/* * Copyright (c) 2013-2019 Huawei Technologies Co., Ltd. All rights reserved. * Copyright (c) 2020-2022 Huawei Device Co., Ltd. All rights reserved. * * Redistribution and use in source and binary forms, with or without modification, * are permitted provided that the following conditions are met: * * 1. Redistributions of source code must retain the above copyright notice, this list of * conditions and the following disclaimer. * * 2. Redistributions in binary form must reproduce the above copyright notice, this list * of conditions and the following disclaimer in the documentation and/or other materials * provided with the distribution. * * 3. Neither the name of the copyright holder nor the names of its contributors may be used * to endorse or promote products derived from this software without specific prior written * permission. * * THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS * "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, * THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR * PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT HOLDER OR * CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, * EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, * PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; * OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, * WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR * OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF * ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. */ #ifndef _LOS_SCHED_PRI_H #define _LOS_SCHED_PRI_H #include "los_sortlink_pri.h" #include "los_sys_pri.h" #include "los_hwi.h" #include "hal_timer.h" #ifdef LOSCFG_SCHED_DEBUG #include "los_statistics_pri.h" #endif #include "los_stackinfo_pri.h" #include "los_futex_pri.h" #include "los_pm_pri.h" #include "los_signal.h" #ifdef LOSCFG_KERNEL_CPUP #include "los_cpup_pri.h" #endif #ifdef LOSCFG_KERNEL_LITEIPC #include "hm_liteipc.h" #endif #include "los_mp.h" #ifdef __cplusplus #if __cplusplus extern "C" { #endif /* __cplusplus */ #endif /* __cplusplus */ #define OS_SCHED_MINI_PERIOD (OS_SYS_CLOCK / LOSCFG_BASE_CORE_TICK_PER_SECOND_MINI) #define OS_TICK_RESPONSE_PRECISION (UINT32)((OS_SCHED_MINI_PERIOD * 75) / 100) #define OS_SCHED_MAX_RESPONSE_TIME OS_SORT_LINK_INVALID_TIME #define OS_SCHED_TICK_TO_CYCLE(ticks) ((UINT64)ticks * OS_CYCLE_PER_TICK) #define AFFI_MASK_TO_CPUID(mask) ((UINT16)((mask) - 1)) extern UINT32 g_taskScheduled; #define OS_SCHEDULER_ACTIVE (g_taskScheduled & (1U << ArchCurrCpuid())) #define OS_SCHEDULER_ALL_ACTIVE (g_taskScheduled == LOSCFG_KERNEL_CPU_MASK) typedef struct TagTaskCB LosTaskCB; typedef BOOL (*SCHED_TL_FIND_FUNC)(UINTPTR, UINTPTR); STATIC INLINE UINT64 OsGetCurrSchedTimeCycle(VOID) { return HalClockGetCycles(); } typedef enum { INT_NO_RESCH = 0x0, /* no needs to schedule */ INT_PEND_RESCH = 0x1, /* pending schedule flag */ INT_PEND_TICK = 0x2, /* pending tick */ } SchedFlag; #define OS_PRIORITY_QUEUE_NUM 32 typedef struct { LOS_DL_LIST priQueList[OS_PRIORITY_QUEUE_NUM]; UINT32 readyTasks[OS_PRIORITY_QUEUE_NUM]; UINT32 queueBitmap; } HPFQueue; typedef struct { HPFQueue queueList[OS_PRIORITY_QUEUE_NUM]; UINT32 queueBitmap; } HPFRunqueue; typedef struct { SortLinkAttribute timeoutQueue; /* task timeout queue */ HPFRunqueue *hpfRunqueue; UINT64 responseTime; /* Response time for current CPU tick interrupts */ UINT32 responseID; /* The response ID of the current CPU tick interrupt */ UINT32 idleTaskID; /* idle task id */ UINT32 taskLockCnt; /* task lock flag */ UINT32 schedFlag; /* pending scheduler flag */ } SchedRunqueue; extern SchedRunqueue g_schedRunqueue[LOSCFG_KERNEL_CORE_NUM]; VOID OsSchedExpireTimeUpdate(VOID); STATIC INLINE SchedRunqueue *OsSchedRunqueue(VOID) { return &g_schedRunqueue[ArchCurrCpuid()]; } STATIC INLINE SchedRunqueue *OsSchedRunqueueByID(UINT16 id) { return &g_schedRunqueue[id]; } STATIC INLINE UINT32 OsSchedLockCountGet(VOID) { return OsSchedRunqueue()->taskLockCnt; } STATIC INLINE VOID OsSchedLockSet(UINT32 count) { OsSchedRunqueue()->taskLockCnt = count; } STATIC INLINE VOID OsSchedLock(VOID) { OsSchedRunqueue()->taskLockCnt++; } STATIC INLINE VOID OsSchedUnlock(VOID) { OsSchedRunqueue()->taskLockCnt--; } STATIC INLINE BOOL OsSchedUnlockResch(VOID) { SchedRunqueue *rq = OsSchedRunqueue(); if (rq->taskLockCnt > 0) { rq->taskLockCnt--; if ((rq->taskLockCnt == 0) && (rq->schedFlag & INT_PEND_RESCH) && OS_SCHEDULER_ACTIVE) { return TRUE; } } return FALSE; } STATIC INLINE BOOL OsSchedIsLock(VOID) { return (OsSchedRunqueue()->taskLockCnt != 0); } /* Check if preemptible with counter flag */ STATIC INLINE BOOL OsPreemptable(VOID) { SchedRunqueue *rq = OsSchedRunqueue(); /* * Unlike OsPreemptableInSched, the int may be not disabled when OsPreemptable * is called, needs manually disable interrupt, to prevent current task from * being migrated to another core, and get the wrong preemptable status. */ UINT32 intSave = LOS_IntLock(); BOOL preemptible = (rq->taskLockCnt == 0); if (!preemptible) { /* Set schedule flag if preemption is disabled */ rq->schedFlag |= INT_PEND_RESCH; } LOS_IntRestore(intSave); return preemptible; } STATIC INLINE BOOL OsPreemptableInSched(VOID) { BOOL preemptible = FALSE; SchedRunqueue *rq = OsSchedRunqueue(); #ifdef LOSCFG_KERNEL_SMP /* * For smp systems, schedule must hold the task spinlock, and this counter * will increase by 1 in that case. */ preemptible = (rq->taskLockCnt == 1); #else preemptible = (rq->taskLockCnt == 0); #endif if (!preemptible) { /* Set schedule flag if preemption is disabled */ rq->schedFlag |= INT_PEND_RESCH; } return preemptible; } STATIC INLINE UINT32 OsSchedRunqueueIdleGet(VOID) { return OsSchedRunqueue()->idleTaskID; } STATIC INLINE VOID OsSchedRunqueuePendingSet(VOID) { OsSchedRunqueue()->schedFlag |= INT_PEND_RESCH; } #define LOS_SCHED_NORMAL 0U #define LOS_SCHED_FIFO 1U #define LOS_SCHED_RR 2U #define LOS_SCHED_IDLE 3U typedef struct { UINT16 policy; UINT16 basePrio; UINT16 priority; UINT32 timeSlice; } SchedParam; typedef struct { UINT16 policy; /* This field must be present for all scheduling policies and must be the first in the structure */ UINT16 basePrio; UINT16 priority; UINT32 initTimeSlice; UINT32 priBitmap; /**< Bitmap for recording the change of task priority, the priority can not be greater than 31 */ } SchedHPF; typedef struct { union { SchedHPF hpf; } Policy; } SchedPolicy; typedef struct { VOID (*dequeue)(SchedRunqueue *rq, LosTaskCB *taskCB); VOID (*enqueue)(SchedRunqueue *rq, LosTaskCB *taskCB); VOID (*start)(SchedRunqueue *rq, LosTaskCB *taskCB); VOID (*exit)(LosTaskCB *taskCB); UINT32 (*wait)(LosTaskCB *runTask, LOS_DL_LIST *list, UINT32 timeout); VOID (*wake)(LosTaskCB *taskCB); BOOL (*schedParamModify)(LosTaskCB *taskCB, const SchedParam *param); UINT32 (*schedParamGet)(const LosTaskCB *taskCB, SchedParam *param); UINT32 (*delay)(LosTaskCB *taskCB, UINT64 waitTime); VOID (*yield)(LosTaskCB *taskCB); UINT32 (*suspend)(LosTaskCB *taskCB); UINT32 (*resume)(LosTaskCB *taskCB, BOOL *needSched); UINT64 (*deadlineGet)(const LosTaskCB *taskCB); VOID (*timeSliceUpdate)(SchedRunqueue *rq, LosTaskCB *taskCB, UINT64 currTime); INT32 (*schedParamCompare)(const SchedPolicy *sp1, const SchedPolicy *sp2); VOID (*priorityInheritance)(LosTaskCB *owner, const SchedParam *param); VOID (*priorityRestore)(LosTaskCB *owner, const LOS_DL_LIST *list, const SchedParam *param); } SchedOps; /** * @ingroup los_sched * Define a usable task priority. * * Highest task priority. */ #define OS_TASK_PRIORITY_HIGHEST 0 /** * @ingroup los_sched * Define a usable task priority. * * Lowest task priority. */ #define OS_TASK_PRIORITY_LOWEST 31 /** * @ingroup los_sched * Flag that indicates the task or task control block status. * * The task is init. */ #define OS_TASK_STATUS_INIT 0x0001U /** * @ingroup los_sched * Flag that indicates the task or task control block status. * * The task is ready. */ #define OS_TASK_STATUS_READY 0x0002U /** * @ingroup los_sched * Flag that indicates the task or task control block status. * * The task is running. */ #define OS_TASK_STATUS_RUNNING 0x0004U /** * @ingroup los_sched * Flag that indicates the task or task control block status. * * The task is suspended. */ #define OS_TASK_STATUS_SUSPENDED 0x0008U /** * @ingroup los_sched * Flag that indicates the task or task control block status. * * The task is blocked. */ #define OS_TASK_STATUS_PENDING 0x0010U /** * @ingroup los_sched * Flag that indicates the task or task control block status. * * The task is delayed. */ #define OS_TASK_STATUS_DELAY 0x0020U /** * @ingroup los_sched * Flag that indicates the task or task control block status. * * The time for waiting for an event to occur expires. */ #define OS_TASK_STATUS_TIMEOUT 0x0040U /** * @ingroup los_sched * Flag that indicates the task or task control block status. * * The task is pend for a period of time. */ #define OS_TASK_STATUS_PEND_TIME 0x0080U /** * @ingroup los_sched * Flag that indicates the task or task control block status. * * The task is exit. */ #define OS_TASK_STATUS_EXIT 0x0100U #define OS_TASK_STATUS_BLOCKED (OS_TASK_STATUS_INIT | OS_TASK_STATUS_PENDING | \ OS_TASK_STATUS_DELAY | OS_TASK_STATUS_PEND_TIME) /** * @ingroup los_task * Flag that indicates the task or task control block status. * * The delayed operation of this task is frozen. */ #define OS_TASK_STATUS_FROZEN 0x0200U #define OS_TCB_NAME_LEN 32 typedef struct TagTaskCB { VOID *stackPointer; /**< Task stack pointer */ UINT16 taskStatus; /**< Task status */ UINT64 startTime; /**< The start time of each phase of task */ UINT64 waitTime; /**< Task delay time, tick number */ UINT64 irqStartTime; /**< Interrupt start time */ UINT32 irqUsedTime; /**< Interrupt consumption time */ INT32 timeSlice; /**< Task remaining time slice */ SortLinkList sortList; /**< Task sortlink node */ const SchedOps *ops; SchedPolicy sp; UINT32 stackSize; /**< Task stack size */ UINTPTR topOfStack; /**< Task stack top */ UINT32 taskID; /**< Task ID */ TSK_ENTRY_FUNC taskEntry; /**< Task entrance function */ VOID *joinRetval; /**< pthread adaption */ VOID *taskMux; /**< Task-held mutex */ VOID *taskEvent; /**< Task-held event */ UINTPTR args[4]; /**< Parameter, of which the maximum number is 4 */ CHAR taskName[OS_TCB_NAME_LEN]; /**< Task name */ LOS_DL_LIST pendList; /**< Task pend node */ LOS_DL_LIST threadList; /**< thread list */ UINT32 eventMask; /**< Event mask */ UINT32 eventMode; /**< Event mode */ #ifdef LOSCFG_KERNEL_CPUP OsCpupBase taskCpup; /**< task cpu usage */ #endif INT32 errorNo; /**< Error Num */ UINT32 signal; /**< Task signal */ sig_cb sig; #ifdef LOSCFG_KERNEL_SMP UINT16 currCpu; /**< CPU core number of this task is running on */ UINT16 lastCpu; /**< CPU core number of this task is running on last time */ UINT16 cpuAffiMask; /**< CPU affinity mask, support up to 16 cores */ #ifdef LOSCFG_KERNEL_SMP_TASK_SYNC UINT32 syncSignal; /**< Synchronization for signal handling */ #endif #ifdef LOSCFG_KERNEL_SMP_LOCKDEP LockDep lockDep; #endif #endif #ifdef LOSCFG_SCHED_DEBUG SchedStat schedStat; /**< Schedule statistics */ #endif #ifdef LOSCFG_KERNEL_VM UINTPTR archMmu; UINTPTR userArea; UINTPTR userMapBase; UINT32 userMapSize; /**< user thread stack size ,real size : userMapSize + USER_STACK_MIN_SIZE */ FutexNode futex; #endif UINT32 processID; /**< Which belong process */ LOS_DL_LIST joinList; /**< join list */ LOS_DL_LIST lockList; /**< Hold the lock list */ UINTPTR waitID; /**< Wait for the PID or GID of the child process */ UINT16 waitFlag; /**< The type of child process that is waiting, belonging to a group or parent, a specific child process, or any child process */ #ifdef LOSCFG_KERNEL_LITEIPC IpcTaskInfo *ipcTaskInfo; #endif #ifdef LOSCFG_KERNEL_PERF UINTPTR pc; UINTPTR fp; #endif } LosTaskCB; STATIC INLINE BOOL OsTaskIsRunning(const LosTaskCB *taskCB) { return ((taskCB->taskStatus & OS_TASK_STATUS_RUNNING) != 0); } STATIC INLINE BOOL OsTaskIsReady(const LosTaskCB *taskCB) { return ((taskCB->taskStatus & OS_TASK_STATUS_READY) != 0); } STATIC INLINE BOOL OsTaskIsInactive(const LosTaskCB *taskCB) { return ((taskCB->taskStatus & (OS_TASK_STATUS_INIT | OS_TASK_STATUS_EXIT)) != 0); } STATIC INLINE BOOL OsTaskIsPending(const LosTaskCB *taskCB) { return ((taskCB->taskStatus & OS_TASK_STATUS_PENDING) != 0); } STATIC INLINE BOOL OsTaskIsSuspended(const LosTaskCB *taskCB) { return ((taskCB->taskStatus & OS_TASK_STATUS_SUSPENDED) != 0); } STATIC INLINE BOOL OsTaskIsBlocked(const LosTaskCB *taskCB) { return ((taskCB->taskStatus & (OS_TASK_STATUS_SUSPENDED | OS_TASK_STATUS_PENDING | OS_TASK_STATUS_DELAY)) != 0); } STATIC INLINE LosTaskCB *OsCurrTaskGet(VOID) { return (LosTaskCB *)ArchCurrTaskGet(); } STATIC INLINE VOID OsCurrTaskSet(LosTaskCB *task) { ArchCurrTaskSet(task); } STATIC INLINE VOID OsCurrUserTaskSet(UINTPTR thread) { ArchCurrUserTaskSet(thread); } STATIC INLINE VOID OsSchedIrqUsedTimeUpdate(VOID) { LosTaskCB *runTask = OsCurrTaskGet(); runTask->irqUsedTime = OsGetCurrSchedTimeCycle() - runTask->irqStartTime; } STATIC INLINE VOID OsSchedIrqStartTime(VOID) { LosTaskCB *runTask = OsCurrTaskGet(); runTask->irqStartTime = OsGetCurrSchedTimeCycle(); } #ifdef LOSCFG_KERNEL_SMP STATIC INLINE VOID IdleRunqueueFind(UINT16 *idleCpuid) { SchedRunqueue *idleRq = OsSchedRunqueueByID(0); UINT32 nodeNum = OsGetSortLinkNodeNum(&idleRq->timeoutQueue); UINT16 cpuid = 1; do { SchedRunqueue *rq = OsSchedRunqueueByID(cpuid); UINT32 temp = OsGetSortLinkNodeNum(&rq->timeoutQueue); if (nodeNum > temp) { *idleCpuid = cpuid; nodeNum = temp; } cpuid++; } while (cpuid < LOSCFG_KERNEL_CORE_NUM); } #endif STATIC INLINE VOID OsSchedTimeoutQueueAdd(LosTaskCB *taskCB, UINT64 responseTime) { #ifdef LOSCFG_KERNEL_SMP UINT16 cpuid = AFFI_MASK_TO_CPUID(taskCB->cpuAffiMask); if (cpuid >= LOSCFG_KERNEL_CORE_NUM) { cpuid = 0; IdleRunqueueFind(&cpuid); } #else UINT16 cpuid = 0; #endif SchedRunqueue *rq = OsSchedRunqueueByID(cpuid); OsAdd2SortLink(&rq->timeoutQueue, &taskCB->sortList, responseTime, cpuid); #ifdef LOSCFG_KERNEL_SMP if ((cpuid != ArchCurrCpuid()) && (responseTime < rq->responseTime)) { rq->schedFlag |= INT_PEND_TICK; LOS_MpSchedule(CPUID_TO_AFFI_MASK(cpuid)); } #endif } STATIC INLINE VOID OsSchedTimeoutQueueDelete(LosTaskCB *taskCB) { SortLinkList *node = &taskCB->sortList; #ifdef LOSCFG_KERNEL_SMP SchedRunqueue *rq = OsSchedRunqueueByID(node->cpuid); #else SchedRunqueue *rq = OsSchedRunqueueByID(0); #endif UINT64 oldResponseTime = GET_SORTLIST_VALUE(node); OsDeleteFromSortLink(&rq->timeoutQueue, node); if (oldResponseTime <= rq->responseTime) { rq->responseTime = OS_SCHED_MAX_RESPONSE_TIME; } } STATIC INLINE UINT32 OsSchedTimeoutQueueAdjust(LosTaskCB *taskCB, UINT64 responseTime) { UINT32 ret; SortLinkList *node = &taskCB->sortList; #ifdef LOSCFG_KERNEL_SMP UINT16 cpuid = node->cpuid; #else UINT16 cpuid = 0; #endif SchedRunqueue *rq = OsSchedRunqueueByID(cpuid); ret = OsSortLinkAdjustNodeResponseTime(&rq->timeoutQueue, node, responseTime); if (ret == LOS_OK) { rq->schedFlag |= INT_PEND_TICK; } return ret; } STATIC INLINE VOID SchedTaskFreeze(LosTaskCB *taskCB) { UINT64 responseTime; if (!OsIsPmMode()) { return; } if (!(taskCB->taskStatus & (OS_TASK_STATUS_PEND_TIME | OS_TASK_STATUS_DELAY))) { return; } responseTime = GET_SORTLIST_VALUE(&taskCB->sortList); OsSchedTimeoutQueueDelete(taskCB); SET_SORTLIST_VALUE(&taskCB->sortList, responseTime); taskCB->taskStatus |= OS_TASK_STATUS_FROZEN; return; } STATIC INLINE VOID SchedTaskUnfreeze(LosTaskCB *taskCB) { UINT64 currTime, responseTime; if (!(taskCB->taskStatus & OS_TASK_STATUS_FROZEN)) { return; } taskCB->taskStatus &= ~OS_TASK_STATUS_FROZEN; currTime = OsGetCurrSchedTimeCycle(); responseTime = GET_SORTLIST_VALUE(&taskCB->sortList); if (responseTime > currTime) { OsSchedTimeoutQueueAdd(taskCB, responseTime); return; } SET_SORTLIST_VALUE(&taskCB->sortList, OS_SORT_LINK_INVALID_TIME); if (taskCB->taskStatus & OS_TASK_STATUS_PENDING) { LOS_ListDelete(&taskCB->pendList); } taskCB->taskStatus &= ~OS_TASK_STATUS_BLOCKED; return; } /* * Schedule flag, one bit represents one core. * This flag is used to prevent kernel scheduling before OSStartToRun. */ #define OS_SCHEDULER_SET(cpuid) do { \ g_taskScheduled |= (1U << (cpuid)); \ } while (0); #define OS_SCHEDULER_CLR(cpuid) do { \ g_taskScheduled &= ~(1U << (cpuid)); \ } while (0); STATIC INLINE LosTaskCB *HPFRunqueueTopTaskGet(HPFRunqueue *rq) { LosTaskCB *newTask = NULL; UINT32 baseBitmap = rq->queueBitmap; #ifdef LOSCFG_KERNEL_SMP UINT32 cpuid = ArchCurrCpuid(); #endif while (baseBitmap) { UINT32 basePrio = CLZ(baseBitmap); HPFQueue *queueList = &rq->queueList[basePrio]; UINT32 bitmap = queueList->queueBitmap; while (bitmap) { UINT32 priority = CLZ(bitmap); LOS_DL_LIST_FOR_EACH_ENTRY(newTask, &queueList->priQueList[priority], LosTaskCB, pendList) { #ifdef LOSCFG_KERNEL_SMP if (newTask->cpuAffiMask & (1U << cpuid)) { #endif return newTask; #ifdef LOSCFG_KERNEL_SMP } #endif } bitmap &= ~(1U << (OS_PRIORITY_QUEUE_NUM - priority - 1)); } baseBitmap &= ~(1U << (OS_PRIORITY_QUEUE_NUM - basePrio - 1)); } return NULL; } VOID HPFSchedPolicyInit(SchedRunqueue *rq); VOID HPFTaskSchedParamInit(LosTaskCB *taskCB, UINT16 policy, const SchedParam *parentParam, const TSK_INIT_PARAM_S *param); VOID HPFProcessDefaultSchedParamGet(SchedParam *param); VOID IdleTaskSchedParamInit(LosTaskCB *taskCB); INT32 OsSchedParamCompare(const LosTaskCB *task1, const LosTaskCB *task2); VOID OsSchedPriorityInheritance(LosTaskCB *owner, const SchedParam *param); UINT32 OsSchedParamInit(LosTaskCB *taskCB, UINT16 policy, const SchedParam *parentParam, const TSK_INIT_PARAM_S *param); VOID OsSchedProcessDefaultSchedParamGet(UINT16 policy, SchedParam *param); VOID OsSchedResponseTimeReset(UINT64 responseTime); VOID OsSchedToUserReleaseLock(VOID); VOID OsSchedTick(VOID); UINT32 OsSchedInit(VOID); VOID OsSchedStart(VOID); VOID OsSchedRunqueueIdleInit(UINT32 idleTaskID); VOID OsSchedRunqueueInit(VOID); /* * This function simply picks the next task and switches to it. * Current task needs to already be in the right state or the right * queues it needs to be in. */ VOID OsSchedResched(VOID); VOID OsSchedIrqEndCheckNeedSched(VOID); /* * This function inserts the runTask to the lock pending list based on the * task priority. */ LOS_DL_LIST *OsSchedLockPendFindPos(const LosTaskCB *runTask, LOS_DL_LIST *lockList); #ifdef __cplusplus #if __cplusplus } #endif /* __cplusplus */ #endif /* __cplusplus */ #endif /* _LOS_SCHED_PRI_H */