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|Oracle Solaris Modular Debugger Guide Oracle Solaris 11 Express 11/10|
The benefit of MDB's modular architecture extends beyond the ability to load a module containing additional debugger commands. The MDB architecture defines clear interface boundaries between each of the layers shown in Figure 2-1. Macro files execute commands written in the MDB or adb language. Dcmds and walkers in debugger modules are written using the MDB Module API. The MDB Module API is the basis of an application binary interface that allows the debugger and its modules to evolve independently.
The MDB name space of walkers and dcmds also defines a second set of layers between debugging code. These layers maximize code sharing and limit the amount of code that must be modified as the target program evolves. For example, one of the primary data structures in the Oracle Solaris kernel is the list of proc_t structures that represent active processes in the system. The ::ps dcmd must iterate over this list in order to produce its output. However, the code to iterate over the list is not in the ::ps dcmd. The code to iterate over the list of proc_t structures is encapsulated in the genunix module's proc walker.
MDB provides both ::ps and ::ptree dcmds, but neither of these dcmds has any knowledge of how proc_t structures are accessed in the kernel. Instead, these dcmds invoke the proc walker programmatically and format the set of returned structures appropriately. If the data structure used for proc_t structures ever changed, MDB could provide a new proc walker, and none of the dependent dcmds would need to change. The proc walker can also be accessed interactively using the ::walk dcmd in order to create novel commands as you work during a debugging session.
In addition to facilitating layering and code sharing, the MDB Module API provides dcmds and walkers with a single stable interface for accessing various properties of the underlying target. The same API functions are used to access information from user process or kernel targets, simplifying the task of developing new debugging facilities.
In addition, you can use a custom MDB module to perform debugging tasks in a variety of contexts. For example, you might want to develop an MDB module for a user program you are developing. Once you have done so, you can use this module when MDB examines a live process executing your program, a core dump of your program, or even a kernel crash dump taken on a system where your program was executing.
The Module API provides facilities for accessing the following target properties:
The module API provides facilities for reading and writing data from the target's virtual address space. Functions for reading and writing using physical addresses are also provided for kernel debugging modules.
The module API provides access to the static and dynamic symbol tables of the target's primary executable file, its runtime link-editor, and a set of load objects. Load objects are shared libraries in a user process or loadable modules in the Oracle Solaris kernel.
The module API provides a facility for retrieving a collection of named external data buffers associated with the target. For example, MDB provides programmatic access to the proc(4) structures associated with a user process or user core file target.
In addition, you can use built-in MDB dcmds to access information about target memory mappings, load objects, register values, and control the execution of user process targets.