未验证 提交 9eabf5fd 编写于 作者: S slguan 提交者: GitHub

Merge pull request #695 from taosdata/feature/newtimer

Feature/newtimer
...@@ -169,6 +169,8 @@ extern uint32_t debugFlag; ...@@ -169,6 +169,8 @@ extern uint32_t debugFlag;
extern uint32_t odbcdebugFlag; extern uint32_t odbcdebugFlag;
extern uint32_t qdebugFlag; extern uint32_t qdebugFlag;
extern uint32_t taosMaxTmrCtrl;
extern int tsRpcTimer; extern int tsRpcTimer;
extern int tsRpcMaxTime; extern int tsRpcMaxTime;
extern int tsUdpDelay; extern int tsUdpDelay;
......
...@@ -25,6 +25,7 @@ typedef void (*TAOS_TMR_CALLBACK)(void *, void *); ...@@ -25,6 +25,7 @@ typedef void (*TAOS_TMR_CALLBACK)(void *, void *);
extern uint32_t tmrDebugFlag; extern uint32_t tmrDebugFlag;
extern int taosTmrThreads; extern int taosTmrThreads;
extern uint32_t taosMaxTmrCtrl;
#define tmrError(...) \ #define tmrError(...) \
do { if (tmrDebugFlag & DEBUG_ERROR) { \ do { if (tmrDebugFlag & DEBUG_ERROR) { \
...@@ -41,7 +42,6 @@ extern int taosTmrThreads; ...@@ -41,7 +42,6 @@ extern int taosTmrThreads;
tprintf("TMR ", tmrDebugFlag, __VA_ARGS__); \ tprintf("TMR ", tmrDebugFlag, __VA_ARGS__); \
} } while(0) } } while(0)
#define MAX_NUM_OF_TMRCTL 512
#define MSECONDS_PER_TICK 5 #define MSECONDS_PER_TICK 5
void *taosTmrInit(int maxTmr, int resoultion, int longest, const char *label); void *taosTmrInit(int maxTmr, int resoultion, int longest, const char *label);
......
...@@ -536,6 +536,11 @@ void tsInitGlobalConfig() { ...@@ -536,6 +536,11 @@ void tsInitGlobalConfig() {
0, 2, 0, TSDB_CFG_UTYPE_NONE); 0, 2, 0, TSDB_CFG_UTYPE_NONE);
// 0-any, 1-mgmt, 2-dnode // 0-any, 1-mgmt, 2-dnode
// timer
tsInitConfigOption(cfg++, "maxTmrCtrl", &taosMaxTmrCtrl, TSDB_CFG_VTYPE_INT,
TSDB_CFG_CTYPE_B_CONFIG | TSDB_CFG_CTYPE_B_SHOW | TSDB_CFG_CTYPE_B_CLUSTER,
8, 2048, 0, TSDB_CFG_UTYPE_NONE);
// time // time
tsInitConfigOption(cfg++, "monitorInterval", &tsMonitorInterval, TSDB_CFG_VTYPE_INT, tsInitConfigOption(cfg++, "monitorInterval", &tsMonitorInterval, TSDB_CFG_VTYPE_INT,
TSDB_CFG_CTYPE_B_CONFIG, TSDB_CFG_CTYPE_B_CONFIG,
......
...@@ -82,12 +82,15 @@ typedef struct time_wheel_t { ...@@ -82,12 +82,15 @@ typedef struct time_wheel_t {
} time_wheel_t; } time_wheel_t;
uint32_t tmrDebugFlag = DEBUG_ERROR | DEBUG_WARN | DEBUG_FILE; uint32_t tmrDebugFlag = DEBUG_ERROR | DEBUG_WARN | DEBUG_FILE;
uint32_t taosMaxTmrCtrl = 512;
static pthread_once_t tmrModuleInit = PTHREAD_ONCE_INIT; static pthread_once_t tmrModuleInit = PTHREAD_ONCE_INIT;
static pthread_mutex_t tmrCtrlMutex; static pthread_mutex_t tmrCtrlMutex;
static tmr_ctrl_t tmrCtrls[MAX_NUM_OF_TMRCTL]; static tmr_ctrl_t* tmrCtrls;
static tmr_ctrl_t* unusedTmrCtrl = NULL; static tmr_ctrl_t* unusedTmrCtrl = NULL;
void* tmrQhandle; static void* tmrQhandle;
static int numOfTmrCtrl = 0;
int taosTmrThreads = 1; int taosTmrThreads = 1;
static uintptr_t nextTimerId = 0; static uintptr_t nextTimerId = 0;
...@@ -129,7 +132,7 @@ static void unlockTimerList(timer_list_t* list) { ...@@ -129,7 +132,7 @@ static void unlockTimerList(timer_list_t* list) {
int64_t tid = taosGetPthreadId(); int64_t tid = taosGetPthreadId();
if (__sync_val_compare_and_swap_64(&(list->lockedBy), tid, 0) != tid) { if (__sync_val_compare_and_swap_64(&(list->lockedBy), tid, 0) != tid) {
assert(false); assert(false);
tmrError("trying to unlock a timer list not locked by current thread."); tmrError("%d trying to unlock a timer list not locked by current thread.", tid);
} }
} }
...@@ -256,13 +259,13 @@ static void processExpiredTimer(void* handle, void* arg) { ...@@ -256,13 +259,13 @@ static void processExpiredTimer(void* handle, void* arg) {
timer->executedBy = taosGetPthreadId(); timer->executedBy = taosGetPthreadId();
uint8_t state = __sync_val_compare_and_swap_8(&timer->state, TIMER_STATE_WAITING, TIMER_STATE_EXPIRED); uint8_t state = __sync_val_compare_and_swap_8(&timer->state, TIMER_STATE_WAITING, TIMER_STATE_EXPIRED);
if (state == TIMER_STATE_WAITING) { if (state == TIMER_STATE_WAITING) {
const char* fmt = "timer[label=%s, id=%lld, fp=%p, param=%p] execution start."; const char* fmt = "%s timer[id=%lld, fp=%p, param=%p] execution start.";
tmrTrace(fmt, timer->ctrl->label, timer->id, timer->fp, timer->param); tmrTrace(fmt, timer->ctrl->label, timer->id, timer->fp, timer->param);
(*timer->fp)(timer->param, (tmr_h)timer->id); (*timer->fp)(timer->param, (tmr_h)timer->id);
atomic_store_8(&timer->state, TIMER_STATE_STOPPED); atomic_store_8(&timer->state, TIMER_STATE_STOPPED);
fmt = "timer[label=%s, id=%lld, fp=%p, param=%p] execution end."; fmt = "%s timer[id=%lld, fp=%p, param=%p] execution end.";
tmrTrace(fmt, timer->ctrl->label, timer->id, timer->fp, timer->param); tmrTrace(fmt, timer->ctrl->label, timer->id, timer->fp, timer->param);
} }
removeTimer(timer->id); removeTimer(timer->id);
...@@ -270,18 +273,21 @@ static void processExpiredTimer(void* handle, void* arg) { ...@@ -270,18 +273,21 @@ static void processExpiredTimer(void* handle, void* arg) {
} }
static void addToExpired(tmr_obj_t* head) { static void addToExpired(tmr_obj_t* head) {
const char* fmt = "timer[label=%s, id=%lld, fp=%p, param=%p] expired"; const char* fmt = "%s adding expired timer[id=%lld, fp=%p, param=%p] to queue.";
while (head != NULL) { while (head != NULL) {
tmrTrace(fmt, head->ctrl->label, head->id, head->fp, head->param); uintptr_t id = head->id;
tmr_obj_t* next = head->next; tmr_obj_t* next = head->next;
tmrTrace(fmt, head->ctrl->label, id, head->fp, head->param);
SSchedMsg schedMsg; SSchedMsg schedMsg;
schedMsg.fp = NULL; schedMsg.fp = NULL;
schedMsg.tfp = processExpiredTimer; schedMsg.tfp = processExpiredTimer;
schedMsg.ahandle = head; schedMsg.ahandle = head;
schedMsg.thandle = NULL; schedMsg.thandle = NULL;
taosScheduleTask(tmrQhandle, &schedMsg); taosScheduleTask(tmrQhandle, &schedMsg);
tmrTrace("timer[id=%lld] has been added to queue.", id);
head = next; head = next;
} }
} }
...@@ -295,7 +301,7 @@ static uintptr_t doStartTimer(tmr_obj_t* timer, TAOS_TMR_CALLBACK fp, int msecon ...@@ -295,7 +301,7 @@ static uintptr_t doStartTimer(tmr_obj_t* timer, TAOS_TMR_CALLBACK fp, int msecon
timer->ctrl = ctrl; timer->ctrl = ctrl;
addTimer(timer); addTimer(timer);
const char* fmt = "timer[label=%s, id=%lld, fp=%p, param=%p] started"; const char* fmt = "%s timer[id=%lld, fp=%p, param=%p] started";
tmrTrace(fmt, ctrl->label, timer->id, timer->fp, timer->param); tmrTrace(fmt, ctrl->label, timer->id, timer->fp, timer->param);
if (mseconds == 0) { if (mseconds == 0) {
...@@ -318,7 +324,7 @@ tmr_h taosTmrStart(TAOS_TMR_CALLBACK fp, int mseconds, void* param, void* handle ...@@ -318,7 +324,7 @@ tmr_h taosTmrStart(TAOS_TMR_CALLBACK fp, int mseconds, void* param, void* handle
tmr_obj_t* timer = (tmr_obj_t*)calloc(1, sizeof(tmr_obj_t)); tmr_obj_t* timer = (tmr_obj_t*)calloc(1, sizeof(tmr_obj_t));
if (timer == NULL) { if (timer == NULL) {
tmrError("failed to allocated memory for new timer object."); tmrError("%s failed to allocated memory for new timer object.", ctrl->label);
return NULL; return NULL;
} }
...@@ -389,7 +395,7 @@ static bool doStopTimer(tmr_obj_t* timer, uint8_t state) { ...@@ -389,7 +395,7 @@ static bool doStopTimer(tmr_obj_t* timer, uint8_t state) {
// we cannot guarantee the thread safety of the timr in all other cases. // we cannot guarantee the thread safety of the timr in all other cases.
reusable = true; reusable = true;
} }
const char* fmt = "timer[label=%s, id=%lld, fp=%p, param=%p] is cancelled."; const char* fmt = "%s timer[id=%lld, fp=%p, param=%p] is cancelled.";
tmrTrace(fmt, timer->ctrl->label, timer->id, timer->fp, timer->param); tmrTrace(fmt, timer->ctrl->label, timer->id, timer->fp, timer->param);
} else if (state != TIMER_STATE_EXPIRED) { } else if (state != TIMER_STATE_EXPIRED) {
// timer already stopped or cancelled, has nothing to do in this case // timer already stopped or cancelled, has nothing to do in this case
...@@ -400,7 +406,7 @@ static bool doStopTimer(tmr_obj_t* timer, uint8_t state) { ...@@ -400,7 +406,7 @@ static bool doStopTimer(tmr_obj_t* timer, uint8_t state) {
} else { } else {
assert(timer->executedBy != taosGetPthreadId()); assert(timer->executedBy != taosGetPthreadId());
const char* fmt = "timer[label=%s, id=%lld, fp=%p, param=%p] fired, waiting..."; const char* fmt = "%s timer[id=%lld, fp=%p, param=%p] fired, waiting...";
tmrTrace(fmt, timer->ctrl->label, timer->id, timer->fp, timer->param); tmrTrace(fmt, timer->ctrl->label, timer->id, timer->fp, timer->param);
for (int i = 1; atomic_load_8(&timer->state) != TIMER_STATE_STOPPED; i++) { for (int i = 1; atomic_load_8(&timer->state) != TIMER_STATE_STOPPED; i++) {
...@@ -409,7 +415,7 @@ static bool doStopTimer(tmr_obj_t* timer, uint8_t state) { ...@@ -409,7 +415,7 @@ static bool doStopTimer(tmr_obj_t* timer, uint8_t state) {
} }
} }
fmt = "timer[label=%s, id=%lld, fp=%p, param=%p] stopped."; fmt = "%s timer[id=%lld, fp=%p, param=%p] stopped.";
tmrTrace(fmt, timer->ctrl->label, timer->id, timer->fp, timer->param); tmrTrace(fmt, timer->ctrl->label, timer->id, timer->fp, timer->param);
} }
...@@ -448,7 +454,7 @@ bool taosTmrReset(TAOS_TMR_CALLBACK fp, int mseconds, void* param, void* handle, ...@@ -448,7 +454,7 @@ bool taosTmrReset(TAOS_TMR_CALLBACK fp, int mseconds, void* param, void* handle,
bool stopped = false; bool stopped = false;
tmr_obj_t* timer = findTimer(id); tmr_obj_t* timer = findTimer(id);
if (timer == NULL) { if (timer == NULL) {
tmrTrace("timer[id=%lld] does not exist", id); tmrTrace("%s timer[id=%lld] does not exist", ctrl->label, id);
} else { } else {
uint8_t state = __sync_val_compare_and_swap_8(&timer->state, TIMER_STATE_WAITING, TIMER_STATE_CANCELED); uint8_t state = __sync_val_compare_and_swap_8(&timer->state, TIMER_STATE_WAITING, TIMER_STATE_CANCELED);
if (!doStopTimer(timer, state)) { if (!doStopTimer(timer, state)) {
...@@ -463,7 +469,7 @@ bool taosTmrReset(TAOS_TMR_CALLBACK fp, int mseconds, void* param, void* handle, ...@@ -463,7 +469,7 @@ bool taosTmrReset(TAOS_TMR_CALLBACK fp, int mseconds, void* param, void* handle,
return stopped; return stopped;
} }
tmrTrace("timer[id=%lld] is reused", timer->id); tmrTrace("%s timer[id=%lld] is reused", ctrl->label, timer->id);
// wait until there's no other reference to this timer, // wait until there's no other reference to this timer,
// so that we can reuse this timer safely. // so that we can reuse this timer safely.
...@@ -481,7 +487,13 @@ bool taosTmrReset(TAOS_TMR_CALLBACK fp, int mseconds, void* param, void* handle, ...@@ -481,7 +487,13 @@ bool taosTmrReset(TAOS_TMR_CALLBACK fp, int mseconds, void* param, void* handle,
} }
static void taosTmrModuleInit(void) { static void taosTmrModuleInit(void) {
for (int i = 0; i < tListLen(tmrCtrls) - 1; ++i) { tmrCtrls = malloc(sizeof(tmr_ctrl_t) * taosMaxTmrCtrl);
if (tmrCtrls == NULL) {
tmrError("failed to allocate memory for timer controllers.");
return;
}
for (int i = 0; i < taosMaxTmrCtrl - 1; ++i) {
tmr_ctrl_t* ctrl = tmrCtrls + i; tmr_ctrl_t* ctrl = tmrCtrls + i;
ctrl->next = ctrl + 1; ctrl->next = ctrl + 1;
} }
...@@ -526,17 +538,18 @@ void* taosTmrInit(int maxNumOfTmrs, int resolution, int longest, const char* lab ...@@ -526,17 +538,18 @@ void* taosTmrInit(int maxNumOfTmrs, int resolution, int longest, const char* lab
tmr_ctrl_t* ctrl = unusedTmrCtrl; tmr_ctrl_t* ctrl = unusedTmrCtrl;
if (ctrl != NULL) { if (ctrl != NULL) {
unusedTmrCtrl = ctrl->next; unusedTmrCtrl = ctrl->next;
numOfTmrCtrl++;
} }
pthread_mutex_unlock(&tmrCtrlMutex); pthread_mutex_unlock(&tmrCtrlMutex);
if (ctrl == NULL) { if (ctrl == NULL) {
tmrError("too many timer controllers, failed to create timer controller[label=%s].", label); tmrError("%s too many timer controllers, failed to create timer controller.", label);
return NULL; return NULL;
} }
strncpy(ctrl->label, label, sizeof(ctrl->label)); strncpy(ctrl->label, label, sizeof(ctrl->label));
ctrl->label[sizeof(ctrl->label) - 1] = 0; ctrl->label[sizeof(ctrl->label) - 1] = 0;
tmrTrace("timer controller[label=%s] is initialized.", label); tmrTrace("%s timer controller is initialized, number of timer controllers: %d.", label, numOfTmrCtrl);
return ctrl; return ctrl;
} }
...@@ -544,11 +557,12 @@ void taosTmrCleanUp(void* handle) { ...@@ -544,11 +557,12 @@ void taosTmrCleanUp(void* handle) {
tmr_ctrl_t* ctrl = (tmr_ctrl_t*)handle; tmr_ctrl_t* ctrl = (tmr_ctrl_t*)handle;
assert(ctrl != NULL && ctrl->label[0] != 0); assert(ctrl != NULL && ctrl->label[0] != 0);
tmrTrace("timer controller[label=%s] is cleaned up.", ctrl->label); tmrTrace("%s timer controller is cleaned up.", ctrl->label);
ctrl->label[0] = 0; ctrl->label[0] = 0;
pthread_mutex_lock(&tmrCtrlMutex); pthread_mutex_lock(&tmrCtrlMutex);
ctrl->next = unusedTmrCtrl; ctrl->next = unusedTmrCtrl;
numOfTmrCtrl--;
unusedTmrCtrl = ctrl; unusedTmrCtrl = ctrl;
pthread_mutex_unlock(&tmrCtrlMutex); pthread_mutex_unlock(&tmrCtrlMutex);
} }
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