#define REDISMODULE_EXPERIMENTAL_API #define _XOPEN_SOURCE 700 #include "redismodule.h" #include #include #include #include #define UNUSED(x) (void)(x) /* Reply callback for blocking command BLOCK.DEBUG */ int HelloBlock_Reply(RedisModuleCtx *ctx, RedisModuleString **argv, int argc) { UNUSED(argv); UNUSED(argc); int *myint = RedisModule_GetBlockedClientPrivateData(ctx); return RedisModule_ReplyWithLongLong(ctx,*myint); } /* Timeout callback for blocking command BLOCK.DEBUG */ int HelloBlock_Timeout(RedisModuleCtx *ctx, RedisModuleString **argv, int argc) { UNUSED(argv); UNUSED(argc); RedisModuleBlockedClient *bc = RedisModule_GetBlockedClientHandle(ctx); RedisModule_BlockedClientMeasureTimeEnd(bc); return RedisModule_ReplyWithSimpleString(ctx,"Request timedout"); } /* Private data freeing callback for BLOCK.DEBUG command. */ void HelloBlock_FreeData(RedisModuleCtx *ctx, void *privdata) { UNUSED(ctx); RedisModule_Free(privdata); } /* The thread entry point that actually executes the blocking part * of the command BLOCK.DEBUG. */ void *BlockDebug_ThreadMain(void *arg) { void **targ = arg; RedisModuleBlockedClient *bc = targ[0]; long long delay = (unsigned long)targ[1]; long long enable_time_track = (unsigned long)targ[2]; if (enable_time_track) RedisModule_BlockedClientMeasureTimeStart(bc); RedisModule_Free(targ); struct timespec ts; ts.tv_sec = delay / 1000; ts.tv_nsec = (delay % 1000) * 1000000; nanosleep(&ts, NULL); int *r = RedisModule_Alloc(sizeof(int)); *r = rand(); if (enable_time_track) RedisModule_BlockedClientMeasureTimeEnd(bc); RedisModule_UnblockClient(bc,r); return NULL; } /* The thread entry point that actually executes the blocking part * of the command BLOCK.DOUBLE_DEBUG. */ void *DoubleBlock_ThreadMain(void *arg) { void **targ = arg; RedisModuleBlockedClient *bc = targ[0]; long long delay = (unsigned long)targ[1]; RedisModule_BlockedClientMeasureTimeStart(bc); RedisModule_Free(targ); struct timespec ts; ts.tv_sec = delay / 1000; ts.tv_nsec = (delay % 1000) * 1000000; nanosleep(&ts, NULL); int *r = RedisModule_Alloc(sizeof(int)); *r = rand(); RedisModule_BlockedClientMeasureTimeEnd(bc); /* call again RedisModule_BlockedClientMeasureTimeStart() and * RedisModule_BlockedClientMeasureTimeEnd and ensure that the * total execution time is 2x the delay. */ RedisModule_BlockedClientMeasureTimeStart(bc); nanosleep(&ts, NULL); RedisModule_BlockedClientMeasureTimeEnd(bc); RedisModule_UnblockClient(bc,r); return NULL; } void HelloBlock_Disconnected(RedisModuleCtx *ctx, RedisModuleBlockedClient *bc) { RedisModule_Log(ctx,"warning","Blocked client %p disconnected!", (void*)bc); } /* BLOCK.DEBUG -- Block for milliseconds, then reply with * a random number. Timeout is the command timeout, so that you can test * what happens when the delay is greater than the timeout. */ int HelloBlock_RedisCommand(RedisModuleCtx *ctx, RedisModuleString **argv, int argc) { if (argc != 3) return RedisModule_WrongArity(ctx); long long delay; long long timeout; if (RedisModule_StringToLongLong(argv[1],&delay) != REDISMODULE_OK) { return RedisModule_ReplyWithError(ctx,"ERR invalid count"); } if (RedisModule_StringToLongLong(argv[2],&timeout) != REDISMODULE_OK) { return RedisModule_ReplyWithError(ctx,"ERR invalid count"); } pthread_t tid; RedisModuleBlockedClient *bc = RedisModule_BlockClient(ctx,HelloBlock_Reply,HelloBlock_Timeout,HelloBlock_FreeData,timeout); /* Here we set a disconnection handler, however since this module will * block in sleep() in a thread, there is not much we can do in the * callback, so this is just to show you the API. */ RedisModule_SetDisconnectCallback(bc,HelloBlock_Disconnected); /* Now that we setup a blocking client, we need to pass the control * to the thread. However we need to pass arguments to the thread: * the delay and a reference to the blocked client handle. */ void **targ = RedisModule_Alloc(sizeof(void*)*3); targ[0] = bc; targ[1] = (void*)(unsigned long) delay; // pass 1 as flag to enable time tracking targ[2] = (void*)(unsigned long) 1; if (pthread_create(&tid,NULL,BlockDebug_ThreadMain,targ) != 0) { RedisModule_AbortBlock(bc); return RedisModule_ReplyWithError(ctx,"-ERR Can't start thread"); } return REDISMODULE_OK; } /* BLOCK.DEBUG_NOTRACKING -- Block for milliseconds, then reply with * a random number. Timeout is the command timeout, so that you can test * what happens when the delay is greater than the timeout. * this command does not track background time so the background time should no appear in stats*/ int HelloBlockNoTracking_RedisCommand(RedisModuleCtx *ctx, RedisModuleString **argv, int argc) { if (argc != 3) return RedisModule_WrongArity(ctx); long long delay; long long timeout; if (RedisModule_StringToLongLong(argv[1],&delay) != REDISMODULE_OK) { return RedisModule_ReplyWithError(ctx,"ERR invalid count"); } if (RedisModule_StringToLongLong(argv[2],&timeout) != REDISMODULE_OK) { return RedisModule_ReplyWithError(ctx,"ERR invalid count"); } pthread_t tid; RedisModuleBlockedClient *bc = RedisModule_BlockClient(ctx,HelloBlock_Reply,HelloBlock_Timeout,HelloBlock_FreeData,timeout); /* Here we set a disconnection handler, however since this module will * block in sleep() in a thread, there is not much we can do in the * callback, so this is just to show you the API. */ RedisModule_SetDisconnectCallback(bc,HelloBlock_Disconnected); /* Now that we setup a blocking client, we need to pass the control * to the thread. However we need to pass arguments to the thread: * the delay and a reference to the blocked client handle. */ void **targ = RedisModule_Alloc(sizeof(void*)*3); targ[0] = bc; targ[1] = (void*)(unsigned long) delay; // pass 0 as flag to enable time tracking targ[2] = (void*)(unsigned long) 0; if (pthread_create(&tid,NULL,BlockDebug_ThreadMain,targ) != 0) { RedisModule_AbortBlock(bc); return RedisModule_ReplyWithError(ctx,"-ERR Can't start thread"); } return REDISMODULE_OK; } /* BLOCK.DOUBLE_DEBUG -- Block for 2 x milliseconds, * then reply with a random number. * This command is used to test multiple calls to RedisModule_BlockedClientMeasureTimeStart() * and RedisModule_BlockedClientMeasureTimeEnd() within the same execution. */ int HelloDoubleBlock_RedisCommand(RedisModuleCtx *ctx, RedisModuleString **argv, int argc) { if (argc != 2) return RedisModule_WrongArity(ctx); long long delay; if (RedisModule_StringToLongLong(argv[1],&delay) != REDISMODULE_OK) { return RedisModule_ReplyWithError(ctx,"ERR invalid count"); } pthread_t tid; RedisModuleBlockedClient *bc = RedisModule_BlockClient(ctx,HelloBlock_Reply,HelloBlock_Timeout,HelloBlock_FreeData,0); /* Now that we setup a blocking client, we need to pass the control * to the thread. However we need to pass arguments to the thread: * the delay and a reference to the blocked client handle. */ void **targ = RedisModule_Alloc(sizeof(void*)*2); targ[0] = bc; targ[1] = (void*)(unsigned long) delay; if (pthread_create(&tid,NULL,DoubleBlock_ThreadMain,targ) != 0) { RedisModule_AbortBlock(bc); return RedisModule_ReplyWithError(ctx,"-ERR Can't start thread"); } return REDISMODULE_OK; } int RedisModule_OnLoad(RedisModuleCtx *ctx, RedisModuleString **argv, int argc) { UNUSED(argv); UNUSED(argc); if (RedisModule_Init(ctx,"block",1,REDISMODULE_APIVER_1) == REDISMODULE_ERR) return REDISMODULE_ERR; if (RedisModule_CreateCommand(ctx,"block.debug", HelloBlock_RedisCommand,"",0,0,0) == REDISMODULE_ERR) return REDISMODULE_ERR; if (RedisModule_CreateCommand(ctx,"block.double_debug", HelloDoubleBlock_RedisCommand,"",0,0,0) == REDISMODULE_ERR) return REDISMODULE_ERR; if (RedisModule_CreateCommand(ctx,"block.debug_no_track", HelloBlockNoTracking_RedisCommand,"",0,0,0) == REDISMODULE_ERR) return REDISMODULE_ERR; return REDISMODULE_OK; }