17 OCI Interface for Using Shards
This chapter describes the OCI interface for using Oracle Sharding.
Shards are locations in a set of databases where each database stores some part of the data. The part of the data stored at each database is represented by a set of chunks, where each chunk is associated with a certain range of the data.
To make requests that read from or write to a chunk, your application must be routed to the appropriate database (shard) that stores that chunk during the connection initiation step. This routing is accomplished by using a data key. The data key enables routing to the specific chunk by specifying its sharding key or to a group of chunks by specifying its super sharding key. In order to get a connection to the correct shard containing the chunk you wish to operate on, you must specify a key in your application before getting a connection to a sharded Oracle database for either standalone connections or connections obtained from an OCI Session pool. For an OCI Session pool, you must specify a data key before you check out connections from the pool.
For OCI Session pools and stand alone connections, the steps to form sharding keys and shard group keys and get a session with an underlying connection include:
-
Allocate the sharding key descriptor by calling
OCIDescriptorAlloc()
and specifying the descriptor type parameter asOCI_DTYPE_SHARDING_KEY
to form the sharding key.-
Add all of the columns of the sharding key by calling
OCIShardingKeyColumnAdd()
as many times as is needed to form the complete sharding key. -
Call
OCIAttrSet()
and specify theOCI_ATTR_SHARDING_KEY
attribute to set the sharding key on the authentication handle.
-
-
Allocate the shard group key descriptor by calling
OCIDescriptorAlloc()
and specifying the descriptor type parameter asOCI_DTYPE_SHARDING_KEY
to form the shard group key.-
Add all of the group columns of the sharding key by calling
OCIShardingKeyColumnAdd()
as many times as is needed to form the complete shard group key. -
Call
OCIAttrSet()
and specify theOCI_ATTR_SUPER_SHARDING_KEY
attribute to set the shard group key on the authentication handle.
-
-
Call
OCISessionGet()
using the initialized authentication handle from the previous step containing the sharding key and shard group key information to get the database connection to the shard and chunk specified by the sharding key and group of chunks as specified by the shard group key.
For custom pools, the steps to form sharding keys and shard group keys and check out a connection from the pool include:
-
If there are no existing connections in your custom pool, go directly to Step 7. Otherwise, do the following steps.
-
Allocate the sharding key descriptor by calling
OCIDescriptorAlloc()
and specifying the descriptor type parameter asOCI_DTYPE_SHARDING_KEY
to form the sharding key. Add all of the columns of the sharding key by callingOCIShardingKeyColumnAdd()
as many times as is needed to form the complete sharding key. -
Allocate the shard group key descriptor by calling
OCIDescriptorAlloc()
and specifying the descriptor type parameter asOCI_DTYPE_SHARDING_KEY
to form the shard group key. Add all of the group columns of the sharding key by callingOCIShardingKeyColumnAdd()
as many times as is needed to form the complete shard group key. -
Call
OCIShardInstancesGet()
with the sharding key, super sharding key descriptors and the connect string to return the instance name or names that contain the desired chunk for the specified sharding key descriptor and super sharding key descriptor. -
Examine each connection in the custom pool to see if it points to one of the instances whose name was returned by
OCIShardInstancesGet()
. To check the instance that a connection in your custom pool points to, you can get the instance name usingOCI_ATTR_INSTNAME
on the service context handle (OCISvcCtx *
). -
If you find a suitable connection in your custom pool that points to one of the desired instances, then call
OCIAttrSet()
to associate the sharding key and super sharding key with that connection. Now the connection is ready for executing your application's OCI calls on the desired shard. You can skip Step 7. If you do not find a suitable connection in your custom pool that points to the desired instance, continue to Step 7. -
If there is no matching connection found, create a new connection with the sharding key, super sharding key, and connect string and call
OCISessionGet()
and specify theOCI_SESSGET_CUSTOM_POOL
mode to explicitly cache the shard topology that contains the shard to chunking mapping information. Now you have a connection to the desired shard. Now the connection is ready for executing your application's OCI calls on the desired shard.
Providing the sharding key or a super sharding key to OCI enables it to get a connection to the desired shard. As previously noted, these keys must be specified before getting a standalone connection to the database, or before checking out a connection from the OCI Session pool so that an appropriate connection to the desired shard can be returned.
In the case of custom pools, when the pool is empty, the custom pool implementer can use the steps as described above to first create standalone connections to the desired shards by providing the sharding key and super sharding key (with OCI_SESSGET_CUSTOM_POOL
mode) to populate the custom pool, and secondly, for subsequent requests for connections to specific shards, use the OCIShardInstancesGet()
call as described in conjunction with OCIAttrGet()
of OCI_ATTR_INSTNAME
to determine if an existing connection to the desired shard already exists in the custom pool, and if it does, then the connection can be reused.
-
Create a sharding key and a super sharding key using OCI data types.
-
Create a connection specifying a sharding key and a super sharding key.
-
Specify the sharding key and super sharding key to the connection request from an OCI session pool.
-
Use custom connection pooling to get the shard name for a given connection and to get the shard name and the chunk name, given a sharding key and super sharding key.
About Specifying a Sharding Key and Super Sharding Keys for a Standalone Connection
Use the OCISessionGet()
call for creating the connection. This call takes an authentication handle, authp
, as input, on which various properties are set, including the two attributes to support creating connections to specific shards: OCI_ATTR_SHARDING_KEY
for the sharding key and OCI_ATTR_SUPER_SHARDING_KEY
for the super sharding key.
About Creating a Sharding Key and Super Sharding Key
Use the OCI descriptor type OCIShardingKey
for forming the sharding key and the super sharding key. This descriptor wraps the key value (for a single part key) or multiple values (for a compounded key).
OCIShardingKeyColumnAdd()
call to add all of the columns of the key to form the complete key. OCIShardingKeyColumnAdd(OCIShardingKey *shardingKey,
OCIError *errhp,
void *col,
ub4 colLen,
ub2 colType,
ub4 mode)
You should perform this call as many times as there are columns in the compound key (or just once for a simple sharding key) in the order in which the key is defined in the database. The columnType
parameter indicates the data type of the column.
The following table shows the supported OCI data type values for the columnType
parameter and its corresponding C data type.
OCI Data Type | C Data Type |
---|---|
SQLT_NUM | ub1* |
SQLT_CHR | OraText* |
SQLT_DATE | ub1* |
SQLT_TIMESTAMP | OCIDateTime* |
SQLT_RAW | ub1* |
SQLT_VNU | ub1* |
SQLY_INT | int* |
The character key values are assumed to be in the client character set (specified by NLS_LANG
or OCIEnvNLSCreate()
calls) .
After forming the sharding key and the super sharding key using theOCIShardingKeyColumnAdd()
call, the keys can be set on the authentication handle using the sharding key attribute OCI_ATTR_SHARDING_KEY
and the super sharding key attribute OCI_ATTR_SUPER_SHARDING_KEY
as follows:
OCIAttrSet(authp,
OCI_HTYPE_AUTHINFO,
shardKey,
sizeof(shardKey),
OCI_ATTR_SHARDING_KEY,
errhp);
OCIAttrSet(authp,
OCI_HTYPE_AUTHINFO,
shardGroupKey,
sizeof(shardGroupKey),
OCI_ATTR_SUPER_SHARDING_KEY,
errhp);
When you use this authp
parameter in an OCISessionGet()
call, it will ensure that you create a connection to the shard containing the data corresponding to the sharding key and super sharding key values that are set.
About Getting the Actual Sharding Key and Super Sharding Key Values
If you want to know the Base64 representation of the sharding key and super sharding key for diagnostic purposes, you can use the attribute OCI_ATTR_SHARDING_KEY_B64
, on the OCIShardingKey
descriptor. The OCIAttrGet()
call takes the OCIShardingKey
descriptor as input and returns the text value in base64 format of the sharding key and super sharding key.
OCIAttrGet((dvoid *) OCIShardingKey,
(ub4) OCI_DTYPE_SHARDING_KEY,
(dvoid *) &sekyVale,
(ub4*) &skeyValueLen,
OCI_ATTR_SHARDING_KEY_B64,
(OCIError *) errhp);
In addition, you can use the OCIShardingKeyReset()
call shown as follows for your application to reset and reuse the allocated descriptor for creating a new sharding key and super sharding key.
sword OCIShardingKeyReset(OCIShardingKey *shardKey,
OCIError *errhp,
ub4 mode);
17.1 About Specifying a Sharding Key and Super Sharding Key for Getting a Connection from an OCI Session Pool
This topic describes how to specify a sharding key and super sharding key to get a connection from an OCI Session Pool.
By default, the OCISessionGet()
call creates a new connection. You can also use this call to get an existing connection from an OCI Session pool. When you use the OCI_ATTR_SHARDING_KEY
and OCI_ATTR_SUPER_SHARDING_KEY
attribute settings, you can get a connection to the desired shard from an OCI Session pool. In an OCI Session pool, sessions in the pool can represent a variety of shards that are each authenticated by the database credentials passed in by the OCISessionGet()
call using the initialized authentication handle authp
.
The following example shows how to get a connection to the desired database shard from an OCI Session Pool created with the homogeneous and statement caching modes specified. Even though this example uses a homogeneous pool, you are not restricted to that type of pool.
OCIShardingKey *shardKey, *shardGroupKey;
/* Error handling is omitted for brevity. */
/* Create a homogeneous session pool. */
checkerr(&status, errhp,
OCISessionPoolCreate(envhp, errhp,
spoolhp, /* session pool handle */
(OraText **) poolName, poolNameLenp, /* returned poolname, length */
(const OraText *) connstr, strlen(connstr), /* connect string */
min, max, increment, /* pool size constraints */
(OraText *) "hr", strlen((char *) "hr"), /* username */
(OraText *) apppassword, /* password */
strlen((char *) apppassword),
OCI_SPC_HOMOGENEOUS|OCI_SPC_STMTCACHE)); /* modes */
/* Allocate the sharding key and super sharding key descriptors. */
OCIDescriptorAlloc(envhp,(dvoid **)&shardKey,
OCI_DTYPE_SHARDING_KEY, 0,(dvoid **)0)))
text *name = “KK”;
text *gname = “GOLD”;
int empid = 150;
/* Add all the columns of the key to form the final sharding key. */
OCIShardingKeyColumnAdd(shardKey,(ub1*)&empid, sizeof(empid),
SQLT_INT, errhp, OCI_DEFAULT);
OCIShardingKeyColumnAdd(shardKey, name, strlen(name),
SQLT_CHAR, errhp, OCI_DEFAULT));
OCIAttrSet(authp, OCI_HTYPE_AUTHINFO,
shardKey, sizeof(shardKey),
OCI_ATTR_SHARDING_KEY, errhp);
/* Setting a shard group key. */
/* Create a shard group key, in the same way as for a sharding key. */
OCIDescriptorAlloc(envhp,(dvoid **)&shardGroupKey,
OCI_DTYPE_SHARDING_KEY, 0, (dvoid **)0));
/* Add the column of the key to form the final super sharding key. */
OCIShardingKeyColumnAdd(shardGroupKey, gname, strlen(gname),
SQLT_CHAR, errhp, OCI_DEFAULT));
OCIAttrSet(authp, OCI_HTYPE_AUTHINFO,
shardGroupKey, sizeof(shardGroupKey),
OCI_ATTR_SUPER_SHARDING_KEY, errhp));
/* Get the database connection from the OCI Session Pool. */
checkerr(&status,
errhp, OCISessionGet(envhp, errhp,
&svchp, /* returned database connection */
authp, /* initialized authentication handle */
(OraText *) poolName, poolNameLen, /* connect string */
NULL, 0, NULL, NULL, NULL, /* session tagging parameters: optional */
OCI_DEFAULT)); /* modes */
Chunk Migrations and OCISessionGet() in Sharding
OCISessionGet()
returns a connection to an instance having a writable chunk by implicitly doing retrials during chunk migration. This requires that a couple of properties be set:
-
Setting
READONLY_CHUNK_OK
toFALSE
in the connect string. -
Setting pool handle attributes:
OCI_ATTR_SPOOL_GETMODE
andOCI_ATTR_SPOOL_WAIT_TIMEOUT
toOCI_SPOOL_ATTRVAL_TIMEDWAIT
and a suitable time out value in milliseconds. If the pool is unable to get a connection to a writable instance within the time out period,OCISessionGet()
returns anORA-24495
error.
If the application can use read only chunks, it can set READONLY_CHUNK_OK=true
in the connect string. In that case a connection available to the instance with chunks marked read-only also may be dispensed. If the application attempts any database write operation on such a connection, it gets in return suitable errors.
17.2 About Specifying a Sharding Key and Super Sharding Key for Getting a Connection from a Custom Pool
This topic describes features that support specifying a sharding key and super sharding key to get a connection from a custom pool.
-
OCISessionGet()
modeOCI_SESSGET_CUSTOM_POOL
— Used to explicitly cache the shard topology every time OCI connects to a new shard instance. -
OCIShardInstancesGet()
— Returns instance names for a given sharding key descriptor, super sharding key descriptor, and connection string.
OCI_ATTR_INSTNAME Attribute
If your OCI client application uses custom connection pooling, you must be able to return connections to specific shards. To do this, you must know the shard name to which shard a connection has been made and the sharding key and super sharding key to shard name mapping to enable a look up for a matching connection.
This is possible when you use the attribute OCI_ATTR_INSTNAME
on the service context (svchp
) for this purpose. This attribute returns the instance name for a given connection. The instance name is unique for the shard instance pointed to by a given connection. Every shard instance has a unique name. The following code sample shows how this attribute is used to get the instance name from a given service context svchp
.
OraText shardName[OCI_INSTNAME_MAXLEN];
ub4 shardNameLen;
OCIAttrGet(svchp,
OCI_HTYPE_SVCCTX,
shardName,
(ub4 *) &shardNameLen,
OCI_ATTR_INSTNAME,
errhp);
OCISessionGet() mode OCI_SESSGET_CUSTOM_POOL
OCI clients that do custom pooling must use the OCISessionGet()
mode OCI_SESSGET_CUSTOM_POOL
to explicitly cache the shard topology that contains the shard to chunking mapping information every time OCI connects to a new shard not previously visited. OCI clients that do not use custom pooling do not need to use this mode as this caching is done implicitly, for example, when you use OCI Session Pools.
OCIShardInstancesGet()
OCIShardInstancesGet()
returns instance names for a given sharding key descriptor and super sharding key descriptor. This method has the following signature:
sword OCIShardInstancesGet(
void **shTopoCtx,
OCIError *errhp,
const OraText *connstr,
ub4 constrl,
OCIShardingKey *shardingKey,
OCIShardingKey *superShardingKey,
OCIShardinst ***shardinsts,
ub4 numShardInsts,
ub4 mode);
This call looks up the shard topology cache on the client.
If any connections were made with OCI_SESSGET_CUSTOM_POOL
mode, then OCI maintains the shard topology cache locally.
The returned value may be NULL
if the shard topology cache does not yet have the mapping either because no connections were made with OCI_SESSGET_CUSTOM_POOL
or the connections that were made so far with OCI_SESSGET_CUSTOM_POOL
did not connect to a shard that contains the chunk for the sharding key and super sharding key requested. In either case, the custom pool should create a new connection explicitly using OCISessionGet()
with the OCI_ATTR_SHARDING_KEY
and OCI_ATTR_SUPER_SHARDING_KEY
attributes set as applicable with OCI_SESSGET_CUSTOM_POOL
mode enabled. Doing this adds information about the new shard to the OCI shard topology cache. Subsequent OCIShardInstancesGet()
calls will look for key ranges belonging to chunks located in these shards and return these shard instance names.
Note that a sharding key and super sharding key may refer to multiple shards as a result of the chunk being replicated. When the custom pool has a connection to the desired shard, the custom pool should ensure that the OCI_ATTR_SHARDING_KEY
and OCI_ATTR_SUPER_SHARDING_KEY
properties are set on the connection before dispensing. Setting these properties ensures that the chunk usage is tracked on the database side and to determine if there have been any chunk splits occurring on the database.
See Also:
OCIShardInstancesGet() for an example that uses custom pooling