TDengine/source/util/src/tsched.c
Dingle Zhang 984211f3b4
Feature/3.0 geometry (#21037)
* Add GEOMETRY data type and make sql.c able to parse it. The GEMETRY works like BINARY so far.

* add GEOMETRY type into gConvertTypes to fix some issues like DELETE calling

* change some test cases to make sure no same timestamp is inserted, and add my smoketest.sh

* Add a function MakePoint() and introduce a lib geometry

* implement sql functions GeomFromText() and AsText()

* Use GEOS *_r funcions instead for thread safety

* Handle with TSDB_DATA_TYPE_GEOMETRY when INSERT geometry data by converting WKT.
Add geosWrapper to wrap the basic GEOS functions for TDEngine.

* refactor AsText and MakePoint functions to be like GeomFromText

* Show WKT when print geometry data in screen
Dump hex data when dump geometry data in a file

* define TYPE_BYTES item for TSDB_DATA_TYPE_GEOMETRY, which casued some strange issues.

* set number of decimals of WKT to 6

* Implement SQL function Intersects()

* refactor geometry sql functions

* Add geosErrMsgeHandler() to get the GEOS error detail

* use threadlocal to instantiate SGeosContext
call destroyGeosContext() only if the thread exists

* remove SGeosContext *context param for all geometry functions since we use thread local one,
so that all caller do not need to know the context.

* Modify Intersects() to call PreparedIntersects() when one of param is a constant, which has higher performance.

* rename prepareFn() to initCtxFn() to avoid confusion with PreparedFn

* Add prefix "ST_" for all geometry functions

* move getThreadLocalGeosCtx() and destroyThreadLocalGeosCtx() into util,
so that all unit test tools can compile

* Add unit test for geometry lib, only test MakePoint so far

* refactor and enhance existing cases in geomFuncTest

* implement NULL type and NULL value test for geomFuncTest

* add test on geomFromText()

* add unit test on AsText() in geomFuncTest

* combine some makePointFunction test items

* add intersectsFunctionTwoColumns test
refactor on callGeomFromTextWrapper functions

* enhance intersectsFunction test to add cases like input constant , NULL type, NULL value, or wrong content

* add more cases into intersectsFunction test

* Add basic test on geometry in system test

* Add ST_GeomFromText and ST_AsText function test in system test on geometry

* add ST_Intersects function test in system test on geometry

* support to check expectedErrno in system test on geometry

* adjust geomTest unit test and geometry system test

* add geometry data type and functions in doc english version

* implement touchesFunction() in geometry lib
refactor geometry relation functions model

* separate gemFuncTest into several src files

* add unit test on touchesFunction

* support sql function ST_Touches()
add system test on ST_Touches

* add docs for ST_Touches()

* Add ST_Contains()

* Add ST_Covers()

* Add ST_Equals()

* add swapAllowed param for geomRelationFunction()
read geom2 earlier intead of at doGeosRelation()

* Add ST_ContainsProperly()

* build on windows

* Merge from 3.0 to 3.0_geometry

* change macro definition TSDB_DATA_TYPE_GEOMETRY as the last one for compatibility

* change '\\NULL' to 'NULL' back in shellDumpFieldToFile()

* add /usr/local/include into include directory

* add /usr/local/inlcude and /usr/local/lib in cmake.platform for DARWIN
2023-05-24 15:36:46 +08:00

257 lines
7.6 KiB
C

/*
* Copyright (c) 2019 TAOS Data, Inc. <jhtao@taosdata.com>
*
* This program is free software: you can use, redistribute, and/or modify
* it under the terms of the GNU Affero General Public License, version 3
* or later ("AGPL"), as published by the Free Software Foundation.
*
* This program is distributed in the hope that it will be useful, but WITHOUT
* ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
* FITNESS FOR A PARTICULAR PURPOSE.
*
* You should have received a copy of the GNU Affero General Public License
* along with this program. If not, see <http://www.gnu.org/licenses/>.
*/
#define _DEFAULT_SOURCE
#include "tsched.h"
#include "tdef.h"
#include "tgeosctx.h"
#include "tlog.h"
#include "ttimer.h"
#include "tutil.h"
#define DUMP_SCHEDULER_TIME_WINDOW 30000 // every 30sec, take a snap shot of task queue.
static void *taosProcessSchedQueue(void *param);
static void taosDumpSchedulerStatus(void *qhandle, void *tmrId);
void *taosInitScheduler(int32_t queueSize, int32_t numOfThreads, const char *label, SSchedQueue *pSched) {
bool schedMalloced = false;
if (NULL == pSched) {
pSched = (SSchedQueue *)taosMemoryCalloc(sizeof(SSchedQueue), 1);
if (pSched == NULL) {
uError("%s: no enough memory for pSched", label);
return NULL;
}
schedMalloced = true;
}
pSched->queue = (SSchedMsg *)taosMemoryCalloc(sizeof(SSchedMsg), queueSize);
if (pSched->queue == NULL) {
uError("%s: no enough memory for queue", label);
taosCleanUpScheduler(pSched);
if (schedMalloced) {
taosMemoryFree(pSched);
}
return NULL;
}
pSched->qthread = taosMemoryCalloc(sizeof(TdThread), numOfThreads);
if (pSched->qthread == NULL) {
uError("%s: no enough memory for qthread", label);
taosCleanUpScheduler(pSched);
if (schedMalloced) {
taosMemoryFree(pSched);
}
return NULL;
}
pSched->queueSize = queueSize;
tstrncpy(pSched->label, label, sizeof(pSched->label)); // fix buffer overflow
pSched->fullSlot = 0;
pSched->emptySlot = 0;
if (taosThreadMutexInit(&pSched->queueMutex, NULL) < 0) {
uError("init %s:queueMutex failed(%s)", label, strerror(errno));
taosCleanUpScheduler(pSched);
if (schedMalloced) {
taosMemoryFree(pSched);
}
return NULL;
}
if (tsem_init(&pSched->emptySem, 0, (uint32_t)pSched->queueSize) != 0) {
uError("init %s:empty semaphore failed(%s)", label, strerror(errno));
taosCleanUpScheduler(pSched);
if (schedMalloced) {
taosMemoryFree(pSched);
}
return NULL;
}
if (tsem_init(&pSched->fullSem, 0, 0) != 0) {
uError("init %s:full semaphore failed(%s)", label, strerror(errno));
taosCleanUpScheduler(pSched);
if (schedMalloced) {
taosMemoryFree(pSched);
}
return NULL;
}
atomic_store_8(&pSched->stop, 0);
for (int32_t i = 0; i < numOfThreads; ++i) {
TdThreadAttr attr;
taosThreadAttrInit(&attr);
taosThreadAttrSetDetachState(&attr, PTHREAD_CREATE_JOINABLE);
int32_t code = taosThreadCreate(pSched->qthread + i, &attr, taosProcessSchedQueue, (void *)pSched);
taosThreadAttrDestroy(&attr);
if (code != 0) {
uError("%s: failed to create rpc thread(%s)", label, strerror(errno));
taosCleanUpScheduler(pSched);
if (schedMalloced) {
taosMemoryFree(pSched);
}
return NULL;
}
++pSched->numOfThreads;
}
uDebug("%s scheduler is initialized, numOfThreads:%d", label, pSched->numOfThreads);
return (void *)pSched;
}
void *taosInitSchedulerWithInfo(int32_t queueSize, int32_t numOfThreads, const char *label, void *tmrCtrl) {
SSchedQueue *pSched = taosInitScheduler(queueSize, numOfThreads, label, NULL);
if (tmrCtrl != NULL && pSched != NULL) {
pSched->pTmrCtrl = tmrCtrl;
taosTmrReset(taosDumpSchedulerStatus, DUMP_SCHEDULER_TIME_WINDOW, pSched, pSched->pTmrCtrl, &pSched->pTimer);
}
return pSched;
}
void *taosProcessSchedQueue(void *scheduler) {
SSchedMsg msg;
SSchedQueue *pSched = (SSchedQueue *)scheduler;
int32_t ret = 0;
char name[16] = {0};
snprintf(name, tListLen(name), "%s-taskQ", pSched->label);
setThreadName(name);
while (1) {
if ((ret = tsem_wait(&pSched->fullSem)) != 0) {
uFatal("wait %s fullSem failed(%s)", pSched->label, strerror(errno));
}
if (atomic_load_8(&pSched->stop)) {
break;
}
if ((ret = taosThreadMutexLock(&pSched->queueMutex)) != 0) {
uFatal("lock %s queueMutex failed(%s)", pSched->label, strerror(errno));
}
msg = pSched->queue[pSched->fullSlot];
memset(pSched->queue + pSched->fullSlot, 0, sizeof(SSchedMsg));
pSched->fullSlot = (pSched->fullSlot + 1) % pSched->queueSize;
if ((ret = taosThreadMutexUnlock(&pSched->queueMutex)) != 0) {
uFatal("unlock %s queueMutex failed(%s)", pSched->label, strerror(errno));
}
if ((ret = tsem_post(&pSched->emptySem)) != 0) {
uFatal("post %s emptySem failed(%s)", pSched->label, strerror(errno));
}
if (msg.fp)
(*(msg.fp))(&msg);
else if (msg.tfp)
(*(msg.tfp))(msg.ahandle, msg.thandle);
}
destroyThreadLocalGeosCtx();
return NULL;
}
int taosScheduleTask(void *queueScheduler, SSchedMsg *pMsg) {
SSchedQueue *pSched = (SSchedQueue *)queueScheduler;
int32_t ret = 0;
if (pSched == NULL) {
uError("sched is not ready, msg:%p is dropped", pMsg);
return -1;
}
if (atomic_load_8(&pSched->stop)) {
uError("sched is already stopped, msg:%p is dropped", pMsg);
return -1;
}
if ((ret = tsem_wait(&pSched->emptySem)) != 0) {
uFatal("wait %s emptySem failed(%s)", pSched->label, strerror(errno));
}
if ((ret = taosThreadMutexLock(&pSched->queueMutex)) != 0) {
uFatal("lock %s queueMutex failed(%s)", pSched->label, strerror(errno));
}
pSched->queue[pSched->emptySlot] = *pMsg;
pSched->emptySlot = (pSched->emptySlot + 1) % pSched->queueSize;
if ((ret = taosThreadMutexUnlock(&pSched->queueMutex)) != 0) {
uFatal("unlock %s queueMutex failed(%s)", pSched->label, strerror(errno));
}
if ((ret = tsem_post(&pSched->fullSem)) != 0) {
uFatal("post %s fullSem failed(%s)", pSched->label, strerror(errno));
}
return ret;
}
void taosCleanUpScheduler(void *param) {
SSchedQueue *pSched = (SSchedQueue *)param;
if (pSched == NULL) return;
uDebug("start to cleanup %s schedQsueue", pSched->label);
atomic_store_8(&pSched->stop, 1);
taosMsleep(200);
for (int32_t i = 0; i < pSched->numOfThreads; ++i) {
if (taosCheckPthreadValid(pSched->qthread[i])) {
tsem_post(&pSched->fullSem);
}
}
for (int32_t i = 0; i < pSched->numOfThreads; ++i) {
if (taosCheckPthreadValid(pSched->qthread[i])) {
taosThreadJoin(pSched->qthread[i], NULL);
taosThreadClear(&pSched->qthread[i]);
}
}
tsem_destroy(&pSched->emptySem);
tsem_destroy(&pSched->fullSem);
taosThreadMutexDestroy(&pSched->queueMutex);
if (pSched->pTimer) {
taosTmrStop(pSched->pTimer);
pSched->pTimer = NULL;
}
if (pSched->queue) taosMemoryFree(pSched->queue);
if (pSched->qthread) taosMemoryFree(pSched->qthread);
// taosMemoryFree(pSched);
}
// for debug purpose, dump the scheduler status every 1min.
void taosDumpSchedulerStatus(void *qhandle, void *tmrId) {
SSchedQueue *pSched = (SSchedQueue *)qhandle;
if (pSched == NULL || pSched->pTimer == NULL || pSched->pTimer != tmrId) {
return;
}
int32_t size = ((pSched->emptySlot - pSched->fullSlot) + pSched->queueSize) % pSched->queueSize;
if (size > 0) {
uDebug("scheduler:%s, current tasks in queue:%d, task thread:%d", pSched->label, size, pSched->numOfThreads);
}
taosTmrReset(taosDumpSchedulerStatus, DUMP_SCHEDULER_TIME_WINDOW, pSched, pSched->pTmrCtrl, &pSched->pTimer);
}