called during the live phase No 71.0

Capabilities
Optional Functionality: might not be implemented for all virtual machines. The following capability (as returned by GetCapabilities) must be true to use this function.
Capability Effect
can_signal_thread Can send stop or interrupt to threads

Parameters
Name Type Description
threadjthread The thread to stop.
exceptionjobject The asynchronous exception object.

Errors
This function returns either a universal error or one of the following errors
Error Description
JVMTI_ERROR_MUST_POSSESS_CAPABILITY The environment does not possess the capability can_signal_thread. Use AddCapabilities.
JVMTI_ERROR_INVALID_THREAD thread is not a thread object.
JVMTI_ERROR_THREAD_NOT_ALIVE thread is not live (has not been started or is now dead).
JVMTI_ERROR_INVALID_OBJECT exception is not an object.

Interrupt Thread

jvmtiError
InterruptThread(jvmtiEnv* env,
            jthread thread)
Interrupt the specified thread (similar to java.lang.Thread.interrupt).

PhaseCallback SafePositionSince
may only be called during the live phase No 81.0

Capabilities
Optional Functionality: might not be implemented for all virtual machines. The following capability (as returned by GetCapabilities) must be true to use this function.
Capability Effect
can_signal_thread Can send stop or interrupt to threads

Parameters
Name Type Description
threadjthread The thread to interrupt.

Errors
This function returns either a universal error or one of the following errors
Error Description
JVMTI_ERROR_MUST_POSSESS_CAPABILITY The environment does not possess the capability can_signal_thread. Use AddCapabilities.
JVMTI_ERROR_INVALID_THREAD thread is not a thread object.
JVMTI_ERROR_THREAD_NOT_ALIVE thread is not live (has not been started or is now dead).

Get Thread Info

typedef struct {
    char* name;
    jint priority;
    jboolean is_daemon;
    jthreadGroup thread_group;
    jobject context_class_loader;
} jvmtiThreadInfo;
jvmtiError
GetThreadInfo(jvmtiEnv* env,
            jthread thread,
            jvmtiThreadInfo* info_ptr)
Get thread information. The fields of the jvmtiThreadInfo structure are filled in with details of the specified thread.

PhaseCallback SafePositionSince
may only be called during the live phase No 91.0

Capabilities
Required Functionality

jvmtiThreadInfo - Thread information structure
Field Type Description
namechar* The thread name, encoded as a modified UTF-8 string.
priorityjint The thread priority. See the thread priority constants: jvmtiThreadPriority.
is_daemonjboolean Is this a daemon thread?
thread_groupjthreadGroup The thread group to which this thread belongs. NULL if the thread has died.
context_class_loaderjobject The context class loader associated with this thread.

Parameters
Name Type Description
threadjthread The thread to query. If thread is NULL, the current thread is used.
info_ptrjvmtiThreadInfo* On return, filled with information describing the specified thread.

For JDK 1.1 implementations that don't recognize context class loaders, the context_class_loader field will be NULL.

Agent passes a pointer to a jvmtiThreadInfo. On return, the jvmtiThreadInfo has been set. The pointer returned in the field name of jvmtiThreadInfo is a newly allocated array. The array should be freed with Deallocate. The object returned in the field thread_group of jvmtiThreadInfo is a JNI local reference and must be managed. The object returned in the field context_class_loader of jvmtiThreadInfo is a JNI local reference and must be managed.

Errors
This function returns either a universal error or one of the following errors
Error Description
JVMTI_ERROR_INVALID_THREAD thread is not a thread object.
JVMTI_ERROR_NULL_POINTER info_ptr is NULL.

Get Owned Monitor Info

jvmtiError
GetOwnedMonitorInfo(jvmtiEnv* env,
            jthread thread,
            jint* owned_monitor_count_ptr,
            jobject** owned_monitors_ptr)
Get information about the monitors owned by the specified thread.

PhaseCallback SafePositionSince
may only be called during the live phase No 101.0

Capabilities
Optional Functionality: might not be implemented for all virtual machines. The following capability (as returned by GetCapabilities) must be true to use this function.
Capability Effect
can_get_owned_monitor_info Can get information about ownership of monitors - GetOwnedMonitorInfo

Parameters
Name Type Description
threadjthread The thread to query. If thread is NULL, the current thread is used.
owned_monitor_count_ptrjint* The number of monitors returned.

Agent passes a pointer to a jint. On return, the jint has been set.
owned_monitors_ptrjobject** The array of owned monitors.

Agent passes a pointer to a jobject*. On return, the jobject* points to a newly allocated array of size *owned_monitor_count_ptr. The array should be freed with Deallocate. The objects returned by owned_monitors_ptr are JNI local references and must be managed.

Errors
This function returns either a universal error or one of the following errors
Error Description
JVMTI_ERROR_MUST_POSSESS_CAPABILITY The environment does not possess the capability can_get_owned_monitor_info. Use AddCapabilities.
JVMTI_ERROR_INVALID_THREAD thread is not a thread object.
JVMTI_ERROR_THREAD_NOT_ALIVE thread is not live (has not been started or is now dead).
JVMTI_ERROR_NULL_POINTER owned_monitor_count_ptr is NULL.
JVMTI_ERROR_NULL_POINTER owned_monitors_ptr is NULL.

Get Owned Monitor Stack Depth Info

typedef struct {
    jobject monitor;
    jint stack_depth;
} jvmtiMonitorStackDepthInfo;
jvmtiError
GetOwnedMonitorStackDepthInfo(jvmtiEnv* env,
            jthread thread,
            jint* monitor_info_count_ptr,
            jvmtiMonitorStackDepthInfo** monitor_info_ptr)
Get information about the monitors owned by the specified thread and the depth of the stack frame which locked them.

PhaseCallback SafePositionSince
may only be called during the live phase No 1531.1

Capabilities
Optional Functionality: might not be implemented for all virtual machines. The following capability (as returned by GetCapabilities) must be true to use this function.
Capability Effect
can_get_owned_monitor_stack_depth_info Can get information about owned monitors with stack depth - GetOwnedMonitorStackDepthInfo

jvmtiMonitorStackDepthInfo - Monitor stack depth information structure
Field Type Description
monitorjobject The owned monitor.
stack_depthjint The stack depth. Corresponds to the stack depth used in the Stack Frame functions. That is, zero is the current frame, one is the frame which called the current frame. And it is negative one if the implementation cannot determine the stack depth (e.g., for monitors acquired by JNI MonitorEnter).

Parameters
Name Type Description
threadjthread The thread to query. If thread is NULL, the current thread is used.
monitor_info_count_ptrjint* The number of monitors returned.

Agent passes a pointer to a jint. On return, the jint has been set.
monitor_info_ptr jvmtiMonitorStackDepthInfo ** The array of owned monitor depth information.

Agent passes a pointer to a jvmtiMonitorStackDepthInfo*. On return, the jvmtiMonitorStackDepthInfo* points to a newly allocated array of size *owned_monitor_depth_count_ptr. The array should be freed with Deallocate. The objects returned in the field monitor of jvmtiMonitorStackDepthInfo are JNI local references and must be managed.

Errors
This function returns either a universal error or one of the following errors
Error Description
JVMTI_ERROR_MUST_POSSESS_CAPABILITY The environment does not possess the capability can_get_owned_monitor_stack_depth_info. Use AddCapabilities.
JVMTI_ERROR_INVALID_THREAD thread is not a thread object.
JVMTI_ERROR_THREAD_NOT_ALIVE thread is not live (has not been started or is now dead).
JVMTI_ERROR_NULL_POINTER monitor_info_count_ptr is NULL.
JVMTI_ERROR_NULL_POINTER monitor_info_ptr is NULL.

Get Current Contended Monitor

jvmtiError
GetCurrentContendedMonitor(jvmtiEnv* env,
            jthread thread,
            jobject* monitor_ptr)
Get the object, if any, whose monitor the specified thread is waiting to enter or waiting to regain through java.lang.Object.wait.

PhaseCallback SafePositionSince
may only be called during the live phase No 111.0

Capabilities
Optional Functionality: might not be implemented for all virtual machines. The following capability (as returned by GetCapabilities) must be true to use this function.
Capability Effect
can_get_current_contended_monitor Can GetCurrentContendedMonitor

Parameters
Name Type Description
threadjthread The thread to query. If thread is NULL, the current thread is used.
monitor_ptrjobject* On return, filled with the current contended monitor, or NULL if there is none.

Agent passes a pointer to a jobject. On return, the jobject has been set. The object returned by monitor_ptr is a JNI local reference and must be managed.

Errors
This function returns either a universal error or one of the following errors
Error Description
JVMTI_ERROR_MUST_POSSESS_CAPABILITY The environment does not possess the capability can_get_current_contended_monitor. Use AddCapabilities.
JVMTI_ERROR_INVALID_THREAD thread is not a thread object.
JVMTI_ERROR_THREAD_NOT_ALIVE thread is not live (has not been started or is now dead).
JVMTI_ERROR_NULL_POINTER monitor_ptr is NULL.

Agent Start Function

typedef void (JNICALL *jvmtiStartFunction)
    (jvmtiEnv* jvmti_env, 
     JNIEnv* jni_env, 
     void* arg);
Agent supplied callback function. This function is the entry point for an agent thread started with RunAgentThread.

Parameters
Name Type Description
jvmti_env jvmtiEnv * The JVM TI environment.
jni_env JNIEnv * The JNI environment.
arg void * The arg parameter passed to RunAgentThread.

Run Agent Thread

jvmtiError
RunAgentThread(jvmtiEnv* env,
            jthread thread,
            jvmtiStartFunction proc,
            const void* arg,
            jint priority)
Starts the execution of an agent thread. with the specified native function. The parameter arg is forwarded on to the start function (specified with proc) as its single argument. This function allows the creation of agent threads for handling communication with another process or for handling events without the need to load a special subclass of java.lang.Thread or implementer of java.lang.Runnable. Instead, the created thread can run entirely in native code. However, the created thread does require a newly created instance of java.lang.Thread (referenced by the argument thread) to which it will be associated. The thread object can be created with JNI calls.

The following common thread priorities are provided for your convenience:
Thread Priority Constants
Constant Value Description
JVMTI_THREAD_MIN_PRIORITY1 Minimum possible thread priority
JVMTI_THREAD_NORM_PRIORITY5 Normal thread priority
JVMTI_THREAD_MAX_PRIORITY10 Maximum possible thread priority

The new thread is started as a daemon thread with the specified priority. If enabled, a ThreadStart event will be sent.

Since the thread has been started, the thread will be live when this function returns, unless the thread has died immediately.

The thread group of the thread is ignored -- specifically, the thread is not added to the thread group and the thread is not seen on queries of the thread group at either the Java programming language or JVM TI levels.

The thread is not visible to Java programming language queries but is included in JVM TI queries (for example, GetAllThreads and GetAllStackTraces).

Upon execution of proc, the new thread will be attached to the VM--see the JNI documentation on Attaching to the VM.

PhaseCallback SafePositionSince
may only be called during the live phase No 121.0

Capabilities
Required Functionality

Parameters
Name Type Description
threadjthread The thread to run.
proc jvmtiStartFunction The start function.

argconst void * The argument to the start function.

Agent passes in a pointer. If arg is NULL, NULL is passed to the start function.
priorityjint The priority of the started thread. Any thread priority allowed by java.lang.Thread.setPriority can be used including those in jvmtiThreadPriority.

Errors
This function returns either a universal error or one of the following errors
Error Description
JVMTI_ERROR_INVALID_PRIORITY priority is less than JVMTI_THREAD_MIN_PRIORITY or greater than JVMTI_THREAD_MAX_PRIORITY
JVMTI_ERROR_INVALID_THREAD thread is not a thread object.
JVMTI_ERROR_NULL_POINTER proc is NULL.

Set Thread Local Storage

jvmtiError
SetThreadLocalStorage(jvmtiEnv* env,
            jthread thread,
            const void* data)
The VM stores a pointer value associated with each environment-thread pair. This pointer value is called thread-local storage. This value is NULL unless set with this function. Agents can allocate memory in which they store thread specific information. By setting thread-local storage it can then be accessed with GetThreadLocalStorage.

This function is called by the agent to set the value of the JVM TI thread-local storage. JVM TI supplies to the agent a pointer-size thread-local storage that can be used to record per-thread information.

PhaseCallback SafePositionSince
may only be called during the start or the live phase No 1031.0

Capabilities
Required Functionality

Parameters
Name Type Description
threadjthread Store to this thread. If thread is NULL, the current thread is used.
dataconst void * The value to be entered into the thread-local storage.

Agent passes in a pointer. If data is NULL, value is set to NULL.

Errors
This function returns either a universal error or one of the following errors
Error Description
JVMTI_ERROR_INVALID_THREAD thread is not a thread object.
JVMTI_ERROR_THREAD_NOT_ALIVE thread is not live (has not been started or is now dead).

Get Thread Local Storage

jvmtiError
GetThreadLocalStorage(jvmtiEnv* env,
            jthread thread,
            void** data_ptr)
Called by the agent to get the value of the JVM TI thread-local storage.

PhaseCallback SafePositionSince
may only be called during the start or the live phase No 1021.0

Capabilities
Required Functionality

Parameters
Name Type Description
threadjthread Retrieve from this thread. If thread is NULL, the current thread is used.
data_ptrvoid** Pointer through which the value of the thread local storage is returned. If thread-local storage has not been set with SetThreadLocalStorage the returned pointer is NULL.

Errors
This function returns either a universal error or one of the following errors
Error Description
JVMTI_ERROR_INVALID_THREAD thread is not a thread object.
JVMTI_ERROR_THREAD_NOT_ALIVE thread is not live (has not been started or is now dead).
JVMTI_ERROR_NULL_POINTER data_ptr is NULL.


Thread Group

Thread Group functions: Thread Group types:


Get Top Thread Groups

jvmtiError
GetTopThreadGroups(jvmtiEnv* env,
            jint* group_count_ptr,
            jthreadGroup** groups_ptr)
Return all top-level (parentless) thread groups in the VM.

PhaseCallback SafePositionSince
may only be called during the live phase No 131.0

Capabilities
Required Functionality

Parameters
Name Type Description
group_count_ptrjint* On return, points to the number of top-level thread groups.

Agent passes a pointer to a jint. On return, the jint has been set.
groups_ptrjthreadGroup** On return, refers to a pointer to the top-level thread group array.

Agent passes a pointer to a jthreadGroup*. On return, the jthreadGroup* points to a newly allocated array of size *group_count_ptr. The array should be freed with Deallocate. The objects returned by groups_ptr are JNI local references and must be managed.

Errors
This function returns either a universal error or one of the following errors
Error Description
JVMTI_ERROR_NULL_POINTER group_count_ptr is NULL.
JVMTI_ERROR_NULL_POINTER groups_ptr is NULL.

Get Thread Group Info

typedef struct {
    jthreadGroup parent;
    char* name;
    jint max_priority;
    jboolean is_daemon;
} jvmtiThreadGroupInfo;
jvmtiError
GetThreadGroupInfo(jvmtiEnv* env,
            jthreadGroup group,
            jvmtiThreadGroupInfo* info_ptr)
Get information about the thread group. The fields of the jvmtiThreadGroupInfo structure are filled in with details of the specified thread group.

PhaseCallback SafePositionSince
may only be called during the live phase No 141.0

Capabilities
Required Functionality

jvmtiThreadGroupInfo - Thread group information structure
Field Type Description
parentjthreadGroup The parent thread group.
namechar* The thread group's name, encoded as a modified UTF-8 string.
max_priorityjint The maximum priority for this thread group.
is_daemonjboolean Is this a daemon thread group?

Parameters
Name Type Description
groupjthreadGroup The thread group to query.
info_ptrjvmtiThreadGroupInfo* On return, filled with information describing the specified thread group.

Agent passes a pointer to a jvmtiThreadGroupInfo. On return, the jvmtiThreadGroupInfo has been set. The object returned in the field parent of jvmtiThreadGroupInfo is a JNI local reference and must be managed. The pointer returned in the field name of jvmtiThreadGroupInfo is a newly allocated array. The array should be freed with Deallocate.

Errors
This function returns either a universal error or one of the following errors
Error Description
JVMTI_ERROR_INVALID_THREAD_GROUP group is not a thread group object.
JVMTI_ERROR_NULL_POINTER info_ptr is NULL.

Get Thread Group Children

jvmtiError
GetThreadGroupChildren(jvmtiEnv* env,
            jthreadGroup group,
            jint* thread_count_ptr,
            jthread** threads_ptr,
            jint* group_count_ptr,
            jthreadGroup** groups_ptr)
Get the live threads and active subgroups in this thread group.

PhaseCallback SafePositionSince
may only be called during the live phase No 151.0

Capabilities
Required Functionality

Parameters
Name Type Description
groupjthreadGroup The group to query.
thread_count_ptrjint* On return, points to the number of live threads in this thread group.

Agent passes a pointer to a jint. On return, the jint has been set.
threads_ptrjthread** On return, points to an array of the live threads in this thread group.

Agent passes a pointer to a jthread*. On return, the jthread* points to a newly allocated array of size *thread_count_ptr. The array should be freed with Deallocate. The objects returned by threads_ptr are JNI local references and must be managed.
group_count_ptrjint* On return, points to the number of active child thread groups

Agent passes a pointer to a jint. On return, the jint has been set.
groups_ptrjthreadGroup** On return, points to an array of the active child thread groups.

Agent passes a pointer to a jthreadGroup*. On return, the jthreadGroup* points to a newly allocated array of size *group_count_ptr. The array should be freed with Deallocate. The objects returned by groups_ptr are JNI local references and must be managed.

Errors
This function returns either a universal error or one of the following errors
Error Description
JVMTI_ERROR_INVALID_THREAD_GROUP group is not a thread group object.
JVMTI_ERROR_NULL_POINTER thread_count_ptr is NULL.
JVMTI_ERROR_NULL_POINTER threads_ptr is NULL.
JVMTI_ERROR_NULL_POINTER group_count_ptr is NULL.
JVMTI_ERROR_NULL_POINTER groups_ptr is NULL.


Stack Frame

Stack Frame functions: Stack Frame types: These functions provide information about the stack of a thread. Stack frames are referenced by depth. The frame at depth zero is the current frame.

Stack frames are as described in The Java™ Virtual Machine Specification, Chapter 3.6, That is, they correspond to method invocations (including native methods) but do not correspond to platform native or VM internal frames.

A JVM TI implementation may use method invocations to launch a thread and the corresponding frames may be included in the stack as presented by these functions -- that is, there may be frames shown deeper than main() and run(). However this presentation must be consistent across all JVM TI functionality which uses stack frames or stack depth.

Stack frame information structure

Information about a stack frame is returned in this structure.

typedef struct {
    jmethodID method;
    jlocation location;
} jvmtiFrameInfo;
jvmtiFrameInfo - Stack frame information structure
Field Type Description
methodjmethodID The method executing in this frame.
locationjlocation The index of the instruction executing in this frame. -1 if the frame is executing a native method.

Stack information structure

Information about a set of stack frames is returned in this structure.

typedef struct {
    jthread thread;
    jint state;
    jvmtiFrameInfo* frame_buffer;
    jint frame_count;
} jvmtiStackInfo;
jvmtiStackInfo - Stack information structure
Field Type Description
threadjthread On return, the thread traced.
statejint On return, the thread state. See GetThreadState.
frame_buffer jvmtiFrameInfo * On return, this agent allocated buffer is filled with stack frame information.
frame_countjint On return, the number of records filled into frame_buffer. This will be min(max_frame_count, stackDepth).


Get Stack Trace

jvmtiError
GetStackTrace(jvmtiEnv* env,
            jthread thread,
            jint start_depth,
            jint max_frame_count,
            jvmtiFrameInfo* frame_buffer,
            jint* count_ptr)
Get information about the stack of a thread. If max_frame_count is less than the depth of the stack, the max_frame_count topmost frames are returned, otherwise the entire stack is returned. The topmost frames, those most recently invoked, are at the beginning of the returned buffer.

The following example causes up to five of the topmost frames to be returned and (if there are any frames) the currently executing method name to be printed.
jvmtiFrameInfo frames[5];
jint count;
jvmtiError err;

err = (*jvmti)->GetStackTrace(jvmti, aThread, 0, 5, 
                               &frames, &count);
if (err == JVMTI_ERROR_NONE && count >= 1) {
   char *methodName;
   err = (*jvmti)->GetMethodName(jvmti, frames[0].method, 
                       &methodName, NULL);
   if (err == JVMTI_ERROR_NONE) {
      printf("Executing method: %s", methodName);
   }
}
        

The thread need not be suspended to call this function.

The GetLineNumberTable function can be used to map locations to line numbers. Note that this mapping can be done lazily.

PhaseCallback SafePositionSince
may only be called during the live phase No 1041.0

Capabilities
Required Functionality

Parameters
Name Type Description
threadjthread Fetch the stack trace of this thread. If thread is NULL, the current thread is used.
start_depthjint Begin retrieving frames at this depth. If non-negative, count from the current frame, the first frame retrieved is at depth start_depth. For example, if zero, start from the current frame; if one, start from the caller of the current frame; if two, start from the caller of the caller of the current frame; and so on. If negative, count from below the oldest frame, the first frame retrieved is at depth stackDepth + start_depth, where stackDepth is the count of frames on the stack. For example, if negative one, only the oldest frame is retrieved; if negative two, start from the frame called by the oldest frame.
max_frame_countjint The maximum number of jvmtiFrameInfo records to retrieve.
frame_buffer jvmtiFrameInfo * On return, this agent allocated buffer is filled with stack frame information.

Agent passes an array large enough to hold max_frame_count elements of jvmtiFrameInfo. The incoming values of the elements of the array are ignored. On return, *count_ptr of the elements are set.
count_ptrjint* On return, points to the number of records filled in. For non-negative start_depth, this will be min(max_frame_count, stackDepth - start_depth). For negative start_depth, this will be min(max_frame_count, -start_depth).

Agent passes a pointer to a jint. On return, the jint has been set.

Errors
This function returns either a universal error or one of the following errors
Error Description
JVMTI_ERROR_ILLEGAL_ARGUMENT start_depth is positive and greater than or equal to stackDepth. Or start_depth is negative and less than -stackDepth.
JVMTI_ERROR_INVALID_THREAD thread is not a thread object.
JVMTI_ERROR_THREAD_NOT_ALIVE thread is not live (has not been started or is now dead).
JVMTI_ERROR_ILLEGAL_ARGUMENT max_frame_count is less than 0.
JVMTI_ERROR_NULL_POINTER frame_buffer is NULL.
JVMTI_ERROR_NULL_POINTER count_ptr is NULL.

Get All Stack Traces

jvmtiError
GetAllStackTraces(jvmtiEnv* env,
            jint max_frame_count,
            jvmtiStackInfo** stack_info_ptr,
            jint* thread_count_ptr)
Get information about the stacks of all live threads (including agent threads). If max_frame_count is less than the depth of a stack, the max_frame_count topmost frames are returned for that thread, otherwise the entire stack is returned. The topmost frames, those most recently invoked, are at the beginning of the returned buffer.

All stacks are collected simultaneously, that is, no changes will occur to the thread state or stacks between the sampling of one thread and the next. The threads need not be suspended.
jvmtiStackInfo *stack_info;
jint thread_count;
int ti;
jvmtiError err;

err = (*jvmti)->GetAllStackTraces(jvmti, MAX_FRAMES, &stack_info, &thread_count); 
if (err != JVMTI_ERROR_NONE) {
   ...   
}
for (ti = 0; ti < thread_count; ++ti) {
   jvmtiStackInfo *infop = &stack_info[ti];
   jthread thread = infop->thread;
   jint state = infop->state;
   jvmtiFrameInfo *frames = infop->frame_buffer;
   int fi;

   myThreadAndStatePrinter(thread, state);
   for (fi = 0; fi < infop->frame_count; fi++) {
      myFramePrinter(frames[fi].method, frames[fi].location);
   }
}
/* this one Deallocate call frees all data allocated by GetAllStackTraces */
err = (*jvmti)->Deallocate(jvmti, stack_info); 
        

PhaseCallback SafePositionSince
may only be called during the live phase No 1001.0

Capabilities
Required Functionality

Parameters
Name Type Description
max_frame_countjint The maximum number of jvmtiFrameInfo records to retrieve per thread.
stack_info_ptr jvmtiStackInfo ** On return, this buffer is filled with stack information for each thread. The number of jvmtiStackInfo records is determined by thread_count_ptr.

Note that this buffer is allocated to include the jvmtiFrameInfo buffers pointed to by jvmtiStackInfo.frame_buffer. These buffers must not be separately deallocated.

Agent passes a pointer to a jvmtiStackInfo*. On return, the jvmtiStackInfo* points to a newly allocated array. The array should be freed with Deallocate. The objects returned in the field thread of jvmtiStackInfo are JNI local references and must be managed.
thread_count_ptrjint* The number of threads traced.

Agent passes a pointer to a jint. On return, the jint has been set.

Errors
This function returns either a universal error or one of the following errors
Error Description
JVMTI_ERROR_ILLEGAL_ARGUMENT max_frame_count is less than 0.
JVMTI_ERROR_NULL_POINTER stack_info_ptr is NULL.
JVMTI_ERROR_NULL_POINTER thread_count_ptr is NULL.

Get Thread List Stack Traces

jvmtiError
GetThreadListStackTraces(jvmtiEnv* env,
            jint thread_count,
            const jthread* thread_list,
            jint max_frame_count,
            jvmtiStackInfo** stack_info_ptr)
Get information about the stacks of the supplied threads. If max_frame_count is less than the depth of a stack, the max_frame_count topmost frames are returned for that thread, otherwise the entire stack is returned. The topmost frames, those most recently invoked, are at the beginning of the returned buffer.

All stacks are collected simultaneously, that is, no changes will occur to the thread state or stacks between the sampling one thread and the next. The threads need not be suspended.

If a thread has not yet started or terminates before the stack information is collected, a zero length stack (jvmtiStackInfo.frame_count will be zero) will be returned and the thread jvmtiStackInfo.state can be checked.

See the example for the similar function GetAllStackTraces.

PhaseCallback SafePositionSince
may only be called during the live phase No 1011.0

Capabilities
Required Functionality

Parameters
Name Type Description
thread_countjint The number of threads to trace.
thread_listconst jthread* The list of threads to trace.

Agent passes in an array of thread_count elements of jthread.
max_frame_countjint The maximum number of jvmtiFrameInfo records to retrieve per thread.
stack_info_ptr jvmtiStackInfo ** On return, this buffer is filled with stack information for each thread. The number of jvmtiStackInfo records is determined by thread_count.

Note that this buffer is allocated to include the jvmtiFrameInfo buffers pointed to by jvmtiStackInfo.frame_buffer. These buffers must not be separately deallocated.

Agent passes a pointer to a jvmtiStackInfo*. On return, the jvmtiStackInfo* points to a newly allocated array of size *thread_count. The array should be freed with Deallocate. The objects returned in the field thread of jvmtiStackInfo are JNI local references and must be managed.

Errors
This function returns either a universal error or one of the following errors
Error Description
JVMTI_ERROR_INVALID_THREAD An element in thread_list is not a thread object.
JVMTI_ERROR_ILLEGAL_ARGUMENT thread_count is less than 0.
JVMTI_ERROR_NULL_POINTER thread_list is NULL.
JVMTI_ERROR_ILLEGAL_ARGUMENT max_frame_count is less than 0.
JVMTI_ERROR_NULL_POINTER stack_info_ptr is NULL.

Get Frame Count

jvmtiError
GetFrameCount(jvmtiEnv* env,
            jthread thread,
            jint* count_ptr)
Get the number of frames currently in the specified thread's call stack.

If this function is called for a thread actively executing bytecodes (for example, not the current thread and not suspended), the information returned is transient.

PhaseCallback SafePositionSince
may only be called during the live phase No 161.0

Capabilities
Required Functionality

Parameters
Name Type Description
threadjthread The thread to query. If thread is NULL, the current thread is used.
count_ptrjint* On return, points to the number of frames in the call stack.

Agent passes a pointer to a jint. On return, the jint has been set.

Errors
This function returns either a universal error or one of the following errors
Error Description
JVMTI_ERROR_INVALID_THREAD thread is not a thread object.
JVMTI_ERROR_THREAD_NOT_ALIVE thread is not live (has not been started or is now dead).
JVMTI_ERROR_NULL_POINTER count_ptr is NULL.

Pop Frame

jvmtiError
PopFrame(jvmtiEnv* env,
            jthread thread)
Pop the current frame of thread's stack. Popping a frame takes you to the previous frame. When the thread is resumed, the execution state of the thread is reset to the state immediately before the called method was invoked. That is (using The Java™ Virtual Machine Specification terminology): Note however, that any changes to the arguments, which occurred in the called method, remain; when execution continues, the first instruction to execute will be the invoke.

Between calling PopFrame and resuming the thread the state of the stack is undefined. To pop frames beyond the first, these three steps must be repeated:

A lock acquired by calling the called method (if it is a synchronized method) and locks acquired by entering synchronized blocks within the called method are released. Note: this does not apply to native locks or java.util.concurrent.locks locks.

Finally blocks are not executed.

Changes to global state are not addressed and thus remain changed.

The specified thread must be suspended (which implies it cannot be the current thread).

Both the called method and calling method must be non-native Java programming language methods.

No JVM TI events are generated by this function.

PhaseCallback SafePositionSince
may only be called during the live phase No 801.0

Capabilities
Optional Functionality: might not be implemented for all virtual machines. The following capability (as returned by GetCapabilities) must be true to use this function.
Capability Effect
can_pop_frame Can pop frames off the stack - PopFrame

Parameters
Name Type Description
threadjthread The thread whose current frame is to be popped.

Errors
This function returns either a universal error or one of the following errors
Error Description
JVMTI_ERROR_MUST_POSSESS_CAPABILITY The environment does not possess the capability can_pop_frame. Use AddCapabilities.
JVMTI_ERROR_OPAQUE_FRAME Called or calling method is a native method. The implementation is unable to pop this frame.
JVMTI_ERROR_THREAD_NOT_SUSPENDED Thread was not suspended.
JVMTI_ERROR_NO_MORE_FRAMES There are less than two stack frames on the call stack.
JVMTI_ERROR_INVALID_THREAD thread is not a thread object.
JVMTI_ERROR_THREAD_NOT_ALIVE thread is not live (has not been started or is now dead).

Get Frame Location

jvmtiError
GetFrameLocation(jvmtiEnv* env,
            jthread thread,
            jint depth,
            jmethodID* method_ptr,
            jlocation* location_ptr)

For a Java programming language frame, return the location of the instruction currently executing.

PhaseCallback SafePositionSince
may only be called during the live phase No 191.0

Capabilities
Required Functionality

Parameters
Name Type Description
threadjthread The thread of the frame to query. If thread is NULL, the current thread is used.
depthjint The depth of the frame to query.
method_ptrjmethodID* On return, points to the method for the current location.

Agent passes a pointer to a jmethodID. On return, the jmethodID has been set.
location_ptrjlocation* On return, points to the index of the currently executing instruction. Is set to -1 if the frame is executing a native method.

Agent passes a pointer to a jlocation. On return, the jlocation has been set.

Errors
This function returns either a universal error or one of the following errors
Error Description
JVMTI_ERROR_INVALID_THREAD thread is not a thread object.
JVMTI_ERROR_THREAD_NOT_ALIVE thread is not live (has not been started or is now dead).
JVMTI_ERROR_ILLEGAL_ARGUMENT depth is less than zero.
JVMTI_ERROR_NO_MORE_FRAMES There are no stack frames at the specified depth.
JVMTI_ERROR_NULL_POINTER method_ptr is NULL.
JVMTI_ERROR_NULL_POINTER location_ptr is NULL.

Notify Frame Pop

jvmtiError
NotifyFramePop(jvmtiEnv* env,
            jthread thread,
            jint depth)
When the frame that is currently at depth is popped from the stack, generate a FramePop event. See the FramePop event for details. Only frames corresponding to non-native Java programming language methods can receive notification.

The specified thread must either be the current thread or the thread must be suspended.

PhaseCallback SafePositionSince
may only be called during the live phase No 201.0

Capabilities
Optional Functionality: might not be implemented for all virtual machines. The following capability (as returned by GetCapabilities) must be true to use this function.
Capability Effect
can_generate_frame_pop_events Can set and thus get FramePop events

Parameters
Name Type Description
threadjthread The thread of the frame for which the frame pop event will be generated. If thread is NULL, the current thread is used.
depthjint The depth of the frame for which the frame pop event will be generated.

Errors
This function returns either a universal error or one of the following errors
Error Description
JVMTI_ERROR_MUST_POSSESS_CAPABILITY The environment does not possess the capability can_generate_frame_pop_events. Use AddCapabilities.
JVMTI_ERROR_OPAQUE_FRAME The frame at depth is executing a native method.
JVMTI_ERROR_THREAD_NOT_SUSPENDED Thread was not suspended and was not the current thread.
JVMTI_ERROR_INVALID_THREAD thread is not a thread object.
JVMTI_ERROR_THREAD_NOT_ALIVE thread is not live (has not been started or is now dead).
JVMTI_ERROR_ILLEGAL_ARGUMENT depth is less than zero.
JVMTI_ERROR_NO_MORE_FRAMES There are no stack frames at the specified depth.


Force Early Return

Force Early Return functions: These functions allow an agent to force a method to return at any point during its execution. The method which will return early is referred to as the called method. The called method is the current method (as defined by The Java™ Virtual Machine Specification, Chapter 3.6) for the specified thread at the time the function is called.

The specified thread must be suspended or must be the current thread. The return occurs when execution of Java programming language code is resumed on this thread. Between calling one of these functions and resumption of thread execution, the state of the stack is undefined.

No further instructions are executed in the called method. Specifically, finally blocks are not executed. Note: this can cause inconsistent states in the application.

A lock acquired by calling the called method (if it is a synchronized method) and locks acquired by entering synchronized blocks within the called method are released. Note: this does not apply to native locks or java.util.concurrent.locks locks.

Events, such as MethodExit, are generated as they would be in a normal return.

The called method must be a non-native Java programming language method. Forcing return on a thread with only one frame on the stack causes the thread to exit when resumed.


Force Early Return - Object

jvmtiError
ForceEarlyReturnObject(jvmtiEnv* env,
            jthread thread,
            jobject value)
This function can be used to return from a method whose result type is Object or a subclass of Object.

PhaseCallback SafePositionSince
may only be called during the live phase No 811.1

Capabilities
Optional Functionality: might not be implemented for all virtual machines. The following capability (as returned by GetCapabilities) must be true to use this function.
Capability Effect
can_force_early_return Can return early from a method, as described in the Force Early Return category.

Parameters
Name Type Description
threadjthread The thread whose current frame is to return early. If thread is NULL, the current thread is used.
valuejobject The return value for the called frame. An object or NULL.

Errors
This function returns either a universal error or one of the following errors
Error Description
JVMTI_ERROR_MUST_POSSESS_CAPABILITY The environment does not possess the capability can_force_early_return. Use AddCapabilities.
JVMTI_ERROR_OPAQUE_FRAME Attempted to return early from a frame corresponding to a native method. Or the implementation is unable to provide this functionality on this frame.
JVMTI_ERROR_TYPE_MISMATCH The result type of the called method is not Object or a subclass of Object.
JVMTI_ERROR_TYPE_MISMATCH The supplied value is not compatible with the result type of the called method.
JVMTI_ERROR_THREAD_NOT_SUSPENDED Thread was not the current thread and was not suspended.
JVMTI_ERROR_NO_MORE_FRAMES There are no more frames on the call stack.
JVMTI_ERROR_INVALID_THREAD thread is not a thread object.
JVMTI_ERROR_THREAD_NOT_ALIVE thread is not live (has not been started or is now dead).
JVMTI_ERROR_INVALID_OBJECT value is not an object.

Force Early Return - Int

jvmtiError
ForceEarlyReturnInt(jvmtiEnv* env,
            jthread thread,
            jint value)
This function can be used to return from a method whose result type is int, short, char, byte, or boolean.

PhaseCallback SafePositionSince
may only be called during the live phase No 821.1

Capabilities
Optional Functionality: might not be implemented for all virtual machines. The following capability (as returned by GetCapabilities) must be true to use this function.
Capability Effect
can_force_early_return Can return early from a method, as described in the Force Early Return category.

Parameters
Name Type Description
threadjthread The thread whose current frame is to return early. If thread is NULL, the current thread is used.
valuejint The return value for the called frame.

Errors
This function returns either a universal error or one of the following errors
Error Description
JVMTI_ERROR_MUST_POSSESS_CAPABILITY The environment does not possess the capability can_force_early_return. Use AddCapabilities.
JVMTI_ERROR_OPAQUE_FRAME Attempted to return early from a frame corresponding to a native method. Or the implementation is unable to provide this functionality on this frame.
JVMTI_ERROR_TYPE_MISMATCH The result type of the called method is not int, short, char, byte, or boolean.
JVMTI_ERROR_THREAD_NOT_SUSPENDED Thread was not the current thread and was not suspended.
JVMTI_ERROR_NO_MORE_FRAMES There are no frames on the call stack.
JVMTI_ERROR_INVALID_THREAD thread is not a thread object.
JVMTI_ERROR_THREAD_NOT_ALIVE thread is not live (has not been started or is now dead).

Force Early Return - Long

jvmtiError
ForceEarlyReturnLong(jvmtiEnv* env,
            jthread thread,
            jlong value)
This function can be used to return from a method whose result type is long.

PhaseCallback SafePositionSince
may only be called during the live phase No 831.1

Capabilities
Optional Functionality: might not be implemented for all virtual machines. The following capability (as returned by GetCapabilities) must be true to use this function.
Capability Effect
can_force_early_return Can return early from a method, as described in the Force Early Return category.

Parameters
Name Type Description
threadjthread The thread whose current frame is to return early. If thread is NULL, the current thread is used.
valuejlong The return value for the called frame.

Errors
This function returns either a universal error or one of the following errors
Error Description
JVMTI_ERROR_MUST_POSSESS_CAPABILITY The environment does not possess the capability can_force_early_return. Use AddCapabilities.
JVMTI_ERROR_OPAQUE_FRAME Attempted to return early from a frame corresponding to a native method. Or the implementation is unable to provide this functionality on this frame.
JVMTI_ERROR_TYPE_MISMATCH The result type of the called method is not long.
JVMTI_ERROR_THREAD_NOT_SUSPENDED Thread was not the current thread and was not suspended.
JVMTI_ERROR_NO_MORE_FRAMES There are no frames on the call stack.
JVMTI_ERROR_INVALID_THREAD thread is not a thread object.
JVMTI_ERROR_THREAD_NOT_ALIVE thread is not live (has not been started or is now dead).

Force Early Return - Float

jvmtiError
ForceEarlyReturnFloat(jvmtiEnv* env,
            jthread thread,
            jfloat value)
This function can be used to return from a method whose result type is float.

PhaseCallback SafePositionSince
may only be called during the live phase No 841.1

Capabilities
Optional Functionality: might not be implemented for all virtual machines. The following capability (as returned by GetCapabilities) must be true to use this function.
Capability Effect
can_force_early_return Can return early from a method, as described in the Force Early Return category.

Parameters
Name Type Description
threadjthread The thread whose current frame is to return early. If thread is NULL, the current thread is used.
valuejfloat The return value for the called frame.

Errors
This function returns either a universal error or one of the following errors
Error Description
JVMTI_ERROR_MUST_POSSESS_CAPABILITY The environment does not possess the capability can_force_early_return. Use AddCapabilities.
JVMTI_ERROR_OPAQUE_FRAME Attempted to return early from a frame corresponding to a native method. Or the implementation is unable to provide this functionality on this frame.
JVMTI_ERROR_TYPE_MISMATCH The result type of the called method is not float.
JVMTI_ERROR_THREAD_NOT_SUSPENDED Thread was not the current thread and was not suspended.
JVMTI_ERROR_NO_MORE_FRAMES There are no frames on the call stack.
JVMTI_ERROR_INVALID_THREAD thread is not a thread object.
JVMTI_ERROR_THREAD_NOT_ALIVE thread is not live (has not been started or is now dead).

Force Early Return - Double

jvmtiError
ForceEarlyReturnDouble(jvmtiEnv* env,
            jthread thread,
            jdouble value)
This function can be used to return from a method whose result type is double.

PhaseCallback SafePositionSince
may only be called during the live phase No 851.1

Capabilities
Optional Functionality: might not be implemented for all virtual machines. The following capability (as returned by GetCapabilities) must be true to use this function.
Capability Effect
can_force_early_return Can return early from a method, as described in the Force Early Return category.

Parameters
Name Type Description
threadjthread The thread whose current frame is to return early. If thread is NULL, the current thread is used.
valuejdouble The return value for the called frame.

Errors
This function returns either a universal error or one of the following errors
Error Description
JVMTI_ERROR_MUST_POSSESS_CAPABILITY The environment does not possess the capability can_force_early_return. Use AddCapabilities.
JVMTI_ERROR_OPAQUE_FRAME Attempted to return early from a frame corresponding to a native method. Or the implementation is unable to provide this functionality on this frame.
JVMTI_ERROR_TYPE_MISMATCH The result type of the called method is not double.
JVMTI_ERROR_THREAD_NOT_SUSPENDED Thread was not the current thread and was not suspended.
JVMTI_ERROR_NO_MORE_FRAMES There are no frames on the call stack.
JVMTI_ERROR_INVALID_THREAD thread is not a thread object.
JVMTI_ERROR_THREAD_NOT_ALIVE thread is not live (has not been started or is now dead).

Force Early Return - Void

jvmtiError
ForceEarlyReturnVoid(jvmtiEnv* env,
            jthread thread)
This function can be used to return from a method with no result type. That is, the called method must be declared void.

PhaseCallback SafePositionSince
may only be called during the live phase No 861.1

Capabilities
Optional Functionality: might not be implemented for all virtual machines. The following capability (as returned by GetCapabilities) must be true to use this function.
Capability Effect
can_force_early_return Can return early from a method, as described in the Force Early Return category.

Parameters
Name Type Description
threadjthread The thread whose current frame is to return early. If thread is NULL, the current thread is used.

Errors
This function returns either a universal error or one of the following errors
Error Description
JVMTI_ERROR_MUST_POSSESS_CAPABILITY The environment does not possess the capability can_force_early_return. Use AddCapabilities.
JVMTI_ERROR_OPAQUE_FRAME Attempted to return early from a frame corresponding to a native method. Or the implementation is unable to provide this functionality on this frame.
JVMTI_ERROR_TYPE_MISMATCH The called method has a result type.
JVMTI_ERROR_THREAD_NOT_SUSPENDED Thread was not the current thread and was not suspended.
JVMTI_ERROR_NO_MORE_FRAMES There are no frames on the call stack.
JVMTI_ERROR_INVALID_THREAD thread is not a thread object.
JVMTI_ERROR_THREAD_NOT_ALIVE thread is not live (has not been started or is now dead).


Heap

Heap functions: Heap function types: Heap types: Heap flags and constants: These functions are used to analyze the heap. Functionality includes the ability to view the objects in the heap and to tag these objects.

Object Tags

A tag is a value associated with an object. Tags are explicitly set by the agent using the SetTag function or by callback functions such as jvmtiHeapIterationCallback.

Tags are local to the environment; that is, the tags of one environment are not visible in another.

Tags are jlong values which can be used simply to mark an object or to store a pointer to more detailed information. Objects which have not been tagged have a tag of zero. Setting a tag to zero makes the object untagged.

Heap Callback Functions

Heap functions which iterate through the heap and recursively follow object references use agent supplied callback functions to deliver the information.

These heap callback functions must adhere to the following restrictions -- These callbacks must not use JNI functions. These callbacks must not use JVM TI functions except callback safe functions which specifically allow such use (see the raw monitor, memory management, and environment local storage functions).

An implementation may invoke a callback on an internal thread or the thread which called the iteration function. Heap callbacks are single threaded -- no more than one callback will be invoked at a time.

The Heap Filter Flags can be used to prevent reporting based on the tag status of an object or its class. If no flags are set (the jint is zero), objects will not be filtered out.
Heap Filter Flags
Constant Value Description
JVMTI_HEAP_FILTER_TAGGED0x4 Filter out tagged objects. Objects which are tagged are not included.
JVMTI_HEAP_FILTER_UNTAGGED0x8 Filter out untagged objects. Objects which are not tagged are not included.
JVMTI_HEAP_FILTER_CLASS_TAGGED0x10 Filter out objects with tagged classes. Objects whose class is tagged are not included.
JVMTI_HEAP_FILTER_CLASS_UNTAGGED0x20 Filter out objects with untagged classes. Objects whose class is not tagged are not included.

The Heap Visit Control Flags are returned by the heap callbacks and can be used to abort the iteration. For the Heap Reference Callback, it can also be used to prune the graph of traversed references (JVMTI_VISIT_OBJECTS is not set).
Heap Visit Control Flags
Constant Value Description
JVMTI_VISIT_OBJECTS0x100 If we are visiting an object and if this callback was initiated by FollowReferences, traverse the references of this object. Otherwise ignored.
JVMTI_VISIT_ABORT0x8000 Abort the iteration. Ignore all other bits.

The Heap Reference Enumeration is provided by the Heap Reference Callback and Primitive Field Callback to describe the kind of reference being reported.
Heap Reference Enumeration (jvmtiHeapReferenceKind)
Constant Value Description
JVMTI_HEAP_REFERENCE_CLASS1 Reference from an object to its class.
JVMTI_HEAP_REFERENCE_FIELD2 Reference from an object to the value of one of its instance fields.
JVMTI_HEAP_REFERENCE_ARRAY_ELEMENT3 Reference from an array to one of its elements.
JVMTI_HEAP_REFERENCE_CLASS_LOADER4 Reference from a class to its class loader.
JVMTI_HEAP_REFERENCE_SIGNERS5 Reference from a class to its signers array.
JVMTI_HEAP_REFERENCE_PROTECTION_DOMAIN6 Reference from a class to its protection domain.
JVMTI_HEAP_REFERENCE_INTERFACE7 Reference from a class to one of its interfaces. Note: interfaces are defined via a constant pool reference, so the referenced interfaces may also be reported with a JVMTI_HEAP_REFERENCE_CONSTANT_POOL reference kind.
JVMTI_HEAP_REFERENCE_STATIC_FIELD8 Reference from a class to the value of one of its static fields.
JVMTI_HEAP_REFERENCE_CONSTANT_POOL9 Reference from a class to a resolved entry in the constant pool.
JVMTI_HEAP_REFERENCE_SUPERCLASS10 Reference from a class to its superclass. A callback is bot sent if the superclass is java.lang.Object. Note: loaded classes define superclasses via a constant pool reference, so the referenced superclass may also be reported with a JVMTI_HEAP_REFERENCE_CONSTANT_POOL reference kind.
JVMTI_HEAP_REFERENCE_JNI_GLOBAL21 Heap root reference: JNI global reference.
JVMTI_HEAP_REFERENCE_SYSTEM_CLASS22 Heap root reference: System class.
JVMTI_HEAP_REFERENCE_MONITOR23 Heap root reference: monitor.
JVMTI_HEAP_REFERENCE_STACK_LOCAL24 Heap root reference: local variable on the stack.
JVMTI_HEAP_REFERENCE_JNI_LOCAL25 Heap root reference: JNI local reference.
JVMTI_HEAP_REFERENCE_THREAD26 Heap root reference: Thread.
JVMTI_HEAP_REFERENCE_OTHER27 Heap root reference: other heap root reference.

Definitions for the single character type descriptors of primitive types.
Primitive Type Enumeration (jvmtiPrimitiveType)
Constant Value Description
JVMTI_PRIMITIVE_TYPE_BOOLEAN90 'Z' - Java programming language boolean - JNI jboolean
JVMTI_PRIMITIVE_TYPE_BYTE66 'B' - Java programming language byte - JNI jbyte
JVMTI_PRIMITIVE_TYPE_CHAR67 'C' - Java programming language char - JNI jchar
JVMTI_PRIMITIVE_TYPE_SHORT83 'S' - Java programming language short - JNI jshort
JVMTI_PRIMITIVE_TYPE_INT73 'I' - Java programming language int - JNI jint
JVMTI_PRIMITIVE_TYPE_LONG74 'J' - Java programming language long - JNI jlong
JVMTI_PRIMITIVE_TYPE_FLOAT70 'F' - Java programming language float - JNI jfloat
JVMTI_PRIMITIVE_TYPE_DOUBLE68 'D' - Java programming language double - JNI jdouble

Reference information structure for Field references

Reference information returned for JVMTI_HEAP_REFERENCE_FIELD and JVMTI_HEAP_REFERENCE_STATIC_FIELD references.

typedef struct {
    jint index;
} jvmtiHeapReferenceInfoField;
jvmtiHeapReferenceInfoField - Reference information structure for Field references
Field Type Description
indexjint For JVMTI_HEAP_REFERENCE_FIELD, the referrer object is not a class or an inteface. In this case, index is the index of the field in the class of the referrer object. This class is referred to below as C.

For JVMTI_HEAP_REFERENCE_STATIC_FIELD, the referrer object is a class (referred to below as C) or an interface (referred to below as I). In this case, index is the index of the field in that class or interface.

If the referrer object is not an interface, then the field indices are determined as follows:
  • make a list of all the fields in C and its superclasses, starting with all the fields in java.lang.Object and ending with all the fields in C.
  • Within this list, put the fields for a given class in the order returned by GetClassFields.
  • Assign the fields in this list indices n, n+1, ..., in order, where n is the count of the fields in all the interfaces implemented by C. Note that C implements all interfaces directly implemented by its superclasses; as well as all superinterfaces of these interfaces.
If the referrer object is an interface, then the field indices are determined as follows:
  • make a list of the fields directly declared in I.
  • Within this list, put the fields in the order returned by GetClassFields.
  • Assign the fields in this list indices n, n+1, ..., in order, where n is the count of the fields in all the superinterfaces of I.
All fields are included in this computation, regardless of field modifier (static, public, private, etc).

For example, given the following classes and interfaces:
interface I0 {
    int p = 0;
}

interface I1 extends I0 {
    int x = 1;
}

interface I2 extends I0 {
    int y = 2;
}

class C1 implements I1 {
    public static int a = 3;
    private int b = 4;
}

class C2 extends C1 implements I2 {
    static int q = 5;
    final int r = 6;
}
            
Assume that GetClassFields called on C1 returns the fields of C1 in the order: a, b; and that the fields of C2 are returned in the order: q, r. An instance of class C1 will have the following field indices:
a 2 The count of the fields in the interfaces implemented by C1 is two (n=2): p of I0 and x of I1.
b 3 the subsequent index.
The class C1 will have the same field indices.

An instance of class C2 will have the following field indices:
a 3 The count of the fields in the interfaces implemented by C2 is three (n=3): p of I0, x of I1 and y of I2 (an interface of C2). Note that the field p of I0 is only included once.
b 4 the subsequent index to "a".
q 5 the subsequent index to "b".
r 6 the subsequent index to "q".
The class C2 will have the same field indices. Note that a field may have a different index depending on the object that is viewing it -- for example field "a" above. Note also: not all field indices may be visible from the callbacks, but all indices are shown for illustrative purposes.

The interface I1 will have the following field indices:
x 1 The count of the fields in the superinterfaces of I1 is one (n=1): p of I0.

Reference information structure for Array references

Reference information returned for JVMTI_HEAP_REFERENCE_ARRAY_ELEMENT references.

typedef struct {
    jint index;
} jvmtiHeapReferenceInfoArray;
jvmtiHeapReferenceInfoArray - Reference information structure for Array references
Field Type Description
indexjint The array index.

Reference information structure for Constant Pool references

Reference information returned for JVMTI_HEAP_REFERENCE_CONSTANT_POOL references.

typedef struct {
    jint index;
} jvmtiHeapReferenceInfoConstantPool;
jvmtiHeapReferenceInfoConstantPool - Reference information structure for Constant Pool references
Field Type Description
indexjint The index into the constant pool of the class. See the description in The Java™ Virtual Machine Specification, Chapter 4.4.

Reference information structure for Local Variable references

Reference information returned for JVMTI_HEAP_REFERENCE_STACK_LOCAL references.

typedef struct {
    jlong thread_tag;
    jlong thread_id;
    jint depth;
    jmethodID method;
    jlocation location;
    jint slot;
} jvmtiHeapReferenceInfoStackLocal;
jvmtiHeapReferenceInfoStackLocal - Reference information structure for Local Variable references
Field Type Description
thread_tagjlong The tag of the thread corresponding to this stack, zero if not tagged.
thread_idjlong The unique thread ID of the thread corresponding to this stack.
depthjint The depth of the frame.
methodjmethodID The method executing in this frame.
locationjlocation The currently executing location in this frame.
slotjint The slot number of the local variable.

Reference information structure for JNI local references

Reference information returned for JVMTI_HEAP_REFERENCE_JNI_LOCAL references.

typedef struct {
    jlong thread_tag;
    jlong thread_id;
    jint depth;
    jmethodID method;
} jvmtiHeapReferenceInfoJniLocal;
jvmtiHeapReferenceInfoJniLocal - Reference information structure for JNI local references
Field Type Description
thread_tagjlong The tag of the thread corresponding to this stack, zero if not tagged.
thread_idjlong The unique thread ID of the thread corresponding to this stack.
depthjint The depth of the frame.
methodjmethodID The method executing in this frame.

Reference information structure for Other references

Reference information returned for other references.

typedef struct {
    jlong reserved1;
    jlong reserved2;
    jlong reserved3;
    jlong reserved4;
    jlong reserved5;
    jlong reserved6;
    jlong reserved7;
    jlong reserved8;
} jvmtiHeapReferenceInfoReserved;
jvmtiHeapReferenceInfoReserved - Reference information structure for Other references
Field Type Description
reserved1jlong reserved for future use.
reserved2jlong reserved for future use.
reserved3jlong reserved for future use.
reserved4jlong reserved for future use.
reserved5jlong reserved for future use.
reserved6jlong reserved for future use.
reserved7jlong reserved for future use.
reserved8jlong reserved for future use.

Reference information structure

The information returned about referrers. Represented as a union of the various kinds of reference information.

typedef union {
    jvmtiHeapReferenceInfoField field;
    jvmtiHeapReferenceInfoArray array;
    jvmtiHeapReferenceInfoConstantPool constant_pool;
    jvmtiHeapReferenceInfoStackLocal stack_local;
    jvmtiHeapReferenceInfoJniLocal jni_local;
    jvmtiHeapReferenceInfoReserved other;
} jvmtiHeapReferenceInfo;
jvmtiHeapReferenceInfo - Reference information structure
Field Type Description
fieldjvmtiHeapReferenceInfoField The referrer information for JVMTI_HEAP_REFERENCE_FIELD and JVMTI_HEAP_REFERENCE_STATIC_FIELD references.
arrayjvmtiHeapReferenceInfoArray The referrer information for For JVMTI_HEAP_REFERENCE_ARRAY_ELEMENT references.
constant_pooljvmtiHeapReferenceInfoConstantPool The referrer information for For JVMTI_HEAP_REFERENCE_CONSTANT_POOL references.
stack_localjvmtiHeapReferenceInfoStackLocal The referrer information for For JVMTI_HEAP_REFERENCE_STACK_LOCAL references.
jni_localjvmtiHeapReferenceInfoJniLocal The referrer information for For JVMTI_HEAP_REFERENCE_JNI_LOCAL references.
otherjvmtiHeapReferenceInfoReserved reserved for future use.

Heap callback function structure

typedef struct {
    jvmtiHeapIterationCallback heap_iteration_callback;
    jvmtiHeapReferenceCallback heap_reference_callback;
    jvmtiPrimitiveFieldCallback primitive_field_callback;
    jvmtiArrayPrimitiveValueCallback array_primitive_value_callback;
    jvmtiStringPrimitiveValueCallback string_primitive_value_callback;
    jvmtiReservedCallback reserved5;
    jvmtiReservedCallback reserved6;
    jvmtiReservedCallback reserved7;
    jvmtiReservedCallback reserved8;
    jvmtiReservedCallback reserved9;
    jvmtiReservedCallback reserved10;
    jvmtiReservedCallback reserved11;
    jvmtiReservedCallback reserved12;
    jvmtiReservedCallback reserved13;
    jvmtiReservedCallback reserved14;
    jvmtiReservedCallback reserved15;
} jvmtiHeapCallbacks;
jvmtiHeapCallbacks - Heap callback function structure
Field Type Description
heap_iteration_callback jvmtiHeapIterationCallback The callback to be called to describe an object in the heap. Used by the IterateThroughHeap function, ignored by the FollowReferences function.
heap_reference_callback jvmtiHeapReferenceCallback The callback to be called to describe an object reference. Used by the FollowReferences function, ignored by the IterateThroughHeap function.
primitive_field_callback jvmtiPrimitiveFieldCallback The callback to be called to describe a primitive field.
array_primitive_value_callback jvmtiArrayPrimitiveValueCallback The callback to be called to describe an array of primitive values.
string_primitive_value_callback jvmtiStringPrimitiveValueCallback The callback to be called to describe a String value.
reserved5 jvmtiReservedCallback Reserved for future use..
reserved6 jvmtiReservedCallback Reserved for future use..
reserved7 jvmtiReservedCallback Reserved for future use..
reserved8 jvmtiReservedCallback Reserved for future use..
reserved9 jvmtiReservedCallback Reserved for future use..
reserved10 jvmtiReservedCallback Reserved for future use..
reserved11 jvmtiReservedCallback Reserved for future use..
reserved12 jvmtiReservedCallback Reserved for future use..
reserved13 jvmtiReservedCallback Reserved for future use..
reserved14 jvmtiReservedCallback Reserved for future use..
reserved15 jvmtiReservedCallback Reserved for future use..

Rationale: The heap dumping functionality (below) uses a callback for each object. While it would seem that a buffered approach would provide better throughput, tests do not show this to be the case--possibly due to locality of memory reference or array access overhead.


Heap Iteration Callback

typedef jint (JNICALL *jvmtiHeapIterationCallback)
    (jlong class_tag, 
     jlong size, 
     jlong* tag_ptr, 
     jint length, 
     void* user_data);
Agent supplied callback function. Describes (but does not pass in) an object in the heap.

This function should return a bit vector of the desired visit control flags. This will determine if the entire iteration should be aborted (the JVMTI_VISIT_OBJECTS flag is ignored).

See the heap callback function restrictions.

Parameters
Name Type Description
class_tagjlong The tag of the class of object (zero if the class is not tagged). If the object represents a runtime class, the class_tag is the tag associated with java.lang.Class (zero if java.lang.Class is not tagged).
sizejlong Size of the object (in bytes). See GetObjectSize.
tag_ptrjlong* The object tag value, or zero if the object is not tagged. To set the tag value to be associated with the object the agent sets the jlong pointed to by the parameter.
lengthjint If this object is an array, the length of the array. Otherwise negative one (-1).
user_datavoid* The user supplied data that was passed into the iteration function.

Heap Reference Callback

typedef jint (JNICALL *jvmtiHeapReferenceCallback)
    (jvmtiHeapReferenceKind reference_kind, 
     const jvmtiHeapReferenceInfo* reference_info, 
     jlong class_tag, 
     jlong referrer_class_tag, 
     jlong size, 
     jlong* tag_ptr, 
     jlong* referrer_tag_ptr, 
     jint length, 
     void* user_data);
Agent supplied callback function. Describes a reference from an object or the VM (the referrer) to another object (the referree) or a heap root to a referree.

This function should return a bit vector of the desired visit control flags. This will determine if the objects referenced by the referree should be visited or if the entire iteration should be aborted.

See the heap callback function restrictions.

Parameters
Name Type Description
reference_kindjvmtiHeapReferenceKind The kind of reference.
reference_infoconst jvmtiHeapReferenceInfo * Details about the reference. Set when the reference_kind is JVMTI_HEAP_REFERENCE_FIELD, JVMTI_HEAP_REFERENCE_STATIC_FIELD, JVMTI_HEAP_REFERENCE_ARRAY_ELEMENT, JVMTI_HEAP_REFERENCE_CONSTANT_POOL, JVMTI_HEAP_REFERENCE_STACK_LOCAL, or JVMTI_HEAP_REFERENCE_JNI_LOCAL. Otherwise NULL.
class_tagjlong The tag of the class of referree object (zero if the class is not tagged). If the referree object represents a runtime class, the class_tag is the tag associated with java.lang.Class (zero if java.lang.Class is not tagged).
referrer_class_tagjlong The tag of the class of the referrer object (zero if the class is not tagged or the referree is a heap root). If the referrer object represents a runtime class, the referrer_class_tag is the tag associated with the java.lang.Class (zero if java.lang.Class is not tagged).
sizejlong Size of the referree object (in bytes). See GetObjectSize.
tag_ptrjlong* Points to the referree object tag value, or zero if the object is not tagged. To set the tag value to be associated with the object the agent sets the jlong pointed to by the parameter.
referrer_tag_ptrjlong* Points to the tag of the referrer object, or points to the zero if the referrer object is not tagged. NULL if the referrer in not an object (that is, this callback is reporting a heap root). To set the tag value to be associated with the referrer object the agent sets the jlong pointed to by the parameter. If this callback is reporting a reference from an object to itself, referrer_tag_ptr == tag_ptr.
lengthjint If this object is an array, the length of the array. Otherwise negative one (-1).
user_datavoid* The user supplied data that was passed into the iteration function.

Primitive Field Callback

typedef jint (JNICALL *jvmtiPrimitiveFieldCallback)
    (jvmtiHeapReferenceKind kind, 
     const jvmtiHeapReferenceInfo* info, 
     jlong object_class_tag, 
     jlong* object_tag_ptr, 
     jvalue value, 
     jvmtiPrimitiveType value_type, 
     void* user_data);
Agent supplied callback function which describes a primitive field of an object (the object). A primitive field is a field whose type is a primitive type. This callback will describe a static field if the object is a class, and otherwise will describe an instance field.

This function should return a bit vector of the desired visit control flags. This will determine if the entire iteration should be aborted (the JVMTI_VISIT_OBJECTS flag is ignored).

See the heap callback function restrictions.

Parameters
Name Type Description
kindjvmtiHeapReferenceKind The kind of field -- instance or static (JVMTI_HEAP_REFERENCE_FIELD or JVMTI_HEAP_REFERENCE_STATIC_FIELD).
infoconst jvmtiHeapReferenceInfo * Which field (the field index).
object_class_tagjlong The tag of the class of the object (zero if the class is not tagged). If the object represents a runtime class, the object_class_tag is the tag associated with java.lang.Class (zero if java.lang.Class is not tagged).
object_tag_ptrjlong* Points to the tag of the object, or zero if the object is not tagged. To set the tag value to be associated with the object the agent sets the jlong pointed to by the parameter.
valuejvalue The value of the field.
value_typejvmtiPrimitiveType The type of the field.
user_datavoid* The user supplied data that was passed into the iteration function.

Array Primitive Value Callback

typedef jint (JNICALL *jvmtiArrayPrimitiveValueCallback)
    (jlong class_tag, 
     jlong size, 
     jlong* tag_ptr, 
     jint element_count, 
     jvmtiPrimitiveType element_type, 
     const void* elements, 
     void* user_data);
Agent supplied callback function. Describes the values in an array of a primitive type.

This function should return a bit vector of the desired visit control flags. This will determine if the entire iteration should be aborted (the JVMTI_VISIT_OBJECTS flag is ignored).

See the heap callback function restrictions.

Parameters
Name Type Description
class_tagjlong The tag of the class of the array object (zero if the class is not tagged).
sizejlong Size of the array (in bytes). See GetObjectSize.
tag_ptrjlong* Points to the tag of the array object, or zero if the object is not tagged. To set the tag value to be associated with the object the agent sets the jlong pointed to by the parameter.
element_countjint The length of the primitive array.
element_typejvmtiPrimitiveType The type of the elements of the array.
elementsconst void* The elements of the array in a packed array of element_count items of element_type size each.
user_datavoid* The user supplied data that was passed into the iteration function.

String Primitive Value Callback

typedef jint (JNICALL *jvmtiStringPrimitiveValueCallback)
    (jlong class_tag, 
     jlong size, 
     jlong* tag_ptr, 
     const jchar* value, 
     jint value_length, 
     void* user_data);
Agent supplied callback function. Describes the value of a java.lang.String.

This function should return a bit vector of the desired visit control flags. This will determine if the entire iteration should be aborted (the JVMTI_VISIT_OBJECTS flag is ignored).

See the heap callback function restrictions.

Parameters
Name Type Description
class_tagjlong The tag of the class of the String class (zero if the class is not tagged).
sizejlong Size of the string (in bytes). See GetObjectSize.
tag_ptrjlong* Points to the tag of the String object, or zero if the object is not tagged. To set the tag value to be associated with the object the agent sets the jlong pointed to by the parameter.
valueconst jchar* The value of the String, encoded as a Unicode string.
value_lengthjint The length of the string. The length is equal to the number of 16-bit Unicode characters in the string.
user_datavoid* The user supplied data that was passed into the iteration function.

reserved for future use Callback

typedef jint (JNICALL *jvmtiReservedCallback)
    ();
Placeholder -- reserved for future use.

Parameters
Name Type Description

Follow References

jvmtiError
FollowReferences(jvmtiEnv* env,
            jint heap_filter,
            jclass klass,
            jobject initial_object,
            const jvmtiHeapCallbacks* callbacks,
            const void* user_data)
This function initiates a traversal over the objects that are directly and indirectly reachable from the specified object or, if initial_object is not specified, all objects reachable from the heap roots. The heap root are the set of system classes, JNI globals, references from thread stacks, and other objects used as roots for the purposes of garbage collection.

This function operates by traversing the reference graph. Let A, B, ... represent objects. When a reference from A to B is traversed, when a reference from a heap root to B is traversed, or when B is specified as the initial_object, then B is said to be visited. A reference from A to B is not traversed until A is visited. References are reported in the same order that the references are traversed. Object references are reported by invoking the agent supplied callback function jvmtiHeapReferenceCallback. In a reference from A to B, A is known as the referrer and B as the referree. The callback is invoked exactly once for each reference from a referrer; this is true even if there are reference cycles or multiple paths to the referrer. There may be more than one reference between a referrer and a referree, each reference is reported. These references may be distinguished by examining the reference_kind and reference_info parameters of the jvmtiHeapReferenceCallback callback.

This function reports a Java programming language view of object references, not a virtual machine implementation view. The following object references are reported when they are non-null:

This function can also be used to examine primitive (non-object) values. The primitive value of an array or String is reported after the object has been visited; it is reported by invoking the agent supplied callback function jvmtiArrayPrimitiveValueCallback or jvmtiStringPrimitiveValueCallback. A primitive field is reported after the object with that field is visited; it is reported by invoking the agent supplied callback function jvmtiPrimitiveFieldCallback.

Whether a callback is provided or is NULL only determines whether the callback will be invoked, it does not influence which objects are visited nor does it influence whether other callbacks will be invoked. However, the visit control flags returned by jvmtiHeapReferenceCallback do determine if the objects referenced by the current object as visited. The heap filter flags and klass provided as parameters to this function do not control which objects are visited but they do control which objects and primitive values are reported by the callbacks. For example, if the only callback that was set is array_primitive_value_callback and klass is set to the array of bytes class, then only arrays of byte will be reported. The table below summarizes this:

Controls objects visited Controls objects reported Controls primitives reported
the Heap Visit Control Flags returned by jvmtiHeapReferenceCallback Yes Yes, since visits are controlled Yes, since visits are controlled
object_reference_callback in callbacks set No Yes No
heap_filter No Yes Yes
klass No Yes Yes

During the execution of this function the state of the heap does not change: no objects are allocated, no objects are garbage collected, and the state of objects (including held values) does not change. As a result, threads executing Java programming language code, threads attempting to resume the execution of Java programming language code, and threads attempting to execute JNI functions are typically stalled.

PhaseCallback SafePositionSince
may only be called during the live phase No 1151.1

Capabilities
Optional Functionality: might not be implemented for all virtual machines. The following capability (as returned by GetCapabilities) must be true to use this function.
Capability Effect
can_tag_objects Can set and get tags, as described in the Heap category.

Parameters
Name Type Description
heap_filterjint This bit vector of heap filter flags. restricts the objects for which the callback function is called. This applies to both the object and primitive callbacks.
klass jclass Callbacks are only reported when the object is an instance of this class. Objects which are instances of a subclass of klass are not reported. If klass is an interface, no objects are reported. This applies to both the object and primitive callbacks.

If klass is NULL, callbacks are not limited to instances of a particular class.
initial_object jobject The object to follow

If initial_object is NULL, references are followed from the heap roots.
callbacksconst jvmtiHeapCallbacks * Structure defining the set of callback functions.

Agent passes in a pointer to jvmtiHeapCallbacks.
user_dataconst void * User supplied data to be passed to the callback.

Agent passes in a pointer. If user_data is NULL, NULL is passed as the user supplied data.

Errors
This function returns either a universal error or one of the following errors
Error Description
JVMTI_ERROR_MUST_POSSESS_CAPABILITY The environment does not possess the capability can_tag_objects. Use AddCapabilities.
JVMTI_ERROR_INVALID_CLASS klass is not a valid class.
JVMTI_ERROR_INVALID_OBJECT initial_object is not a valid object.
JVMTI_ERROR_NULL_POINTER callbacks is NULL.

Iterate Through Heap

jvmtiError
IterateThroughHeap(jvmtiEnv* env,
            jint heap_filter,
            jclass klass,
            const jvmtiHeapCallbacks* callbacks,
            const void* user_data)
Initiate an iteration over all objects in the heap. This includes both reachable and unreachable objects. Objects are visited in no particular order.

Heap objects are reported by invoking the agent supplied callback function jvmtiHeapIterationCallback. References between objects are not reported. If only reachable objects are desired, or if object reference information is needed, use FollowReferences.

This function can also be used to examine primitive (non-object) values. The primitive value of an array or String is reported after the object has been visited; it is reported by invoking the agent supplied callback function jvmtiArrayPrimitiveValueCallback or jvmtiStringPrimitiveValueCallback. A primitive field is reported after the object with that field is visited; it is reported by invoking the agent supplied callback function jvmtiPrimitiveFieldCallback.

Unless the iteration is aborted by the Heap Visit Control Flags returned by a callback, all objects in the heap are visited. Whether a callback is provided or is NULL only determines whether the callback will be invoked, it does not influence which objects are visited nor does it influence whether other callbacks will be invoked. The heap filter flags and klass provided as parameters to this function do not control which objects are visited but they do control which objects and primitive values are reported by the callbacks. For example, if the only callback that was set is array_primitive_value_callback and klass is set to the array of bytes class, then only arrays of byte will be reported. The table below summarizes this (contrast this with FollowReferences):

Controls objects visited Controls objects reported Controls primitives reported
the Heap Visit Control Flags returned by jvmtiHeapIterationCallback No
(unless they abort the iteration)
No
(unless they abort the iteration)
No
(unless they abort the iteration)
object_callback in callbacks set No Yes No
heap_filter No Yes Yes
klass No Yes Yes

During the execution of this function the state of the heap does not change: no objects are allocated, no objects are garbage collected, and the state of objects (including held values) does not change. As a result, threads executing Java programming language code, threads attempting to resume the execution of Java programming language code, and threads attempting to execute JNI functions are typically stalled.

PhaseCallback SafePositionSince
may only be called during the live phase No 1161.1

Capabilities
Optional Functionality: might not be implemented for all virtual machines. The following capability (as returned by GetCapabilities) must be true to use this function.
Capability Effect
can_tag_objects Can set and get tags, as described in the Heap category.

Parameters
Name Type Description
heap_filterjint This bit vector of heap filter flags. restricts the objects for which the callback function is called. This applies to both the object and primitive callbacks.
klass jclass Callbacks are only reported when the object is an instance of this class. Objects which are instances of a subclass of klass are not reported. If klass is an interface, no objects are reported. This applies to both the object and primitive callbacks.

If klass is NULL, callbacks are not limited to instances of a particular class.
callbacksconst jvmtiHeapCallbacks * Structure defining the set callback functions.

Agent passes in a pointer to jvmtiHeapCallbacks.
user_dataconst void * User supplied data to be passed to the callback.

Agent passes in a pointer. If user_data is NULL, NULL is passed as the user supplied data.

Errors
This function returns either a universal error or one of the following errors
Error Description
JVMTI_ERROR_MUST_POSSESS_CAPABILITY The environment does not possess the capability can_tag_objects. Use AddCapabilities.
JVMTI_ERROR_INVALID_CLASS klass is not a valid class.
JVMTI_ERROR_NULL_POINTER callbacks is NULL.

Get Tag

jvmtiError
GetTag(jvmtiEnv* env,
            jobject object,
            jlong* tag_ptr)
Retrieve the tag associated with an object. The tag is a long value typically used to store a unique identifier or pointer to object information. The tag is set with SetTag. Objects for which no tags have been set return a tag value of zero.

PhaseCallback SafePositionSince
may only be called during the start or the live phase No 1061.0

Capabilities
Optional Functionality: might not be implemented for all virtual machines. The following capability (as returned by GetCapabilities) must be true to use this function.
Capability Effect
can_tag_objects Can set and get tags, as described in the Heap category.

Parameters
Name Type Description
objectjobject The object whose tag is to be retrieved.
tag_ptrjlong* On return, the referenced long is set to the value of the tag.

Agent passes a pointer to a jlong. On return, the jlong has been set.

Errors
This function returns either a universal error or one of the following errors
Error Description
JVMTI_ERROR_MUST_POSSESS_CAPABILITY The environment does not possess the capability can_tag_objects. Use AddCapabilities.
JVMTI_ERROR_INVALID_OBJECT object is not an object.
JVMTI_ERROR_NULL_POINTER tag_ptr is NULL.

Set Tag

jvmtiError
SetTag(jvmtiEnv* env,
            jobject object,
            jlong tag)
Set the tag associated with an object. The tag is a long value typically used to store a unique identifier or pointer to object information. The tag is visible with GetTag.

PhaseCallback SafePositionSince
may only be called during the start or the live phase No 1071.0

Capabilities
Optional Functionality: might not be implemented for all virtual machines. The following capability (as returned by GetCapabilities) must be true to use this function.
Capability Effect
can_tag_objects Can set and get tags, as described in the Heap category.

Parameters
Name Type Description
objectjobject The object whose tag is to be set.
tagjlong The new value of the tag.

Errors
This function returns either a universal error or one of the following errors
Error Description
JVMTI_ERROR_MUST_POSSESS_CAPABILITY The environment does not possess the capability can_tag_objects. Use AddCapabilities.
JVMTI_ERROR_INVALID_OBJECT object is not an object.

Get Objects With Tags

jvmtiError
GetObjectsWithTags(jvmtiEnv* env,
            jint tag_count,
            const jlong* tags,
            jint* count_ptr,
            jobject** object_result_ptr,
            jlong** tag_result_ptr)
Return objects in the heap with the specified tags. The format is parallel arrays of objects and tags.

PhaseCallback SafePositionSince
may only be called during the live phase No 1141.0

Capabilities
Optional Functionality: might not be implemented for all virtual machines. The following capability (as returned by GetCapabilities) must be true to use this function.
Capability Effect
can_tag_objects Can set and get tags, as described in the Heap category.

Parameters
Name Type Description
tag_countjint Number of tags to scan for.
tagsconst jlong * Scan for objects with these tags. Zero is not permitted in this array.

Agent passes in an array of tag_count elements of jlong.
count_ptr jint * Return the number of objects with any of the tags in tags.

Agent passes a pointer to a jint. On return, the jint has been set.
object_result_ptr jobject ** Returns the array of objects with any of the tags in tags.

Agent passes a pointer to a jobject*. On return, the jobject* points to a newly allocated array of size *count_ptr. The array should be freed with Deallocate. If object_result_ptr is NULL, this information is not returned. The objects returned by object_result_ptr are JNI local references and must be managed.
tag_result_ptr jlong ** For each object in object_result_ptr, return the tag at the corresponding index.

Agent passes a pointer to a jlong*. On return, the jlong* points to a newly allocated array of size *count_ptr. The array should be freed with Deallocate. If tag_result_ptr is NULL, this information is not returned.

Errors
This function returns either a universal error or one of the following errors
Error Description
JVMTI_ERROR_MUST_POSSESS_CAPABILITY The environment does not possess the capability can_tag_objects. Use AddCapabilities.
JVMTI_ERROR_ILLEGAL_ARGUMENT Zero is present in tags.
JVMTI_ERROR_ILLEGAL_ARGUMENT tag_count is less than 0.
JVMTI_ERROR_NULL_POINTER tags is NULL.
JVMTI_ERROR_NULL_POINTER count_ptr is NULL.

Force Garbage Collection

jvmtiError
ForceGarbageCollection(jvmtiEnv* env)
Force the VM to perform a garbage collection. The garbage collection is as complete as possible. This function does not cause finalizers to be run. This function does not return until the garbage collection is finished.

Although garbage collection is as complete as possible there is no guarantee that all ObjectFree events will have been sent by the time that this function returns. In particular, an object may be prevented from being freed because it is awaiting finalization.

PhaseCallback SafePositionSince
may only be called during the live phase No 1081.0

Capabilities
Required Functionality

Parameters
Name Type Description

Errors
This function returns a universal error


Heap (1.0)

Heap (1.0) functions: Heap (1.0) function types: Heap (1.0) types: These functions and data types were introduced in the original JVM TI version 1.0 and have been superseded by more powerful and flexible versions which:

Please use the current Heap functions.

Heap Object Filter Enumeration (jvmtiHeapObjectFilter)
Constant Value Description
JVMTI_HEAP_OBJECT_TAGGED1 Tagged objects only.
JVMTI_HEAP_OBJECT_UNTAGGED2 Untagged objects only.
JVMTI_HEAP_OBJECT_EITHER3 Either tagged or untagged objects.
Heap Root Kind Enumeration (jvmtiHeapRootKind)
Constant Value Description
JVMTI_HEAP_ROOT_JNI_GLOBAL1 JNI global reference.
JVMTI_HEAP_ROOT_SYSTEM_CLASS2 System class.
JVMTI_HEAP_ROOT_MONITOR3 Monitor.
JVMTI_HEAP_ROOT_STACK_LOCAL4 Stack local.
JVMTI_HEAP_ROOT_JNI_LOCAL5 JNI local reference.
JVMTI_HEAP_ROOT_THREAD6 Thread.
JVMTI_HEAP_ROOT_OTHER7 Other.
Object Reference Enumeration (jvmtiObjectReferenceKind)
Constant Value Description
JVMTI_REFERENCE_CLASS1 Reference from an object to its class.
JVMTI_REFERENCE_FIELD2 Reference from an object to the value of one of its instance fields. For references of this kind the referrer_index parameter to the jvmtiObjectReferenceCallback is the index of the the instance field. The index is based on the order of all the object's fields. This includes all fields of the directly declared static and instance fields in the class, and includes all fields (both public and private) fields declared in superclasses and superinterfaces. The index is thus calculated by summing the index of the field in the directly declared class (see GetClassFields), with the total number of fields (both public and private) declared in all superclasses and superinterfaces. The index starts at zero.
JVMTI_REFERENCE_ARRAY_ELEMENT3 Reference from an array to one of its elements. For references of this kind the referrer_index parameter to the jvmtiObjectReferenceCallback is the array index.
JVMTI_REFERENCE_CLASS_LOADER4 Reference from a class to its class loader.
JVMTI_REFERENCE_SIGNERS5 Reference from a class to its signers array.
JVMTI_REFERENCE_PROTECTION_DOMAIN6 Reference from a class to its protection domain.
JVMTI_REFERENCE_INTERFACE7 Reference from a class to one of its interfaces.
JVMTI_REFERENCE_STATIC_FIELD8 Reference from a class to the value of one of its static fields. For references of this kind the referrer_index parameter to the jvmtiObjectReferenceCallback is the index of the the static field. The index is based on the order of all the object's fields. This includes all fields of the directly declared static and instance fields in the class, and includes all fields (both public and private) fields declared in superclasses and superinterfaces. The index is thus calculated by summing the index of the field in the directly declared class (see GetClassFields), with the total number of fields (both public and private) declared in all superclasses and superinterfaces. The index starts at zero. Note: this definition differs from that in the JVM TI 1.0 Specification.

Rationale: No known implementations used the 1.0 definition.

JVMTI_REFERENCE_CONSTANT_POOL9 Reference from a class to a resolved entry in the constant pool. For references of this kind the referrer_index parameter to the jvmtiObjectReferenceCallback is the index into constant pool table of the class, starting at 1. See The Java™ Virtual Machine Specification, Chapter 4.4.
Iteration Control Enumeration (jvmtiIterationControl)
Constant Value Description
JVMTI_ITERATION_CONTINUE1 Continue the iteration. If this is a reference iteration, follow the references of this object.
JVMTI_ITERATION_IGNORE2 Continue the iteration. If this is a reference iteration, ignore the references of this object.
JVMTI_ITERATION_ABORT0 Abort the iteration.


Heap Object Callback

typedef jvmtiIterationControl (JNICALL *jvmtiHeapObjectCallback)
    (jlong class_tag, 
     jlong size, 
     jlong* tag_ptr, 
     void* user_data);
Agent supplied callback function. Describes (but does not pass in) an object in the heap.

Return value should be JVMTI_ITERATION_CONTINUE to continue iteration, or JVMTI_ITERATION_ABORT to stop iteration.

See the heap callback function restrictions.

Parameters
Name Type Description
class_tagjlong The tag of the class of object (zero if the class is not tagged). If the object represents a runtime class, the class_tag is the tag associated with java.lang.Class (zero if java.lang.Class is not tagged).
sizejlong Size of the object (in bytes). See GetObjectSize.
tag_ptrjlong* The object tag value, or zero if the object is not tagged. To set the tag value to be associated with the object the agent sets the jlong pointed to by the parameter.
user_datavoid* The user supplied data that was passed into the iteration function.

Heap Root Object Callback

typedef jvmtiIterationControl (JNICALL *jvmtiHeapRootCallback)
    (jvmtiHeapRootKind root_kind, 
     jlong class_tag, 
     jlong size, 
     jlong* tag_ptr, 
     void* user_data);
Agent supplied callback function. Describes (but does not pass in) an object that is a root for the purposes of garbage collection.

Return value should be JVMTI_ITERATION_CONTINUE to continue iteration, JVMTI_ITERATION_IGNORE to continue iteration without pursuing references from referree object or JVMTI_ITERATION_ABORT to stop iteration.

See the heap callback function restrictions.

Parameters
Name Type Description
root_kindjvmtiHeapRootKind The kind of heap root.
class_tagjlong The tag of the class of object (zero if the class is not tagged). If the object represents a runtime class, the class_tag is the tag associated with java.lang.Class (zero if java.lang.Class is not tagged).
sizejlong Size of the object (in bytes). See GetObjectSize.
tag_ptrjlong* The object tag value, or zero if the object is not tagged. To set the tag value to be associated with the object the agent sets the jlong pointed to by the parameter.
user_datavoid* The user supplied data that was passed into the iteration function.

Stack Reference Object Callback

typedef jvmtiIterationControl (JNICALL *jvmtiStackReferenceCallback)
    (jvmtiHeapRootKind root_kind, 
     jlong class_tag, 
     jlong size, 
     jlong* tag_ptr, 
     jlong thread_tag, 
     jint depth, 
     jmethodID method, 
     jint slot, 
     void* user_data);
Agent supplied callback function. Describes (but does not pass in) an object on the stack that is a root for the purposes of garbage collection.

Return value should be JVMTI_ITERATION_CONTINUE to continue iteration, JVMTI_ITERATION_IGNORE to continue iteration without pursuing references from referree object or JVMTI_ITERATION_ABORT to stop iteration.

See the heap callback function restrictions.

Parameters
Name Type Description
root_kindjvmtiHeapRootKind The kind of root (either JVMTI_HEAP_ROOT_STACK_LOCAL or JVMTI_HEAP_ROOT_JNI_LOCAL).
class_tagjlong The tag of the class of object (zero if the class is not tagged). If the object represents a runtime class, the class_tag is the tag associated with java.lang.Class (zero if java.lang.Class is not tagged).
sizejlong Size of the object (in bytes). See GetObjectSize.
tag_ptrjlong* The object tag value, or zero if the object is not tagged. To set the tag value to be associated with the object the agent sets the jlong pointed to by the parameter.
thread_tagjlong The tag of the thread corresponding to this stack, zero if not tagged.
depthjint The depth of the frame.
methodjmethodID The method executing in this frame.
slotjint The slot number.
user_datavoid* The user supplied data that was passed into the iteration function.

Object Reference Callback

typedef jvmtiIterationControl (JNICALL *jvmtiObjectReferenceCallback)
    (jvmtiObjectReferenceKind reference_kind, 
     jlong class_tag, 
     jlong size, 
     jlong* tag_ptr, 
     jlong referrer_tag, 
     jint referrer_index, 
     void* user_data);
Agent supplied callback function. Describes a reference from an object (the referrer) to another object (the referree).

Return value should be JVMTI_ITERATION_CONTINUE to continue iteration, JVMTI_ITERATION_IGNORE to continue iteration without pursuing references from referree object or JVMTI_ITERATION_ABORT to stop iteration.

See the heap callback function restrictions.

Parameters
Name Type Description
reference_kindjvmtiObjectReferenceKind The type of reference.
class_tagjlong The tag of the class of referree object (zero if the class is not tagged). If the referree object represents a runtime class, the class_tag is the tag associated with java.lang.Class (zero if java.lang.Class is not tagged).
sizejlong Size of the referree object (in bytes). See GetObjectSize.
tag_ptrjlong* The referree object tag value, or zero if the object is not tagged. To set the tag value to be associated with the object the agent sets the jlong pointed to by the parameter.
referrer_tagjlong The tag of the referrer object, or zero if the referrer object is not tagged.
referrer_indexjint For references of type JVMTI_REFERENCE_FIELD or JVMTI_REFERENCE_STATIC_FIELD the index of the field in the referrer object. The index is based on the order of all the object's fields - see JVMTI_REFERENCE_FIELD or JVMTI_REFERENCE_STATIC_FIELD for further description.

For references of type JVMTI_REFERENCE_ARRAY_ELEMENT the array index - see JVMTI_REFERENCE_ARRAY_ELEMENT for further description.

For references of type JVMTI_REFERENCE_CONSTANT_POOL the index into the constant pool of the class - see JVMTI_REFERENCE_CONSTANT_POOL for further description.

For references of other kinds the referrer_index is -1.
user_datavoid* The user supplied data that was passed into the iteration function.

Iterate Over Objects Reachable From Object

jvmtiError
IterateOverObjectsReachableFromObject(jvmtiEnv* env,
            jobject object,
            jvmtiObjectReferenceCallback object_reference_callback,
            const void* user_data)
This function iterates over all objects that are directly and indirectly reachable from the specified object. For each object A (known as the referrer) with a reference to object B the specified callback function is called to describe the object reference. The callback is called exactly once for each reference from a referrer; this is true even if there are reference cycles or multiple paths to the referrer. There may be more than one reference between a referrer and a referree, These may be distinguished by the jvmtiObjectReferenceCallback.reference_kind and jvmtiObjectReferenceCallback.referrer_index. The callback for an object will always occur after the callback for its referrer.

See FollowReferences for the object references which are reported.

During the execution of this function the state of the heap does not change: no objects are allocated, no objects are garbage collected, and the state of objects (including held values) does not change. As a result, threads executing Java programming language code, threads attempting to resume the execution of Java programming language code, and threads attempting to execute JNI functions are typically stalled.

PhaseCallback SafePositionSince
may only be called during the live phase No 1091.0

Capabilities
Optional Functionality: might not be implemented for all virtual machines. The following capability (as returned by GetCapabilities) must be true to use this function.
Capability Effect
can_tag_objects Can set and get tags, as described in the Heap category.

Parameters
Name Type Description
objectjobject The object
object_reference_callback jvmtiObjectReferenceCallback The callback to be called to describe each object reference.

user_dataconst void * User supplied data to be passed to the callback.

Agent passes in a pointer. If user_data is NULL, NULL is passed as the user supplied data.

Errors
This function returns either a universal error or one of the following errors
Error Description
JVMTI_ERROR_MUST_POSSESS_CAPABILITY The environment does not possess the capability can_tag_objects. Use AddCapabilities.
JVMTI_ERROR_INVALID_OBJECT object is not an object.
JVMTI_ERROR_NULL_POINTER object_reference_callback is NULL.

Iterate Over Reachable Objects

jvmtiError
IterateOverReachableObjects(jvmtiEnv* env,
            jvmtiHeapRootCallback heap_root_callback,
            jvmtiStackReferenceCallback stack_ref_callback,
            jvmtiObjectReferenceCallback object_ref_callback,
            const void* user_data)
This function iterates over the root objects and all objects that are directly and indirectly reachable from the root objects. The root objects comprise the set of system classes, JNI globals, references from thread stacks, and other objects used as roots for the purposes of garbage collection.

For each root the heap_root_callback or stack_ref_callback callback is called. An object can be a root object for more than one reason and in that case the appropriate callback is called for each reason.

For each object reference the object_ref_callback callback function is called to describe the object reference. The callback is called exactly once for each reference from a referrer; this is true even if there are reference cycles or multiple paths to the referrer. There may be more than one reference between a referrer and a referree, These may be distinguished by the jvmtiObjectReferenceCallback.reference_kind and jvmtiObjectReferenceCallback.referrer_index. The callback for an object will always occur after the callback for its referrer.

See FollowReferences for the object references which are reported.

Roots are always reported to the profiler before any object references are reported. In other words, the object_ref_callback callback will not be called until the appropriate callback has been called for all roots. If the object_ref_callback callback is specified as NULL then this function returns after reporting the root objects to the profiler.

During the execution of this function the state of the heap does not change: no objects are allocated, no objects are garbage collected, and the state of objects (including held values) does not change. As a result, threads executing Java programming language code, threads attempting to resume the execution of Java programming language code, and threads attempting to execute JNI functions are typically stalled.

PhaseCallback SafePositionSince
may only be called during the live phase No 1101.0

Capabilities
Optional Functionality: might not be implemented for all virtual machines. The following capability (as returned by GetCapabilities) must be true to use this function.
Capability Effect
can_tag_objects Can set and get tags, as described in the Heap category.

Parameters
Name Type Description
heap_root_callback jvmtiHeapRootCallback The callback function to be called for each heap root of type JVMTI_HEAP_ROOT_JNI_GLOBAL, JVMTI_HEAP_ROOT_SYSTEM_CLASS, JVMTI_HEAP_ROOT_MONITOR, JVMTI_HEAP_ROOT_THREAD, or JVMTI_HEAP_ROOT_OTHER.

If heap_root_callback is NULL, do not report heap roots.
stack_ref_callback jvmtiStackReferenceCallback The callback function to be called for each heap root of JVMTI_HEAP_ROOT_STACK_LOCAL or JVMTI_HEAP_ROOT_JNI_LOCAL.

If stack_ref_callback is NULL, do not report stack references.
object_ref_callback jvmtiObjectReferenceCallback The callback function to be called for each object reference.

If object_ref_callback is NULL, do not follow references from the root objects.
user_dataconst void * User supplied data to be passed to the callback.

Agent passes in a pointer. If user_data is NULL, NULL is passed as the user supplied data.

Errors
This function returns either a universal error or one of the following errors
Error Description
JVMTI_ERROR_MUST_POSSESS_CAPABILITY The environment does not possess the capability can_tag_objects. Use AddCapabilities.

Iterate Over Heap

jvmtiError
IterateOverHeap(jvmtiEnv* env,
            jvmtiHeapObjectFilter object_filter,
            jvmtiHeapObjectCallback heap_object_callback,
            const void* user_data)
Iterate over all objects in the heap. This includes both reachable and unreachable objects.

The object_filter parameter indicates the objects for which the callback function is called. If this parameter is JVMTI_HEAP_OBJECT_TAGGED then the callback will only be called for every object that is tagged. If the parameter is JVMTI_HEAP_OBJECT_UNTAGGED then the callback will only be for objects that are not tagged. If the parameter is JVMTI_HEAP_OBJECT_EITHER then the callback will be called for every object in the heap, irrespective of whether it is tagged or not.

During the execution of this function the state of the heap does not change: no objects are allocated, no objects are garbage collected, and the state of objects (including held values) does not change. As a result, threads executing Java programming language code, threads attempting to resume the execution of Java programming language code, and threads attempting to execute JNI functions are typically stalled.

PhaseCallback SafePositionSince
may only be called during the live phase No 1111.0

Capabilities
Optional Functionality: might not be implemented for all virtual machines. The following capability (as returned by GetCapabilities) must be true to use this function.
Capability Effect
can_tag_objects Can set and get tags, as described in the Heap category.

Parameters
Name Type Description
object_filterjvmtiHeapObjectFilter Indicates the objects for which the callback function is called.
heap_object_callback jvmtiHeapObjectCallback The iterator function to be called for each object matching the object_filter.

user_dataconst void * User supplied data to be passed to the callback.

Agent passes in a pointer. If user_data is NULL, NULL is passed as the user supplied data.

Errors
This function returns either a universal error or one of the following errors
Error Description
JVMTI_ERROR_MUST_POSSESS_CAPABILITY The environment does not possess the capability can_tag_objects. Use AddCapabilities.
JVMTI_ERROR_ILLEGAL_ARGUMENT object_filter is not a jvmtiHeapObjectFilter.
JVMTI_ERROR_NULL_POINTER heap_object_callback is NULL.

Iterate Over Instances Of Class

jvmtiError
IterateOverInstancesOfClass(jvmtiEnv* env,
            jclass klass,
            jvmtiHeapObjectFilter object_filter,
            jvmtiHeapObjectCallback heap_object_callback,
            const void* user_data)
Iterate over all objects in the heap that are instances of the specified class. This includes direct instances of the specified class and instances of all subclasses of the specified class. This includes both reachable and unreachable objects.

The object_filter parameter indicates the objects for which the callback function is called. If this parameter is JVMTI_HEAP_OBJECT_TAGGED then the callback will only be called for every object that is tagged. If the parameter is JVMTI_HEAP_OBJECT_UNTAGGED then the callback will only be called for objects that are not tagged. If the parameter is JVMTI_HEAP_OBJECT_EITHER then the callback will be called for every object in the heap, irrespective of whether it is tagged or not.

During the execution of this function the state of the heap does not change: no objects are allocated, no objects are garbage collected, and the state of objects (including held values) does not change. As a result, threads executing Java programming language code, threads attempting to resume the execution of Java programming language code, and threads attempting to execute JNI functions are typically stalled.

PhaseCallback SafePositionSince
may only be called during the live phase No 1121.0

Capabilities
Optional Functionality: might not be implemented for all virtual machines. The following capability (as returned by GetCapabilities) must be true to use this function.
Capability Effect
can_tag_objects Can set and get tags, as described in the Heap category.

Parameters
Name Type Description
klassjclass Iterate over objects of this class only.
object_filterjvmtiHeapObjectFilter Indicates the objects for which the callback function is called.
heap_object_callback jvmtiHeapObjectCallback The iterator function to be called for each klass instance matching the object_filter.

user_dataconst void * User supplied data to be passed to the callback.

Agent passes in a pointer. If user_data is NULL, NULL is passed as the user supplied data.

Errors
This function returns either a universal error or one of the following errors
Error Description
JVMTI_ERROR_MUST_POSSESS_CAPABILITY The environment does not possess the capability can_tag_objects. Use AddCapabilities.
JVMTI_ERROR_INVALID_CLASS klass is not a class object or the class has been unloaded.
JVMTI_ERROR_ILLEGAL_ARGUMENT object_filter is not a jvmtiHeapObjectFilter.
JVMTI_ERROR_NULL_POINTER heap_object_callback is NULL.


Local Variable

Local Variable functions: These functions are used to retrieve or set the value of a local variable. The variable is identified by the depth of the frame containing its value and the variable's slot number within that frame. The mapping of variables to slot numbers can be obtained with the function GetLocalVariableTable.


Get Local Variable - Object

jvmtiError
GetLocalObject(jvmtiEnv* env,
            jthread thread,
            jint depth,
            jint slot,
            jobject* value_ptr)
This function can be used to retrieve the value of a local variable whose type is Object or a subclass of Object.

PhaseCallback SafePositionSince
may only be called during the live phase No 211.0

Capabilities
Optional Functionality: might not be implemented for all virtual machines. The following capability (as returned by GetCapabilities) must be true to use this function.
Capability Effect
can_access_local_variables Can set and get local variables

Parameters
Name Type Description
threadjthread The thread of the frame containing the variable's value. If thread is NULL, the current thread is used.
depthjint The depth of the frame containing the variable's value.
slotjint The variable's slot number.
value_ptrjobject* On return, points to the variable's value.

Agent passes a pointer to a jobject. On return, the jobject has been set. The object returned by value_ptr is a JNI local reference and must be managed.

Errors
This function returns either a universal error or one of the following errors
Error Description
JVMTI_ERROR_MUST_POSSESS_CAPABILITY The environment does not possess the capability can_access_local_variables. Use AddCapabilities.
JVMTI_ERROR_INVALID_SLOT Invalid slot.
JVMTI_ERROR_TYPE_MISMATCH The variable type is not Object or a subclass of Object.
JVMTI_ERROR_OPAQUE_FRAME Not a visible frame
JVMTI_ERROR_INVALID_THREAD thread is not a thread object.
JVMTI_ERROR_THREAD_NOT_ALIVE thread is not live (has not been started or is now dead).
JVMTI_ERROR_ILLEGAL_ARGUMENT depth is less than zero.
JVMTI_ERROR_NO_MORE_FRAMES There are no stack frames at the specified depth.
JVMTI_ERROR_NULL_POINTER value_ptr is NULL.

Get Local Instance

jvmtiError
GetLocalInstance(jvmtiEnv* env,
            jthread thread,
            jint depth,
            jobject* value_ptr)
This function can be used to retrieve the value of the local object variable at slot 0 (the "this" object) from non-static frames. This function can retrieve the "this" object from native method frames, whereas GetLocalObject() would return JVMTI_ERROR_OPAQUE_FRAME in those cases.

PhaseCallback SafePositionSince
may only be called during the live phase No 1551.2

Capabilities
Optional Functionality: might not be implemented for all virtual machines. The following capability (as returned by GetCapabilities) must be true to use this function.
Capability Effect
can_access_local_variables Can set and get local variables

Parameters
Name Type Description
threadjthread The thread of the frame containing the variable's value. If thread is NULL, the current thread is used.
depthjint The depth of the frame containing the variable's value.
value_ptrjobject* On return, points to the variable's value.

Agent passes a pointer to a jobject. On return, the jobject has been set. The object returned by value_ptr is a JNI local reference and must be managed.

Errors
This function returns either a universal error or one of the following errors
Error Description
JVMTI_ERROR_MUST_POSSESS_CAPABILITY The environment does not possess the capability can_access_local_variables. Use AddCapabilities.
JVMTI_ERROR_INVALID_SLOT If the specified frame is a static method frame.
JVMTI_ERROR_INVALID_THREAD thread is not a thread object.
JVMTI_ERROR_THREAD_NOT_ALIVE thread is not live (has not been started or is now dead).
JVMTI_ERROR_ILLEGAL_ARGUMENT depth is less than zero.
JVMTI_ERROR_NO_MORE_FRAMES There are no stack frames at the specified depth.
JVMTI_ERROR_NULL_POINTER value_ptr is NULL.

Get Local Variable - Int

jvmtiError
GetLocalInt(jvmtiEnv* env,
            jthread thread,
            jint depth,
            jint slot,
            jint* value_ptr)
This function can be used to retrieve the value of a local variable whose type is int, short, char, byte, or boolean.

PhaseCallback SafePositionSince
may only be called during the live phase No 221.0

Capabilities
Optional Functionality: might not be implemented for all virtual machines. The following capability (as returned by GetCapabilities) must be true to use this function.
Capability Effect
can_access_local_variables Can set and get local variables

Parameters
Name Type Description
threadjthread The thread of the frame containing the variable's value. If thread is NULL, the current thread is used.
depthjint The depth of the frame containing the variable's value.
slotjint The variable's slot number.
value_ptrjint* On return, points to the variable's value.

Agent passes a pointer to a jint. On return, the jint has been set.

Errors
This function returns either a universal error or one of the following errors
Error Description
JVMTI_ERROR_MUST_POSSESS_CAPABILITY The environment does not possess the capability can_access_local_variables. Use AddCapabilities.
JVMTI_ERROR_INVALID_SLOT Invalid slot.
JVMTI_ERROR_TYPE_MISMATCH The variable type is not int, short, char, byte, or boolean.
JVMTI_ERROR_OPAQUE_FRAME Not a visible frame
JVMTI_ERROR_INVALID_THREAD thread is not a thread object.
JVMTI_ERROR_THREAD_NOT_ALIVE thread is not live (has not been started or is now dead).
JVMTI_ERROR_ILLEGAL_ARGUMENT depth is less than zero.
JVMTI_ERROR_NO_MORE_FRAMES There are no stack frames at the specified depth.
JVMTI_ERROR_NULL_POINTER value_ptr is NULL.

Get Local Variable - Long

jvmtiError
GetLocalLong(jvmtiEnv* env,
            jthread thread,
            jint depth,
            jint slot,
            jlong* value_ptr)
This function can be used to retrieve the value of a local variable whose type is long.

PhaseCallback SafePositionSince
may only be called during the live phase No 231.0

Capabilities
Optional Functionality: might not be implemented for all virtual machines. The following capability (as returned by GetCapabilities) must be true to use this function.
Capability Effect
can_access_local_variables Can set and get local variables

Parameters
Name Type Description
threadjthread The thread of the frame containing the variable's value. If thread is NULL, the current thread is used.
depthjint The depth of the frame containing the variable's value.
slotjint The variable's slot number.
value_ptrjlong* On return, points to the variable's value.

Agent passes a pointer to a jlong. On return, the jlong has been set.

Errors
This function returns either a universal error or one of the following errors
Error Description
JVMTI_ERROR_MUST_POSSESS_CAPABILITY The environment does not possess the capability can_access_local_variables. Use AddCapabilities.
JVMTI_ERROR_INVALID_SLOT Invalid slot.
JVMTI_ERROR_TYPE_MISMATCH The variable type is not long.
JVMTI_ERROR_OPAQUE_FRAME Not a visible frame
JVMTI_ERROR_INVALID_THREAD thread is not a thread object.
JVMTI_ERROR_THREAD_NOT_ALIVE thread is not live (has not been started or is now dead).
JVMTI_ERROR_ILLEGAL_ARGUMENT depth is less than zero.
JVMTI_ERROR_NO_MORE_FRAMES There are no stack frames at the specified depth.
JVMTI_ERROR_NULL_POINTER value_ptr is NULL.

Get Local Variable - Float

jvmtiError
GetLocalFloat(jvmtiEnv* env,
            jthread thread,
            jint depth,
            jint slot,
            jfloat* value_ptr)
This function can be used to retrieve the value of a local variable whose type is float.

PhaseCallback SafePositionSince
may only be called during the live phase No 241.0

Capabilities
Optional Functionality: might not be implemented for all virtual machines. The following capability (as returned by GetCapabilities) must be true to use this function.
Capability Effect
can_access_local_variables Can set and get local variables

Parameters
Name Type Description
threadjthread The thread of the frame containing the variable's value. If thread is NULL, the current thread is used.
depthjint The depth of the frame containing the variable's value.
slotjint The variable's slot number.
value_ptrjfloat* On return, points to the variable's value.

Agent passes a pointer to a jfloat. On return, the jfloat has been set.

Errors
This function returns either a universal error or one of the following errors
Error Description
JVMTI_ERROR_MUST_POSSESS_CAPABILITY The environment does not possess the capability can_access_local_variables. Use AddCapabilities.
JVMTI_ERROR_INVALID_SLOT Invalid slot.
JVMTI_ERROR_TYPE_MISMATCH The variable type is not float.
JVMTI_ERROR_OPAQUE_FRAME Not a visible frame
JVMTI_ERROR_INVALID_THREAD thread is not a thread object.
JVMTI_ERROR_THREAD_NOT_ALIVE thread is not live (has not been started or is now dead).
JVMTI_ERROR_ILLEGAL_ARGUMENT depth is less than zero.
JVMTI_ERROR_NO_MORE_FRAMES There are no stack frames at the specified depth.
JVMTI_ERROR_NULL_POINTER value_ptr is NULL.

Get Local Variable - Double

jvmtiError
GetLocalDouble(jvmtiEnv* env,
            jthread thread,
            jint depth,
            jint slot,
            jdouble* value_ptr)
This function can be used to retrieve the value of a local variable whose type is long.

PhaseCallback SafePositionSince
may only be called during the live phase No 251.0

Capabilities
Optional Functionality: might not be implemented for all virtual machines. The following capability (as returned by GetCapabilities) must be true to use this function.
Capability Effect
can_access_local_variables Can set and get local variables

Parameters
Name Type Description
threadjthread The thread of the frame containing the variable's value. If thread is NULL, the current thread is used.
depthjint The depth of the frame containing the variable's value.
slotjint The variable's slot number.
value_ptrjdouble* On return, points to the variable's value.

Agent passes a pointer to a jdouble. On return, the jdouble has been set.

Errors
This function returns either a universal error or one of the following errors
Error Description
JVMTI_ERROR_MUST_POSSESS_CAPABILITY The environment does not possess the capability can_access_local_variables. Use AddCapabilities.
JVMTI_ERROR_INVALID_SLOT Invalid slot.
JVMTI_ERROR_TYPE_MISMATCH The variable type is not double.
JVMTI_ERROR_OPAQUE_FRAME Not a visible frame
JVMTI_ERROR_INVALID_THREAD thread is not a thread object.
JVMTI_ERROR_THREAD_NOT_ALIVE thread is not live (has not been started or is now dead).
JVMTI_ERROR_ILLEGAL_ARGUMENT depth is less than zero.
JVMTI_ERROR_NO_MORE_FRAMES There are no stack frames at the specified depth.
JVMTI_ERROR_NULL_POINTER value_ptr is NULL.

Set Local Variable - Object

jvmtiError
SetLocalObject(jvmtiEnv* env,
            jthread thread,
            jint depth,
            jint slot,
            jobject value)
This function can be used to set the value of a local variable whose type is Object or a subclass of Object.

PhaseCallback SafePositionSince
may only be called during the live phase No 261.0

Capabilities
Optional Functionality: might not be implemented for all virtual machines. The following capability (as returned by GetCapabilities) must be true to use this function.
Capability Effect
can_access_local_variables Can set and get local variables

Parameters
Name Type Description
threadjthread The thread of the frame containing the variable's value. If thread is NULL, the current thread is used.
depthjint The depth of the frame containing the variable's value.
slotjint The variable's slot number.
valuejobject The new value for the variable.

Errors
This function returns either a universal error or one of the following errors
Error Description
JVMTI_ERROR_MUST_POSSESS_CAPABILITY The environment does not possess the capability can_access_local_variables. Use AddCapabilities.
JVMTI_ERROR_INVALID_SLOT Invalid slot.
JVMTI_ERROR_TYPE_MISMATCH The variable type is not Object or a subclass of Object.
JVMTI_ERROR_TYPE_MISMATCH The supplied value is not compatible with the variable type.
JVMTI_ERROR_OPAQUE_FRAME Not a visible frame
JVMTI_ERROR_INVALID_THREAD thread is not a thread object.
JVMTI_ERROR_THREAD_NOT_ALIVE thread is not live (has not been started or is now dead).
JVMTI_ERROR_ILLEGAL_ARGUMENT depth is less than zero.
JVMTI_ERROR_NO_MORE_FRAMES There are no stack frames at the specified depth.
JVMTI_ERROR_INVALID_OBJECT value is not an object.

Set Local Variable - Int

jvmtiError
SetLocalInt(jvmtiEnv* env,
            jthread thread,
            jint depth,
            jint slot,
            jint value)
This function can be used to set the value of a local variable whose type is int, short, char, byte, or boolean.

PhaseCallback SafePositionSince
may only be called during the live phase No 271.0

Capabilities
Optional Functionality: might not be implemented for all virtual machines. The following capability (as returned by GetCapabilities) must be true to use this function.
Capability Effect
can_access_local_variables Can set and get local variables

Parameters
Name Type Description
threadjthread The thread of the frame containing the variable's value. If thread is NULL, the current thread is used.
depthjint The depth of the frame containing the variable's value.
slotjint The variable's slot number.
valuejint The new value for the variable.

Errors
This function returns either a universal error or one of the following errors
Error Description
JVMTI_ERROR_MUST_POSSESS_CAPABILITY The environment does not possess the capability can_access_local_variables. Use AddCapabilities.
JVMTI_ERROR_INVALID_SLOT Invalid slot.
JVMTI_ERROR_TYPE_MISMATCH The variable type is not int, short, char, byte, or boolean.
JVMTI_ERROR_OPAQUE_FRAME Not a visible frame
JVMTI_ERROR_INVALID_THREAD thread is not a thread object.
JVMTI_ERROR_THREAD_NOT_ALIVE thread is not live (has not been started or is now dead).
JVMTI_ERROR_ILLEGAL_ARGUMENT depth is less than zero.
JVMTI_ERROR_NO_MORE_FRAMES There are no stack frames at the specified depth.

Set Local Variable - Long

jvmtiError
SetLocalLong(jvmtiEnv* env,
            jthread thread,
            jint depth,
            jint slot,
            jlong value)
This function can be used to set the value of a local variable whose type is long.

PhaseCallback SafePositionSince
may only be called during the live phase No 281.0

Capabilities
Optional Functionality: might not be implemented for all virtual machines. The following capability (as returned by GetCapabilities) must be true to use this function.
Capability Effect
can_access_local_variables Can set and get local variables

Parameters
Name Type Description
threadjthread The thread of the frame containing the variable's value. If thread is NULL, the current thread is used.
depthjint The depth of the frame containing the variable's value.
slotjint The variable's slot number.
valuejlong The new value for the variable.

Errors
This function returns either a universal error or one of the following errors
Error Description
JVMTI_ERROR_MUST_POSSESS_CAPABILITY The environment does not possess the capability can_access_local_variables. Use AddCapabilities.
JVMTI_ERROR_INVALID_SLOT Invalid slot.
JVMTI_ERROR_TYPE_MISMATCH The variable type is not long.
JVMTI_ERROR_OPAQUE_FRAME Not a visible frame
JVMTI_ERROR_INVALID_THREAD thread is not a thread object.
JVMTI_ERROR_THREAD_NOT_ALIVE thread is not live (has not been started or is now dead).
JVMTI_ERROR_ILLEGAL_ARGUMENT depth is less than zero.
JVMTI_ERROR_NO_MORE_FRAMES There are no stack frames at the specified depth.

Set Local Variable - Float

jvmtiError
SetLocalFloat(jvmtiEnv* env,
            jthread thread,
            jint depth,
            jint slot,
            jfloat value)
This function can be used to set the value of a local variable whose type is float.

PhaseCallback SafePositionSince
may only be called during the live phase No 291.0

Capabilities
Optional Functionality: might not be implemented for all virtual machines. The following capability (as returned by GetCapabilities) must be true to use this function.
Capability Effect
can_access_local_variables Can set and get local variables

Parameters
Name Type Description
threadjthread The thread of the frame containing the variable's value. If thread is NULL, the current thread is used.
depthjint The depth of the frame containing the variable's value.
slotjint The variable's slot number.
valuejfloat The new value for the variable.

Errors
This function returns either a universal error or one of the following errors
Error Description
JVMTI_ERROR_MUST_POSSESS_CAPABILITY The environment does not possess the capability can_access_local_variables. Use AddCapabilities.
JVMTI_ERROR_INVALID_SLOT Invalid slot.
JVMTI_ERROR_TYPE_MISMATCH The variable type is not float.
JVMTI_ERROR_OPAQUE_FRAME Not a visible frame
JVMTI_ERROR_INVALID_THREAD thread is not a thread object.
JVMTI_ERROR_THREAD_NOT_ALIVE thread is not live (has not been started or is now dead).
JVMTI_ERROR_ILLEGAL_ARGUMENT depth is less than zero.
JVMTI_ERROR_NO_MORE_FRAMES There are no stack frames at the specified depth.

Set Local Variable - Double

jvmtiError
SetLocalDouble(jvmtiEnv* env,
            jthread thread,
            jint depth,
            jint slot,
            jdouble value)
This function can be used to set the value of a local variable whose type is double.

PhaseCallback SafePositionSince
may only be called during the live phase No 301.0

Capabilities
Optional Functionality: might not be implemented for all virtual machines. The following capability (as returned by GetCapabilities) must be true to use this function.
Capability Effect
can_access_local_variables Can set and get local variables

Parameters
Name Type Description
threadjthread The thread of the frame containing the variable's value. If thread is NULL, the current thread is used.
depthjint The depth of the frame containing the variable's value.
slotjint The variable's slot number.
valuejdouble The new value for the variable.

Errors
This function returns either a universal error or one of the following errors
Error Description
JVMTI_ERROR_MUST_POSSESS_CAPABILITY The environment does not possess the capability can_access_local_variables. Use AddCapabilities.
JVMTI_ERROR_INVALID_SLOT Invalid slot.
JVMTI_ERROR_TYPE_MISMATCH The variable type is not double.
JVMTI_ERROR_OPAQUE_FRAME Not a visible frame
JVMTI_ERROR_INVALID_THREAD thread is not a thread object.
JVMTI_ERROR_THREAD_NOT_ALIVE thread is not live (has not been started or is now dead).
JVMTI_ERROR_ILLEGAL_ARGUMENT depth is less than zero.
JVMTI_ERROR_NO_MORE_FRAMES There are no stack frames at the specified depth.


Breakpoint

Breakpoint functions:


Set Breakpoint

jvmtiError
SetBreakpoint(jvmtiEnv* env,
            jmethodID method,
            jlocation location)
Set a breakpoint at the instruction indicated by method and location. An instruction can only have one breakpoint.

Whenever the designated instruction is about to be executed, a Breakpoint event is generated.

PhaseCallback SafePositionSince
may only be called during the live phase No 381.0

Capabilities
Optional Functionality: might not be implemented for all virtual machines. The following capability (as returned by GetCapabilities) must be true to use this function.
Capability Effect
can_generate_breakpoint_events Can set and thus get Breakpoint events

Parameters
Name Type Description
methodjmethodID The method in which to set the breakpoint
locationjlocation the index of the instruction at which to set the breakpoint

Errors
This function returns either a universal error or one of the following errors
Error Description
JVMTI_ERROR_MUST_POSSESS_CAPABILITY The environment does not possess the capability can_generate_breakpoint_events. Use AddCapabilities.
JVMTI_ERROR_DUPLICATE The designated bytecode already has a breakpoint.
JVMTI_ERROR_INVALID_METHODID method is not a jmethodID.
JVMTI_ERROR_INVALID_LOCATION location is not a valid location.

Clear Breakpoint

jvmtiError
ClearBreakpoint(jvmtiEnv* env,
            jmethodID method,
            jlocation location)
Clear the breakpoint at the bytecode indicated by method and location.

PhaseCallback SafePositionSince
may only be called during the live phase No 391.0

Capabilities
Optional Functionality: might not be implemented for all virtual machines. The following capability (as returned by GetCapabilities) must be true to use this function.
Capability Effect
can_generate_breakpoint_events Can set and thus get Breakpoint events

Parameters
Name Type Description
methodjmethodID The method in which to clear the breakpoint
locationjlocation the index of the instruction at which to clear the breakpoint

Errors
This function returns either a universal error or one of the following errors
Error Description
JVMTI_ERROR_MUST_POSSESS_CAPABILITY The environment does not possess the capability can_generate_breakpoint_events. Use AddCapabilities.
JVMTI_ERROR_NOT_FOUND There's no breakpoint at the designated bytecode.
JVMTI_ERROR_INVALID_METHODID method is not a jmethodID.
JVMTI_ERROR_INVALID_LOCATION location is not a valid location.


Watched Field

Watched Field functions:


Set Field Access Watch

jvmtiError
SetFieldAccessWatch(jvmtiEnv* env,
            jclass klass,
            jfieldID field)
Generate a FieldAccess event when the field specified by klass and field is about to be accessed. An event will be generated for each access of the field until it is canceled with ClearFieldAccessWatch. Field accesses from Java programming language code or from JNI code are watched, fields modified by other means are not watched. Note that JVM TI users should be aware that their own field accesses will trigger the watch. A field can only have one field access watch set. Modification of a field is not considered an access--use SetFieldModificationWatch to monitor modifications.

PhaseCallback SafePositionSince
may only be called during the live phase No 411.0

Capabilities
Optional Functionality: might not be implemented for all virtual machines. The following capability (as returned by GetCapabilities) must be true to use this function.
Capability Effect
can_generate_field_access_events Can set watchpoints on field access - SetFieldAccessWatch

Parameters
Name Type Description
klassjclass The class containing the field to watch
fieldjfieldID The field to watch

Errors
This function returns either a universal error or one of the following errors
Error Description
JVMTI_ERROR_MUST_POSSESS_CAPABILITY The environment does not possess the capability can_generate_field_access_events. Use AddCapabilities.
JVMTI_ERROR_DUPLICATE The designated field is already being watched for accesses.
JVMTI_ERROR_INVALID_CLASS klass is not a class object or the class has been unloaded.
JVMTI_ERROR_INVALID_FIELDID field is not a jfieldID.

Clear Field Access Watch

jvmtiError
ClearFieldAccessWatch(jvmtiEnv* env,
            jclass klass,
            jfieldID field)
Cancel a field access watch previously set by SetFieldAccessWatch, on the field specified by klass and field.

PhaseCallback SafePositionSince
may only be called during the live phase No 421.0

Capabilities
Optional Functionality: might not be implemented for all virtual machines. The following capability (as returned by GetCapabilities) must be true to use this function.
Capability Effect
can_generate_field_access_events Can set watchpoints on field access - SetFieldAccessWatch

Parameters
Name Type Description
klassjclass The class containing the field to watch
fieldjfieldID The field to watch

Errors
This function returns either a universal error or one of the following errors
Error Description
JVMTI_ERROR_MUST_POSSESS_CAPABILITY The environment does not possess the capability can_generate_field_access_events. Use AddCapabilities.
JVMTI_ERROR_NOT_FOUND The designated field is not being watched for accesses.
JVMTI_ERROR_INVALID_CLASS klass is not a class object or the class has been unloaded.
JVMTI_ERROR_INVALID_FIELDID field is not a jfieldID.

Set Field Modification Watch

jvmtiError
SetFieldModificationWatch(jvmtiEnv* env,
            jclass klass,
            jfieldID field)
Generate a FieldModification event when the field specified by klass and field is about to be modified. An event will be generated for each modification of the field until it is canceled with ClearFieldModificationWatch. Field modifications from Java programming language code or from JNI code are watched, fields modified by other means are not watched. Note that JVM TI users should be aware that their own field modifications will trigger the watch. A field can only have one field modification watch set.

PhaseCallback SafePositionSince
may only be called during the live phase No 431.0

Capabilities
Optional Functionality: might not be implemented for all virtual machines. The following capability (as returned by GetCapabilities) must be true to use this function.
Capability Effect
can_generate_field_modification_events Can set watchpoints on field modification - SetFieldModificationWatch

Parameters
Name Type Description
klassjclass The class containing the field to watch
fieldjfieldID The field to watch

Errors
This function returns either a universal error or one of the following errors
Error Description
JVMTI_ERROR_MUST_POSSESS_CAPABILITY The environment does not possess the capability can_generate_field_modification_events. Use AddCapabilities.
JVMTI_ERROR_DUPLICATE The designated field is already being watched for modifications.
JVMTI_ERROR_INVALID_CLASS klass is not a class object or the class has been unloaded.
JVMTI_ERROR_INVALID_FIELDID field is not a jfieldID.

Clear Field Modification Watch

jvmtiError
ClearFieldModificationWatch(jvmtiEnv* env,
            jclass klass,
            jfieldID field)
Cancel a field modification watch previously set by SetFieldModificationWatch, on the field specified by klass and field.

PhaseCallback SafePositionSince
may only be called during the live phase No 441.0

Capabilities
Optional Functionality: might not be implemented for all virtual machines. The following capability (as returned by GetCapabilities) must be true to use this function.
Capability Effect
can_generate_field_modification_events Can set watchpoints on field modification - SetFieldModificationWatch

Parameters
Name Type Description
klassjclass The class containing the field to watch
fieldjfieldID The field to watch

Errors
This function returns either a universal error or one of the following errors
Error Description
JVMTI_ERROR_MUST_POSSESS_CAPABILITY The environment does not possess the capability can_generate_field_modification_events. Use AddCapabilities.
JVMTI_ERROR_NOT_FOUND The designated field is not being watched for modifications.
JVMTI_ERROR_INVALID_CLASS klass is not a class object or the class has been unloaded.
JVMTI_ERROR_INVALID_FIELDID field is not a jfieldID.


Class

Class functions: Class types: Class flags and constants:


Get Loaded Classes

jvmtiError
GetLoadedClasses(jvmtiEnv* env,
            jint* class_count_ptr,
            jclass** classes_ptr)
Return an array of all classes loaded in the virtual machine. The number of classes in the array is returned via class_count_ptr, and the array itself via classes_ptr.

Array classes of all types (including arrays of primitive types) are included in the returned list. Primitive classes (for example, java.lang.Integer.TYPE) are not included in this list.

PhaseCallback SafePositionSince
may only be called during the live phase No 781.0

Capabilities
Required Functionality

Parameters
Name Type Description
class_count_ptrjint* On return, points to the number of classes.

Agent passes a pointer to a jint. On return, the jint has been set.
classes_ptrjclass** On return, points to an array of references, one for each class.

Agent passes a pointer to a jclass*. On return, the jclass* points to a newly allocated array of size *class_count_ptr. The array should be freed with Deallocate. The objects returned by classes_ptr are JNI local references and must be managed.

Errors
This function returns either a universal error or one of the following errors
Error Description
JVMTI_ERROR_NULL_POINTER class_count_ptr is NULL.
JVMTI_ERROR_NULL_POINTER classes_ptr is NULL.

Get Classloader Classes

jvmtiError
GetClassLoaderClasses(jvmtiEnv* env,
            jobject initiating_loader,
            jint* class_count_ptr,
            jclass** classes_ptr)
Returns an array of those classes for which this class loader has been recorded as an initiating loader. Each class in the returned array was created by this class loader, either by defining it directly or by delegation to another class loader. See The Java™ Virtual Machine Specification, Chapter 5.3.

For JDK version 1.1 implementations that don't recognize the distinction between initiating and defining class loaders, this function should return all classes loaded in the virtual machine. The number of classes in the array is returned via class_count_ptr, and the array itself via classes_ptr.

PhaseCallback SafePositionSince
may only be called during the live phase No 791.0

Capabilities
Required Functionality

Parameters
Name Type Description
initiating_loader jobject An initiating class loader.

If initiating_loader is NULL, the classes initiated by the bootstrap loader will be returned.
class_count_ptrjint* On return, points to the number of classes.

Agent passes a pointer to a jint. On return, the jint has been set.
classes_ptrjclass** On return, points to an array of references, one for each class.

Agent passes a pointer to a jclass*. On return, the jclass* points to a newly allocated array of size *class_count_ptr. The array should be freed with Deallocate. The objects returned by classes_ptr are JNI local references and must be managed.

Errors
This function returns either a universal error or one of the following errors
Error Description
JVMTI_ERROR_NULL_POINTER class_count_ptr is NULL.
JVMTI_ERROR_NULL_POINTER classes_ptr is NULL.

Get Class Signature

jvmtiError
GetClassSignature(jvmtiEnv* env,
            jclass klass,
            char** signature_ptr,
            char** generic_ptr)
For the class indicated by klass, return the JNI type signature and the generic signature of the class. For example, java.util.List is "Ljava/util/List;" and int[] is "[I" The returned name for primitive classes is the type signature character of the corresponding primitive type. For example, java.lang.Integer.TYPE is "I".

PhaseCallback SafePositionSince
may only be called during the start or the live phase No 481.0

Capabilities
Required Functionality

Parameters
Name Type Description
klassjclass The class to query.
signature_ptr char ** On return, points to the JNI type signature of the class, encoded as a modified UTF-8 string.

Agent passes a pointer to a char*. On return, the char* points to a newly allocated array. The array should be freed with Deallocate. If signature_ptr is NULL, the signature is not returned.
generic_ptr char ** On return, points to the generic signature of the class, encoded as a modified UTF-8 string. If there is no generic signature attribute for the class, then, on return, points to NULL.

Agent passes a pointer to a char*. On return, the char* points to a newly allocated array. The array should be freed with Deallocate. If generic_ptr is NULL, the generic signature is not returned.

Errors
This function returns either a universal error or one of the following errors
Error Description
JVMTI_ERROR_INVALID_CLASS klass is not a class object or the class has been unloaded.

Get Class Status

jvmtiError
GetClassStatus(jvmtiEnv* env,
            jclass klass,
            jint* status_ptr)
Get the status of the class. Zero or more of the following bits can be set.
Class Status Flags
Constant Value Description
JVMTI_CLASS_STATUS_VERIFIED1 Class bytecodes have been verified
JVMTI_CLASS_STATUS_PREPARED2 Class preparation is complete
JVMTI_CLASS_STATUS_INITIALIZED4 Class initialization is complete. Static initializer has been run.
JVMTI_CLASS_STATUS_ERROR8 Error during initialization makes class unusable
JVMTI_CLASS_STATUS_ARRAY16 Class is an array. If set, all other bits are zero.
JVMTI_CLASS_STATUS_PRIMITIVE32 Class is a primitive class (for example, java.lang.Integer.TYPE). If set, all other bits are zero.

PhaseCallback SafePositionSince
may only be called during the start or the live phase No 491.0

Capabilities
Required Functionality

Parameters
Name Type Description
klassjclass The class to query.
status_ptrjint* On return, points to the current state of this class as one or more of the class status flags.

Agent passes a pointer to a jint. On return, the jint has been set.

Errors
This function returns either a universal error or one of the following errors
Error Description
JVMTI_ERROR_INVALID_CLASS klass is not a class object or the class has been unloaded.
JVMTI_ERROR_NULL_POINTER status_ptr is NULL.

Get Source File Name

jvmtiError
GetSourceFileName(jvmtiEnv* env,
            jclass klass,
            char** source_name_ptr)
For the class indicated by klass, return the source file name via source_name_ptr. The returned string is a file name only and never contains a directory name.

For primitive classes (for example, java.lang.Integer.TYPE) and for arrays this function returns JVMTI_ERROR_ABSENT_INFORMATION.

PhaseCallback SafePositionSince
may only be called during the start or the live phase No 501.0

Capabilities
Optional Functionality: might not be implemented for all virtual machines. The following capability (as returned by GetCapabilities) must be true to use this function.
Capability Effect
can_get_source_file_name Can get the source file name of a class

Parameters
Name Type Description
klassjclass The class to query.
source_name_ptrchar** On return, points to the class's source file name, encoded as a modified UTF-8 string.

Agent passes a pointer to a char*. On return, the char* points to a newly allocated array. The array should be freed with Deallocate.

Errors
This function returns either a universal error or one of the following errors
Error Description
JVMTI_ERROR_MUST_POSSESS_CAPABILITY The environment does not possess the capability can_get_source_file_name. Use AddCapabilities.
JVMTI_ERROR_ABSENT_INFORMATION Class information does not include a source file name. This includes cases where the class is an array class or primitive class.
JVMTI_ERROR_INVALID_CLASS klass is not a class object or the class has been unloaded.
JVMTI_ERROR_NULL_POINTER source_name_ptr is NULL.

Get Class Modifiers

jvmtiError
GetClassModifiers(jvmtiEnv* env,
            jclass klass,
            jint* modifiers_ptr)
For the class indicated by klass, return the access flags via modifiers_ptr. Access flags are defined in The Java™ Virtual Machine Specification, Chapter 4.

If the class is an array class, then its public, private, and protected modifiers are the same as those of its component type. For arrays of primitives, this component type is represented by one of the primitive classes (for example, java.lang.Integer.TYPE).

If the class is a primitive class, its public modifier is always true, and its protected and private modifiers are always false.

If the class is an array class or a primitive class then its final modifier is always true and its interface modifier is always false. The values of its other modifiers are not determined by this specification.

PhaseCallback SafePositionSince
may only be called during the start or the live phase No 511.0

Capabilities
Required Functionality

Parameters
Name Type Description
klassjclass The class to query.
modifiers_ptrjint* On return, points to the current access flags of this class.

Agent passes a pointer to a jint. On return, the jint has been set.

Errors
This function returns either a universal error or one of the following errors
Error Description
JVMTI_ERROR_INVALID_CLASS klass is not a class object or the class has been unloaded.
JVMTI_ERROR_NULL_POINTER modifiers_ptr is NULL.

Get Class Methods

jvmtiError
GetClassMethods(jvmtiEnv* env,
            jclass klass,
            jint* method_count_ptr,
            jmethodID** methods_ptr)
For the class indicated by klass, return a count of methods via method_count_ptr and a list of method IDs via methods_ptr. The method list contains constructors and static initializers as well as true methods. Only directly declared methods are returned (not inherited methods). An empty method list is returned for array classes and primitive classes (for example, java.lang.Integer.TYPE).

PhaseCallback SafePositionSince
may only be called during the start or the live phase No 521.0

Capabilities
Required Functionality
Optional Features
Capability Effect
can_maintain_original_method_order Can return methods in the order they occur in the class file

Parameters
Name Type Description
klassjclass The class to query.
method_count_ptrjint* On return, points to the number of methods declared in this class.

Agent passes a pointer to a jint. On return, the jint has been set.
methods_ptrjmethodID** On return, points to the method ID array.

Agent passes a pointer to a jmethodID*. On return, the jmethodID* points to a newly allocated array of size *method_count_ptr. The array should be freed with Deallocate.

Errors
This function returns either a universal error or one of the following errors
Error Description
JVMTI_ERROR_CLASS_NOT_PREPARED klass is not prepared.
JVMTI_ERROR_INVALID_CLASS klass is not a class object or the class has been unloaded.
JVMTI_ERROR_NULL_POINTER method_count_ptr is NULL.
JVMTI_ERROR_NULL_POINTER methods_ptr is NULL.

Get Class Fields

jvmtiError
GetClassFields(jvmtiEnv* env,
            jclass klass,
            jint* field_count_ptr,
            jfieldID** fields_ptr)
For the class indicated by klass, return a count of fields via field_count_ptr and a list of field IDs via fields_ptr. Only directly declared fields are returned (not inherited fields). Fields are returned in the order they occur in the class file. An empty field list is returned for array classes and primitive classes (for example, java.lang.Integer.TYPE). Use JNI to determine the length of an array.

PhaseCallback SafePositionSince
may only be called during the start or the live phase No 531.0

Capabilities
Required Functionality

Parameters
Name Type Description
klassjclass The class to query.
field_count_ptrjint* On return, points to the number of fields declared in this class.

Agent passes a pointer to a jint. On return, the jint has been set.
fields_ptrjfieldID** On return, points to the field ID array.

Agent passes a pointer to a jfieldID*. On return, the jfieldID* points to a newly allocated array of size *field_count_ptr. The array should be freed with Deallocate.

Errors
This function returns either a universal error or one of the following errors
Error Description
JVMTI_ERROR_CLASS_NOT_PREPARED klass is not prepared.
JVMTI_ERROR_INVALID_CLASS klass is not a class object or the class has been unloaded.
JVMTI_ERROR_NULL_POINTER field_count_ptr is NULL.
JVMTI_ERROR_NULL_POINTER fields_ptr is NULL.

Get Implemented Interfaces

jvmtiError
GetImplementedInterfaces(jvmtiEnv* env,
            jclass klass,
            jint* interface_count_ptr,
            jclass** interfaces_ptr)
Return the direct super-interfaces of this class. For a class, this function returns the interfaces declared in its implements clause. For an interface, this function returns the interfaces declared in its extends clause. An empty interface list is returned for array classes and primitive classes (for example, java.lang.Integer.TYPE).

PhaseCallback SafePositionSince
may only be called during the start or the live phase No 541.0

Capabilities
Required Functionality

Parameters
Name Type Description
klassjclass The class to query.
interface_count_ptrjint* On return, points to the number of interfaces.

Agent passes a pointer to a jint. On return, the jint has been set.
interfaces_ptrjclass** On return, points to the interface array.

Agent passes a pointer to a jclass*. On return, the jclass* points to a newly allocated array of size *interface_count_ptr. The array should be freed with Deallocate. The objects returned by interfaces_ptr are JNI local references and must be managed.

Errors
This function returns either a universal error or one of the following errors
Error Description
JVMTI_ERROR_CLASS_NOT_PREPARED klass is not prepared.
JVMTI_ERROR_INVALID_CLASS klass is not a class object or the class has been unloaded.
JVMTI_ERROR_NULL_POINTER interface_count_ptr is NULL.
JVMTI_ERROR_NULL_POINTER interfaces_ptr is NULL.

Get Class Version Numbers

jvmtiError
GetClassVersionNumbers(jvmtiEnv* env,
            jclass klass,
            jint* minor_version_ptr,
            jint* major_version_ptr)
For the class indicated by klass, return the minor and major version numbers, as defined in The Java™ Virtual Machine Specification, Chapter 4.

PhaseCallback SafePositionSince
may only be called during the start or the live phase No 1451.1

Capabilities
Required Functionality

Parameters
Name Type Description
klassjclass The class to query.
minor_version_ptrjint* On return, points to the value of the minor_version item of the Class File Format. Note: to be consistent with the Class File Format, the minor version number is the first parameter.

Agent passes a pointer to a jint. On return, the jint has been set.
major_version_ptrjint* On return, points to the value of the major_version item of the Class File Format.

Agent passes a pointer to a jint. On return, the jint has been set.

Errors
This function returns either a universal error or one of the following errors
Error Description
JVMTI_ERROR_ABSENT_INFORMATION The class is a primitive or array class.
JVMTI_ERROR_INVALID_CLASS klass is not a class object or the class has been unloaded.
JVMTI_ERROR_NULL_POINTER minor_version_ptr is NULL.
JVMTI_ERROR_NULL_POINTER major_version_ptr is NULL.

Get Constant Pool

jvmtiError
GetConstantPool(jvmtiEnv* env,
            jclass klass,
            jint* constant_pool_count_ptr,
            jint* constant_pool_byte_count_ptr,
            unsigned char** constant_pool_bytes_ptr)
For the class indicated by klass, return the raw bytes of the constant pool in the format of the constant_pool item of The Java™ Virtual Machine Specification, Chapter 4. The format of the constant pool may differ between versions of the Class File Format, so, the minor and major class version numbers should be checked for compatibility.

The returned constant pool might not have the same layout or contents as the constant pool in the defining class file. The constant pool returned by GetConstantPool() may have more or fewer entries than the defining constant pool. Entries may be in a different order. The constant pool returned by GetConstantPool() will match the constant pool used by GetBytecodes(). That is, the bytecodes returned by GetBytecodes() will have constant pool indices which refer to constant pool entries returned by GetConstantPool(). Note that since RetransformClasses and RedefineClasses can change the constant pool, the constant pool returned by this function can change accordingly. Thus, the correspondence between GetConstantPool() and GetBytecodes() does not hold if there is an intervening class retransformation or redefinition. The value of a constant pool entry used by a given bytecode will match that of the defining class file (even if the indices don't match). Constant pool entries which are not used directly or indirectly by bytecodes (for example, UTF-8 strings associated with annotations) are not required to exist in the returned constant pool.

PhaseCallback SafePositionSince
may only be called during the start or the live phase No 1461.1

Capabilities
Optional Functionality: might not be implemented for all virtual machines. The following capability (as returned by GetCapabilities) must be true to use this function.
Capability Effect
can_get_constant_pool Can get the constant pool of a class - GetConstantPool

Parameters
Name Type Description
klassjclass The class to query.
constant_pool_count_ptrjint* On return, points to the number of entries in the constant pool table plus one. This corresponds to the constant_pool_count item of the Class File Format.

Agent passes a pointer to a jint. On return, the jint has been set.
constant_pool_byte_count_ptrjint* On return, points to the number of bytes in the returned raw constant pool.

Agent passes a pointer to a jint. On return, the jint has been set.
constant_pool_bytes_ptrunsigned char** On return, points to the raw constant pool, that is the bytes defined by the constant_pool item of the Class File Format

Agent passes a pointer to a unsigned char*. On return, the unsigned char* points to a newly allocated array of size *constant_pool_byte_count_ptr. The array should be freed with Deallocate.

Errors
This function returns either a universal error or one of the following errors
Error Description
JVMTI_ERROR_MUST_POSSESS_CAPABILITY The environment does not possess the capability can_get_constant_pool. Use AddCapabilities.
JVMTI_ERROR_ABSENT_INFORMATION The class is a primitive or array class.
JVMTI_ERROR_INVALID_CLASS klass is not a class object or the class has been unloaded.
JVMTI_ERROR_NULL_POINTER constant_pool_count_ptr is NULL.
JVMTI_ERROR_NULL_POINTER constant_pool_byte_count_ptr is NULL.
JVMTI_ERROR_NULL_POINTER constant_pool_bytes_ptr is NULL.

Is Interface

jvmtiError
IsInterface(jvmtiEnv* env,
            jclass klass,
            jboolean* is_interface_ptr)
Determines whether a class object reference represents an interface. The jboolean result is JNI_TRUE if the "class" is actually an interface, JNI_FALSE otherwise.

PhaseCallback SafePositionSince
may only be called during the start or the live phase No 551.0

Capabilities
Required Functionality

Parameters
Name Type Description
klassjclass The class to query.
is_interface_ptrjboolean* On return, points to the boolean result of this function.

Agent passes a pointer to a jboolean. On return, the jboolean has been set.

Errors
This function returns either a universal error or one of the following errors
Error Description
JVMTI_ERROR_INVALID_CLASS klass is not a class object or the class has been unloaded.
JVMTI_ERROR_NULL_POINTER is_interface_ptr is NULL.

Is Array Class

jvmtiError
IsArrayClass(jvmtiEnv* env,
            jclass klass,
            jboolean* is_array_class_ptr)
Determines whether a class object reference represents an array. The jboolean result is JNI_TRUE if the class is an array, JNI_FALSE otherwise.

PhaseCallback SafePositionSince
may only be called during the start or the live phase No 561.0

Capabilities
Required Functionality

Parameters
Name Type Description
klassjclass The class to query.
is_array_class_ptrjboolean* On return, points to the boolean result of this function.

Agent passes a pointer to a jboolean. On return, the jboolean has been set.

Errors
This function returns either a universal error or one of the following errors
Error Description
JVMTI_ERROR_INVALID_CLASS klass is not a class object or the class has been unloaded.
JVMTI_ERROR_NULL_POINTER is_array_class_ptr is NULL.

Is Modifiable Class

jvmtiError
IsModifiableClass(jvmtiEnv* env,
            jclass klass,
            jboolean* is_modifiable_class_ptr)
Determines whether a class is modifiable. If a class is modifiable (is_modifiable_class_ptr returns JNI_TRUE) the class can be redefined with RedefineClasses (assuming the agent possesses the can_redefine_classes capability) or retransformed with RetransformClasses (assuming the agent possesses the can_retransform_classes capability). If a class is not modifiable (is_modifiable_class_ptr returns JNI_FALSE) the class can be neither redefined nor retransformed.

Primitive classes (for example, java.lang.Integer.TYPE) and array classes are never modifiable.

PhaseCallback SafePositionSince
may only be called during the start or the live phase No 451.1

Capabilities
Required Functionality
Optional Features
Capability Effect
can_redefine_any_class If possessed then all classes (except primitive and array classes) are modifiable.
can_redefine_classes No effect on the result of the function. But must additionally be possessed to modify the class with RedefineClasses.
can_retransform_classes No effect on the result of the function. But must additionally be possessed to modify the class with RetransformClasses.

Parameters
Name Type Description
klassjclass The class to query.
is_modifiable_class_ptrjboolean* On return, points to the boolean result of this function.

Agent passes a pointer to a jboolean. On return, the jboolean has been set.

Errors
This function returns either a universal error or one of the following errors
Error Description
JVMTI_ERROR_INVALID_CLASS klass is not a class object or the class has been unloaded.
JVMTI_ERROR_NULL_POINTER is_modifiable_class_ptr is NULL.

Get Class Loader

jvmtiError
GetClassLoader(jvmtiEnv* env,
            jclass klass,
            jobject* classloader_ptr)
For the class indicated by klass, return via classloader_ptr a reference to the class loader for the class.

PhaseCallback SafePositionSince
may only be called during the start or the live phase No 571.0

Capabilities
Required Functionality

Parameters
Name Type Description
klassjclass The class to query.
classloader_ptrjobject* On return, points to the class loader that loaded this class. If the class was not created by a class loader or if the class loader is the bootstrap class loader, points to NULL.

Agent passes a pointer to a jobject. On return, the jobject has been set. The object returned by classloader_ptr is a JNI local reference and must be managed.

Errors
This function returns either a universal error or one of the following errors
Error Description
JVMTI_ERROR_INVALID_CLASS klass is not a class object or the class has been unloaded.
JVMTI_ERROR_NULL_POINTER classloader_ptr is NULL.

Get Source Debug Extension

jvmtiError
GetSourceDebugExtension(jvmtiEnv* env,
            jclass klass,
            char** source_debug_extension_ptr)
For the class indicated by klass, return the debug extension via source_debug_extension_ptr. The returned string contains exactly the debug extension information present in the class file of klass.

PhaseCallback SafePositionSince
may only be called during the start or the live phase No 901.0

Capabilities
Optional Functionality: might not be implemented for all virtual machines. The following capability (as returned by GetCapabilities) must be true to use this function.
Capability Effect
can_get_source_debug_extension Can get the source debug extension of a class

Parameters
Name Type Description
klassjclass The class to query.
source_debug_extension_ptrchar** On return, points to the class's debug extension, encoded as a modified UTF-8 string.

Agent passes a pointer to a char*. On return, the char* points to a newly allocated array. The array should be freed with Deallocate.

Errors
This function returns either a universal error or one of the following errors
Error Description
JVMTI_ERROR_MUST_POSSESS_CAPABILITY The environment does not possess the capability can_get_source_debug_extension. Use AddCapabilities.
JVMTI_ERROR_ABSENT_INFORMATION Class information does not include a debug extension.
JVMTI_ERROR_INVALID_CLASS klass is not a class object or the class has been unloaded.
JVMTI_ERROR_NULL_POINTER source_debug_extension_ptr is NULL.

Retransform Classes

jvmtiError
RetransformClasses(jvmtiEnv* env,
            jint class_count,
            const jclass* classes)
This function facilitates the bytecode instrumentation of already loaded classes. To replace the class definition without reference to the existing bytecodes, as one might do when recompiling from source for fix-and-continue debugging, RedefineClasses function should be used instead.

When classes are initially loaded or when they are redefined, the initial class file bytes can be transformed with the ClassFileLoadHook event. This function reruns the transformation process (whether or not a transformation has previously occurred). This retransformation follows these steps: See the ClassFileLoadHook event for more details.

The initial class file bytes represent the bytes passed to ClassLoader.defineClass or RedefineClasses (before any transformations were applied), however they may not exactly match them. The constant pool may differ in ways described in GetConstantPool. Constant pool indices in the bytecodes of methods will correspond. Some attributes may not be present. Where order is not meaningful, for example the order of methods, order may not be preserved.

Retransformation can cause new versions of methods to be installed. Old method versions may become obsolete The new method version will be used on new invokes. If a method has active stack frames, those active frames continue to run the bytecodes of the original method version.

This function does not cause any initialization except that which would occur under the customary JVM semantics. In other words, retransforming a class does not cause its initializers to be run. The values of static fields will remain as they were prior to the call.

Threads need not be suspended.

All breakpoints in the class are cleared.

All attributes are updated.

Instances of the retransformed class are not affected -- fields retain their previous values. Tags on the instances are also unaffected.

In response to this call, no events other than the ClassFileLoadHook event will be sent.

The retransformation may change method bodies, the constant pool and attributes. The retransformation must not add, remove or rename fields or methods, change the signatures of methods, change modifiers, or change inheritance. These restrictions may be lifted in future versions. See the error return description below for information on error codes returned if an unsupported retransformation is attempted. The class file bytes are not verified or installed until they have passed through the chain of ClassFileLoadHook events, thus the returned error code reflects the result of the transformations. If any error code is returned other than JVMTI_ERROR_NONE, none of the classes to be retransformed will have a new definition installed. When this function returns (with the error code of JVMTI_ERROR_NONE) all of the classes to be retransformed will have their new definitions installed.

PhaseCallback SafePositionSince
may only be called during the live phase No 1521.1

Capabilities
Optional Functionality: might not be implemented for all virtual machines. The following capability (as returned by GetCapabilities) must be true to use this function.
Capability Effect
can_retransform_classes Can retransform classes with RetransformClasses. In addition to the restrictions imposed by the specific implementation on this capability (see the Capability section), this capability must be set before the ClassFileLoadHook event is enabled for the first time in this environment. An environment that possesses this capability at the time that ClassFileLoadHook is enabled for the first time is said to be retransformation capable. An environment that does not possess this capability at the time that ClassFileLoadHook is enabled for the first time is said to be retransformation incapable.
Optional Features
can_retransform_any_class RetransformClasses can be called on any class (can_retransform_classes must also be set)

Parameters
Name Type Description
class_countjint The number of classes to be retransformed.
classesconst jclass* The array of classes to be retransformed.

Agent passes in an array of class_count elements of jclass.

Errors
This function returns either a universal error or one of the following errors
Error Description
JVMTI_ERROR_MUST_POSSESS_CAPABILITY The environment does not possess the capability can_retransform_classes. Use AddCapabilities.
JVMTI_ERROR_UNMODIFIABLE_CLASS One of the classes cannot be modified. See IsModifiableClass.
JVMTI_ERROR_INVALID_CLASS One of the classes is not a valid class.
JVMTI_ERROR_UNSUPPORTED_VERSION A retransformed class file has a version number not supported by this VM.
JVMTI_ERROR_INVALID_CLASS_FORMAT A retransformed class file is malformed (The VM would return a ClassFormatError).
JVMTI_ERROR_CIRCULAR_CLASS_DEFINITION The retransformed class file definitions would lead to a circular definition (the VM would return a ClassCircularityError).
JVMTI_ERROR_FAILS_VERIFICATION The retransformed class file bytes fail verification.
JVMTI_ERROR_NAMES_DONT_MATCH The class name defined in a retransformed class file is different from the name in the old class object.
JVMTI_ERROR_UNSUPPORTED_REDEFINITION_METHOD_ADDED A retransformed class file would require adding a method.
JVMTI_ERROR_UNSUPPORTED_REDEFINITION_SCHEMA_CHANGED A retransformed class file changes a field.
JVMTI_ERROR_UNSUPPORTED_REDEFINITION_HIERARCHY_CHANGED A direct superclass is different for a retransformed class file, or the set of directly implemented interfaces is different.
JVMTI_ERROR_UNSUPPORTED_REDEFINITION_METHOD_DELETED A retransformed class file does not declare a method declared in the old class version.
JVMTI_ERROR_UNSUPPORTED_REDEFINITION_CLASS_MODIFIERS_CHANGED A retransformed class file has different class modifiers.
JVMTI_ERROR_UNSUPPORTED_REDEFINITION_METHOD_MODIFIERS_CHANGED A method in the retransformed class file has different modifiers than its counterpart in the old class version.
JVMTI_ERROR_ILLEGAL_ARGUMENT class_count is less than 0.
JVMTI_ERROR_NULL_POINTER classes is NULL.

Redefine Classes

typedef struct {
    jclass klass;
    jint class_byte_count;
    const unsigned char* class_bytes;
} jvmtiClassDefinition;
jvmtiError
RedefineClasses(jvmtiEnv* env,
            jint class_count,
            const jvmtiClassDefinition* class_definitions)
All classes given are redefined according to the definitions supplied. This function is used to replace the definition of a class with a new definition, as might be needed in fix-and-continue debugging. Where the existing class file bytes are to be transformed, for example in bytecode instrumentation, RetransformClasses should be used.

Redefinition can cause new versions of methods to be installed. Old method versions may become obsolete The new method version will be used on new invokes. If a method has active stack frames, those active frames continue to run the bytecodes of the original method version. If resetting of stack frames is desired, use PopFrame to pop frames with obsolete method versions.

This function does not cause any initialization except that which would occur under the customary JVM semantics. In other words, redefining a class does not cause its initializers to be run. The values of static fields will remain as they were prior to the call.

Threads need not be suspended.

All breakpoints in the class are cleared.

All attributes are updated.

Instances of the redefined class are not affected -- fields retain their previous values. Tags on the instances are also unaffected.

In response to this call, the JVM TI event Class File Load Hook will be sent (if enabled), but no other JVM TI events will be sent.

The redefinition may change method bodies, the constant pool and attributes. The redefinition must not add, remove or rename fields or methods, change the signatures of methods, change modifiers, or change inheritance. These restrictions may be lifted in future versions. See the error return description below for information on error codes returned if an unsupported redefinition is attempted. The class file bytes are not verified or installed until they have passed through the chain of ClassFileLoadHook events, thus the returned error code reflects the result of the transformations applied to the bytes passed into class_definitions. If any error code is returned other than JVMTI_ERROR_NONE, none of the classes to be redefined will have a new definition installed. When this function returns (with the error code of JVMTI_ERROR_NONE) all of the classes to be redefined will have their new definitions installed.

PhaseCallback SafePositionSince
may only be called during the live phase No 871.0

Capabilities
Optional Functionality: might not be implemented for all virtual machines. The following capability (as returned by GetCapabilities) must be true to use this function.
Capability Effect
can_redefine_classes Can redefine classes with RedefineClasses.
Optional Features
can_redefine_any_class Can modify (retransform or redefine) any non-primitive non-array class. See IsModifiableClass.

jvmtiClassDefinition - Class redefinition description
Field Type Description
klassjclass Class object for this class
class_byte_countjint Number of bytes defining class (below)
class_bytesconst unsigned char* Bytes defining class (in The Java™ Virtual Machine Specification, Chapter 4)

Parameters
Name Type Description
class_countjint The number of classes specified in class_definitions
class_definitionsconst jvmtiClassDefinition* The array of new class definitions

Agent passes in an array of class_count elements of jvmtiClassDefinition.

Errors
This function returns either a universal error or one of the following errors
Error Description
JVMTI_ERROR_MUST_POSSESS_CAPABILITY The environment does not possess the capability can_redefine_classes. Use AddCapabilities.
JVMTI_ERROR_NULL_POINTER One of class_bytes is NULL.
JVMTI_ERROR_UNMODIFIABLE_CLASS An element of class_definitions cannot be modified. See IsModifiableClass.
JVMTI_ERROR_INVALID_CLASS An element of class_definitions is not a valid class.
JVMTI_ERROR_UNSUPPORTED_VERSION A new class file has a version number not supported by this VM.
JVMTI_ERROR_INVALID_CLASS_FORMAT A new class file is malformed (The VM would return a ClassFormatError).
JVMTI_ERROR_CIRCULAR_CLASS_DEFINITION The new class file definitions would lead to a circular definition (the VM would return a ClassCircularityError).
JVMTI_ERROR_FAILS_VERIFICATION The class bytes fail verification.
JVMTI_ERROR_NAMES_DONT_MATCH The class name defined in a new class file is different from the name in the old class object.
JVMTI_ERROR_UNSUPPORTED_REDEFINITION_METHOD_ADDED A new class file would require adding a method.
JVMTI_ERROR_UNSUPPORTED_REDEFINITION_SCHEMA_CHANGED A new class version changes a field.
JVMTI_ERROR_UNSUPPORTED_REDEFINITION_HIERARCHY_CHANGED A direct superclass is different for a new class version, or the set of directly implemented interfaces is different.
JVMTI_ERROR_UNSUPPORTED_REDEFINITION_METHOD_DELETED A new class version does not declare a method declared in the old class version.
JVMTI_ERROR_UNSUPPORTED_REDEFINITION_CLASS_MODIFIERS_CHANGED A new class version has different modifiers.
JVMTI_ERROR_UNSUPPORTED_REDEFINITION_METHOD_MODIFIERS_CHANGED A method in the new class version has different modifiers than its counterpart in the old class version.
JVMTI_ERROR_ILLEGAL_ARGUMENT class_count is less than 0.
JVMTI_ERROR_NULL_POINTER class_definitions is NULL.


Object

Object functions: Object types:


Get Object Size

jvmtiError
GetObjectSize(jvmtiEnv* env,
            jobject object,
            jlong* size_ptr)
For the object indicated by object, return via size_ptr the size of the object. This size is an implementation-specific approximation of the amount of storage consumed by this object. It may include some or all of the object's overhead, and thus is useful for comparison within an implementation but not between implementations. The estimate may change during a single invocation of the JVM.

PhaseCallback SafePositionSince
may only be called during the start or the live phase No 1541.0

Capabilities
Required Functionality

Parameters
Name Type Description
objectjobject The object to query.
size_ptrjlong* On return, points to the object's size in bytes.

Agent passes a pointer to a jlong. On return, the jlong has been set.

Errors
This function returns either a universal error or one of the following errors
Error Description
JVMTI_ERROR_INVALID_OBJECT object is not an object.
JVMTI_ERROR_NULL_POINTER size_ptr is NULL.

Get Object Hash Code

jvmtiError
GetObjectHashCode(jvmtiEnv* env,
            jobject object,
            jint* hash_code_ptr)
For the object indicated by object, return via hash_code_ptr a hash code. This hash code could be used to maintain a hash table of object references, however, on some implementations this can cause significant performance impacts--in most cases tags will be a more efficient means of associating information with objects. This function guarantees the same hash code value for a particular object throughout its life

PhaseCallback SafePositionSince
may only be called during the start or the live phase No 581.0

Capabilities
Required Functionality

Parameters
Name Type Description
objectjobject The object to query.
hash_code_ptrjint* On return, points to the object's hash code.

Agent passes a pointer to a jint. On return, the jint has been set.

Errors
This function returns either a universal error or one of the following errors
Error Description
JVMTI_ERROR_INVALID_OBJECT object is not an object.
JVMTI_ERROR_NULL_POINTER hash_code_ptr is NULL.

Get Object Monitor Usage

typedef struct {
    jthread owner;
    jint entry_count;
    jint waiter_count;
    jthread* waiters;
    jint notify_waiter_count;
    jthread* notify_waiters;
} jvmtiMonitorUsage;
jvmtiError
GetObjectMonitorUsage(jvmtiEnv* env,
            jobject object,
            jvmtiMonitorUsage* info_ptr)
Get information about the object's monitor. The fields of the jvmtiMonitorUsage structure are filled in with information about usage of the monitor.

PhaseCallback SafePositionSince
may only be called during the live phase No 591.0

Capabilities
Optional Functionality: might not be implemented for all virtual machines. The following capability (as returned by GetCapabilities) must be true to use this function.
Capability Effect
can_get_monitor_info Can GetObjectMonitorUsage

jvmtiMonitorUsage - Object monitor usage information
Field Type Description
ownerjthread The thread owning this monitor, or NULL if unused
entry_countjint The number of times the owning thread has entered the monitor
waiter_countjint The number of threads waiting to own this monitor
waitersjthread* The waiter_count waiting threads
notify_waiter_countjint The number of threads waiting to be notified by this monitor
notify_waitersjthread* The notify_waiter_count threads waiting to be notified

Parameters
Name Type Description
objectjobject The object to query.
info_ptrjvmtiMonitorUsage* On return, filled with monitor information for the specified object.

Agent passes a pointer to a jvmtiMonitorUsage. On return, the jvmtiMonitorUsage has been set. The object returned in the field owner of jvmtiMonitorUsage is a JNI local reference and must be managed. The pointer returned in the field waiters of jvmtiMonitorUsage is a newly allocated array. The array should be freed with Deallocate. The objects returned in the field waiters of jvmtiMonitorUsage are JNI local references and must be managed. The pointer returned in the field notify_waiters of jvmtiMonitorUsage is a newly allocated array. The array should be freed with Deallocate. The objects returned in the field notify_waiters of jvmtiMonitorUsage are JNI local references and must be managed.

Errors
This function returns either a universal error or one of the following errors
Error Description
JVMTI_ERROR_MUST_POSSESS_CAPABILITY The environment does not possess the capability can_get_monitor_info. Use AddCapabilities.
JVMTI_ERROR_INVALID_OBJECT object is not an object.
JVMTI_ERROR_NULL_POINTER info_ptr is NULL.


Field

Field functions:


Get Field Name (and Signature)

jvmtiError
GetFieldName(jvmtiEnv* env,
            jclass klass,
            jfieldID field,
            char** name_ptr,
            char** signature_ptr,
            char** generic_ptr)
For the field indicated by klass and field, return the field name via name_ptr and field signature via signature_ptr.

Field signatures are defined in the JNI Specification and are referred to as field descriptors in The Java™ Virtual Machine Specification, Chapter 4.3.2.

PhaseCallback SafePositionSince
may only be called during the start or the live phase No 601.0

Capabilities
Required Functionality

Parameters
Name Type Description
klassjclass The class of the field to query.
fieldjfieldID The field to query.
name_ptr char ** On return, points to the field name, encoded as a modified UTF-8 string.

Agent passes a pointer to a char*. On return, the char* points to a newly allocated array. The array should be freed with Deallocate. If name_ptr is NULL, the name is not returned.
signature_ptr char ** On return, points to the field signature, encoded as a modified UTF-8 string.

Agent passes a pointer to a char*. On return, the char* points to a newly allocated array. The array should be freed with Deallocate. If signature_ptr is NULL, the signature is not returned.
generic_ptr char ** On return, points to the generic signature of the field, encoded as a modified UTF-8 string. If there is no generic signature attribute for the field, then, on return, points to NULL.

Agent passes a pointer to a char*. On return, the char* points to a newly allocated array. The array should be freed with Deallocate. If generic_ptr is NULL, the generic signature is not returned.

Errors
This function returns either a universal error or one of the following errors
Error Description
JVMTI_ERROR_INVALID_CLASS klass is not a class object or the class has been unloaded.
JVMTI_ERROR_INVALID_FIELDID field is not a jfieldID.

Get Field Declaring Class

jvmtiError
GetFieldDeclaringClass(jvmtiEnv* env,
            jclass klass,
            jfieldID field,
            jclass* declaring_class_ptr)
For the field indicated by klass and field return the class that defined it via declaring_class_ptr. The declaring class will either be klass, a superclass, or an implemented interface.

PhaseCallback SafePositionSince
may only be called during the start or the live phase No 611.0

Capabilities
Required Functionality

Parameters
Name Type Description
klassjclass The class to query.
fieldjfieldID The field to query.
declaring_class_ptrjclass* On return, points to the declaring class

Agent passes a pointer to a jclass. On return, the jclass has been set. The object returned by declaring_class_ptr is a JNI local reference and must be managed.

Errors
This function returns either a universal error or one of the following errors
Error Description
JVMTI_ERROR_INVALID_CLASS klass is not a class object or the class has been unloaded.
JVMTI_ERROR_INVALID_FIELDID field is not a jfieldID.
JVMTI_ERROR_NULL_POINTER declaring_class_ptr is NULL.

Get Field Modifiers

jvmtiError
GetFieldModifiers(jvmtiEnv* env,
            jclass klass,
            jfieldID field,
            jint* modifiers_ptr)
For the field indicated by klass and field return the access flags via modifiers_ptr. Access flags are defined in The Java™ Virtual Machine Specification, Chapter 4.

PhaseCallback SafePositionSince
may only be called during the start or the live phase No 621.0

Capabilities
Required Functionality

Parameters
Name Type Description
klassjclass The class to query.
fieldjfieldID The field to query.
modifiers_ptrjint* On return, points to the access flags.

Agent passes a pointer to a jint. On return, the jint has been set.

Errors
This function returns either a universal error or one of the following errors
Error Description
JVMTI_ERROR_INVALID_CLASS klass is not a class object or the class has been unloaded.
JVMTI_ERROR_INVALID_FIELDID field is not a jfieldID.
JVMTI_ERROR_NULL_POINTER modifiers_ptr is NULL.

Is Field Synthetic

jvmtiError
IsFieldSynthetic(jvmtiEnv* env,
            jclass klass,
            jfieldID field,
            jboolean* is_synthetic_ptr)
For the field indicated by klass and field, return a value indicating whether the field is synthetic via is_synthetic_ptr. Synthetic fields are generated by the compiler but not present in the original source code.

PhaseCallback SafePositionSince
may only be called during the start or the live phase No 631.0

Capabilities
Optional Functionality: might not be implemented for all virtual machines. The following capability (as returned by GetCapabilities) must be true to use this function.
Capability Effect
can_get_synthetic_attribute Can test if a field or method is synthetic - IsFieldSynthetic and IsMethodSynthetic

Parameters
Name Type Description
klassjclass The class of the field to query.
fieldjfieldID The field to query.
is_synthetic_ptrjboolean* On return, points to the boolean result of this function.

Agent passes a pointer to a jboolean. On return, the jboolean has been set.

Errors
This function returns either a universal error or one of the following errors
Error Description
JVMTI_ERROR_MUST_POSSESS_CAPABILITY The environment does not possess the capability can_get_synthetic_attribute. Use AddCapabilities.
JVMTI_ERROR_INVALID_CLASS klass is not a class object or the class has been unloaded.
JVMTI_ERROR_INVALID_FIELDID field is not a jfieldID.
JVMTI_ERROR_NULL_POINTER is_synthetic_ptr is NULL.


Method

Method functions: Method types: These functions provide information about a method (represented as a jmethodID) and set how methods are processed.

Obsolete Methods

The functions RetransformClasses and RedefineClasses can cause new versions of methods to be installed. An original version of a method is considered equivalent to the new version if: An original method version which is not equivalent to the new method version is called obsolete and is assigned a new method ID; the original method ID now refers to the new method version. A method ID can be tested for obsolescence with IsMethodObsolete.


Get Method Name (and Signature)

jvmtiError
GetMethodName(jvmtiEnv* env,
            jmethodID method,
            char** name_ptr,
            char** signature_ptr,
            char** generic_ptr)
For the method indicated by method, return the method name via name_ptr and method signature via signature_ptr.

Method signatures are defined in the JNI Specification and are referred to as method descriptors in The Java™ Virtual Machine Specification, Chapter 4.3.3. Note this is different than method signatures as defined in the Java Language Specification.

PhaseCallback SafePositionSince
may only be called during the start or the live phase No 641.0

Capabilities
Required Functionality

Parameters
Name Type Description
methodjmethodID The method to query.
name_ptr char ** On return, points to the method name, encoded as a modified UTF-8 string.

Agent passes a pointer to a char*. On return, the char* points to a newly allocated array. The array should be freed with Deallocate. If name_ptr is NULL, the name is not returned.
signature_ptr char ** On return, points to the method signature, encoded as a modified UTF-8 string.

Agent passes a pointer to a char*. On return, the char* points to a newly allocated array. The array should be freed with Deallocate. If signature_ptr is NULL, the signature is not returned.
generic_ptr char ** On return, points to the generic signature of the method, encoded as a modified UTF-8 string. If there is no generic signature attribute for the method, then, on return, points to NULL.

Agent passes a pointer to a char*. On return, the char* points to a newly allocated array. The array should be freed with Deallocate. If generic_ptr is NULL, the generic signature is not returned.

Errors
This function returns either a universal error or one of the following errors
Error Description
JVMTI_ERROR_INVALID_METHODID method is not a jmethodID.

Get Method Declaring Class

jvmtiError
GetMethodDeclaringClass(jvmtiEnv* env,
            jmethodID method,
            jclass* declaring_class_ptr)
For the method indicated by method, return the class that defined it via declaring_class_ptr.

PhaseCallback SafePositionSince
may only be called during the start or the live phase No 651.0

Capabilities
Required Functionality

Parameters
Name Type Description
methodjmethodID The method to query.
declaring_class_ptrjclass* On return, points to the declaring class

Agent passes a pointer to a jclass. On return, the jclass has been set. The object returned by declaring_class_ptr is a JNI local reference and must be managed.

Errors
This function returns either a universal error or one of the following errors
Error Description
JVMTI_ERROR_INVALID_METHODID method is not a jmethodID.
JVMTI_ERROR_NULL_POINTER declaring_class_ptr is NULL.

Get Method Modifiers

jvmtiError
GetMethodModifiers(jvmtiEnv* env,
            jmethodID method,
            jint* modifiers_ptr)
For the method indicated by method, return the access flags via modifiers_ptr. Access flags are defined in The Java™ Virtual Machine Specification, Chapter 4.

PhaseCallback SafePositionSince
may only be called during the start or the live phase No 661.0

Capabilities
Required Functionality

Parameters
Name Type Description
methodjmethodID The method to query.
modifiers_ptrjint* On return, points to the access flags.

Agent passes a pointer to a jint. On return, the jint has been set.

Errors
This function returns either a universal error or one of the following errors
Error Description
JVMTI_ERROR_INVALID_METHODID method is not a jmethodID.
JVMTI_ERROR_NULL_POINTER modifiers_ptr is NULL.

Get Max Locals

jvmtiError
GetMaxLocals(jvmtiEnv* env,
            jmethodID method,
            jint* max_ptr)
For the method indicated by method, return the number of local variable slots used by the method, including the local variables used to pass parameters to the method on its invocation.

See max_locals in The Java™ Virtual Machine Specification, Chapter 4.7.3.

PhaseCallback SafePositionSince
may only be called during the start or the live phase No 681.0

Capabilities
Required Functionality

Parameters
Name Type Description
methodjmethodID The method to query.
max_ptrjint* On return, points to the maximum number of local slots

Agent passes a pointer to a jint. On return, the jint has been set.

Errors
This function returns either a universal error or one of the following errors
Error Description
JVMTI_ERROR_INVALID_METHODID method is not a jmethodID.
JVMTI_ERROR_NATIVE_METHOD method is a native method.
JVMTI_ERROR_NULL_POINTER max_ptr is NULL.

Get Arguments Size

jvmtiError
GetArgumentsSize(jvmtiEnv* env,
            jmethodID method,
            jint* size_ptr)
For the method indicated by method, return via max_ptr the number of local variable slots used by the method's arguments. Note that two-word arguments use two slots.

PhaseCallback SafePositionSince
may only be called during the start or the live phase No 691.0

Capabilities
Required Functionality

Parameters
Name Type Description
methodjmethodID The method to query.
size_ptrjint* On return, points to the number of argument slots

Agent passes a pointer to a jint. On return, the jint has been set.

Errors
This function returns either a universal error or one of the following errors
Error Description
JVMTI_ERROR_INVALID_METHODID method is not a jmethodID.
JVMTI_ERROR_NATIVE_METHOD method is a native method.
JVMTI_ERROR_NULL_POINTER size_ptr is NULL.

Get Line Number Table

typedef struct {
    jlocation start_location;
    jint line_number;
} jvmtiLineNumberEntry;
jvmtiError
GetLineNumberTable(jvmtiEnv* env,
            jmethodID method,
            jint* entry_count_ptr,
            jvmtiLineNumberEntry** table_ptr)
For the method indicated by method, return a table of source line number entries. The size of the table is returned via entry_count_ptr and the table itself is returned via table_ptr.

PhaseCallback SafePositionSince
may only be called during the start or the live phase No 701.0

Capabilities
Optional Functionality: might not be implemented for all virtual machines. The following capability (as returned by GetCapabilities) must be true to use this function.
Capability Effect
can_get_line_numbers Can get the line number table of a method

jvmtiLineNumberEntry - Line number table entry
Field Type Description
start_locationjlocation the jlocation where the line begins
line_numberjint the line number

Parameters
Name Type Description
methodjmethodID The method to query.
entry_count_ptrjint* On return, points to the number of entries in the table

Agent passes a pointer to a jint. On return, the jint has been set.
table_ptrjvmtiLineNumberEntry** On return, points to the line number table pointer.

Agent passes a pointer to a jvmtiLineNumberEntry*. On return, the jvmtiLineNumberEntry* points to a newly allocated array of size *entry_count_ptr. The array should be freed with Deallocate.

Errors
This function returns either a universal error or one of the following errors
Error Description
JVMTI_ERROR_MUST_POSSESS_CAPABILITY The environment does not possess the capability can_get_line_numbers. Use AddCapabilities.
JVMTI_ERROR_ABSENT_INFORMATION Class information does not include line numbers.
JVMTI_ERROR_INVALID_METHODID method is not a jmethodID.
JVMTI_ERROR_NATIVE_METHOD method is a native method.
JVMTI_ERROR_NULL_POINTER entry_count_ptr is NULL.
JVMTI_ERROR_NULL_POINTER table_ptr is NULL.

Get Method Location

jvmtiError
GetMethodLocation(jvmtiEnv* env,
            jmethodID method,
            jlocation* start_location_ptr,
            jlocation* end_location_ptr)
For the method indicated by method, return the beginning and ending addresses through start_location_ptr and end_location_ptr. In a conventional byte code indexing scheme, start_location_ptr will always point to zero and end_location_ptr will always point to the byte code count minus one.

PhaseCallback SafePositionSince
may only be called during the start or the live phase No 711.0

Capabilities
Required Functionality

Parameters
Name Type Description
methodjmethodID The method to query.
start_location_ptrjlocation* On return, points to the first location, or -1 if location information is not available. If the information is available and GetJLocationFormat returns JVMTI_JLOCATION_JVMBCI then this will always be zero.

Agent passes a pointer to a jlocation. On return, the jlocation has been set.
end_location_ptrjlocation* On return, points to the last location, or -1 if location information is not available.

Agent passes a pointer to a jlocation. On return, the jlocation has been set.

Errors
This function returns either a universal error or one of the following errors
Error Description
JVMTI_ERROR_ABSENT_INFORMATION Class information does not include method sizes.
JVMTI_ERROR_INVALID_METHODID method is not a jmethodID.
JVMTI_ERROR_NATIVE_METHOD method is a native method.
JVMTI_ERROR_NULL_POINTER start_location_ptr is NULL.
JVMTI_ERROR_NULL_POINTER end_location_ptr is NULL.

Get Local Variable Table

typedef struct {
    jlocation start_location;
    jint length;
    char* name;
    char* signature;
    char* generic_signature;
    jint slot;
} jvmtiLocalVariableEntry;
jvmtiError
GetLocalVariableTable(jvmtiEnv* env,
            jmethodID method,
            jint* entry_count_ptr,
            jvmtiLocalVariableEntry** table_ptr)
Return local variable information.

PhaseCallback SafePositionSince
may only be called during the live phase No 721.0

Capabilities
Optional Functionality: might not be implemented for all virtual machines. The following capability (as returned by GetCapabilities) must be true to use this function.
Capability Effect
can_access_local_variables Can set and get local variables

jvmtiLocalVariableEntry - Local variable table entry
Field Type Description
start_locationjlocation The code array index where the local variable is first valid (that is, where it must have a value).
lengthjint The length of the valid section for this local variable. The last code array index where the local variable is valid is start_location + length.
namechar* The local variable name, encoded as a modified UTF-8 string.
signaturechar* The local variable's type signature, encoded as a modified UTF-8 string. The signature format is the same as that defined in The Java™ Virtual Machine Specification, Chapter 4.3.2.
generic_signaturechar* The local variable's generic signature, encoded as a modified UTF-8 string. The value of this field will be NULL for any local variable which does not have a generic type.
slotjint The local variable's slot. See Local Variables.

Parameters
Name Type Description
methodjmethodID The method to query.
entry_count_ptrjint* On return, points to the number of entries in the table

Agent passes a pointer to a jint. On return, the jint has been set.
table_ptrjvmtiLocalVariableEntry** On return, points to an array of local variable table entries.

Agent passes a pointer to a jvmtiLocalVariableEntry*. On return, the jvmtiLocalVariableEntry* points to a newly allocated array of size *entry_count_ptr. The array should be freed with Deallocate. The pointers returned in the field name of jvmtiLocalVariableEntry are newly allocated arrays. The arrays should be freed with Deallocate. The pointers returned in the field signature of jvmtiLocalVariableEntry are newly allocated arrays. The arrays should be freed with Deallocate. The pointers returned in the field generic_signature of jvmtiLocalVariableEntry are newly allocated arrays. The arrays should be freed with Deallocate.

Errors
This function returns either a universal error or one of the following errors
Error Description
JVMTI_ERROR_MUST_POSSESS_CAPABILITY The environment does not possess the capability can_access_local_variables. Use AddCapabilities.
JVMTI_ERROR_ABSENT_INFORMATION Class information does not include local variable information.
JVMTI_ERROR_INVALID_METHODID method is not a jmethodID.
JVMTI_ERROR_NATIVE_METHOD method is a native method.
JVMTI_ERROR_NULL_POINTER entry_count_ptr is NULL.
JVMTI_ERROR_NULL_POINTER table_ptr is NULL.

Get Bytecodes

jvmtiError
GetBytecodes(jvmtiEnv* env,
            jmethodID method,
            jint* bytecode_count_ptr,
            unsigned char** bytecodes_ptr)
For the method indicated by method, return the byte codes that implement the method. The number of bytecodes is returned via bytecode_count_ptr. The byte codes themselves are returned via bytecodes_ptr.

PhaseCallback SafePositionSince
may only be called during the start or the live phase No 751.0

Capabilities
Optional Functionality: might not be implemented for all virtual machines. The following capability (as returned by GetCapabilities) must be true to use this function.
Capability Effect
can_get_bytecodes Can get bytecodes of a method GetBytecodes

Parameters
Name Type Description
methodjmethodID The method to query.
bytecode_count_ptrjint* On return, points to the length of the byte code array

Agent passes a pointer to a jint. On return, the jint has been set.
bytecodes_ptrunsigned char** On return, points to the pointer to the byte code array

Agent passes a pointer to a unsigned char*. On return, the unsigned char* points to a newly allocated array of size *bytecode_count_ptr. The array should be freed with Deallocate.

Errors
This function returns either a universal error or one of the following errors
Error Description
JVMTI_ERROR_MUST_POSSESS_CAPABILITY The environment does not possess the capability can_get_bytecodes. Use AddCapabilities.
JVMTI_ERROR_INVALID_METHODID method is not a jmethodID.
JVMTI_ERROR_NATIVE_METHOD method is a native method.
JVMTI_ERROR_NULL_POINTER bytecode_count_ptr is NULL.
JVMTI_ERROR_NULL_POINTER bytecodes_ptr is NULL.

Is Method Native

jvmtiError
IsMethodNative(jvmtiEnv* env,
            jmethodID method,
            jboolean* is_native_ptr)
For the method indicated by method, return a value indicating whether the method is native via is_native_ptr

PhaseCallback SafePositionSince
may only be called during the start or the live phase No 761.0

Capabilities
Required Functionality

Parameters
Name Type Description
methodjmethodID The method to query.
is_native_ptrjboolean* On return, points to the boolean result of this function.

Agent passes a pointer to a jboolean. On return, the jboolean has been set.

Errors
This function returns either a universal error or one of the following errors
Error Description
JVMTI_ERROR_INVALID_METHODID method is not a jmethodID.
JVMTI_ERROR_NULL_POINTER is_native_ptr is NULL.

Is Method Synthetic

jvmtiError
IsMethodSynthetic(jvmtiEnv* env,
            jmethodID method,
            jboolean* is_synthetic_ptr)
For the method indicated by method, return a value indicating whether the method is synthetic via is_synthetic_ptr. Synthetic methods are generated by the compiler but not present in the original source code.

PhaseCallback SafePositionSince
may only be called during the start or the live phase No 771.0

Capabilities
Optional Functionality: might not be implemented for all virtual machines. The following capability (as returned by GetCapabilities) must be true to use this function.
Capability Effect
can_get_synthetic_attribute Can test if a field or method is synthetic - IsFieldSynthetic and IsMethodSynthetic

Parameters
Name Type Description
methodjmethodID The method to query.
is_synthetic_ptrjboolean* On return, points to the boolean result of this function.

Agent passes a pointer to a jboolean. On return, the jboolean has been set.

Errors
This function returns either a universal error or one of the following errors
Error Description
JVMTI_ERROR_MUST_POSSESS_CAPABILITY The environment does not possess the capability can_get_synthetic_attribute. Use AddCapabilities.
JVMTI_ERROR_INVALID_METHODID method is not a jmethodID.
JVMTI_ERROR_NULL_POINTER is_synthetic_ptr is NULL.

Is Method Obsolete

jvmtiError
IsMethodObsolete(jvmtiEnv* env,
            jmethodID method,
            jboolean* is_obsolete_ptr)
Determine if a method ID refers to an obsolete method version.

PhaseCallback SafePositionSince
may only be called during the start or the live phase No 911.0

Capabilities
Required Functionality

Parameters
Name Type Description
methodjmethodID The method ID to query.
is_obsolete_ptrjboolean* On return, points to the boolean result of this function.

Agent passes a pointer to a jboolean. On return, the jboolean has been set.

Errors
This function returns either a universal error or one of the following errors
Error Description
JVMTI_ERROR_INVALID_METHODID method is not a jmethodID.
JVMTI_ERROR_NULL_POINTER is_obsolete_ptr is NULL.

Set Native Method Prefix

jvmtiError
SetNativeMethodPrefix(jvmtiEnv* env,
            const char* prefix)
This function modifies the failure handling of native method resolution by allowing retry with a prefix applied to the name. When used with the ClassFileLoadHook event, it enables native methods to be instrumented.

Since native methods cannot be directly instrumented (they have no bytecodes), they must be wrapped with a non-native method which can be instrumented. For example, if we had:
native boolean foo(int x);

We could transform the class file (with the ClassFileLoadHook event) so that this becomes:
boolean foo(int x) {
  ... record entry to foo ...
  return wrapped_foo(x);
}

native boolean wrapped_foo(int x);

Where foo becomes a wrapper for the actual native method with the appended prefix "wrapped_". Note that "wrapped_" would be a poor choice of prefix since it might conceivably form the name of an existing method thus something like "$$$MyAgentWrapped$$$_" would be better but would make these examples less readable.

The wrapper will allow data to be collected on the native method call, but now the problem becomes linking up the wrapped method with the native implementation. That is, the method wrapped_foo needs to be resolved to the native implementation of foo, which might be:
Java_somePackage_someClass_foo(JNIEnv* env, jint x)

This function allows the prefix to be specified and the proper resolution to occur. Specifically, when the standard resolution fails, the resolution is retried taking the prefix into consideration. There are two ways that resolution occurs, explicit resolution with the JNI function RegisterNatives and the normal automatic resolution. For RegisterNatives, the VM will attempt this association:
method(foo) -> nativeImplementation(foo)

When this fails, the resolution will be retried with the specified prefix prepended to the method name, yielding the correct resolution:
method(wrapped_foo) -> nativeImplementation(foo)

For automatic resolution, the VM will attempt:
method(wrapped_foo) -> nativeImplementation(wrapped_foo)

When this fails, the resolution will be retried with the specified prefix deleted from the implementation name, yielding the correct resolution:
method(wrapped_foo) -> nativeImplementation(foo)

Note that since the prefix is only used when standard resolution fails, native methods can be wrapped selectively.

Since each JVM TI environment is independent and can do its own transformation of the bytecodes, more than one layer of wrappers may be applied. Thus each environment needs its own prefix. Since transformations are applied in order, the prefixes, if applied, will be applied in the same order. The order of transformation application is described in the ClassFileLoadHook event. Thus if three environments applied wrappers, foo might become $env3_$env2_$env1_foo. But if, say, the second environment did not apply a wrapper to foo it would be just $env3_$env1_foo. To be able to efficiently determine the sequence of prefixes, an intermediate prefix is only applied if its non-native wrapper exists. Thus, in the last example, even though $env1_foo is not a native method, the $env1_ prefix is applied since $env1_foo exists.

Since the prefixes are used at resolution time and since resolution may be arbitrarily delayed, a native method prefix must remain set as long as there are corresponding prefixed native methods.

PhaseCallback SafePositionSince
may be called during any phase No 731.1

Capabilities
Optional Functionality: might not be implemented for all virtual machines. The following capability (as returned by GetCapabilities) must be true to use this function.
Capability Effect
can_set_native_method_prefix Can set prefix to be applied when native method cannot be resolved - SetNativeMethodPrefix and SetNativeMethodPrefixes

Parameters
Name Type Description
prefixconst char * The prefix to apply, encoded as a modified UTF-8 string.

Agent passes in an array of char. If prefix is NULL, any existing prefix in this environment is cancelled .

Errors
This function returns either a universal error or one of the following errors
Error Description
JVMTI_ERROR_MUST_POSSESS_CAPABILITY The environment does not possess the capability can_set_native_method_prefix. Use AddCapabilities.

Set Native Method Prefixes

jvmtiError
SetNativeMethodPrefixes(jvmtiEnv* env,
            jint prefix_count,
            char** prefixes)
For a normal agent, SetNativeMethodPrefix will provide all needed native method prefixing. For a meta-agent that performs multiple independent class file transformations (for example as a proxy for another layer of agents) this function allows each transformation to have its own prefix. The prefixes are applied in the order supplied and are processed in the same manor as described for the application of prefixes from multiple JVM TI environments in SetNativeMethodPrefix.

Any previous prefixes are replaced. Thus, calling this function with a prefix_count of 0 disables prefixing in this environment.

SetNativeMethodPrefix and this function are the two ways to set the prefixes. Calling SetNativeMethodPrefix with a prefix is the same as calling this function with prefix_count of 1. Calling SetNativeMethodPrefix with NULL is the same as calling this function with prefix_count of 0.

PhaseCallback SafePositionSince
may be called during any phase No 741.1

Capabilities
Optional Functionality: might not be implemented for all virtual machines. The following capability (as returned by GetCapabilities) must be true to use this function.
Capability Effect
can_set_native_method_prefix Can set prefix to be applied when native method cannot be resolved - SetNativeMethodPrefix and SetNativeMethodPrefixes

Parameters
Name Type Description
prefix_countjint The number of prefixes to apply.
prefixes char ** The prefixes to apply for this environment, each encoded as a modified UTF-8 string.

Errors
This function returns either a universal error or one of the following errors
Error Description
JVMTI_ERROR_MUST_POSSESS_CAPABILITY The environment does not possess the capability can_set_native_method_prefix. Use AddCapabilities.
JVMTI_ERROR_ILLEGAL_ARGUMENT prefix_count is less than 0.
JVMTI_ERROR_NULL_POINTER prefixes is NULL.


Raw Monitor

Raw Monitor functions:


Create Raw Monitor

jvmtiError
CreateRawMonitor(jvmtiEnv* env,
            const char* name,
            jrawMonitorID* monitor_ptr)
Create a raw monitor.

PhaseCallback SafePositionSince
may only be called during the OnLoad or the live phase This function may be called from the callbacks to the Heap iteration functions, or from the event handlers for the GarbageCollectionStart, GarbageCollectionFinish, and ObjectFree events. 311.0

Capabilities
Required Functionality

Parameters
Name Type Description
nameconst char* A name to identify the monitor, encoded as a modified UTF-8 string.

Agent passes in an array of char.
monitor_ptrjrawMonitorID* On return, points to the created monitor.

Agent passes a pointer to a jrawMonitorID. On return, the jrawMonitorID has been set.

Errors
This function returns either a universal error or one of the following errors
Error Description
JVMTI_ERROR_NULL_POINTER name is NULL.
JVMTI_ERROR_NULL_POINTER monitor_ptr is NULL.

Destroy Raw Monitor

jvmtiError
DestroyRawMonitor(jvmtiEnv* env,
            jrawMonitorID monitor)
Destroy the raw monitor. If the monitor being destroyed has been entered by this thread, it will be exited before it is destroyed. If the monitor being destroyed has been entered by another thread, an error will be returned and the monitor will not be destroyed.

PhaseCallback SafePositionSince
may only be called during the OnLoad or the live phase This function may be called from the callbacks to the Heap iteration functions, or from the event handlers for the GarbageCollectionStart, GarbageCollectionFinish, and ObjectFree events. 321.0

Capabilities
Required Functionality

Parameters
Name Type Description
monitorjrawMonitorID The monitor

Errors
This function returns either a universal error or one of the following errors
Error Description
JVMTI_ERROR_NOT_MONITOR_OWNER Not monitor owner
JVMTI_ERROR_INVALID_MONITOR monitor is not a jrawMonitorID.

Raw Monitor Enter

jvmtiError
RawMonitorEnter(jvmtiEnv* env,
            jrawMonitorID monitor)
Gain exclusive ownership of a raw monitor. The same thread may enter a monitor more then once. The thread must exit the monitor the same number of times as it is entered. If a monitor is entered during OnLoad (before attached threads exist) and has not exited when attached threads come into existence, the enter is considered to have occurred on the main thread.

PhaseCallback SafePositionSince
may be called during any phase This function may be called from the callbacks to the Heap iteration functions, or from the event handlers for the GarbageCollectionStart, GarbageCollectionFinish, and ObjectFree events. 331.0

Capabilities
Required Functionality

Parameters
Name Type Description
monitorjrawMonitorID The monitor

Errors
This function returns either a universal error or one of the following errors
Error Description
JVMTI_ERROR_INVALID_MONITOR monitor is not a jrawMonitorID.

Raw Monitor Exit

jvmtiError
RawMonitorExit(jvmtiEnv* env,
            jrawMonitorID monitor)
Release exclusive ownership of a raw monitor.

PhaseCallback SafePositionSince
may be called during any phase This function may be called from the callbacks to the Heap iteration functions, or from the event handlers for the GarbageCollectionStart, GarbageCollectionFinish, and ObjectFree events. 341.0

Capabilities
Required Functionality

Parameters
Name Type Description
monitorjrawMonitorID The monitor

Errors
This function returns either a universal error or one of the following errors
Error Description
JVMTI_ERROR_NOT_MONITOR_OWNER Not monitor owner
JVMTI_ERROR_INVALID_MONITOR monitor is not a jrawMonitorID.

Raw Monitor Wait

jvmtiError
RawMonitorWait(jvmtiEnv* env,
            jrawMonitorID monitor,
            jlong millis)
Wait for notification of the raw monitor.

Causes the current thread to wait until either another thread calls RawMonitorNotify or RawMonitorNotifyAll for the specified raw monitor, or the specified timeout has elapsed.

PhaseCallback SafePositionSince
may be called during any phase This function may be called from the callbacks to the Heap iteration functions, or from the event handlers for the GarbageCollectionStart, GarbageCollectionFinish, and ObjectFree events. 351.0

Capabilities
Required Functionality

Parameters
Name Type Description
monitorjrawMonitorID The monitor
millisjlong The timeout, in milliseconds. If the timeout is zero, then real time is not taken into consideration and the thread simply waits until notified.

Errors
This function returns either a universal error or one of the following errors
Error Description
JVMTI_ERROR_NOT_MONITOR_OWNER Not monitor owner
JVMTI_ERROR_INTERRUPT Wait was interrupted, try again
JVMTI_ERROR_INVALID_MONITOR monitor is not a jrawMonitorID.

Raw Monitor Notify

jvmtiError
RawMonitorNotify(jvmtiEnv* env,
            jrawMonitorID monitor)
Notify a single thread waiting on the raw monitor.

PhaseCallback SafePositionSince
may be called during any phase This function may be called from the callbacks to the Heap iteration functions, or from the event handlers for the GarbageCollectionStart, GarbageCollectionFinish, and ObjectFree events. 361.0

Capabilities
Required Functionality

Parameters
Name Type Description
monitorjrawMonitorID The monitor

Errors
This function returns either a universal error or one of the following errors
Error Description
JVMTI_ERROR_NOT_MONITOR_OWNER Not monitor owner
JVMTI_ERROR_INVALID_MONITOR monitor is not a jrawMonitorID.

Raw Monitor Notify All

jvmtiError
RawMonitorNotifyAll(jvmtiEnv* env,
            jrawMonitorID monitor)
Notify all threads waiting on the raw monitor.

PhaseCallback SafePositionSince
may be called during any phase This function may be called from the callbacks to the Heap iteration functions, or from the event handlers for the GarbageCollectionStart, GarbageCollectionFinish, and ObjectFree events. 371.0

Capabilities
Required Functionality

Parameters
Name Type Description
monitorjrawMonitorID The monitor

Errors
This function returns either a universal error or one of the following errors
Error Description
JVMTI_ERROR_NOT_MONITOR_OWNER Not monitor owner
JVMTI_ERROR_INVALID_MONITOR monitor is not a jrawMonitorID.


JNI Function Interception

JNI Function Interception functions: Provides the ability to intercept and resend Java Native Interface (JNI) function calls by manipulating the JNI function table. See JNI Functions in the Java Native Interface Specification.

The following example illustrates intercepting the NewGlobalRef JNI call in order to count reference creation.
JNIEnv original_jni_Functions;
JNIEnv redirected_jni_Functions;
int my_global_ref_count = 0;

jobject
MyNewGlobalRef(JNIEnv *jni_env, jobject lobj) {
   ++my_global_ref_count;
   return originalJNIFunctions->NewGlobalRef(env, lobj);
}

void
myInit() {
   jvmtiError err;

   err = (*jvmti_env)->GetJNIFunctionTable(jvmti_env, &original_jni_Functions);
   if (err != JVMTI_ERROR_NONE) {
      die();
   }
   err = (*jvmti_env)->GetJNIFunctionTable(jvmti_env, &redirected_jni_Functions);
   if (err != JVMTI_ERROR_NONE) {
      die();
   }
   redirectedJNIFunctions->NewGlobalRef = MyNewGlobalRef;
      err = (*jvmti_env)->SetJNIFunctionTable(jvmti_env, redirected_jni_Functions);
   if (err != JVMTI_ERROR_NONE) {
      die();
   }
}
      
Sometime after myInit is called the user's JNI code is executed which makes the call to create a new global reference. Instead of going to the normal JNI implementation the call goes to myNewGlobalRef. Note that a copy of the original function table is kept so that the normal JNI function can be called after the data is collected. Note also that any JNI functions which are not overwritten will behave normally.


Set JNI Function Table

jvmtiError
SetJNIFunctionTable(jvmtiEnv* env,
            const jniNativeInterface* function_table)
Set the JNI function table in all current and future JNI environments. As a result, all future JNI calls are directed to the specified functions. Use GetJNIFunctionTable to get the function table to pass to this function. For this function to take effect the the updated table entries must be used by the JNI clients. Since the table is defined const some compilers may optimize away the access to the table, thus preventing this function from taking effect. The table is copied--changes to the local copy of the table have no effect. This function affects only the function table, all other aspects of the environment are unaffected. See the examples above.

PhaseCallback SafePositionSince
may only be called during the start or the live phase No 1201.0

Capabilities
Required Functionality

Parameters
Name Type Description
function_tableconst jniNativeInterface * Points to the new JNI function table.

Agent passes in a pointer to jniNativeInterface.

Errors
This function returns either a universal error or one of the following errors
Error Description
JVMTI_ERROR_NULL_POINTER function_table is NULL.

Get JNI Function Table

jvmtiError
GetJNIFunctionTable(jvmtiEnv* env,
            jniNativeInterface** function_table)
Get the JNI function table. The JNI function table is copied into allocated memory. If SetJNIFunctionTable has been called, the modified (not the original) function table is returned. Only the function table is copied, no other aspects of the environment are copied. See the examples above.

PhaseCallback SafePositionSince
may only be called during the start or the live phase No 1211.0

Capabilities
Required Functionality

Parameters
Name Type Description
function_table jniNativeInterface ** On return, *function_table points a newly allocated copy of the JNI function table.

Agent passes a pointer to a jniNativeInterface*. On return, the jniNativeInterface* points to a newly allocated array. The array should be freed with Deallocate.

Errors
This function returns either a universal error or one of the following errors
Error Description
JVMTI_ERROR_NULL_POINTER function_table is NULL.


Event Management

Event Management functions: Event Management types:


Set Event Callbacks

jvmtiError
SetEventCallbacks(jvmtiEnv* env,
            const jvmtiEventCallbacks* callbacks,
            jint size_of_callbacks)
Set the functions to be called for each event. The callbacks are specified by supplying a replacement function table. The function table is copied--changes to the local copy of the table have no effect. This is an atomic action, all callbacks are set at once. No events are sent before this function is called. When an entry is NULL or when the event is beyond size_of_callbacks no event is sent. Details on events are described later in this document. An event must be enabled and have a callback in order to be sent--the order in which this function and SetEventNotificationMode are called does not affect the result.

PhaseCallback SafePositionSince
may only be called during the OnLoad or the live phase No 1221.0

Capabilities
Required Functionality

Parameters
Name Type Description
callbacksconst jvmtiEventCallbacks * The new event callbacks.

Agent passes in a pointer to jvmtiEventCallbacks. If callbacks is NULL, remove the existing callbacks.
size_of_callbacksjint sizeof(jvmtiEventCallbacks)--for version compatibility.

Errors
This function returns either a universal error or one of the following errors
Error Description
JVMTI_ERROR_ILLEGAL_ARGUMENT size_of_callbacks is less than 0.

Set Event Notification Mode

typedef enum {
    JVMTI_ENABLE = 1,
    JVMTI_DISABLE = 0
} jvmtiEventMode;
jvmtiError
SetEventNotificationMode(jvmtiEnv* env,
            jvmtiEventMode mode,
            jvmtiEvent event_type,
            jthread event_thread,
             ...)
Control the generation of events.
Event Enable/Disable (jvmtiEventMode)
Constant Value Description
JVMTI_ENABLE1 If mode is JVMTI_ENABLE, the event event_type will be enabled
JVMTI_DISABLE0 If mode is JVMTI_DISABLE, the event event_type will be disabled
If thread is NULL, the event is enabled or disabled globally; otherwise, it is enabled or disabled for a particular thread. An event is generated for a particular thread if it is enabled either at the thread or global levels.

See below for information on specific events.

The following events cannot be controlled at the thread level through this function.

Initially, no events are enabled at either the thread level or the global level.

Any needed capabilities (see Event Enabling Capabilities below) must be possessed before calling this function.

Details on events are described below.

PhaseCallback SafePositionSince
may only be called during the OnLoad or the live phase No 21.0

Capabilities
Required Functionality
Event Enabling Capabilities
Capability Events
can_generate_field_modification_eventsFieldModification
can_generate_field_access_eventsFieldAccess
can_generate_single_step_eventsSingleStep
can_generate_exception_eventsException
ExceptionCatch
can_generate_frame_pop_eventsFramePop
can_generate_breakpoint_eventsBreakpoint
can_generate_method_entry_eventsMethodEntry
can_generate_method_exit_eventsMethodExit
can_generate_compiled_method_load_eventsCompiledMethodLoad
CompiledMethodUnload
can_generate_monitor_eventsMonitorContendedEnter
MonitorContendedEntered
MonitorWait
MonitorWaited
can_generate_vm_object_alloc_eventsVMObjectAlloc
can_generate_native_method_bind_eventsNativeMethodBind
can_generate_garbage_collection_eventsGarbageCollectionStart
GarbageCollectionFinish
can_generate_object_free_eventsObjectFree

Parameters
Name Type Description
modejvmtiEventMode JVMTI_ENABLE or JVMTI_DISABLE
event_typejvmtiEvent the event to control
event_thread jthread The thread to control

If event_thread is NULL, event is controlled at the global level.
...... for future expansion

Errors
This function returns either a universal error or one of the following errors
Error Description
JVMTI_ERROR_INVALID_THREAD event_thread is non-NULL and is not a valid thread.
JVMTI_ERROR_THREAD_NOT_ALIVE event_thread is non-NULL and is not live (has not been started or is now dead).
JVMTI_ERROR_ILLEGAL_ARGUMENT thread level control was attempted on events which do not permit thread level control.
JVMTI_ERROR_MUST_POSSESS_CAPABILITY The Required Event Enabling Capability is not possessed.
JVMTI_ERROR_ILLEGAL_ARGUMENT mode is not a jvmtiEventMode.
JVMTI_ERROR_INVALID_EVENT_TYPE event_type is not a jvmtiEvent.

Generate Events

jvmtiError
GenerateEvents(jvmtiEnv* env,
            jvmtiEvent event_type)
Generate events to represent the current state of the VM. For example, if event_type is JVMTI_EVENT_COMPILED_METHOD_LOAD, a CompiledMethodLoad event will be sent for each currently compiled method. Methods that were loaded and now have been unloaded are not sent. The history of what events have previously been sent does not effect what events are sent by this function--for example, all currently compiled methods will be sent each time this function is called.

This function is useful when events may have been missed due to the agent attaching after program execution begins; this function generates the missed events.

Attempts to execute Java programming language code or JNI functions may be paused until this function returns - so neither should be called from the thread sending the event. This function returns only after the missed events have been sent, processed and have returned. The event may be sent on a different thread than the thread on which the event occurred. The callback for the event must be set with SetEventCallbacks and the event must be enabled with SetEventNotificationMode or the events will not occur. If the VM no longer has the information to generate some or all of the requested events, the events are simply not sent - no error is returned.

Only the following events are supported:

PhaseCallback SafePositionSince
may only be called during the live phase No 1231.0

Capabilities
Required Functionality
Optional Features
Capability Effect
can_generate_compiled_method_load_events Can generate events when a method is compiled or unloaded

Parameters
Name Type Description
event_typejvmtiEvent The type of event to generate. Must be one of these:

Errors
This function returns either a universal error or one of the following errors
Error Description
JVMTI_ERROR_MUST_POSSESS_CAPABILITY event_type is JVMTI_EVENT_COMPILED_METHOD_LOAD and can_generate_compiled_method_load_events is false.
JVMTI_ERROR_ILLEGAL_ARGUMENT event_type is other than JVMTI_EVENT_COMPILED_METHOD_LOAD or JVMTI_EVENT_DYNAMIC_CODE_GENERATED.
JVMTI_ERROR_INVALID_EVENT_TYPE event_type is not a jvmtiEvent.


Extension Mechanism

Extension Mechanism functions: Extension Mechanism function types: Extension Mechanism types: These functions allow a JVM TI implementation to provide functions and events beyond those defined in this specification.

Both extension functions and extension events have parameters each of which has a 'type' and 'kind' chosen from the following tables:
Extension Function/Event Parameter Types (jvmtiParamTypes)
Constant Value Description
JVMTI_TYPE_JBYTE101 Java programming language primitive type - byte. JNI type jbyte.
JVMTI_TYPE_JCHAR102 Java programming language primitive type - char. JNI type jchar.
JVMTI_TYPE_JSHORT103 Java programming language primitive type - short. JNI type jshort.
JVMTI_TYPE_JINT104 Java programming language primitive type - int. JNI type jint.
JVMTI_TYPE_JLONG105 Java programming language primitive type - long. JNI type jlong.
JVMTI_TYPE_JFLOAT106 Java programming language primitive type - float. JNI type jfloat.
JVMTI_TYPE_JDOUBLE107 Java programming language primitive type - double. JNI type jdouble.
JVMTI_TYPE_JBOOLEAN108 Java programming language primitive type - boolean. JNI type jboolean.
JVMTI_TYPE_JOBJECT109 Java programming language object type - java.lang.Object. JNI type jobject. Returned values are JNI local references and must be managed.
JVMTI_TYPE_JTHREAD110 Java programming language object type - java.lang.Thread. JVM TI type jthread. Returned values are JNI local references and must be managed.
JVMTI_TYPE_JCLASS111 Java programming language object type - java.lang.Class. JNI type jclass. Returned values are JNI local references and must be managed.
JVMTI_TYPE_JVALUE112 Union of all Java programming language primitive and object types - JNI type jvalue. Returned values which represent object types are JNI local references and must be managed.
JVMTI_TYPE_JFIELDID113 Java programming language field identifier - JNI type jfieldID.
JVMTI_TYPE_JMETHODID114 Java programming language method identifier - JNI type jmethodID.
JVMTI_TYPE_CCHAR115 C programming language type - char.
JVMTI_TYPE_CVOID116 C programming language type - void.
JVMTI_TYPE_JNIENV117 JNI environment - JNIEnv. Should be used with the correct jvmtiParamKind to make it a pointer type.
Extension Function/Event Parameter Kinds (jvmtiParamKind)
Constant Value Description
JVMTI_KIND_IN91 Ingoing argument - foo.
JVMTI_KIND_IN_PTR92 Ingoing pointer argument - const foo*.
JVMTI_KIND_IN_BUF93 Ingoing array argument - const foo*.
JVMTI_KIND_ALLOC_BUF94 Outgoing allocated array argument - foo**. Free with Deallocate.
JVMTI_KIND_ALLOC_ALLOC_BUF95 Outgoing allocated array of allocated arrays argument - foo***. Free with Deallocate.
JVMTI_KIND_OUT96 Outgoing argument - foo*.
JVMTI_KIND_OUT_BUF97 Outgoing array argument (pre-allocated by agent) - foo*. Do not Deallocate.

Extension Function/Event Parameter Info

typedef struct {
    char* name;
    jvmtiParamKind kind;
    jvmtiParamTypes base_type;
    jboolean null_ok;
} jvmtiParamInfo;
jvmtiParamInfo - Extension Function/Event Parameter Info
Field Type Description
namechar* The parameter name, encoded as a modified UTF-8 string
kindjvmtiParamKind The kind of the parameter - type modifiers
base_typejvmtiParamTypes The base type of the parameter - modified by kind
null_okjboolean Is a NULL argument permitted? Applies only to pointer and object types.


Extension Function

typedef jvmtiError (JNICALL *jvmtiExtensionFunction)
    (jvmtiEnv* jvmti_env, 
      ...);
This is the implementation-specific extension function.

Parameters
Name Type Description
jvmti_env jvmtiEnv * The JVM TI environment is the only fixed parameter for extension functions.
...... The extension function-specific parameters

Get Extension Functions

typedef struct {
    jvmtiExtensionFunction func;
    char* id;
    char* short_description;
    jint param_count;
    jvmtiParamInfo* params;
    jint error_count;
    jvmtiError* errors;
} jvmtiExtensionFunctionInfo;
jvmtiError
GetExtensionFunctions(jvmtiEnv* env,
            jint* extension_count_ptr,
            jvmtiExtensionFunctionInfo** extensions)
Returns the set of extension functions.

PhaseCallback SafePositionSince
may only be called during the OnLoad or the live phase No 1241.0

Capabilities
Required Functionality

jvmtiExtensionFunctionInfo - Extension Function Info
Field Type Description
func jvmtiExtensionFunction The actual function to call
idchar* The identifier for the extension function, encoded as a modified UTF-8 string. Uses package name conventions. For example, com.sun.hotspot.bar
short_descriptionchar* A one sentence description of the function, encoded as a modified UTF-8 string.
param_countjint The number of parameters excluding jvmtiEnv *jvmti_env
params jvmtiParamInfo * Array of param_count parameters (jvmtiEnv *jvmti_env excluded)
error_countjint The number of possible error returns (excluding universal errors)
errors jvmtiError * Array of error_count possible errors

Parameters
Name Type Description
extension_count_ptrjint* On return, points to the number of extension functions

Agent passes a pointer to a jint. On return, the jint has been set.
extensionsjvmtiExtensionFunctionInfo** Returns an array of extension function info, one per function

Agent passes a pointer to a jvmtiExtensionFunctionInfo*. On return, the jvmtiExtensionFunctionInfo* points to a newly allocated array of size *extension_count_ptr. The array should be freed with Deallocate. The pointers returned in the field id of jvmtiExtensionFunctionInfo are newly allocated arrays. The arrays should be freed with Deallocate. The pointers returned in the field short_description of jvmtiExtensionFunctionInfo are newly allocated arrays. The arrays should be freed with Deallocate. The pointers returned in the field params of jvmtiExtensionFunctionInfo are newly allocated arrays. The arrays should be freed with Deallocate. The pointers returned in the field name of jvmtiParamInfo are newly allocated arrays. The arrays should be freed with Deallocate. The pointers returned in the field errors of jvmtiExtensionFunctionInfo are newly allocated arrays. The arrays should be freed with Deallocate.

Errors
This function returns either a universal error or one of the following errors
Error Description
JVMTI_ERROR_NULL_POINTER extension_count_ptr is NULL.
JVMTI_ERROR_NULL_POINTER extensions is NULL.

Get Extension Events

typedef struct {
    jint extension_event_index;
    char* id;
    char* short_description;
    jint param_count;
    jvmtiParamInfo* params;
} jvmtiExtensionEventInfo;
jvmtiError
GetExtensionEvents(jvmtiEnv* env,
            jint* extension_count_ptr,
            jvmtiExtensionEventInfo** extensions)
Returns the set of extension events.

PhaseCallback SafePositionSince
may only be called during the OnLoad or the live phase No 1251.0

Capabilities
Required Functionality

jvmtiExtensionEventInfo - Extension Event Info
Field Type Description
extension_event_indexjint The identifying index of the event
idchar* The identifier for the extension event, encoded as a modified UTF-8 string. Uses package name conventions. For example, com.sun.hotspot.bar
short_descriptionchar* A one sentence description of the event, encoded as a modified UTF-8 string.
param_countjint The number of parameters excluding jvmtiEnv *jvmti_env
params jvmtiParamInfo * Array of param_count parameters (jvmtiEnv *jvmti_env excluded)

Parameters
Name Type Description
extension_count_ptrjint* On return, points to the number of extension events

Agent passes a pointer to a jint. On return, the jint has been set.
extensionsjvmtiExtensionEventInfo** Returns an array of extension event info, one per event

Agent passes a pointer to a jvmtiExtensionEventInfo*. On return, the jvmtiExtensionEventInfo* points to a newly allocated array of size *extension_count_ptr. The array should be freed with Deallocate. The pointers returned in the field id of jvmtiExtensionEventInfo are newly allocated arrays. The arrays should be freed with Deallocate. The pointers returned in the field short_description of jvmtiExtensionEventInfo are newly allocated arrays. The arrays should be freed with Deallocate. The pointers returned in the field params of jvmtiExtensionEventInfo are newly allocated arrays. The arrays should be freed with Deallocate. The pointers returned in the field name of jvmtiParamInfo are newly allocated arrays. The arrays should be freed with Deallocate.

Errors
This function returns either a universal error or one of the following errors
Error Description
JVMTI_ERROR_NULL_POINTER extension_count_ptr is NULL.
JVMTI_ERROR_NULL_POINTER extensions is NULL.

Extension Event

typedef void (JNICALL *jvmtiExtensionEvent)
    (jvmtiEnv* jvmti_env, 
      ...);
This is the implementation-specific event. The event handler is set with SetExtensionEventCallback.

Event handlers for extension events must be declared varargs to match this definition. Failure to do so could result in calling convention mismatch and undefined behavior on some platforms.

For example, if the jvmtiParamInfo returned by GetExtensionEvents indicates that there is a jint parameter, the event handler should be declared:
    void JNICALL myHandler(jvmtiEnv* jvmti_env, jint myInt, ...)
Note the terminal "..." which indicates varargs.

Parameters
Name Type Description
jvmti_env jvmtiEnv * The JVM TI environment is the only fixed parameter for extension events.
...... The extension event-specific parameters

Set Extension Event Callback

jvmtiError
SetExtensionEventCallback(jvmtiEnv* env,
            jint extension_event_index,
            jvmtiExtensionEvent callback)
Sets the callback function for an extension event and enables the event. Or, if the callback is NULL, disables the event. Note that unlike standard events, setting the callback and enabling the event are a single operation.

PhaseCallback SafePositionSince
may only be called during the OnLoad or the live phase No 1261.0

Capabilities
Required Functionality

Parameters
Name Type Description
extension_event_indexjint Identifies which callback to set. This index is the extension_event_index field of jvmtiExtensionEventInfo.
callback jvmtiExtensionEvent If callback is non-NULL, set callback to be the event callback function and enable the event.

If callback is NULL, disable the event.

Errors
This function returns either a universal error or one of the following errors
Error Description
JVMTI_ERROR_ILLEGAL_ARGUMENT extension_event_index is not an extension_event_index returned by GetExtensionEvents


Capability

Capability functions: Capability types: The capabilities functions allow you to change the functionality available to JVM TI--that is, which JVM TI functions can be called, what events can be generated, and what functionality these events and functions can provide.

The "Capabilities" section of each function and event describe which capabilities, if any, they are associated with. "Required Functionality" means it is available for use and no capabilities must be added to use it. "Optional Functionality" means the agent must possess the capability before it can be used. To possess a capability, the agent must add the capability. "Optional Features" describe capabilities which, if added, extend the feature set.

The potentially available capabilities of each JVM TI implementation are different. Depending on the implementation, a capability: Frequently, the addition of a capability may incur a cost in execution speed, start up time, and/or memory footprint. Note that the overhead of using a capability is completely different than the overhead of possessing a capability. Take single stepping as an example. When single stepping is on (that is, when the event is enabled and thus actively sending events) the overhead of sending and processing an event on each instruction is huge in any implementation. However, the overhead of possessing the capability may be small or large, depending on the implementation. Also, when and if a capability is potentially available depends on the implementation. Some examples:

Each JVM TI environment has its own set of capabilities. Initially, that set is empty. Any desired capability must be added. If possible, capabilities should be added during the OnLoad phase. For most virtual machines certain capabilities require special set up for the virtual machine and this set up must happen during the OnLoad phase, before the virtual machine begins execution. Once a capability is added, it can only be removed if explicitly relinquished by the environment.

The agent can, determine what capabilities this VM can potentially provide, add the capabilities to be used, release capabilities which are no longer needed, and examine the currently available capabilities.

Capability Examples

For example, a freshly started agent (in the OnLoad function) wants to enable all possible capabilities. Note that, in general, this is not advisable as the agent may suffer a performance penalty for functionality it is not using. The code might look like this in C:
	jvmtiCapabilities capa;
	jvmtiError err;

	err = (*jvmti)->GetPotentialCapabilities(jvmti, &capa);
	if (err == JVMTI_ERROR_NONE) {
	   err = (*jvmti)->AddCapabilities(jvmti, &capa);
      
For example, if an agent wants to check if it can get the bytecodes of a method (that is, it wants to check if it previously added this capability and has not relinquished it), the code might look like this in C:
	jvmtiCapabilities capa;
	jvmtiError err;

	err = (*jvmti)->GetCapabilities(jvmti, &capa);
	if (err == JVMTI_ERROR_NONE) {
   	   if (capa.can_get_bytecodes) { ... } } 
      

The Capabilities Structure

The functions in this category use this capabilities structure which contains boolean flags corresponding to each capability:

typedef struct {
    unsigned int can_tag_objects : 1;
    unsigned int can_generate_field_modification_events : 1;
    unsigned int can_generate_field_access_events : 1;
    unsigned int can_get_bytecodes : 1;
    unsigned int can_get_synthetic_attribute : 1;
    unsigned int can_get_owned_monitor_info : 1;
    unsigned int can_get_current_contended_monitor : 1;
    unsigned int can_get_monitor_info : 1;
    unsigned int can_pop_frame : 1;
    unsigned int can_redefine_classes : 1;
    unsigned int can_signal_thread : 1;
    unsigned int can_get_source_file_name : 1;
    unsigned int can_get_line_numbers : 1;
    unsigned int can_get_source_debug_extension : 1;
    unsigned int can_access_local_variables : 1;
    unsigned int can_maintain_original_method_order : 1;
    unsigned int can_generate_single_step_events : 1;
    unsigned int can_generate_exception_events : 1;
    unsigned int can_generate_frame_pop_events : 1;
    unsigned int can_generate_breakpoint_events : 1;
    unsigned int can_suspend : 1;
    unsigned int can_redefine_any_class : 1;
    unsigned int can_get_current_thread_cpu_time : 1;
    unsigned int can_get_thread_cpu_time : 1;
    unsigned int can_generate_method_entry_events : 1;
    unsigned int can_generate_method_exit_events : 1;
    unsigned int can_generate_all_class_hook_events : 1;
    unsigned int can_generate_compiled_method_load_events : 1;
    unsigned int can_generate_monitor_events : 1;
    unsigned int can_generate_vm_object_alloc_events : 1;
    unsigned int can_generate_native_method_bind_events : 1;
    unsigned int can_generate_garbage_collection_events : 1;
    unsigned int can_generate_object_free_events : 1;
    unsigned int can_force_early_return : 1;
    unsigned int can_get_owned_monitor_stack_depth_info : 1;
    unsigned int can_get_constant_pool : 1;
    unsigned int can_set_native_method_prefix : 1;
    unsigned int can_retransform_classes : 1;
    unsigned int can_retransform_any_class : 1;
    unsigned int can_generate_resource_exhaustion_heap_events : 1;
    unsigned int can_generate_resource_exhaustion_threads_events : 1;
    unsigned int : 7;
    unsigned int : 16;
    unsigned int : 16;
    unsigned int : 16;
    unsigned int : 16;
    unsigned int : 16;
} jvmtiCapabilities;
jvmtiCapabilities - The Capabilities Structure
All types are unsigned int : 1
Field Description Since
can_tag_objects Can set and get tags, as described in the Heap category. 1.0
can_generate_field_modification_events Can set watchpoints on field modification - SetFieldModificationWatch 1.0
can_generate_field_access_events Can set watchpoints on field access - SetFieldAccessWatch 1.0
can_get_bytecodes Can get bytecodes of a method GetBytecodes 1.0
can_get_synthetic_attribute Can test if a field or method is synthetic - IsFieldSynthetic and IsMethodSynthetic 1.0
can_get_owned_monitor_info Can get information about ownership of monitors - GetOwnedMonitorInfo 1.0
can_get_current_contended_monitor Can GetCurrentContendedMonitor 1.0
can_get_monitor_info Can GetObjectMonitorUsage 1.0
can_pop_frame Can pop frames off the stack - PopFrame 1.0
can_redefine_classes Can redefine classes with RedefineClasses. 1.0
can_signal_thread Can send stop or interrupt to threads 1.0
can_get_source_file_name Can get the source file name of a class 1.0
can_get_line_numbers Can get the line number table of a method 1.0
can_get_source_debug_extension Can get the source debug extension of a class 1.0
can_access_local_variables Can set and get local variables 1.0
can_maintain_original_method_order Can return methods in the order they occur in the class file 1.0
can_generate_single_step_events Can get single step events 1.0
can_generate_exception_events Can get exception thrown and exception catch events 1.0
can_generate_frame_pop_events Can set and thus get FramePop events 1.0
can_generate_breakpoint_events Can set and thus get Breakpoint events 1.0
can_suspend Can suspend and resume threads 1.0
can_redefine_any_class Can modify (retransform or redefine) any non-primitive non-array class. See IsModifiableClass. 1.0
can_get_current_thread_cpu_time Can get current thread CPU time 1.0
can_get_thread_cpu_time Can get thread CPU time 1.0
can_generate
_method_entry_events
Can generate method entry events on entering a method 1.0
can_generate
_method_exit_events
Can generate method exit events on leaving a method 1.0
can_generate
_all_class_hook_events
Can generate ClassFileLoadHook events for every loaded class. 1.0
can_generate
_compiled_method_load_events
Can generate events when a method is compiled or unloaded 1.0
can_generate
_monitor_events
Can generate events on monitor activity 1.0
can_generate
_vm_object_alloc_events
Can generate events on VM allocation of an object 1.0
can_generate
_native_method_bind_events
Can generate events when a native method is bound to its implementation 1.0
can_generate
_garbage_collection_events
Can generate events when garbage collection begins or ends 1.0
can_generate
_object_free_events
Can generate events when the garbage collector frees an object 1.0
can_force_early_return Can return early from a method, as described in the Force Early Return category. 1.1
can_get_owned_monitor_stack_depth_info Can get information about owned monitors with stack depth - GetOwnedMonitorStackDepthInfo 1.1
can_get_constant_pool Can get the constant pool of a class - GetConstantPool 1.1
can_set_native_method_prefix Can set prefix to be applied when native method cannot be resolved - SetNativeMethodPrefix and SetNativeMethodPrefixes 1.1
can_retransform_classes Can retransform classes with RetransformClasses. In addition to the restrictions imposed by the specific implementation on this capability (see the Capability section), this capability must be set before the ClassFileLoadHook event is enabled for the first time in this environment. An environment that possesses this capability at the time that ClassFileLoadHook is enabled for the first time is said to be retransformation capable. An environment that does not possess this capability at the time that ClassFileLoadHook is enabled for the first time is said to be retransformation incapable. 1.1
can_retransform_any_class RetransformClasses can be called on any class (can_retransform_classes must also be set) 1.1
can_generate_resource_exhaustion_heap_events Can generate events when the VM is unable to allocate memory from the JavaTM platform heap. See ResourceExhausted. 1.1
can_generate_resource_exhaustion_threads_events Can generate events when the VM is unable to create a thread. See ResourceExhausted. 1.1


Get Potential Capabilities

jvmtiError
GetPotentialCapabilities(jvmtiEnv* env,
            jvmtiCapabilities* capabilities_ptr)
Returns via capabilities_ptr the JVM TI features that can potentially be possessed by this environment at this time. The returned capabilities differ from the complete set of capabilities implemented by the VM in two cases: another environment possesses capabilities that can only be possessed by one environment, or the current phase is live, and certain capabilities can only be added during the OnLoad phase. The AddCapabilities function may be used to set any or all or these capabilities. Currently possessed capabilities are included.

Typically this function is used in the OnLoad function. Some virtual machines may allow a limited set of capabilities to be added in the live phase. In this case, the set of potentially available capabilities will likely differ from the OnLoad phase set.

See the Capability Examples.

PhaseCallback SafePositionSince
may only be called during the OnLoad or the live phase No 1401.0

Capabilities
Required Functionality

Parameters
Name Type Description
capabilities_ptrjvmtiCapabilities* On return, points to the JVM TI capabilities that may be added.

Agent passes a pointer to a jvmtiCapabilities. On return, the jvmtiCapabilities has been set.

Errors
This function returns either a universal error or one of the following errors
Error Description
JVMTI_ERROR_NULL_POINTER capabilities_ptr is NULL.

Add Capabilities

jvmtiError
AddCapabilities(jvmtiEnv* env,
            const jvmtiCapabilities* capabilities_ptr)
Set new capabilities by adding the capabilities whose values are set to one (1) in *capabilities_ptr. All previous capabilities are retained. Typically this function is used in the OnLoad function. Some virtual machines may allow a limited set of capabilities to be added in the live phase.

See the Capability Examples.

PhaseCallback SafePositionSince
may only be called during the OnLoad or the live phase No 1421.0

Capabilities
Required Functionality

Parameters
Name Type Description
capabilities_ptrconst jvmtiCapabilities* Points to the JVM TI capabilities to add.

Agent passes in a pointer to jvmtiCapabilities.

Errors
This function returns either a universal error or one of the following errors
Error Description
JVMTI_ERROR_NOT_AVAILABLE The desired capabilities are not even potentially available.
JVMTI_ERROR_NULL_POINTER capabilities_ptr is NULL.

Relinquish Capabilities

jvmtiError
RelinquishCapabilities(jvmtiEnv* env,
            const jvmtiCapabilities* capabilities_ptr)
Relinquish the capabilities whose values are set to one (1) in *capabilities_ptr. Some implementations may allow only one environment to have a capability (see the capability introduction). This function releases capabilities so that they may be used by other agents. All other capabilities are retained. The capability will no longer be present in GetCapabilities. Attempting to relinquish a capability that the agent does not possess is not an error.

PhaseCallback SafePositionSince
may only be called during the OnLoad or the live phase No 1431.0

Capabilities
Required Functionality

Parameters
Name Type Description
capabilities_ptrconst jvmtiCapabilities* Points to the JVM TI capabilities to relinquish.

Agent passes in a pointer to jvmtiCapabilities.

Errors
This function returns either a universal error or one of the following errors
Error Description
JVMTI_ERROR_NULL_POINTER capabilities_ptr is NULL.

Get Capabilities

jvmtiError
GetCapabilities(jvmtiEnv* env,
            jvmtiCapabilities* capabilities_ptr)
Returns via capabilities_ptr the optional JVM TI features which this environment currently possesses. Each possessed capability is indicated by a one (1) in the corresponding field of the capabilities structure. An environment does not possess a capability unless it has been successfully added with AddCapabilities. An environment only loses possession of a capability if it has been relinquished with RelinquishCapabilities. Thus, this function returns the net result of the AddCapabilities and RelinquishCapabilities calls which have been made.

See the Capability Examples.

PhaseCallback SafePositionSince
may be called during any phase No 891.0

Capabilities
Required Functionality

Parameters
Name Type Description
capabilities_ptrjvmtiCapabilities* On return, points to the JVM TI capabilities.

Agent passes a pointer to a jvmtiCapabilities. On return, the jvmtiCapabilities has been set.

Errors
This function returns either a universal error or one of the following errors
Error Description
JVMTI_ERROR_NULL_POINTER capabilities_ptr is NULL.


Timers

Timers functions: Timers types: These functions provide timing information. The resolution at which the time is updated is not specified. They provides nanosecond precision, but not necessarily nanosecond accuracy. Details about the timers, such as their maximum values, can be accessed with the timer information functions.

Timer Info

The information function for each timer returns this data structure.

typedef struct {
    jlong max_value;
    jboolean may_skip_forward;
    jboolean may_skip_backward;
    jvmtiTimerKind kind;
    jlong reserved1;
    jlong reserved2;
} jvmtiTimerInfo;
jvmtiTimerInfo - Timer Info
Field Type Description
max_valuejlong The maximum value the timer can reach. After this value is reached the timer wraps back to zero. This is an unsigned value. If tested or printed as a jlong (signed value) it may appear to be a negative number.
may_skip_forwardjboolean If true, the timer can be externally adjusted and as a result skip forward. If false, the timer value will never increase faster than real time.
may_skip_backwardjboolean If true, the timer can be externally adjusted and as a result skip backward. If false, the timer value will be monotonically increasing.
kindjvmtiTimerKind The kind of timer. On a platform that does not distinguish between user and system time, JVMTI_TIMER_TOTAL_CPU is returned.
reserved1jlong Reserved for future use.
reserved2jlong Reserved for future use.
Where the timer kind is --
Timer Kinds (jvmtiTimerKind)
Constant Value Description
JVMTI_TIMER_USER_CPU30 CPU time that a thread is in user mode.
JVMTI_TIMER_TOTAL_CPU31 CPU time that a thread is in user or system mode.
JVMTI_TIMER_ELAPSED32 Elapsed time.


Get Current Thread CPU Timer Information

jvmtiError
GetCurrentThreadCpuTimerInfo(jvmtiEnv* env,
            jvmtiTimerInfo* info_ptr)
Get information about the GetCurrentThreadCpuTime timer. The fields of the jvmtiTimerInfo structure are filled in with details about the timer. This information is specific to the platform and the implementation of GetCurrentThreadCpuTime and thus does not vary by thread nor does it vary during a particular invocation of the VM.

Note that the implementations of GetCurrentThreadCpuTime and GetThreadCpuTime may differ, and thus the values returned by GetCurrentThreadCpuTimerInfo and GetThreadCpuTimerInfo may differ -- see GetCurrentThreadCpuTime for more information.

PhaseCallback SafePositionSince
may only be called during the start or the live phase This function may be called from the callbacks to the Heap iteration functions, or from the event handlers for the GarbageCollectionStart, GarbageCollectionFinish, and ObjectFree events. 1341.0

Capabilities
Optional Functionality: might not be implemented for all virtual machines. The following capability (as returned by GetCapabilities) must be true to use this function.
Capability Effect
can_get_current_thread_cpu_time Can get current thread CPU time.

Parameters
Name Type Description
info_ptrjvmtiTimerInfo* On return, filled with information describing the time returned by GetCurrentThreadCpuTime.

Agent passes a pointer to a jvmtiTimerInfo. On return, the jvmtiTimerInfo has been set.

Errors
This function returns either a universal error or one of the following errors
Error Description
JVMTI_ERROR_MUST_POSSESS_CAPABILITY The environment does not possess the capability can_get_current_thread_cpu_time. Use AddCapabilities.
JVMTI_ERROR_NULL_POINTER info_ptr is NULL.

Get Current Thread CPU Time

jvmtiError
GetCurrentThreadCpuTime(jvmtiEnv* env,
            jlong* nanos_ptr)
Return the CPU time utilized by the current thread.

Note that the GetThreadCpuTime function provides CPU time for any thread, including the current thread. GetCurrentThreadCpuTime exists to support platforms which cannot supply CPU time for threads other than the current thread or which have more accurate information for the current thread (see GetCurrentThreadCpuTimerInfo vs GetThreadCpuTimerInfo). On many platforms this call will be equivalent to:
  GetThreadCpuTime(env, NULL, nanos_ptr)

PhaseCallback SafePositionSince
may only be called during the start or the live phase This function may be called from the callbacks to the Heap iteration functions, or from the event handlers for the GarbageCollectionStart, GarbageCollectionFinish, and ObjectFree events. 1351.0

Capabilities
Optional Functionality: might not be implemented for all virtual machines. The following capability (as returned by GetCapabilities) must be true to use this function.
Capability Effect
can_get_current_thread_cpu_time Can get current thread CPU time.

If this capability is enabled after threads have started, the implementation may choose any time up to and including the time that the capability is enabled as the point where CPU time collection starts.

This capability must be potentially available on any platform where can_get_thread_cpu_time is potentially available.

Parameters
Name Type Description
nanos_ptrjlong* On return, points to the CPU time used by this thread in nanoseconds. This is an unsigned value. If tested or printed as a jlong (signed value) it may appear to be a negative number.

Agent passes a pointer to a jlong. On return, the jlong has been set.

Errors
This function returns either a universal error or one of the following errors
Error Description
JVMTI_ERROR_MUST_POSSESS_CAPABILITY The environment does not possess the capability can_get_current_thread_cpu_time. Use AddCapabilities.
JVMTI_ERROR_NULL_POINTER nanos_ptr is NULL.

Get Thread CPU Timer Information

jvmtiError
GetThreadCpuTimerInfo(jvmtiEnv* env,
            jvmtiTimerInfo* info_ptr)
Get information about the GetThreadCpuTime timer. The fields of the jvmtiTimerInfo structure are filled in with details about the timer. This information is specific to the platform and the implementation of GetThreadCpuTime and thus does not vary by thread nor does it vary during a particular invocation of the VM.

Note that the implementations of GetCurrentThreadCpuTime and GetThreadCpuTime may differ, and thus the values returned by GetCurrentThreadCpuTimerInfo and GetThreadCpuTimerInfo may differ -- see GetCurrentThreadCpuTime for more information.

PhaseCallback SafePositionSince
may only be called during the live phase No 1361.0

Capabilities
Optional Functionality: might not be implemented for all virtual machines. The following capability (as returned by GetCapabilities) must be true to use this function.
Capability Effect
can_get_thread_cpu_time Can get thread CPU time.

Parameters
Name Type Description
info_ptrjvmtiTimerInfo* On return, filled with information describing the time returned by GetThreadCpuTime.

Agent passes a pointer to a jvmtiTimerInfo. On return, the jvmtiTimerInfo has been set.

Errors
This function returns either a universal error or one of the following errors
Error Description
JVMTI_ERROR_MUST_POSSESS_CAPABILITY The environment does not possess the capability can_get_thread_cpu_time. Use AddCapabilities.
JVMTI_ERROR_NULL_POINTER info_ptr is NULL.

Get Thread CPU Time

jvmtiError
GetThreadCpuTime(jvmtiEnv* env,
            jthread thread,
            jlong* nanos_ptr)
Return the CPU time utilized by the specified thread.

Get information about this timer with GetThreadCpuTimerInfo.

PhaseCallback SafePositionSince
may only be called during the live phase No 1371.0

Capabilities
Optional Functionality: might not be implemented for all virtual machines. The following capability (as returned by GetCapabilities) must be true to use this function.
Capability Effect
can_get_thread_cpu_time Can get thread CPU time.

If this capability is enabled after threads have started, the implementation may choose any time up to and including the time that the capability is enabled as the point where CPU time collection starts.

Parameters
Name Type Description
threadjthread The thread to query. If thread is NULL, the current thread is used.
nanos_ptrjlong* On return, points to the CPU time used by the specified thread in nanoseconds. This is an unsigned value. If tested or printed as a jlong (signed value) it may appear to be a negative number.

Agent passes a pointer to a jlong. On return, the jlong has been set.

Errors
This function returns either a universal error or one of the following errors
Error Description
JVMTI_ERROR_MUST_POSSESS_CAPABILITY The environment does not possess the capability can_get_thread_cpu_time. Use AddCapabilities.
JVMTI_ERROR_INVALID_THREAD thread is not a thread object.
JVMTI_ERROR_THREAD_NOT_ALIVE thread is not live (has not been started or is now dead).
JVMTI_ERROR_NULL_POINTER nanos_ptr is NULL.

Get Timer Information

jvmtiError
GetTimerInfo(jvmtiEnv* env,
            jvmtiTimerInfo* info_ptr)
Get information about the GetTime timer. The fields of the jvmtiTimerInfo structure are filled in with details about the timer. This information will not change during a particular invocation of the VM.

PhaseCallback SafePositionSince
may be called during any phase This function may be called from the callbacks to the Heap iteration functions, or from the event handlers for the GarbageCollectionStart, GarbageCollectionFinish, and ObjectFree events. 1381.0

Capabilities
Required Functionality

Parameters
Name Type Description
info_ptrjvmtiTimerInfo* On return, filled with information describing the time returned by GetTime.

Agent passes a pointer to a jvmtiTimerInfo. On return, the jvmtiTimerInfo has been set.

Errors
This function returns either a universal error or one of the following errors
Error Description
JVMTI_ERROR_NULL_POINTER info_ptr is NULL.

Get Time

jvmtiError
GetTime(jvmtiEnv* env,
            jlong* nanos_ptr)
Return the current value of the system timer, in nanoseconds.

The value returned represents nanoseconds since some fixed but arbitrary time (perhaps in the future, so values may be negative). This function provides nanosecond precision, but not necessarily nanosecond accuracy. No guarantees are made about how frequently values change.

Get information about this timer with GetTimerInfo.

PhaseCallback SafePositionSince
may be called during any phase This function may be called from the callbacks to the Heap iteration functions, or from the event handlers for the GarbageCollectionStart, GarbageCollectionFinish, and ObjectFree events. 1391.0

Capabilities
Required Functionality

Parameters
Name Type Description
nanos_ptrjlong* On return, points to the time in nanoseconds. This is an unsigned value. If tested or printed as a jlong (signed value) it may appear to be a negative number.

Agent passes a pointer to a jlong. On return, the jlong has been set.

Errors
This function returns either a universal error or one of the following errors
Error Description
JVMTI_ERROR_NULL_POINTER nanos_ptr is NULL.

Get Available Processors

jvmtiError
GetAvailableProcessors(jvmtiEnv* env,
            jint* processor_count_ptr)
Returns the number of processors available to the Java virtual machine.

This value may change during a particular invocation of the virtual machine. Applications that are sensitive to the number of available processors should therefore occasionally poll this property.

PhaseCallback SafePositionSince
may be called during any phase No 1441.0

Capabilities
Required Functionality

Parameters
Name Type Description
processor_count_ptrjint* On return, points to the maximum number of processors available to the virtual machine; never smaller than one.

Agent passes a pointer to a jint. On return, the jint has been set.

Errors
This function returns either a universal error or one of the following errors
Error Description
JVMTI_ERROR_NULL_POINTER processor_count_ptr is NULL.


Class Loader Search

Class Loader Search functions: These functions allow the agent to add to the locations that a class loader searches for a class. This is useful for installing instrumentation under the correct class loader.


Add To Bootstrap Class Loader Search

jvmtiError
AddToBootstrapClassLoaderSearch(jvmtiEnv* env,
            const char* segment)
This function can be used to cause instrumentation classes to be defined by the bootstrap class loader. See The Java™ Virtual Machine Specification, Chapter 5.3.1. After the bootstrap class loader unsuccessfully searches for a class, the specified platform-dependent search path segment will be searched as well. Only one segment may be specified in the segment. This function may be called multiple times to add multiple segments, the segments will be searched in the order that this function was called.

In the OnLoad phase the function may be used to specify any platform-dependent search path segment to be searched after the bootstrap class loader unsuccessfully searches for a class. The segment is typically a directory or JAR file.

In the live phase the segment may be used to specify any platform-dependent path to a JAR file. The agent should take care that the JAR file does not contain any classes or resources other than those to be defined by the bootstrap class loader for the purposes of instrumentation.

The Java™ Virtual Machine Specification specifies that a subsequent attempt to resolve a symbolic reference that the Java virtual machine has previously unsuccessfully attempted to resolve always fails with the same error that was thrown as a result of the initial resolution attempt. Consequently, if the JAR file contains an entry that corresponds to a class for which the Java virtual machine has unsuccessfully attempted to resolve a reference, then subsequent attempts to resolve that reference will fail with the same error as the initial attempt.

PhaseCallback SafePositionSince
may only be called during the OnLoad or the live phase No 1491.0

Capabilities
Required Functionality

Parameters
Name Type Description
segmentconst char* The platform-dependent search path segment, encoded as a modified UTF-8 string.

Agent passes in an array of char.

Errors
This function returns either a universal error or one of the following errors
Error Description
JVMTI_ERROR_ILLEGAL_ARGUMENT segment is an invalid path. In the live phase, anything other than an existing JAR file is an invalid path.
JVMTI_ERROR_NULL_POINTER segment is NULL.

Add To System Class Loader Search

jvmtiError
AddToSystemClassLoaderSearch(jvmtiEnv* env,
            const char* segment)
This function can be used to cause instrumentation classes to be defined by the system class loader. See The Java™ Virtual Machine Specification, Chapter 5.3.2. After the class loader unsuccessfully searches for a class, the specified platform-dependent search path segment will be searched as well. Only one segment may be specified in the segment. This function may be called multiple times to add multiple segments, the segments will be searched in the order that this function was called.

In the OnLoad phase the function may be used to specify any platform-dependent search path segment to be searched after the system class loader unsuccessfully searches for a class. The segment is typically a directory or JAR file.

In the live phase the segment is a platform-dependent path to a JAR file to be searched after the system class loader unsuccessfully searches for a class. The agent should take care that the JAR file does not contain any classes or resources other than those to be defined by the system class loader for the purposes of instrumentation.

In the live phase the system class loader supports adding a JAR file to be searched if the system class loader implements a method name appendToClassPathForInstrumentation which takes a single parameter of type java.lang.String. The method is not required to have public access.

The Java™ Virtual Machine Specification specifies that a subsequent attempt to resolve a symbolic reference that the Java virtual machine has previously unsuccessfully attempted to resolve always fails with the same error that was thrown as a result of the initial resolution attempt. Consequently, if the JAR file contains an entry that corresponds to a class for which the Java virtual machine has unsuccessfully attempted to resolve a reference, then subsequent attempts to resolve that reference will fail with the same error as the initial attempt.

PhaseCallback SafePositionSince
may only be called during the OnLoad or the live phase No 1511.1

Capabilities
Required Functionality

Parameters
Name Type Description
segmentconst char* The platform-dependent search path segment, encoded as a modified UTF-8 string.

Agent passes in an array of char.

Errors
This function returns either a universal error or one of the following errors
Error Description
JVMTI_ERROR_ILLEGAL_ARGUMENT segment is an invalid path. In the live phase, anything other than an existing JAR file is an invalid path.
JVMTI_ERROR_CLASS_LOADER_UNSUPPORTED Operation not supported by the system class loader.
JVMTI_ERROR_NULL_POINTER segment is NULL.


System Properties

System Properties functions: These functions get and set system properties.


Get System Properties

jvmtiError
GetSystemProperties(jvmtiEnv* env,
            jint* count_ptr,
            char*** property_ptr)
The list of VM system property keys which may be used with GetSystemProperty is returned. It is strongly recommended that virtual machines provide the following property keys: Provides access to system properties defined by and used by the VM. Properties set on the command-line are included. This allows getting and setting of these properties before the VM even begins executing bytecodes. Since this is a VM view of system properties, the set of available properties will usually be different than that in java.lang.System.getProperties. JNI method invocation may be used to access java.lang.System.getProperties.

The set of properties may grow during execution.

PhaseCallback SafePositionSince
may only be called during the OnLoad or the live phase No 1301.0

Capabilities
Required Functionality

Parameters
Name Type Description
count_ptrjint* On return, points to the number of property keys returned.

Agent passes a pointer to a jint. On return, the jint has been set.
property_ptrchar*** On return, points to an array of property keys, encoded as modified UTF-8 strings.

Agent passes a pointer to a char**. On return, the char** points to a newly allocated array of size *count_ptr, each element of which is also newly allocated. The array should be freed with Deallocate. Each of the elements should be freed with Deallocate.

Errors
This function returns either a universal error or one of the following errors
Error Description
JVMTI_ERROR_NULL_POINTER count_ptr is NULL.
JVMTI_ERROR_NULL_POINTER property_ptr is NULL.

Get System Property

jvmtiError
GetSystemProperty(jvmtiEnv* env,
            const char* property,
            char** value_ptr)
Return a VM system property value given the property key.

The function GetSystemProperties returns the set of property keys which may be used. The properties which can be retrieved may grow during execution.

Since this is a VM view of system properties, the values of properties may differ from that returned by java.lang.System.getProperty(String). A typical VM might copy the values of the VM system properties into the Properties held by java.lang.System during the initialization of that class. Thereafter any changes to the VM system properties (with SetSystemProperty) or the java.lang.System system properties (with java.lang.System.setProperty(String,String)) would cause the values to diverge. JNI method invocation may be used to access java.lang.System.getProperty(String).

PhaseCallback SafePositionSince
may only be called during the OnLoad or the live phase No 1311.0

Capabilities
Required Functionality

Parameters
Name Type Description
propertyconst char* The key of the property to retrieve, encoded as a modified UTF-8 string.

Agent passes in an array of char.
value_ptrchar** On return, points to the property value, encoded as a modified UTF-8 string.

Agent passes a pointer to a char*. On return, the char* points to a newly allocated array. The array should be freed with Deallocate.

Errors
This function returns either a universal error or one of the following errors
Error Description
JVMTI_ERROR_NOT_AVAILABLE This property is not available. Use GetSystemProperties to find available properties.
JVMTI_ERROR_NULL_POINTER property is NULL.
JVMTI_ERROR_NULL_POINTER value_ptr is NULL.

Set System Property

jvmtiError
SetSystemProperty(jvmtiEnv* env,
            const char* property,
            const char* value_ptr)
Set a VM system property value.

The function GetSystemProperties returns the set of property keys, some of these may be settable. See GetSystemProperty.

PhaseCallback SafePositionSince
may only be called during the OnLoad phase No 1321.0

Capabilities
Required Functionality

Parameters
Name Type Description
propertyconst char* The key of the property, encoded as a modified UTF-8 string.

Agent passes in an array of char.
value_ptrconst char * The property value to set, encoded as a modified UTF-8 string.

Agent passes in an array of char. If value_ptr is NULL, do not set the value, but return JVMTI_ERROR_NOT_AVAILABLE if the property is not writeable .

Errors
This function returns either a universal error or one of the following errors
Error Description
JVMTI_ERROR_NOT_AVAILABLE This property is not available or is not writeable.
JVMTI_ERROR_NULL_POINTER property is NULL.


General

General functions: General types: General flags and constants:


Get Phase

typedef enum {
    JVMTI_PHASE_ONLOAD = 1,
    JVMTI_PHASE_PRIMORDIAL = 2,
    JVMTI_PHASE_START = 6,
    JVMTI_PHASE_LIVE = 4,
    JVMTI_PHASE_DEAD = 8
} jvmtiPhase;
jvmtiError
GetPhase(jvmtiEnv* env,
            jvmtiPhase* phase_ptr)
Return the current phase of VM execution. The phases proceed in sequence:
Phases of execution (jvmtiPhase)
Constant Value Description
JVMTI_PHASE_ONLOAD1 OnLoad phase: while in the Agent_OnLoad function.
JVMTI_PHASE_PRIMORDIAL2 Primordial phase: between return from Agent_OnLoad and the VMStart event.
JVMTI_PHASE_START6 Start phase: when the VMStart event is sent and until the VMInit event is sent.
JVMTI_PHASE_LIVE4 Live phase: when the VMInit event is sent and until the VMDeath event returns.
JVMTI_PHASE_DEAD8 Dead phase: after the VMDeath event returns or after start-up failure.
In the case of start-up failure the VM will proceed directly to the dead phase skipping intermediate phases and neither a VMInit nor VMDeath event will be sent.

Most JVM TI functions operate only in the live phase. The following functions operate in either the OnLoad or live phases: The following functions operate in only the OnLoad phase: The following functions operate in the start or live phases: The following functions operate in any phase: JNI functions (except the Invocation API) must only be used in the start or live phases.

Most JVM TI events are sent only in the live phase. The following events operate in others phases:

PhaseCallback SafePositionSince
may be called during any phase No 1331.0

Capabilities
Required Functionality

Parameters
Name Type Description
phase_ptrjvmtiPhase* On return, points to the phase.

Agent passes a pointer to a jvmtiPhase. On return, the jvmtiPhase has been set.

Errors
This function returns either a universal error or one of the following errors
Error Description
JVMTI_ERROR_NULL_POINTER phase_ptr is NULL.

Dispose Environment

jvmtiError
DisposeEnvironment(jvmtiEnv* env)
Shutdown a JVM TI connection created with JNI GetEnv (see JVM TI Environments). Dispose of any resources held by the environment. Threads suspended by this environment are not resumed by this call, this must be done explicitly by the agent. Memory allocated by this environment via calls to JVM TI functions is not released, this can be done explicitly by the agent by calling Deallocate. Raw monitors created by this environment are not destroyed, this can be done explicitly by the agent by calling DestroyRawMonitor. The state of threads waiting on raw monitors created by this environment are not affected.

Any native method prefixes for this environment will be unset; the agent must remove any prefixed native methods before dispose is called.

Any capabilities held by this environment are relinquished.

Events enabled by this environment will no longer be sent, however event handlers currently running will continue to run. Caution must be exercised in the design of event handlers whose environment may be disposed and thus become invalid during their execution.

This environment may not be used after this call. This call returns to the caller.

PhaseCallback SafePositionSince
may be called during any phase No 1271.0

Capabilities
Required Functionality

Parameters
Name Type Description

Errors
This function returns a universal error

Set Environment Local Storage

jvmtiError
SetEnvironmentLocalStorage(jvmtiEnv* env,
            const void* data)
The VM stores a pointer value associated with each environment. This pointer value is called environment-local storage. This value is NULL unless set with this function. Agents can allocate memory in which they store environment specific information. By setting environment-local storage it can then be accessed with GetEnvironmentLocalStorage.

Called by the agent to set the value of the JVM TI environment-local storage. JVM TI supplies to the agent a pointer-size environment-local storage that can be used to record per-environment information.

PhaseCallback SafePositionSince
may be called during any phase This function may be called from the callbacks to the Heap iteration functions, or from the event handlers for the GarbageCollectionStart, GarbageCollectionFinish, and ObjectFree events. 1481.0

Capabilities
Required Functionality

Parameters
Name Type Description
dataconst void * The value to be entered into the environment-local storage.

Agent passes in a pointer. If data is NULL, value is set to NULL.

Errors
This function returns a universal error

Get Environment Local Storage

jvmtiError
GetEnvironmentLocalStorage(jvmtiEnv* env,
            void** data_ptr)
Called by the agent to get the value of the JVM TI environment-local storage.

PhaseCallback SafePositionSince
may be called during any phase This function may be called from the callbacks to the Heap iteration functions, or from the event handlers for the GarbageCollectionStart, GarbageCollectionFinish, and ObjectFree events. 1471.0

Capabilities
Required Functionality

Parameters
Name Type Description
data_ptrvoid** Pointer through which the value of the environment local storage is returned. If environment-local storage has not been set with SetEnvironmentLocalStorage returned pointer is NULL.

Errors
This function returns either a universal error or one of the following errors
Error Description
JVMTI_ERROR_NULL_POINTER data_ptr is NULL.

Get Version Number

jvmtiError
GetVersionNumber(jvmtiEnv* env,
            jint* version_ptr)
Return the JVM TI version via version_ptr. The return value is the version identifier. The version identifier includes major, minor and micro version as well as the interface type.
Version Interface Types
Constant Value Description
JVMTI_VERSION_INTERFACE_JNI0x00000000 Value of JVMTI_VERSION_MASK_INTERFACE_TYPE for JNI.
JVMTI_VERSION_INTERFACE_JVMTI0x30000000 Value of JVMTI_VERSION_MASK_INTERFACE_TYPE for JVM TI.
Version Masks
Constant Value Description
JVMTI_VERSION_MASK_INTERFACE_TYPE0x70000000 Mask to extract interface type. The value of the version returned by this function masked with JVMTI_VERSION_MASK_INTERFACE_TYPE is always JVMTI_VERSION_INTERFACE_JVMTI since this is a JVM TI function.
JVMTI_VERSION_MASK_MAJOR0x0FFF0000 Mask to extract major version number.
JVMTI_VERSION_MASK_MINOR0x0000FF00 Mask to extract minor version number.
JVMTI_VERSION_MASK_MICRO0x000000FF Mask to extract micro version number.
Version Shifts
Constant Value Description
JVMTI_VERSION_SHIFT_MAJOR16 Shift to extract major version number.
JVMTI_VERSION_SHIFT_MINOR8 Shift to extract minor version number.
JVMTI_VERSION_SHIFT_MICRO0 Shift to extract micro version number.

PhaseCallback SafePositionSince
may be called during any phase No 881.0

Capabilities
Required Functionality

Parameters
Name Type Description
version_ptrjint* On return, points to the JVM TI version.

Agent passes a pointer to a jint. On return, the jint has been set.

Errors
This function returns either a universal error or one of the following errors
Error Description
JVMTI_ERROR_NULL_POINTER version_ptr is NULL.

Get Error Name

jvmtiError
GetErrorName(jvmtiEnv* env,
            jvmtiError error,
            char** name_ptr)
Return the symbolic name for an error code.

For example GetErrorName(env, JVMTI_ERROR_NONE, &err_name) would return in err_name the string "JVMTI_ERROR_NONE".

PhaseCallback SafePositionSince
may be called during any phase No 1281.0

Capabilities
Required Functionality

Parameters
Name Type Description
errorjvmtiError The error code.
name_ptrchar** On return, points to the error name. The name is encoded as a modified UTF-8 string, but is restricted to the ASCII subset.

Agent passes a pointer to a char*. On return, the char* points to a newly allocated array. The array should be freed with Deallocate.

Errors
This function returns either a universal error or one of the following errors
Error Description
JVMTI_ERROR_ILLEGAL_ARGUMENT error is not a jvmtiError.
JVMTI_ERROR_NULL_POINTER name_ptr is NULL.

Set Verbose Flag

typedef enum {
    JVMTI_VERBOSE_OTHER = 0,
    JVMTI_VERBOSE_GC = 1,
    JVMTI_VERBOSE_CLASS = 2,
    JVMTI_VERBOSE_JNI = 4
} jvmtiVerboseFlag;
jvmtiError
SetVerboseFlag(jvmtiEnv* env,
            jvmtiVerboseFlag flag,
            jboolean value)
Verbose Flag Enumeration (jvmtiVerboseFlag)
Constant Value Description
JVMTI_VERBOSE_OTHER0 Verbose output other than the below.
JVMTI_VERBOSE_GC1 Verbose garbage collector output, like that specified with -verbose:gc.
JVMTI_VERBOSE_CLASS2 Verbose class loading output, like that specified with -verbose:class.
JVMTI_VERBOSE_JNI4 Verbose JNI output, like that specified with -verbose:jni.
Control verbose output. This is the output which typically is sent to stderr.

PhaseCallback SafePositionSince
may be called during any phase No 1501.0

Capabilities
Required Functionality

Parameters
Name Type Description
flagjvmtiVerboseFlag Which verbose flag to set.
valuejboolean New value of the flag.

Errors
This function returns either a universal error or one of the following errors
Error Description
JVMTI_ERROR_ILLEGAL_ARGUMENT flag is not a jvmtiVerboseFlag.

Get JLocation Format

typedef enum {
    JVMTI_JLOCATION_JVMBCI = 1,
    JVMTI_JLOCATION_MACHINEPC = 2,
    JVMTI_JLOCATION_OTHER = 0
} jvmtiJlocationFormat;
jvmtiError
GetJLocationFormat(jvmtiEnv* env,
            jvmtiJlocationFormat* format_ptr)
Although the greatest functionality is achieved with location information referencing the virtual machine bytecode index, the definition of jlocation has intentionally been left unconstrained to allow VM implementations that do not have this information.

This function describes the representation of jlocation used in this VM. If the returned format is JVMTI_JLOCATION_JVMBCI, jlocations can be used as in indices into the array returned by GetBytecodes.
JLocation Format Enumeration (jvmtiJlocationFormat)
Constant Value Description
JVMTI_JLOCATION_JVMBCI1 jlocation values represent virtual machine bytecode indices--that is, offsets into the virtual machine code for a method.
JVMTI_JLOCATION_MACHINEPC2 jlocation values represent native machine program counter values.
JVMTI_JLOCATION_OTHER0 jlocation values have some other representation.

PhaseCallback SafePositionSince
may be called during any phase No 1291.0

Capabilities
Required Functionality

Parameters
Name Type Description
format_ptrjvmtiJlocationFormat* On return, points to the format identifier for jlocation values.

Agent passes a pointer to a jvmtiJlocationFormat. On return, the jvmtiJlocationFormat has been set.

Errors
This function returns either a universal error or one of the following errors
Error Description
JVMTI_ERROR_NULL_POINTER format_ptr is NULL.


Errors

Every JVM TI function returns a jvmtiError error code.

It is the responsibility of the agent to call JVM TI functions with valid parameters and in the proper context (calling thread is attached, phase is correct, etc.). Detecting some error conditions may be difficult, inefficient, or impossible for an implementation. The errors listed in Function Specific Required Errors must be detected by the implementation. All other errors represent the recommended response to the error condition.

Universal Errors

The following errors may be returned by any function

JVMTI_ERROR_NONE (0)
No error has occurred. This is the error code that is returned on successful completion of the function.

JVMTI_ERROR_NULL_POINTER (100)
Pointer is unexpectedly NULL.

JVMTI_ERROR_OUT_OF_MEMORY (110)
The function attempted to allocate memory and no more memory was available for allocation.

JVMTI_ERROR_ACCESS_DENIED (111)
The desired functionality has not been enabled in this virtual machine.

JVMTI_ERROR_UNATTACHED_THREAD (115)
The thread being used to call this function is not attached to the virtual machine. Calls must be made from attached threads. See AttachCurrentThread in the JNI invocation API.

JVMTI_ERROR_INVALID_ENVIRONMENT (116)
The JVM TI environment provided is no longer connected or is not an environment.

JVMTI_ERROR_WRONG_PHASE (112)
The desired functionality is not available in the current phase. Always returned if the virtual machine has completed running.

JVMTI_ERROR_INTERNAL (113)
An unexpected internal error has occurred.

Function Specific Required Errors

The following errors are returned by some JVM TI functions and must be returned by the implementation when the condition occurs.

JVMTI_ERROR_INVALID_PRIORITY (12)
Invalid priority.

JVMTI_ERROR_THREAD_NOT_SUSPENDED (13)
Thread was not suspended.

JVMTI_ERROR_THREAD_SUSPENDED (14)
Thread already suspended.

JVMTI_ERROR_THREAD_NOT_ALIVE (15)
This operation requires the thread to be alive--that is, it must be started and not yet have died.

JVMTI_ERROR_CLASS_NOT_PREPARED (22)
The class has been loaded but not yet prepared.

JVMTI_ERROR_NO_MORE_FRAMES (31)
There are no Java programming language or JNI stack frames at the specified depth.

JVMTI_ERROR_OPAQUE_FRAME (32)
Information about the frame is not available (e.g. for native frames).

JVMTI_ERROR_DUPLICATE (40)
Item already set.

JVMTI_ERROR_NOT_FOUND (41)
Desired element (e.g. field or breakpoint) not found

JVMTI_ERROR_NOT_MONITOR_OWNER (51)
This thread doesn't own the raw monitor.

JVMTI_ERROR_INTERRUPT (52)
The call has been interrupted before completion.

JVMTI_ERROR_UNMODIFIABLE_CLASS (79)
The class cannot be modified.

JVMTI_ERROR_NOT_AVAILABLE (98)
The functionality is not available in this virtual machine.

JVMTI_ERROR_ABSENT_INFORMATION (101)
The requested information is not available.

JVMTI_ERROR_INVALID_EVENT_TYPE (102)
The specified event type ID is not recognized.

JVMTI_ERROR_NATIVE_METHOD (104)
The requested information is not available for native method.

JVMTI_ERROR_CLASS_LOADER_UNSUPPORTED (106)
The class loader does not support this operation.

Function Specific Agent Errors

The following errors are returned by some JVM TI functions. They are returned in the event of invalid parameters passed by the agent or usage in an invalid context. An implementation is not required to detect these errors.

JVMTI_ERROR_INVALID_THREAD (10)
The passed thread is not a valid thread.

JVMTI_ERROR_INVALID_FIELDID (25)
Invalid field.

JVMTI_ERROR_INVALID_METHODID (23)
Invalid method.

JVMTI_ERROR_INVALID_LOCATION (24)
Invalid location.

JVMTI_ERROR_INVALID_OBJECT (20)
Invalid object.

JVMTI_ERROR_INVALID_CLASS (21)
Invalid class.

JVMTI_ERROR_TYPE_MISMATCH (34)
The variable is not an appropriate type for the function used.

JVMTI_ERROR_INVALID_SLOT (35)
Invalid slot.

JVMTI_ERROR_MUST_POSSESS_CAPABILITY (99)
The capability being used is false in this environment.

JVMTI_ERROR_INVALID_THREAD_GROUP (11)
Thread group invalid.

JVMTI_ERROR_INVALID_MONITOR (50)
Invalid raw monitor.

JVMTI_ERROR_ILLEGAL_ARGUMENT (103)
Illegal argument.

JVMTI_ERROR_INVALID_TYPESTATE (65)
The state of the thread has been modified, and is now inconsistent.

JVMTI_ERROR_UNSUPPORTED_VERSION (68)
A new class file has a version number not supported by this VM.

JVMTI_ERROR_INVALID_CLASS_FORMAT (60)
A new class file is malformed (the VM would return a ClassFormatError).

JVMTI_ERROR_CIRCULAR_CLASS_DEFINITION (61)
The new class file definitions would lead to a circular definition (the VM would return a ClassCircularityError).

JVMTI_ERROR_UNSUPPORTED_REDEFINITION_METHOD_ADDED (63)
A new class file would require adding a method.

JVMTI_ERROR_UNSUPPORTED_REDEFINITION_SCHEMA_CHANGED (64)
A new class version changes a field.

JVMTI_ERROR_FAILS_VERIFICATION (62)
The class bytes fail verification.

JVMTI_ERROR_UNSUPPORTED_REDEFINITION_HIERARCHY_CHANGED (66)
A direct superclass is different for the new class version, or the set of directly implemented interfaces is different.

JVMTI_ERROR_UNSUPPORTED_REDEFINITION_METHOD_DELETED (67)
A new class version does not declare a method declared in the old class version.

JVMTI_ERROR_NAMES_DONT_MATCH (69)
The class name defined in the new class file is different from the name in the old class object.

JVMTI_ERROR_UNSUPPORTED_REDEFINITION_CLASS_MODIFIERS_CHANGED (70)
A new class version has different modifiers.

JVMTI_ERROR_UNSUPPORTED_REDEFINITION_METHOD_MODIFIERS_CHANGED (71)
A method in the new class version has different modifiers than its counterpart in the old class version.


Data Types

JVM TI extends the data types defined by JNI.

JNI Types Used in the JVM Tool Interface
Type Description
jboolean Holds a Java programming language boolean. Unsigned 8 bits.
jint Holds a Java programming language int. Signed 32 bits.
jlong Holds a Java programming language long. Signed 64 bits.
jfloat Holds a Java programming language float. 32 bits.
jdouble Holds a Java programming language double. 64 bits.
jobject Holds a Java programming language object.
jclass Holds a Java programming language class.
jvalue Is a union of all primitive types and jobject. Thus, holds any Java programming language value.
jfieldID Identifies a Java programming language field. jfieldIDs returned by JVM TI functions and events may be safely stored.
jmethodID Identifies a Java programming language method, initializer, or constructor. jmethodIDs returned by JVM TI functions and events may be safely stored. However, if the class is unloaded, they become invalid and must not be used.
JNIEnv Pointer to the JNI function table. Pointer to this (JNIEnv *) is a JNI environment.

JVM Tool Interface Base Types
Type Description
jvmtiEnv The JVM TI environment pointer. See the Function Section. jvmtiEnv points to the function table pointer.
jthread Subtype of jobject that holds a thread.
typedef jobject jthread;
jthreadGroup Subtype of jobject that holds a thread group.
typedef jobject jthreadGroup;
jlocation A 64 bit value, representing a monotonically increasing executable position within a method. -1 indicates a native method. See GetJLocationFormat for the format on a given VM.
typedef jlong jlocation;
jrawMonitorID A raw monitor.
struct _jrawMonitorID;
typedef struct _jrawMonitorID *jrawMonitorID;
jvmtiError Holds an error return code. See the Error section for possible values.
typedef enum { 
    JVMTI_ERROR_NONE = 0,  
    JVMTI_ERROR_INVALID_THREAD = 10,
      ... 
} jvmtiError;
jvmtiEvent An identifier for an event type. See the Event section for possible values. It is guaranteed that future versions of this specification will never assign zero as an event type identifier.
typedef enum { 
    JVMTI_EVENT_SINGLE_STEP = 1, 
    JVMTI_EVENT_BREAKPOINT = 2, 
      ... 
} jvmtiEvent;
jvmtiEventCallbacks The callbacks used for events.
typedef struct {
    jvmtiEventVMInit VMInit;
    jvmtiEventVMDeath VMDeath;
      ... 
} jvmtiEventCallbacks;
See event callbacks for the complete structure.

Where, for example, the VM initialization callback is defined:
typedef void (JNICALL *jvmtiEventVMInit)
    (jvmtiEnv *jvmti_env, 
     JNIEnv* jni_env,
     jthread thread);
See the individual events for the callback function definition.
jniNativeInterface Typedef for the JNI function table JNINativeInterface defined in the JNI Specification. The JNI reference implementation defines this with an underscore.
typedef struct JNINativeInterface_ jniNativeInterface;

Structure Type Definitions
Type Description
jvmtiAddrLocationMapNative address to location entry
jvmtiCapabilitiesThe Capabilities Structure
jvmtiClassDefinitionClass redefinition description
jvmtiExtensionEventInfoExtension Event Info
jvmtiExtensionFunctionInfoExtension Function Info
jvmtiFrameInfoStack frame information structure
jvmtiHeapCallbacksHeap callback function structure
jvmtiHeapReferenceInfoReference information structure
jvmtiHeapReferenceInfoArrayReference information structure for Array references
jvmtiHeapReferenceInfoConstantPoolReference information structure for Constant Pool references
jvmtiHeapReferenceInfoFieldReference information structure for Field references
jvmtiHeapReferenceInfoJniLocalReference information structure for JNI local references
jvmtiHeapReferenceInfoReservedReference information structure for Other references
jvmtiHeapReferenceInfoStackLocalReference information structure for Local Variable references
jvmtiLineNumberEntryLine number table entry
jvmtiLocalVariableEntryLocal variable table entry
jvmtiMonitorStackDepthInfoMonitor stack depth information structure
jvmtiMonitorUsageObject monitor usage information
jvmtiParamInfoExtension Function/Event Parameter Info
jvmtiStackInfoStack information structure
jvmtiThreadGroupInfoThread group information structure
jvmtiThreadInfoThread information structure
jvmtiTimerInfoTimer Info

Function Type Definitions
Type Description
jvmtiArrayPrimitiveValueCallbackArray Primitive Value Callback
jvmtiExtensionEventExtension Event
jvmtiExtensionFunctionExtension Function
jvmtiHeapIterationCallbackHeap Iteration Callback
jvmtiHeapObjectCallbackHeap Object Callback
jvmtiHeapReferenceCallbackHeap Reference Callback
jvmtiHeapRootCallbackHeap Root Object Callback
jvmtiObjectReferenceCallbackObject Reference Callback
jvmtiPrimitiveFieldCallbackPrimitive Field Callback
jvmtiReservedCallbackreserved for future use Callback
jvmtiStackReferenceCallbackStack Reference Object Callback
jvmtiStartFunctionAgent Start Function
jvmtiStringPrimitiveValueCallbackString Primitive Value Callback

Enumeration Definitions
Type Description
jvmtiEventModeEvent Enable/Disable
jvmtiHeapObjectFilterHeap Object Filter Enumeration
jvmtiHeapReferenceKindHeap Reference Enumeration
jvmtiHeapRootKindHeap Root Kind Enumeration
jvmtiIterationControlIteration Control Enumeration
jvmtiJlocationFormatJLocation Format Enumeration
jvmtiObjectReferenceKindObject Reference Enumeration
jvmtiParamKindExtension Function/Event Parameter Kinds
jvmtiParamTypesExtension Function/Event Parameter Types
jvmtiPhasePhases of execution
jvmtiPrimitiveTypePrimitive Type Enumeration
jvmtiTimerKindTimer Kinds
jvmtiVerboseFlagVerbose Flag Enumeration

Function Table Layout
Position Function Declaration
1reserved
void *reserved1;
2Set Event Notification Mode
jvmtiError (JNICALL *SetEventNotificationMode) (jvmtiEnv* env, 
                       jvmtiEventMode mode, 
                       jvmtiEvent event_type, 
                       jthread event_thread, 
                        ...);
3reserved
void *reserved3;
4Get All Threads
jvmtiError (JNICALL *GetAllThreads) (jvmtiEnv* env, 
                       jint* threads_count_ptr, 
                       jthread** threads_ptr);
5Suspend Thread
jvmtiError (JNICALL *SuspendThread) (jvmtiEnv* env, 
                       jthread thread);
6Resume Thread
jvmtiError (JNICALL *ResumeThread) (jvmtiEnv* env, 
                       jthread thread);
7Stop Thread
jvmtiError (JNICALL *StopThread) (jvmtiEnv* env, 
                       jthread thread, 
                       jobject exception);
8Interrupt Thread
jvmtiError (JNICALL *InterruptThread) (jvmtiEnv* env, 
                       jthread thread);
9Get Thread Info
jvmtiError (JNICALL *GetThreadInfo) (jvmtiEnv* env, 
                       jthread thread, 
                       jvmtiThreadInfo* info_ptr);
10Get Owned Monitor Info
jvmtiError (JNICALL *GetOwnedMonitorInfo) (jvmtiEnv* env, 
                       jthread thread, 
                       jint* owned_monitor_count_ptr, 
                       jobject** owned_monitors_ptr);
11Get Current Contended Monitor
jvmtiError (JNICALL *GetCurrentContendedMonitor) (jvmtiEnv* env, 
                       jthread thread, 
                       jobject* monitor_ptr);
12Run Agent Thread
jvmtiError (JNICALL *RunAgentThread) (jvmtiEnv* env, 
                       jthread thread, 
                       jvmtiStartFunction proc, 
                       const void* arg, 
                       jint priority);
13Get Top Thread Groups
jvmtiError (JNICALL *GetTopThreadGroups) (jvmtiEnv* env, 
                       jint* group_count_ptr, 
                       jthreadGroup** groups_ptr);
14Get Thread Group Info
jvmtiError (JNICALL *GetThreadGroupInfo) (jvmtiEnv* env, 
                       jthreadGroup group, 
                       jvmtiThreadGroupInfo* info_ptr);
15Get Thread Group Children
jvmtiError (JNICALL *GetThreadGroupChildren) (jvmtiEnv* env, 
                       jthreadGroup group, 
                       jint* thread_count_ptr, 
                       jthread** threads_ptr, 
                       jint* group_count_ptr, 
                       jthreadGroup** groups_ptr);
16Get Frame Count
jvmtiError (JNICALL *GetFrameCount) (jvmtiEnv* env, 
                       jthread thread, 
                       jint* count_ptr);
17Get Thread State
jvmtiError (JNICALL *GetThreadState) (jvmtiEnv* env, 
                       jthread thread, 
                       jint* thread_state_ptr);
18Get Current Thread
jvmtiError (JNICALL *GetCurrentThread) (jvmtiEnv* env, 
                       jthread* thread_ptr);
19Get Frame Location
jvmtiError (JNICALL *GetFrameLocation) (jvmtiEnv* env, 
                       jthread thread, 
                       jint depth, 
                       jmethodID* method_ptr, 
                       jlocation* location_ptr);
20Notify Frame Pop
jvmtiError (JNICALL *NotifyFramePop) (jvmtiEnv* env, 
                       jthread thread, 
                       jint depth);
21Get Local Variable - Object
jvmtiError (JNICALL *GetLocalObject) (jvmtiEnv* env, 
                       jthread thread, 
                       jint depth, 
                       jint slot, 
                       jobject* value_ptr);
22Get Local Variable - Int
jvmtiError (JNICALL *GetLocalInt) (jvmtiEnv* env, 
                       jthread thread, 
                       jint depth, 
                       jint slot, 
                       jint* value_ptr);
23Get Local Variable - Long
jvmtiError (JNICALL *GetLocalLong) (jvmtiEnv* env, 
                       jthread thread, 
                       jint depth, 
                       jint slot, 
                       jlong* value_ptr);
24Get Local Variable - Float
jvmtiError (JNICALL *GetLocalFloat) (jvmtiEnv* env, 
                       jthread thread, 
                       jint depth, 
                       jint slot, 
                       jfloat* value_ptr);
25Get Local Variable - Double
jvmtiError (JNICALL *GetLocalDouble) (jvmtiEnv* env, 
                       jthread thread, 
                       jint depth, 
                       jint slot, 
                       jdouble* value_ptr);
26Set Local Variable - Object
jvmtiError (JNICALL *SetLocalObject) (jvmtiEnv* env, 
                       jthread thread, 
                       jint depth, 
                       jint slot, 
                       jobject value);
27Set Local Variable - Int
jvmtiError (JNICALL *SetLocalInt) (jvmtiEnv* env, 
                       jthread thread, 
                       jint depth, 
                       jint slot, 
                       jint value);
28Set Local Variable - Long
jvmtiError (JNICALL *SetLocalLong) (jvmtiEnv* env, 
                       jthread thread, 
                       jint depth, 
                       jint slot, 
                       jlong value);
29Set Local Variable - Float
jvmtiError (JNICALL *SetLocalFloat) (jvmtiEnv* env, 
                       jthread thread, 
                       jint depth, 
                       jint slot, 
                       jfloat value);
30Set Local Variable - Double
jvmtiError (JNICALL *SetLocalDouble) (jvmtiEnv* env, 
                       jthread thread, 
                       jint depth, 
                       jint slot, 
                       jdouble value);
31Create Raw Monitor
jvmtiError (JNICALL *CreateRawMonitor) (jvmtiEnv* env, 
                       const char* name, 
                       jrawMonitorID* monitor_ptr);
32Destroy Raw Monitor
jvmtiError (JNICALL *DestroyRawMonitor) (jvmtiEnv* env, 
                       jrawMonitorID monitor);
33Raw Monitor Enter
jvmtiError (JNICALL *RawMonitorEnter) (jvmtiEnv* env, 
                       jrawMonitorID monitor);
34Raw Monitor Exit
jvmtiError (JNICALL *RawMonitorExit) (jvmtiEnv* env, 
                       jrawMonitorID monitor);
35Raw Monitor Wait
jvmtiError (JNICALL *RawMonitorWait) (jvmtiEnv* env, 
                       jrawMonitorID monitor, 
                       jlong millis);
36Raw Monitor Notify
jvmtiError (JNICALL *RawMonitorNotify) (jvmtiEnv* env, 
                       jrawMonitorID monitor);
37Raw Monitor Notify All
jvmtiError (JNICALL *RawMonitorNotifyAll) (jvmtiEnv* env, 
                       jrawMonitorID monitor);
38Set Breakpoint
jvmtiError (JNICALL *SetBreakpoint) (jvmtiEnv* env, 
                       jmethodID method, 
                       jlocation location);
39Clear Breakpoint
jvmtiError (JNICALL *ClearBreakpoint) (jvmtiEnv* env, 
                       jmethodID method, 
                       jlocation location);
40reserved
void *reserved40;
41Set Field Access Watch
jvmtiError (JNICALL *SetFieldAccessWatch) (jvmtiEnv* env, 
                       jclass klass, 
                       jfieldID field);
42Clear Field Access Watch
jvmtiError (JNICALL *ClearFieldAccessWatch) (jvmtiEnv* env, 
                       jclass klass, 
                       jfieldID field);
43Set Field Modification Watch
jvmtiError (JNICALL *SetFieldModificationWatch) (jvmtiEnv* env, 
                       jclass klass, 
                       jfieldID field);
44Clear Field Modification Watch
jvmtiError (JNICALL *ClearFieldModificationWatch) (jvmtiEnv* env, 
                       jclass klass, 
                       jfieldID field);
45Is Modifiable Class
jvmtiError (JNICALL *IsModifiableClass) (jvmtiEnv* env, 
                       jclass klass, 
                       jboolean* is_modifiable_class_ptr);
46Allocate
jvmtiError (JNICALL *Allocate) (jvmtiEnv* env, 
                       jlong size, 
                       unsigned char** mem_ptr);
47Deallocate
jvmtiError (JNICALL *Deallocate) (jvmtiEnv* env, 
                       unsigned char* mem);
48Get Class Signature
jvmtiError (JNICALL *GetClassSignature) (jvmtiEnv* env, 
                       jclass klass, 
                       char** signature_ptr, 
                       char** generic_ptr);
49Get Class Status
jvmtiError (JNICALL *GetClassStatus) (jvmtiEnv* env, 
                       jclass klass, 
                       jint* status_ptr);
50Get Source File Name
jvmtiError (JNICALL *GetSourceFileName) (jvmtiEnv* env, 
                       jclass klass, 
                       char** source_name_ptr);
51Get Class Modifiers
jvmtiError (JNICALL *GetClassModifiers) (jvmtiEnv* env, 
                       jclass klass, 
                       jint* modifiers_ptr);
52Get Class Methods
jvmtiError (JNICALL *GetClassMethods) (jvmtiEnv* env, 
                       jclass klass, 
                       jint* method_count_ptr, 
                       jmethodID** methods_ptr);
53Get Class Fields
jvmtiError (JNICALL *GetClassFields) (jvmtiEnv* env, 
                       jclass klass, 
                       jint* field_count_ptr, 
                       jfieldID** fields_ptr);
54Get Implemented Interfaces
jvmtiError (JNICALL *GetImplementedInterfaces) (jvmtiEnv* env, 
                       jclass klass, 
                       jint* interface_count_ptr, 
                       jclass** interfaces_ptr);
55Is Interface
jvmtiError (JNICALL *IsInterface) (jvmtiEnv* env, 
                       jclass klass, 
                       jboolean* is_interface_ptr);
56Is Array Class
jvmtiError (JNICALL *IsArrayClass) (jvmtiEnv* env, 
                       jclass klass, 
                       jboolean* is_array_class_ptr);
57Get Class Loader
jvmtiError (JNICALL *GetClassLoader) (jvmtiEnv* env, 
                       jclass klass, 
                       jobject* classloader_ptr);
58Get Object Hash Code
jvmtiError (JNICALL *GetObjectHashCode) (jvmtiEnv* env, 
                       jobject object, 
                       jint* hash_code_ptr);
59Get Object Monitor Usage
jvmtiError (JNICALL *GetObjectMonitorUsage) (jvmtiEnv* env, 
                       jobject object, 
                       jvmtiMonitorUsage* info_ptr);
60Get Field Name (and Signature)
jvmtiError (JNICALL *GetFieldName) (jvmtiEnv* env, 
                       jclass klass, 
                       jfieldID field, 
                       char** name_ptr, 
                       char** signature_ptr, 
                       char** generic_ptr);
61Get Field Declaring Class
jvmtiError (JNICALL *GetFieldDeclaringClass) (jvmtiEnv* env, 
                       jclass klass, 
                       jfieldID field, 
                       jclass* declaring_class_ptr);
62Get Field Modifiers
jvmtiError (JNICALL *GetFieldModifiers) (jvmtiEnv* env, 
                       jclass klass, 
                       jfieldID field, 
                       jint* modifiers_ptr);
63Is Field Synthetic
jvmtiError (JNICALL *IsFieldSynthetic) (jvmtiEnv* env, 
                       jclass klass, 
                       jfieldID field, 
                       jboolean* is_synthetic_ptr);
64Get Method Name (and Signature)
jvmtiError (JNICALL *GetMethodName) (jvmtiEnv* env, 
                       jmethodID method, 
                       char** name_ptr, 
                       char** signature_ptr, 
                       char** generic_ptr);
65Get Method Declaring Class
jvmtiError (JNICALL *GetMethodDeclaringClass) (jvmtiEnv* env, 
                       jmethodID method, 
                       jclass* declaring_class_ptr);
66Get Method Modifiers
jvmtiError (JNICALL *GetMethodModifiers) (jvmtiEnv* env, 
                       jmethodID method, 
                       jint* modifiers_ptr);
67reserved
void *reserved67;
68Get Max Locals
jvmtiError (JNICALL *GetMaxLocals) (jvmtiEnv* env, 
                       jmethodID method, 
                       jint* max_ptr);
69Get Arguments Size
jvmtiError (JNICALL *GetArgumentsSize) (jvmtiEnv* env, 
                       jmethodID method, 
                       jint* size_ptr);
70Get Line Number Table
jvmtiError (JNICALL *GetLineNumberTable) (jvmtiEnv* env, 
                       jmethodID method, 
                       jint* entry_count_ptr, 
                       jvmtiLineNumberEntry** table_ptr);
71Get Method Location
jvmtiError (JNICALL *GetMethodLocation) (jvmtiEnv* env, 
                       jmethodID method, 
                       jlocation* start_location_ptr, 
                       jlocation* end_location_ptr);
72Get Local Variable Table
jvmtiError (JNICALL *GetLocalVariableTable) (jvmtiEnv* env, 
                       jmethodID method, 
                       jint* entry_count_ptr, 
                       jvmtiLocalVariableEntry** table_ptr);
73Set Native Method Prefix
jvmtiError (JNICALL *SetNativeMethodPrefix) (jvmtiEnv* env, 
                       const char* prefix);
74Set Native Method Prefixes
jvmtiError (JNICALL *SetNativeMethodPrefixes) (jvmtiEnv* env, 
                       jint prefix_count, 
                       char** prefixes);
75Get Bytecodes
jvmtiError (JNICALL *GetBytecodes) (jvmtiEnv* env, 
                       jmethodID method, 
                       jint* bytecode_count_ptr, 
                       unsigned char** bytecodes_ptr);
76Is Method Native
jvmtiError (JNICALL *IsMethodNative) (jvmtiEnv* env, 
                       jmethodID method, 
                       jboolean* is_native_ptr);
77Is Method Synthetic
jvmtiError (JNICALL *IsMethodSynthetic) (jvmtiEnv* env, 
                       jmethodID method, 
                       jboolean* is_synthetic_ptr);
78Get Loaded Classes
jvmtiError (JNICALL *GetLoadedClasses) (jvmtiEnv* env, 
                       jint* class_count_ptr, 
                       jclass** classes_ptr);
79Get Classloader Classes
jvmtiError (JNICALL *GetClassLoaderClasses) (jvmtiEnv* env, 
                       jobject initiating_loader, 
                       jint* class_count_ptr, 
                       jclass** classes_ptr);
80Pop Frame
jvmtiError (JNICALL *PopFrame) (jvmtiEnv* env, 
                       jthread thread);
81Force Early Return - Object
jvmtiError (JNICALL *ForceEarlyReturnObject) (jvmtiEnv* env, 
                       jthread thread, 
                       jobject value);
82Force Early Return - Int
jvmtiError (JNICALL *ForceEarlyReturnInt) (jvmtiEnv* env, 
                       jthread thread, 
                       jint value);
83Force Early Return - Long
jvmtiError (JNICALL *ForceEarlyReturnLong) (jvmtiEnv* env, 
                       jthread thread, 
                       jlong value);
84Force Early Return - Float
jvmtiError (JNICALL *ForceEarlyReturnFloat) (jvmtiEnv* env, 
                       jthread thread, 
                       jfloat value);
85Force Early Return - Double
jvmtiError (JNICALL *ForceEarlyReturnDouble) (jvmtiEnv* env, 
                       jthread thread, 
                       jdouble value);
86Force Early Return - Void
jvmtiError (JNICALL *ForceEarlyReturnVoid) (jvmtiEnv* env, 
                       jthread thread);
87Redefine Classes
jvmtiError (JNICALL *RedefineClasses) (jvmtiEnv* env, 
                       jint class_count, 
                       const jvmtiClassDefinition* class_definitions);
88Get Version Number
jvmtiError (JNICALL *GetVersionNumber) (jvmtiEnv* env, 
                       jint* version_ptr);
89Get Capabilities
jvmtiError (JNICALL *GetCapabilities) (jvmtiEnv* env, 
                       jvmtiCapabilities* capabilities_ptr);
90Get Source Debug Extension
jvmtiError (JNICALL *GetSourceDebugExtension) (jvmtiEnv* env, 
                       jclass klass, 
                       char** source_debug_extension_ptr);
91Is Method Obsolete
jvmtiError (JNICALL *IsMethodObsolete) (jvmtiEnv* env, 
                       jmethodID method, 
                       jboolean* is_obsolete_ptr);
92Suspend Thread List
jvmtiError (JNICALL *SuspendThreadList) (jvmtiEnv* env, 
                       jint request_count, 
                       const jthread* request_list, 
                       jvmtiError* results);
93Resume Thread List
jvmtiError (JNICALL *ResumeThreadList) (jvmtiEnv* env, 
                       jint request_count, 
                       const jthread* request_list, 
                       jvmtiError* results);
94reserved
void *reserved94;
95reserved
void *reserved95;
96reserved
void *reserved96;
97reserved
void *reserved97;
98reserved
void *reserved98;
99reserved
void *reserved99;
100Get All Stack Traces
jvmtiError (JNICALL *GetAllStackTraces) (jvmtiEnv* env, 
                       jint max_frame_count, 
                       jvmtiStackInfo** stack_info_ptr, 
                       jint* thread_count_ptr);
101Get Thread List Stack Traces
jvmtiError (JNICALL *GetThreadListStackTraces) (jvmtiEnv* env, 
                       jint thread_count, 
                       const jthread* thread_list, 
                       jint max_frame_count, 
                       jvmtiStackInfo** stack_info_ptr);
102Get Thread Local Storage
jvmtiError (JNICALL *GetThreadLocalStorage) (jvmtiEnv* env, 
                       jthread thread, 
                       void** data_ptr);
103Set Thread Local Storage
jvmtiError (JNICALL *SetThreadLocalStorage) (jvmtiEnv* env, 
                       jthread thread, 
                       const void* data);
104Get Stack Trace
jvmtiError (JNICALL *GetStackTrace) (jvmtiEnv* env, 
                       jthread thread, 
                       jint start_depth, 
                       jint max_frame_count, 
                       jvmtiFrameInfo* frame_buffer, 
                       jint* count_ptr);
105reserved
void *reserved105;
106Get Tag
jvmtiError (JNICALL *GetTag) (jvmtiEnv* env, 
                       jobject object, 
                       jlong* tag_ptr);
107Set Tag
jvmtiError (JNICALL *SetTag) (jvmtiEnv* env, 
                       jobject object, 
                       jlong tag);
108Force Garbage Collection
jvmtiError (JNICALL *ForceGarbageCollection) (jvmtiEnv* env);
109Iterate Over Objects Reachable From Object
jvmtiError (JNICALL *IterateOverObjectsReachableFromObject) (jvmtiEnv* env, 
                       jobject object, 
                       jvmtiObjectReferenceCallback object_reference_callback, 
                       const void* user_data);
110Iterate Over Reachable Objects
jvmtiError (JNICALL *IterateOverReachableObjects) (jvmtiEnv* env, 
                       jvmtiHeapRootCallback heap_root_callback, 
                       jvmtiStackReferenceCallback stack_ref_callback, 
                       jvmtiObjectReferenceCallback object_ref_callback, 
                       const void* user_data);
111Iterate Over Heap
jvmtiError (JNICALL *IterateOverHeap) (jvmtiEnv* env, 
                       jvmtiHeapObjectFilter object_filter, 
                       jvmtiHeapObjectCallback heap_object_callback, 
                       const void* user_data);
112Iterate Over Instances Of Class
jvmtiError (JNICALL *IterateOverInstancesOfClass) (jvmtiEnv* env, 
                       jclass klass, 
                       jvmtiHeapObjectFilter object_filter, 
                       jvmtiHeapObjectCallback heap_object_callback, 
                       const void* user_data);
113reserved
void *reserved113;
114Get Objects With Tags
jvmtiError (JNICALL *GetObjectsWithTags) (jvmtiEnv* env, 
                       jint tag_count, 
                       const jlong* tags, 
                       jint* count_ptr, 
                       jobject** object_result_ptr, 
                       jlong** tag_result_ptr);
115Follow References
jvmtiError (JNICALL *FollowReferences) (jvmtiEnv* env, 
                       jint heap_filter, 
                       jclass klass, 
                       jobject initial_object, 
                       const jvmtiHeapCallbacks* callbacks, 
                       const void* user_data);
116Iterate Through Heap
jvmtiError (JNICALL *IterateThroughHeap) (jvmtiEnv* env, 
                       jint heap_filter, 
                       jclass klass, 
                       const jvmtiHeapCallbacks* callbacks, 
                       const void* user_data);
117reserved
void *reserved117;
118reserved
void *reserved118;
119reserved
void *reserved119;
120Set JNI Function Table
jvmtiError (JNICALL *SetJNIFunctionTable) (jvmtiEnv* env, 
                       const jniNativeInterface* function_table);
121Get JNI Function Table
jvmtiError (JNICALL *GetJNIFunctionTable) (jvmtiEnv* env, 
                       jniNativeInterface** function_table);
122Set Event Callbacks
jvmtiError (JNICALL *SetEventCallbacks) (jvmtiEnv* env, 
                       const jvmtiEventCallbacks* callbacks, 
                       jint size_of_callbacks);
123Generate Events
jvmtiError (JNICALL *GenerateEvents) (jvmtiEnv* env, 
                       jvmtiEvent event_type);
124Get Extension Functions
jvmtiError (JNICALL *GetExtensionFunctions) (jvmtiEnv* env, 
                       jint* extension_count_ptr, 
                       jvmtiExtensionFunctionInfo** extensions);
125Get Extension Events
jvmtiError (JNICALL *GetExtensionEvents) (jvmtiEnv* env, 
                       jint* extension_count_ptr, 
                       jvmtiExtensionEventInfo** extensions);
126Set Extension Event Callback
jvmtiError (JNICALL *SetExtensionEventCallback) (jvmtiEnv* env, 
                       jint extension_event_index, 
                       jvmtiExtensionEvent callback);
127Dispose Environment
jvmtiError (JNICALL *DisposeEnvironment) (jvmtiEnv* env);
128Get Error Name
jvmtiError (JNICALL *GetErrorName) (jvmtiEnv* env, 
                       jvmtiError error, 
                       char** name_ptr);
129Get JLocation Format
jvmtiError (JNICALL *GetJLocationFormat) (jvmtiEnv* env, 
                       jvmtiJlocationFormat* format_ptr);
130Get System Properties
jvmtiError (JNICALL *GetSystemProperties) (jvmtiEnv* env, 
                       jint* count_ptr, 
                       char*** property_ptr);
131Get System Property
jvmtiError (JNICALL *GetSystemProperty) (jvmtiEnv* env, 
                       const char* property, 
                       char** value_ptr);
132Set System Property
jvmtiError (JNICALL *SetSystemProperty) (jvmtiEnv* env, 
                       const char* property, 
                       const char* value_ptr);
133Get Phase
jvmtiError (JNICALL *GetPhase) (jvmtiEnv* env, 
                       jvmtiPhase* phase_ptr);
134Get Current Thread CPU Timer Information
jvmtiError (JNICALL *GetCurrentThreadCpuTimerInfo) (jvmtiEnv* env, 
                       jvmtiTimerInfo* info_ptr);
135Get Current Thread CPU Time
jvmtiError (JNICALL *GetCurrentThreadCpuTime) (jvmtiEnv* env, 
                       jlong* nanos_ptr);
136Get Thread CPU Timer Information
jvmtiError (JNICALL *GetThreadCpuTimerInfo) (jvmtiEnv* env, 
                       jvmtiTimerInfo* info_ptr);
137Get Thread CPU Time
jvmtiError (JNICALL *GetThreadCpuTime) (jvmtiEnv* env, 
                       jthread thread, 
                       jlong* nanos_ptr);
138Get Timer Information
jvmtiError (JNICALL *GetTimerInfo) (jvmtiEnv* env, 
                       jvmtiTimerInfo* info_ptr);
139Get Time
jvmtiError (JNICALL *GetTime) (jvmtiEnv* env, 
                       jlong* nanos_ptr);
140Get Potential Capabilities
jvmtiError (JNICALL *GetPotentialCapabilities) (jvmtiEnv* env, 
                       jvmtiCapabilities* capabilities_ptr);
141reserved
void *reserved141;
142Add Capabilities
jvmtiError (JNICALL *AddCapabilities) (jvmtiEnv* env, 
                       const jvmtiCapabilities* capabilities_ptr);
143Relinquish Capabilities
jvmtiError (JNICALL *RelinquishCapabilities) (jvmtiEnv* env, 
                       const jvmtiCapabilities* capabilities_ptr);
144Get Available Processors
jvmtiError (JNICALL *GetAvailableProcessors) (jvmtiEnv* env, 
                       jint* processor_count_ptr);
145Get Class Version Numbers
jvmtiError (JNICALL *GetClassVersionNumbers) (jvmtiEnv* env, 
                       jclass klass, 
                       jint* minor_version_ptr, 
                       jint* major_version_ptr);
146Get Constant Pool
jvmtiError (JNICALL *GetConstantPool) (jvmtiEnv* env, 
                       jclass klass, 
                       jint* constant_pool_count_ptr, 
                       jint* constant_pool_byte_count_ptr, 
                       unsigned char** constant_pool_bytes_ptr);
147Get Environment Local Storage
jvmtiError (JNICALL *GetEnvironmentLocalStorage) (jvmtiEnv* env, 
                       void** data_ptr);
148Set Environment Local Storage
jvmtiError (JNICALL *SetEnvironmentLocalStorage) (jvmtiEnv* env, 
                       const void* data);
149Add To Bootstrap Class Loader Search
jvmtiError (JNICALL *AddToBootstrapClassLoaderSearch) (jvmtiEnv* env, 
                       const char* segment);
150Set Verbose Flag
jvmtiError (JNICALL *SetVerboseFlag) (jvmtiEnv* env, 
                       jvmtiVerboseFlag flag, 
                       jboolean value);
151Add To System Class Loader Search
jvmtiError (JNICALL *AddToSystemClassLoaderSearch) (jvmtiEnv* env, 
                       const char* segment);
152Retransform Classes
jvmtiError (JNICALL *RetransformClasses) (jvmtiEnv* env, 
                       jint class_count, 
                       const jclass* classes);
153Get Owned Monitor Stack Depth Info
jvmtiError (JNICALL *GetOwnedMonitorStackDepthInfo) (jvmtiEnv* env, 
                       jthread thread, 
                       jint* monitor_info_count_ptr, 
                       jvmtiMonitorStackDepthInfo** monitor_info_ptr);
154Get Object Size
jvmtiError (JNICALL *GetObjectSize) (jvmtiEnv* env, 
                       jobject object, 
                       jlong* size_ptr);
155Get Local Instance
jvmtiError (JNICALL *GetLocalInstance) (jvmtiEnv* env, 
                       jthread thread, 
                       jint depth, 
                       jobject* value_ptr);


Events

Handling Events

Agents can be informed of many events that occur in application programs.

To handle events, designate a set of callback functions with SetEventCallbacks. For each event the corresponding callback function will be called. Arguments to the callback function provide additional information about the event.

The callback function is usually called from within an application thread. The JVM TI implementation does not queue events in any way. This means that event callback functions must be written carefully. Here are some general guidelines. See the individual event descriptions for further suggestions.

Some JVM TI events identify objects with JNI references. All references in JVM TI events are JNI local references and will become invalid after the event callback returns. Unless stated otherwise, memory referenced by pointers sent in event callbacks may not be referenced after the event callback returns.

Except where stated otherwise, events are delivered on the thread that caused the event. Events are sent at the time they occur. The specification for each event includes the set of phases in which it can be sent; if an event triggering activity occurs during another phase, no event is sent.

A thread that generates an event does not change its execution status (for example, the event does not cause the thread to be suspended). If an agent wishes the event to result in suspension, then the agent is responsible for explicitly suspending the thread with SuspendThread.

If an event is enabled in multiple environments, the event will be sent to each agent in the order that the environments were created.

Enabling Events

All events are initially disabled. In order to receive any event:

Multiple Co-located Events

In many situations it is possible for multiple events to occur at the same location in one thread. When this happens, all the events are reported through the event callbacks in the order specified in this section.

If the current location is at the entry point of a method, the MethodEntry event is reported before any other event at the current location in the same thread.

If an exception catch has been detected at the current location, either because it is the beginning of a catch clause or a native method that cleared a pending exception has returned, the exceptionCatch event is reported before any other event at the current location in the same thread.

If a singleStep event or breakpoint event is triggered at the current location, the event is defined to occur immediately before the code at the current location is executed. These events are reported before any events which are triggered by the execution of code at the current location in the same thread (specifically: exception, fieldAccess, and fieldModification). If both a step and breakpoint event are triggered for the same thread and location, the step event is reported before the breakpoint event.

If the current location is the exit point of a method (that is, the last location before returning to the caller), the MethodExit event and the FramePop event (if requested) are reported after all other events at the current location in the same thread. There is no specified ordering of these two events with respect to each other.

Co-located events can be triggered during the processing of some other event by the agent at the same location in the same thread. If such an event, of type y, is triggered during the processing of an event of type x, and if x precedes y in the ordering specified above, the co-located event y is reported for the current thread and location. If x does not precede y, y is not reported for the current thread and location. For example, if a breakpoint is set at the current location during the processing of SingleStep, that breakpoint will be reported before the thread moves off the current location.

The following events are never considered to be co-located with other events.

Event Callbacks

The event callback structure below is used to specify the handler function for events. It is set with the SetEventCallbacks function.
typedef struct {
    jvmtiEventVMInit VMInit;
    jvmtiEventVMDeath VMDeath;
    jvmtiEventThreadStart ThreadStart;
    jvmtiEventThreadEnd ThreadEnd;
    jvmtiEventClassFileLoadHook ClassFileLoadHook;
    jvmtiEventClassLoad ClassLoad;
    jvmtiEventClassPrepare ClassPrepare;
    jvmtiEventVMStart VMStart;
    jvmtiEventException Exception;
    jvmtiEventExceptionCatch ExceptionCatch;
    jvmtiEventSingleStep SingleStep;
    jvmtiEventFramePop FramePop;
    jvmtiEventBreakpoint Breakpoint;
    jvmtiEventFieldAccess FieldAccess;
    jvmtiEventFieldModification FieldModification;
    jvmtiEventMethodEntry MethodEntry;
    jvmtiEventMethodExit MethodExit;
    jvmtiEventNativeMethodBind NativeMethodBind;
    jvmtiEventCompiledMethodLoad CompiledMethodLoad;
    jvmtiEventCompiledMethodUnload CompiledMethodUnload;
    jvmtiEventDynamicCodeGenerated DynamicCodeGenerated;
    jvmtiEventDataDumpRequest DataDumpRequest;
    jvmtiEventReserved reserved72;
    jvmtiEventMonitorWait MonitorWait;
    jvmtiEventMonitorWaited MonitorWaited;
    jvmtiEventMonitorContendedEnter MonitorContendedEnter;
    jvmtiEventMonitorContendedEntered MonitorContendedEntered;
    jvmtiEventReserved reserved77;
    jvmtiEventReserved reserved78;
    jvmtiEventReserved reserved79;
    jvmtiEventResourceExhausted ResourceExhausted;
    jvmtiEventGarbageCollectionStart GarbageCollectionStart;
    jvmtiEventGarbageCollectionFinish GarbageCollectionFinish;
    jvmtiEventObjectFree ObjectFree;
    jvmtiEventVMObjectAlloc VMObjectAlloc;
} jvmtiEventCallbacks;


Event Index


Single Step

void JNICALL
SingleStep(jvmtiEnv *jvmti_env,
            JNIEnv* jni_env,
            jthread thread,
            jmethodID method,
            jlocation location)
Single step events allow the agent to trace thread execution at the finest granularity allowed by the VM. A single step event is generated whenever a thread reaches a new location. Typically, single step events represent the completion of one VM instruction as defined in The Java™ Virtual Machine Specification. However, some implementations may define locations differently. In any case the method and location parameters uniquely identify the current location and allow the mapping to source file and line number when that information is available.

No single step events are generated from within native methods.

PhaseEvent TypeNumberEnablingSince
sent only during the live phase JVMTI_EVENT_SINGLE_STEP60SetEventNotificationMode(JVMTI_ENABLE, JVMTI_EVENT_SINGLE_STEP, NULL)1.0

Capabilities
Optional Functionality: might not be implemented for all virtual machines. The following capability (as returned by GetCapabilities) must be true to use this event.
Capability Effect
can_generate_single_step_events Can get single step events

Parameters
Name Type Description
jni_env JNIEnv * The JNI environment of the event (current) thread
threadjthread Thread about to execution a new instruction
methodjmethodID Method about to execute a new instruction
locationjlocation Location of the new instruction


Breakpoint

void JNICALL
Breakpoint(jvmtiEnv *jvmti_env,
            JNIEnv* jni_env,
            jthread thread,
            jmethodID method,
            jlocation location)
Breakpoint events are generated whenever a thread reaches a location designated as a breakpoint with SetBreakpoint. The method and location parameters uniquely identify the current location and allow the mapping to source file and line number when that information is available.

PhaseEvent TypeNumberEnablingSince
sent only during the live phase JVMTI_EVENT_BREAKPOINT62SetEventNotificationMode(JVMTI_ENABLE, JVMTI_EVENT_BREAKPOINT, NULL)1.0

Capabilities
Optional Functionality: might not be implemented for all virtual machines. The following capability (as returned by GetCapabilities) must be true to use this event.
Capability Effect
can_generate_breakpoint_events Can set and thus get Breakpoint events

Parameters
Name Type Description
jni_env JNIEnv * The JNI environment of the event (current) thread.
threadjthread Thread that hit the breakpoint
methodjmethodID Method that hit the breakpoint
locationjlocation location of the breakpoint


Field Access

void JNICALL
FieldAccess(jvmtiEnv *jvmti_env,
            JNIEnv* jni_env,
            jthread thread,
            jmethodID method,
            jlocation location,
            jclass field_klass,
            jobject object,
            jfieldID field)
Field access events are generated whenever a thread accesses a field that was designated as a watchpoint with SetFieldAccessWatch. The method and location parameters uniquely identify the current location and allow the mapping to source file and line number when that information is available.

PhaseEvent TypeNumberEnablingSince
sent only during the live phase JVMTI_EVENT_FIELD_ACCESS63SetEventNotificationMode(JVMTI_ENABLE, JVMTI_EVENT_FIELD_ACCESS, NULL)1.0

Capabilities
Optional Functionality: might not be implemented for all virtual machines. The following capability (as returned by GetCapabilities) must be true to use this event.
Capability Effect
can_generate_field_access_events Can set watchpoints on field access - SetFieldAccessWatch

Parameters
Name Type Description
jni_env JNIEnv * The JNI environment of the event (current) thread
threadjthread Thread accessing the field
methodjmethodID Method where the access is occurring
locationjlocation Location where the access is occurring
field_klassjclass Class of the field being accessed
objectjobject Object with the field being accessed if the field is an instance field; NULL otherwise
fieldjfieldID Field being accessed


Field Modification

void JNICALL
FieldModification(jvmtiEnv *jvmti_env,
            JNIEnv* jni_env,
            jthread thread,
            jmethodID method,
            jlocation location,
            jclass field_klass,
            jobject object,
            jfieldID field,
            char signature_type,
            jvalue new_value)
Field modification events are generated whenever a thread modifies a field that was designated as a watchpoint with SetFieldModificationWatch. The method and location parameters uniquely identify the current location and allow the mapping to source file and line number when that information is available.

PhaseEvent TypeNumberEnablingSince
sent only during the live phase JVMTI_EVENT_FIELD_MODIFICATION64SetEventNotificationMode(JVMTI_ENABLE, JVMTI_EVENT_FIELD_MODIFICATION, NULL)1.0

Capabilities
Optional Functionality: might not be implemented for all virtual machines. The following capability (as returned by GetCapabilities) must be true to use this event.
Capability Effect
can_generate_field_modification_events Can set watchpoints on field modification - SetFieldModificationWatch

Parameters
Name Type Description
jni_env JNIEnv * The JNI environment of the event (current) thread
threadjthread Thread modifying the field
methodjmethodID Method where the modification is occurring
locationjlocation Location where the modification is occurring
field_klassjclass Class of the field being modified
objectjobject Object with the field being modified if the field is an instance field; NULL otherwise
fieldjfieldID Field being modified
signature_typechar Signature type of the new value
new_valuejvalue The new value


Frame Pop

void JNICALL
FramePop(jvmtiEnv *jvmti_env,
            JNIEnv* jni_env,
            jthread thread,
            jmethodID method,
            jboolean was_popped_by_exception)
Frame pop events are generated upon exit from a single method in a single frame as specified in a call to NotifyFramePop. This is true whether termination is caused by executing its return instruction or by throwing an exception to its caller (see was_popped_by_exception). However, frame pops caused by the PopFrame function are not reported.

The location reported by GetFrameLocation identifies the executable location in the returning method, immediately prior to the return.

PhaseEvent TypeNumberEnablingSince
sent only during the live phase JVMTI_EVENT_FRAME_POP61SetEventNotificationMode(JVMTI_ENABLE, JVMTI_EVENT_FRAME_POP, NULL)1.0

Capabilities
Optional Functionality: might not be implemented for all virtual machines. The following capability (as returned by GetCapabilities) must be true to use this event.
Capability Effect
can_generate_frame_pop_events Can set and thus get FramePop events

Parameters
Name Type Description
jni_env JNIEnv * The JNI environment of the event (current) thread
threadjthread Thread that is popping the frame
methodjmethodID Method being popped
was_popped_by_exceptionjboolean True if frame was popped by a thrown exception. False if method exited through its return instruction.


Method Entry

void JNICALL
MethodEntry(jvmtiEnv *jvmti_env,
            JNIEnv* jni_env,
            jthread thread,
            jmethodID method)
Method entry events are generated upon entry of Java programming language methods (including native methods).

The location reported by GetFrameLocation identifies the initial executable location in the method.

Enabling method entry or exit events will significantly degrade performance on many platforms and is thus not advised for performance critical usage (such as profiling). Bytecode instrumentation should be used in these cases.

PhaseEvent TypeNumberEnablingSince
sent only during the live phase JVMTI_EVENT_METHOD_ENTRY65SetEventNotificationMode(JVMTI_ENABLE, JVMTI_EVENT_METHOD_ENTRY, NULL)1.0

Capabilities
Optional Functionality: might not be implemented for all virtual machines. The following capability (as returned by GetCapabilities) must be true to use this event.
Capability Effect
can_generate_method_entry_events Can generate method entry events on entering a method

Parameters
Name Type Description
jni_env JNIEnv * The JNI environment of the event (current) thread
threadjthread Thread entering the method
methodjmethodID Method being entered


Method Exit

void JNICALL
MethodExit(jvmtiEnv *jvmti_env,
            JNIEnv* jni_env,
            jthread thread,
            jmethodID method,
            jboolean was_popped_by_exception,
            jvalue return_value)
Method exit events are generated upon exit from Java programming language methods (including native methods). This is true whether termination is caused by executing its return instruction or by throwing an exception to its caller (see was_popped_by_exception).

The method field uniquely identifies the method being entered or exited. The frame field provides access to the stack frame for the method.

The location reported by GetFrameLocation identifies the executable location in the returning method immediately prior to the return.

Enabling method entry or exit events will significantly degrade performance on many platforms and is thus not advised for performance critical usage (such as profiling). Bytecode instrumentation should be used in these cases.

PhaseEvent TypeNumberEnablingSince
sent only during the live phase JVMTI_EVENT_METHOD_EXIT66SetEventNotificationMode(JVMTI_ENABLE, JVMTI_EVENT_METHOD_EXIT, NULL)1.0

Capabilities
Optional Functionality: might not be implemented for all virtual machines. The following capability (as returned by GetCapabilities) must be true to use this event.
Capability Effect
can_generate_method_exit_events Can generate method exit events on leaving a method

Parameters
Name Type Description
jni_env JNIEnv * The JNI environment of the event (current) thread
threadjthread Thread exiting the method
methodjmethodID Method being exited
was_popped_by_exceptionjboolean True if frame was popped by a thrown exception. False if method exited through its return instruction.
return_valuejvalue The return value of the method being exited. Undefined and should not be used if was_popped_by_exception is true.


Native Method Bind

void JNICALL
NativeMethodBind(jvmtiEnv *jvmti_env,
            JNIEnv* jni_env,
            jthread thread,
            jmethodID method,
            void* address,
            void** new_address_ptr)
A Native Method Bind event is sent when a VM binds a Java programming language native method to the address of a function that implements the native method. This will occur when the native method is called for the first time and also occurs when the JNI function RegisterNatives is called. This event allows the bind to be redirected to an agent-specified proxy function. This event is not sent when the native method is unbound. Typically, this proxy function will need to be specific to a particular method or, to handle the general case, automatically generated assembly code, since after instrumentation code is executed the function at the original binding address will usually be invoked. The original binding can be restored or the redirection changed by use of the JNI function RegisterNatives. Some events may be sent during the primordial phase, JNI and most of JVM TI cannot be used at this time but the method and address can be saved for use later.

PhaseEvent TypeNumberEnablingSince
sent during the primordial, start or live phase JVMTI_EVENT_NATIVE_METHOD_BIND67SetEventNotificationMode(JVMTI_ENABLE, JVMTI_EVENT_NATIVE_METHOD_BIND, NULL)1.0

Capabilities
Optional Functionality: might not be implemented for all virtual machines. The following capability (as returned by GetCapabilities) must be true to use this event.
Capability Effect
can_generate_native_method_bind_events Can generate events when a native method is bound to its implementation

Parameters
Name Type Description
jni_env JNIEnv * The JNI environment of the event (current) thread Will be NULL if sent during the primordial phase.
threadjthread Thread requesting the bind
methodjmethodID Native method being bound
addressvoid* The address the VM is about to bind to--that is, the address of the implementation of the native method
new_address_ptrvoid** if the referenced address is changed (that is, if *new_address_ptr is set), the binding will instead be made to the supplied address.


Exception

void JNICALL
Exception(jvmtiEnv *jvmti_env,
            JNIEnv* jni_env,
            jthread thread,
            jmethodID method,
            jlocation location,
            jobject exception,
            jmethodID catch_method,
            jlocation catch_location)
Exception events are generated whenever an exception is first detected in a Java programming language method. Where "exception" means any java.lang.Throwable. The exception may have been thrown by a Java programming language or native method, but in the case of native methods, the event is not generated until the exception is first seen by a Java programming language method. If an exception is set and cleared in a native method (and thus is never visible to Java programming language code), no exception event is generated.

The method and location parameters uniquely identify the current location (where the exception was detected) and allow the mapping to source file and line number when that information is available. The exception field identifies the thrown exception object. The catch_method and catch_location identify the location of the catch clause, if any, that handles the thrown exception. If there is no such catch clause, each field is set to 0. There is no guarantee that the thread will ever reach this catch clause. If there are native methods on the call stack between the throw location and the catch clause, the exception may be reset by one of those native methods. Similarly, exceptions that are reported as uncaught (catch_klass et al. set to 0) may in fact be caught by native code. Agents can check for these occurrences by monitoring ExceptionCatch events. Note that finally clauses are implemented as catch and re-throw. Therefore they will be reported in the catch location.

PhaseEvent TypeNumberEnablingSince
sent only during the live phase JVMTI_EVENT_EXCEPTION58SetEventNotificationMode(JVMTI_ENABLE, JVMTI_EVENT_EXCEPTION, NULL)1.0

Capabilities
Optional Functionality: might not be implemented for all virtual machines. The following capability (as returned by GetCapabilities) must be true to use this event.
Capability Effect
can_generate_exception_events Can get exception thrown and exception catch events

Parameters
Name Type Description
jni_env JNIEnv * The JNI environment of the event (current) thread
threadjthread Thread generating the exception
methodjmethodID Method generating the exception
locationjlocation Location where exception occurred
exceptionjobject The exception being thrown
catch_methodjmethodID Method that will catch the exception, or NULL if no known catch
catch_locationjlocation location which will catch the exception or zero if no known catch


Exception Catch

void JNICALL
ExceptionCatch(jvmtiEnv *jvmti_env,
            JNIEnv* jni_env,
            jthread thread,
            jmethodID method,
            jlocation location,
            jobject exception)
Exception catch events are generated whenever a thrown exception is caught. Where "exception" means any java.lang.Throwable. If the exception is caught in a Java programming language method, the event is generated when the catch clause is reached. If the exception is caught in a native method, the event is generated as soon as control is returned to a Java programming language method. Exception catch events are generated for any exception for which a throw was detected in a Java programming language method. Note that finally clauses are implemented as catch and re-throw. Therefore they will generate exception catch events.

The method and location parameters uniquely identify the current location and allow the mapping to source file and line number when that information is available. For exceptions caught in a Java programming language method, the exception object identifies the exception object. Exceptions caught in native methods are not necessarily available by the time the exception catch is reported, so the exception field is set to NULL.

PhaseEvent TypeNumberEnablingSince
sent only during the live phase JVMTI_EVENT_EXCEPTION_CATCH59SetEventNotificationMode(JVMTI_ENABLE, JVMTI_EVENT_EXCEPTION_CATCH, NULL)1.0

Capabilities
Optional Functionality: might not be implemented for all virtual machines. The following capability (as returned by GetCapabilities) must be true to use this event.
Capability Effect
can_generate_exception_events Can get exception thrown and exception catch events

Parameters
Name Type Description
jni_env JNIEnv * The JNI environment of the event (current) thread
threadjthread Thread catching the exception
methodjmethodID Method catching the exception
locationjlocation Location where exception is being caught
exceptionjobject Exception being caught


Thread Start

void JNICALL
ThreadStart(jvmtiEnv *jvmti_env,
            JNIEnv* jni_env,
            jthread thread)
Thread start events are generated by a new thread before its initial method executes.

A thread may be listed in the array returned by GetAllThreads before its thread start event is generated. It is possible for other events to be generated on a thread before its thread start event.

The event is sent on the newly started thread.

PhaseEvent TypeNumberEnablingSince
sent during the start or live phase JVMTI_EVENT_THREAD_START52SetEventNotificationMode(JVMTI_ENABLE, JVMTI_EVENT_THREAD_START, NULL)1.0

Capabilities
Required Functionality

Parameters
Name Type Description
jni_env JNIEnv * The JNI environment of the event (current) thread.
threadjthread Thread starting


Thread End

void JNICALL
ThreadEnd(jvmtiEnv *jvmti_env,
            JNIEnv* jni_env,
            jthread thread)
Thread end events are generated by a terminating thread after its initial method has finished execution.

A thread may be listed in the array returned by GetAllThreads after its thread end event is generated. No events are generated on a thread after its thread end event.

The event is sent on the dying thread.

PhaseEvent TypeNumberEnablingSince
sent during the start or live phase JVMTI_EVENT_THREAD_END53SetEventNotificationMode(JVMTI_ENABLE, JVMTI_EVENT_THREAD_END, NULL)1.0

Capabilities
Required Functionality

Parameters
Name Type Description
jni_env JNIEnv * The JNI environment of the event (current) thread.
threadjthread Thread ending


Class Load

void JNICALL
ClassLoad(jvmtiEnv *jvmti_env,
            JNIEnv* jni_env,
            jthread thread,
            jclass klass)
A class load event is generated when a class is first loaded. The order of class load events generated by a particular thread are guaranteed to match the order of class loading within that thread. Array class creation does not generate a class load event. The creation of a primitive class (for example, java.lang.Integer.TYPE) does not generate a class load event.

This event is sent at an early stage in loading the class. As a result the class should be used carefully. Note, for example, that methods and fields are not yet loaded, so queries for methods, fields, subclasses, and so on will not give correct results. See "Loading of Classes and Interfaces" in the Java Language Specification. For most purposes the ClassPrepare event will be more useful.

PhaseEvent TypeNumberEnablingSince
sent during the start or live phase JVMTI_EVENT_CLASS_LOAD55SetEventNotificationMode(JVMTI_ENABLE, JVMTI_EVENT_CLASS_LOAD, NULL)1.0

Capabilities
Required Functionality

Parameters
Name Type Description
jni_env JNIEnv * The JNI environment of the event (current) thread
threadjthread Thread loading the class
klassjclass Class being loaded


Class Prepare

void JNICALL
ClassPrepare(jvmtiEnv *jvmti_env,
            JNIEnv* jni_env,
            jthread thread,
            jclass klass)
A class prepare event is generated when class preparation is complete. At this point, class fields, methods, and implemented interfaces are available, and no code from the class has been executed. Since array classes never have fields or methods, class prepare events are not generated for them. Class prepare events are not generated for primitive classes (for example, java.lang.Integer.TYPE).

PhaseEvent TypeNumberEnablingSince
sent during the start or live phase JVMTI_EVENT_CLASS_PREPARE56SetEventNotificationMode(JVMTI_ENABLE, JVMTI_EVENT_CLASS_PREPARE, NULL)1.0

Capabilities
Required Functionality

Parameters
Name Type Description
jni_env JNIEnv * The JNI environment of the event (current) thread
threadjthread Thread generating the class prepare
klassjclass Class being prepared


Class File Load Hook

void JNICALL
ClassFileLoadHook(jvmtiEnv *jvmti_env,
            JNIEnv* jni_env,
            jclass class_being_redefined,
            jobject loader,
            const char* name,
            jobject protection_domain,
            jint class_data_len,
            const unsigned char* class_data,
            jint* new_class_data_len,
            unsigned char** new_class_data)
This event is sent when the VM obtains class file data, but before it constructs the in-memory representation for that class. This event is also sent when the class is being modified by the RetransformClasses function or the RedefineClasses function, called in any JVM TI environment. The agent can instrument the existing class file data sent by the VM to include profiling/debugging hooks. See the description of bytecode instrumentation for usage information.

This event may be sent before the VM is initialized (the primordial phase). During this time no VM resources should be created. Some classes might not be compatible with the function (eg. ROMized classes) and this event will not be generated for these classes.

The agent must allocate the space for the modified class file data buffer using the memory allocation function Allocate because the VM is responsible for freeing the new class file data buffer using Deallocate. Note that Allocate is permitted during the primordial phase.

If the agent wishes to modify the class file, it must set new_class_data to point to the newly instrumented class file data buffer and set new_class_data_len to the length of that buffer before returning from this call. If no modification is desired, the agent simply does not set new_class_data. If multiple agents have enabled this event the results are chained. That is, if new_class_data has been set, it becomes the class_data for the next agent.

The order that this event is sent to each environment differs from other events. This event is sent to environments in the following order: When triggered by RetransformClasses, this event is sent only to retransformation capable environments.

PhaseEvent TypeNumberEnablingSince
sent during the primordial, start or live phase JVMTI_EVENT_CLASS_FILE_LOAD_HOOK54SetEventNotificationMode(JVMTI_ENABLE, JVMTI_EVENT_CLASS_FILE_LOAD_HOOK, NULL)1.0

Capabilities
Required Functionality
Optional Features
Capability Effect
can_generate_all_class_hook_events Can generate ClassFileLoadHook events for every loaded class.

Parameters
Name Type Description
jni_env JNIEnv * The JNI environment of the event (current) thread. Will be NULL if sent during the primordial phase.
class_being_redefinedjclass The class being redefined or retransformed. NULL if sent by class load.
loaderjobject The class loader loading the class. NULL if the bootstrap class loader.
nameconst char* Name of class being loaded as a VM internal qualified name (for example, "java/util/List"), encoded as a modified UTF-8 string. Note: if the class is defined with a NULL name or without a name specified, name will be NULL.
protection_domainjobject The ProtectionDomain of the class.
class_data_lenjint Length of current class file data buffer.
class_dataconst unsigned char* Pointer to the current class file data buffer.
new_class_data_lenjint* Pointer to the length of the new class file data buffer.
new_class_dataunsigned char** Pointer to the pointer to the instrumented class file data buffer.


VM Start Event

void JNICALL
VMStart(jvmtiEnv *jvmti_env,
            JNIEnv* jni_env)
The VM initialization event signals the start of the VM. At this time JNI is live but the VM is not yet fully initialized. Once this event is generated, the agent is free to call any JNI function. This event signals the beginning of the start phase, JVM TI functions permitted in the start phase may be called.

In the case of VM start-up failure, this event will not be sent.

PhaseEvent TypeNumberEnablingSince
sent during the start or live phase JVMTI_EVENT_VM_START57SetEventNotificationMode(JVMTI_ENABLE, JVMTI_EVENT_VM_START, NULL)1.0

Capabilities
Required Functionality

Parameters
Name Type Description
jni_env JNIEnv * The JNI environment of the event (current) thread.


VM Initialization Event

void JNICALL
VMInit(jvmtiEnv *jvmti_env,
            JNIEnv* jni_env,
            jthread thread)
The VM initialization event signals the completion of VM initialization. Once this event is generated, the agent is free to call any JNI or JVM TI function. The VM initialization event can be preceded by or can be concurrent with other events, but the preceding events should be handled carefully, if at all, because the VM has not completed its initialization. The thread start event for the main application thread is guaranteed not to occur until after the handler for the VM initialization event returns.

In the case of VM start-up failure, this event will not be sent.

PhaseEvent TypeNumberEnablingSince
sent only during the live phase JVMTI_EVENT_VM_INIT50SetEventNotificationMode(JVMTI_ENABLE, JVMTI_EVENT_VM_INIT, NULL)1.0

Capabilities
Required Functionality

Parameters
Name Type Description
jni_env JNIEnv * The JNI environment of the event (current) thread.
threadjthread The initial thread


VM Death Event

void JNICALL
VMDeath(jvmtiEnv *jvmti_env,
            JNIEnv* jni_env)
The VM death event notifies the agent of the termination of the VM. No events will occur after the VMDeath event.

In the case of VM start-up failure, this event will not be sent. Note that Agent_OnUnload will still be called in these cases.

PhaseEvent TypeNumberEnablingSince
sent only during the live phase JVMTI_EVENT_VM_DEATH51SetEventNotificationMode(JVMTI_ENABLE, JVMTI_EVENT_VM_DEATH, NULL)1.0

Capabilities
Required Functionality

Parameters
Name Type Description
jni_env JNIEnv * The JNI environment of the event (current) thread


Compiled Method Load

typedef struct {
    const void* start_address;
    jlocation location;
} jvmtiAddrLocationMap;
void JNICALL
CompiledMethodLoad(jvmtiEnv *jvmti_env,
            jmethodID method,
            jint code_size,
            const void* code_addr,
            jint map_length,
            const jvmtiAddrLocationMap* map,
            const void* compile_info)
Sent when a method is compiled and loaded into memory by the VM. If it is unloaded, the CompiledMethodUnload event is sent. If it is moved, the CompiledMethodUnload event is sent, followed by a new CompiledMethodLoad event. Note that a single method may have multiple compiled forms, and that this event will be sent for each form. Note also that several methods may be inlined into a single address range, and that this event will be sent for each method.

These events can be sent after their initial occurrence with GenerateEvents.

PhaseEvent TypeNumberEnablingSince
sent only during the live phase JVMTI_EVENT_COMPILED_METHOD_LOAD68SetEventNotificationMode(JVMTI_ENABLE, JVMTI_EVENT_COMPILED_METHOD_LOAD, NULL)1.0

jvmtiAddrLocationMap - Native address to location entry
Field Type Description
start_addressconst void* Starting native address of code corresponding to a location
locationjlocation Corresponding location. See GetJLocationFormat for the meaning of location.

Capabilities
Optional Functionality: might not be implemented for all virtual machines. The following capability (as returned by GetCapabilities) must be true to use this event.
Capability Effect
can_generate_compiled_method_load_events Can generate events when a method is compiled or unloaded

Parameters
Name Type Description
methodjmethodID Method being compiled and loaded
code_sizejint Size of compiled code
code_addrconst void* Address where compiled method code is loaded
map_lengthjint Number of jvmtiAddrLocationMap entries in the address map. Zero if mapping information cannot be supplied.
mapconst jvmtiAddrLocationMap* Map from native addresses to location. The native address range of each entry is from start_address to start_address-1 of the next entry. NULL if mapping information cannot be supplied.
compile_infoconst void* VM-specific compilation information. The referenced compile information is managed by the VM and must not depend on the agent for collection. A VM implementation defines the content and lifetime of the information.


Compiled Method Unload

void JNICALL
CompiledMethodUnload(jvmtiEnv *jvmti_env,
            jmethodID method,
            const void* code_addr)
Sent when a compiled method is unloaded from memory. This event might not be sent on the thread which performed the unload. This event may be sent sometime after the unload occurs, but will be sent before the memory is reused by a newly generated compiled method. This event may be sent after the class is unloaded.

PhaseEvent TypeNumberEnablingSince
sent only during the live phase JVMTI_EVENT_COMPILED_METHOD_UNLOAD69SetEventNotificationMode(JVMTI_ENABLE, JVMTI_EVENT_COMPILED_METHOD_UNLOAD, NULL)1.0

Capabilities
Optional Functionality: might not be implemented for all virtual machines. The following capability (as returned by GetCapabilities) must be true to use this event.
Capability Effect
can_generate_compiled_method_load_events Can generate events when a method is compiled or unloaded

Parameters
Name Type Description
methodjmethodID Compiled method being unloaded. For identification of the compiled method only -- the class may be unloaded and therefore the method should not be used as an argument to further JNI or JVM TI functions.
code_addrconst void* Address where compiled method code was loaded. For identification of the compiled method only -- the space may have been reclaimed.


Dynamic Code Generated

void JNICALL
DynamicCodeGenerated(jvmtiEnv *jvmti_env,
            const char* name,
            const void* address,
            jint length)
Sent when a component of the virtual machine is generated dynamically. This does not correspond to Java programming language code that is compiled--see CompiledMethodLoad. This is for native code--for example, an interpreter that is generated differently depending on command-line options.

Note that this event has no controlling capability. If a VM cannot generate these events, it simply does not send any.

These events can be sent after their initial occurrence with GenerateEvents.

PhaseEvent TypeNumberEnablingSince
sent during the primordial, start or live phase JVMTI_EVENT_DYNAMIC_CODE_GENERATED70SetEventNotificationMode(JVMTI_ENABLE, JVMTI_EVENT_DYNAMIC_CODE_GENERATED, NULL)1.0

Capabilities
Required Functionality

Parameters
Name Type Description
nameconst char* Name of the code, encoded as a modified UTF-8 string. Intended for display to an end-user. The name might not be unique.
addressconst void* Native address of the code
lengthjint Length in bytes of the code


Data Dump Request

void JNICALL
DataDumpRequest(jvmtiEnv *jvmti_env)
Sent by the VM to request the agent to dump its data. This is just a hint and the agent need not react to this event. This is useful for processing command-line signals from users. For example, in the Java 2 SDK a CTRL-Break on Win32 and a CTRL-\ on Solaris causes the VM to send this event to the agent.

PhaseEvent TypeNumberEnablingSince
sent only during the live phase JVMTI_EVENT_DATA_DUMP_REQUEST71SetEventNotificationMode(JVMTI_ENABLE, JVMTI_EVENT_DATA_DUMP_REQUEST, NULL)1.0

Capabilities
Required Functionality

Parameters
Name Type Description


Monitor Contended Enter

void JNICALL
MonitorContendedEnter(jvmtiEnv *jvmti_env,
            JNIEnv* jni_env,
            jthread thread,
            jobject object)
Sent when a thread is attempting to enter a Java programming language monitor already acquired by another thread.

PhaseEvent TypeNumberEnablingSince
sent only during the live phase JVMTI_EVENT_MONITOR_CONTENDED_ENTER75SetEventNotificationMode(JVMTI_ENABLE, JVMTI_EVENT_MONITOR_CONTENDED_ENTER, NULL)1.0

Capabilities
Optional Functionality: might not be implemented for all virtual machines. The following capability (as returned by GetCapabilities) must be true to use this event.
Capability Effect
can_generate_monitor_events Can generate events on monitor activity

Parameters
Name Type Description
jni_env JNIEnv * The JNI environment of the event (current) thread
threadjthread JNI local reference to the thread attempting to enter the monitor
objectjobject JNI local reference to the monitor


Monitor Contended Entered

void JNICALL
MonitorContendedEntered(jvmtiEnv *jvmti_env,
            JNIEnv* jni_env,
            jthread thread,
            jobject object)
Sent when a thread enters a Java programming language monitor after waiting for it to be released by another thread.

PhaseEvent TypeNumberEnablingSince
sent only during the live phase JVMTI_EVENT_MONITOR_CONTENDED_ENTERED76SetEventNotificationMode(JVMTI_ENABLE, JVMTI_EVENT_MONITOR_CONTENDED_ENTERED, NULL)1.0

Capabilities
Optional Functionality: might not be implemented for all virtual machines. The following capability (as returned by GetCapabilities) must be true to use this event.
Capability Effect
can_generate_monitor_events Can generate events on monitor activity

Parameters
Name Type Description
jni_env JNIEnv * The JNI environment of the event (current) thread
threadjthread JNI local reference to the thread entering the monitor
objectjobject JNI local reference to the monitor


Monitor Wait

void JNICALL
MonitorWait(jvmtiEnv *jvmti_env,
            JNIEnv* jni_env,
            jthread thread,
            jobject object,
            jlong timeout)
Sent when a thread is about to wait on an object.

PhaseEvent TypeNumberEnablingSince
sent only during the live phase JVMTI_EVENT_MONITOR_WAIT73SetEventNotificationMode(JVMTI_ENABLE, JVMTI_EVENT_MONITOR_WAIT, NULL)1.0

Capabilities
Optional Functionality: might not be implemented for all virtual machines. The following capability (as returned by GetCapabilities) must be true to use this event.
Capability Effect
can_generate_monitor_events Can generate events on monitor activity

Parameters
Name Type Description
jni_env JNIEnv * The JNI environment of the event (current) thread
threadjthread JNI local reference to the thread about to wait
objectjobject JNI local reference to the monitor
timeoutjlong The number of milliseconds the thread will wait


Monitor Waited

void JNICALL
MonitorWaited(jvmtiEnv *jvmti_env,
            JNIEnv* jni_env,
            jthread thread,
            jobject object,
            jboolean timed_out)
Sent when a thread finishes waiting on an object.

PhaseEvent TypeNumberEnablingSince
sent only during the live phase JVMTI_EVENT_MONITOR_WAITED74SetEventNotificationMode(JVMTI_ENABLE, JVMTI_EVENT_MONITOR_WAITED, NULL)1.0

Capabilities
Optional Functionality: might not be implemented for all virtual machines. The following capability (as returned by GetCapabilities) must be true to use this event.
Capability Effect
can_generate_monitor_events Can generate events on monitor activity

Parameters
Name Type Description
jni_env JNIEnv * The JNI environment of the event (current) thread
threadjthread JNI local reference to the thread that was finished waiting
objectjobject JNI local reference to the monitor.
timed_outjboolean True if the monitor timed out


Resource Exhausted

void JNICALL
ResourceExhausted(jvmtiEnv *jvmti_env,
            JNIEnv* jni_env,
            jint flags,
            const void* reserved,
            const char* description)
Sent when a VM resource needed by a running application has been exhausted. Except as required by the optional capabilities, the set of resources which report exhaustion is implementation dependent.

The following bit flags define the properties of the resource exhaustion:
Resource Exhaustion Flags
Constant Value Description
JVMTI_RESOURCE_EXHAUSTED_OOM_ERROR0x0001 After this event returns, the VM will throw a java.lang.OutOfMemoryError.
JVMTI_RESOURCE_EXHAUSTED_JAVA_HEAP0x0002 The VM was unable to allocate memory from the JavaTM platform heap. The heap is the runtime data area from which memory for all class instances and arrays are allocated.
JVMTI_RESOURCE_EXHAUSTED_THREADS0x0004 The VM was unable to create a thread.

PhaseEvent TypeNumberEnablingSince
sent only during the live phase JVMTI_EVENT_RESOURCE_EXHAUSTED80SetEventNotificationMode(JVMTI_ENABLE, JVMTI_EVENT_RESOURCE_EXHAUSTED, NULL)1.1

Capabilities
Required Functionality
Optional Features
Capability Effect
can_generate_resource_exhaustion_heap_events Can generate events when the VM is unable to allocate memory from the heap.
can_generate_resource_exhaustion_threads_events Can generate events when the VM is unable to create a thread.

Parameters
Name Type Description
jni_env JNIEnv * The JNI environment of the event (current) thread
flagsjint Flags defining the properties of the of resource exhaustion as specified by the Resource Exhaustion Flags.
reservedconst void* Reserved.
descriptionconst char* Description of the resource exhaustion, encoded as a modified UTF-8 string.


VM Object Allocation

void JNICALL
VMObjectAlloc(jvmtiEnv *jvmti_env,
            JNIEnv* jni_env,
            jthread thread,
            jobject object,
            jclass object_klass,
            jlong size)
Sent when a method causes the virtual machine to allocate an Object visible to Java programming language code and the allocation is not detectable by other intrumentation mechanisms. Generally object allocation should be detected by instrumenting the bytecodes of allocating methods. Object allocation generated in native code by JNI function calls should be detected using JNI function interception. Some methods might not have associated bytecodes and are not native methods, they instead are executed directly by the VM. These methods should send this event. Virtual machines which are incapable of bytecode instrumentation for some or all of their methods can send this event.

Typical examples where this event might be sent: Cases where this event would not be generated:

PhaseEvent TypeNumberEnablingSince
sent only during the live phase JVMTI_EVENT_VM_OBJECT_ALLOC84SetEventNotificationMode(JVMTI_ENABLE, JVMTI_EVENT_VM_OBJECT_ALLOC, NULL)1.0

Capabilities
Optional Functionality: might not be implemented for all virtual machines. The following capability (as returned by GetCapabilities) must be true to use this event.
Capability Effect
can_generate_vm_object_alloc_events Can generate events on VM allocation of an object

Parameters
Name Type Description
jni_env JNIEnv * The JNI environment of the event (current) thread
threadjthread Thread allocating the object.
objectjobject JNI local reference to the object that was allocated
object_klassjclass JNI local reference to the class of the object
sizejlong Size of the object (in bytes). See GetObjectSize.


Object Free

void JNICALL
ObjectFree(jvmtiEnv *jvmti_env,
            jlong tag)
An Object Free event is sent when the garbage collector frees an object. Events are only sent for tagged objects--see heap functions.

The event handler must not use JNI functions and must not use JVM TI functions except those which specifically allow such use (see the raw monitor, memory management, and environment local storage functions).

PhaseEvent TypeNumberEnablingSince
sent only during the live phase JVMTI_EVENT_OBJECT_FREE83SetEventNotificationMode(JVMTI_ENABLE, JVMTI_EVENT_OBJECT_FREE, NULL)1.0

Capabilities
Optional Functionality: might not be implemented for all virtual machines. The following capability (as returned by GetCapabilities) must be true to use this event.
Capability Effect
can_generate_object_free_events Can generate events when the garbage collector frees an object

Parameters
Name Type Description
tagjlong The freed object's tag


Garbage Collection Start

void JNICALL
GarbageCollectionStart(jvmtiEnv *jvmti_env)
A Garbage Collection Start event is sent when a garbage collection pause begins. Only stop-the-world collections are reported--that is, collections during which all threads cease to modify the state of the Java virtual machine. This means that some collectors will never generate these events. This event is sent while the VM is still stopped, thus the event handler must not use JNI functions and must not use JVM TI functions except those which specifically allow such use (see the raw monitor, memory management, and environment local storage functions).

This event is always sent as a matched pair with GarbageCollectionFinish (assuming both events are enabled) and no garbage collection events will occur between them.

PhaseEvent TypeNumberEnablingSince
sent only during the live phase JVMTI_EVENT_GARBAGE_COLLECTION_START81SetEventNotificationMode(JVMTI_ENABLE, JVMTI_EVENT_GARBAGE_COLLECTION_START, NULL)1.0

Capabilities
Optional Functionality: might not be implemented for all virtual machines. The following capability (as returned by GetCapabilities) must be true to use this event.
Capability Effect
can_generate_garbage_collection_events Can generate events when garbage collection begins or ends

Parameters
Name Type Description


Garbage Collection Finish

void JNICALL
GarbageCollectionFinish(jvmtiEnv *jvmti_env)
A Garbage Collection Finish event is sent when a garbage collection pause ends. This event is sent while the VM is still stopped, thus the event handler must not use JNI functions and must not use JVM TI functions except those which specifically allow such use (see the raw monitor, memory management, and environment local storage functions).

Some agents may need to do post garbage collection operations that require the use of the disallowed JVM TI or JNI functions. For these cases an agent thread can be created which waits on a raw monitor, and the handler for the Garbage Collection Finish event simply notifies the raw monitor

This event is always sent as a matched pair with GarbageCollectionStart (assuming both events are enabled).

PhaseEvent TypeNumberEnablingSince
sent only during the live phase JVMTI_EVENT_GARBAGE_COLLECTION_FINISH82SetEventNotificationMode(JVMTI_ENABLE, JVMTI_EVENT_GARBAGE_COLLECTION_FINISH, NULL)1.0

Capabilities
Optional Functionality: might not be implemented for all virtual machines. The following capability (as returned by GetCapabilities) must be true to use this event.
Capability Effect
can_generate_garbage_collection_events Can generate events when garbage collection begins or ends

Parameters
Name Type Description


Constant Index

JVMTI_CLASS_STATUS_ARRAY
JVMTI_CLASS_STATUS_ERROR
JVMTI_CLASS_STATUS_INITIALIZED
JVMTI_CLASS_STATUS_PREPARED
JVMTI_CLASS_STATUS_PRIMITIVE
JVMTI_CLASS_STATUS_VERIFIED
JVMTI_DISABLE
JVMTI_ENABLE
JVMTI_HEAP_FILTER_CLASS_TAGGED
JVMTI_HEAP_FILTER_CLASS_UNTAGGED
JVMTI_HEAP_FILTER_TAGGED
JVMTI_HEAP_FILTER_UNTAGGED
JVMTI_HEAP_OBJECT_EITHER
JVMTI_HEAP_OBJECT_TAGGED
JVMTI_HEAP_OBJECT_UNTAGGED
JVMTI_HEAP_REFERENCE_ARRAY_ELEMENT
JVMTI_HEAP_REFERENCE_CLASS
JVMTI_HEAP_REFERENCE_CLASS_LOADER
JVMTI_HEAP_REFERENCE_CONSTANT_POOL
JVMTI_HEAP_REFERENCE_FIELD
JVMTI_HEAP_REFERENCE_INTERFACE
JVMTI_HEAP_REFERENCE_JNI_GLOBAL
JVMTI_HEAP_REFERENCE_JNI_LOCAL
JVMTI_HEAP_REFERENCE_MONITOR
JVMTI_HEAP_REFERENCE_OTHER
JVMTI_HEAP_REFERENCE_PROTECTION_DOMAIN
JVMTI_HEAP_REFERENCE_SIGNERS
JVMTI_HEAP_REFERENCE_STACK_LOCAL
JVMTI_HEAP_REFERENCE_STATIC_FIELD
JVMTI_HEAP_REFERENCE_SUPERCLASS
JVMTI_HEAP_REFERENCE_SYSTEM_CLASS
JVMTI_HEAP_REFERENCE_THREAD
JVMTI_HEAP_ROOT_JNI_GLOBAL
JVMTI_HEAP_ROOT_JNI_LOCAL
JVMTI_HEAP_ROOT_MONITOR
JVMTI_HEAP_ROOT_OTHER
JVMTI_HEAP_ROOT_STACK_LOCAL
JVMTI_HEAP_ROOT_SYSTEM_CLASS
JVMTI_HEAP_ROOT_THREAD
JVMTI_ITERATION_ABORT
JVMTI_ITERATION_CONTINUE
JVMTI_ITERATION_IGNORE
JVMTI_JAVA_LANG_THREAD_STATE_BLOCKED
JVMTI_JAVA_LANG_THREAD_STATE_MASK
JVMTI_JAVA_LANG_THREAD_STATE_NEW
JVMTI_JAVA_LANG_THREAD_STATE_RUNNABLE
JVMTI_JAVA_LANG_THREAD_STATE_TERMINATED
JVMTI_JAVA_LANG_THREAD_STATE_TIMED_WAITING
JVMTI_JAVA_LANG_THREAD_STATE_WAITING
JVMTI_JLOCATION_JVMBCI
JVMTI_JLOCATION_MACHINEPC
JVMTI_JLOCATION_OTHER
JVMTI_KIND_ALLOC_ALLOC_BUF
JVMTI_KIND_ALLOC_BUF
JVMTI_KIND_IN
JVMTI_KIND_IN_BUF
JVMTI_KIND_IN_PTR
JVMTI_KIND_OUT
JVMTI_KIND_OUT_BUF
JVMTI_PHASE_DEAD
JVMTI_PHASE_LIVE
JVMTI_PHASE_ONLOAD
JVMTI_PHASE_PRIMORDIAL
JVMTI_PHASE_START
JVMTI_PRIMITIVE_TYPE_BOOLEAN
JVMTI_PRIMITIVE_TYPE_BYTE
JVMTI_PRIMITIVE_TYPE_CHAR
JVMTI_PRIMITIVE_TYPE_DOUBLE
JVMTI_PRIMITIVE_TYPE_FLOAT
JVMTI_PRIMITIVE_TYPE_INT
JVMTI_PRIMITIVE_TYPE_LONG
JVMTI_PRIMITIVE_TYPE_SHORT
JVMTI_REFERENCE_ARRAY_ELEMENT
JVMTI_REFERENCE_CLASS
JVMTI_REFERENCE_CLASS_LOADER
JVMTI_REFERENCE_CONSTANT_POOL
JVMTI_REFERENCE_FIELD
JVMTI_REFERENCE_INTERFACE
JVMTI_REFERENCE_PROTECTION_DOMAIN
JVMTI_REFERENCE_SIGNERS
JVMTI_REFERENCE_STATIC_FIELD
JVMTI_RESOURCE_EXHAUSTED_JAVA_HEAP