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openharmony_kernel_liteos_a/kernel/base/misc/task_shellcmd.c

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/*
* 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.
*/
#include "stdlib.h"
#include "los_config.h"
#include "los_exc.h"
#include "los_memstat_pri.h"
#include "los_sem_pri.h"
#include "los_seq_buf.h"
#include "los_task_pri.h"
#ifdef LOSCFG_SHELL
#include "shcmd.h"
#include "shell.h"
#endif
#ifdef LOSCFG_KERNEL_CPUP
#include "los_cpup_pri.h"
#endif
#ifdef LOSCFG_SAVE_EXCINFO
#include "los_excinfo_pri.h"
#endif
#include "los_process_pri.h"
#include "los_vm_dump.h"
#ifdef LOSCFG_FS_VFS
#include "fs/file.h"
#endif
#include "los_sched_pri.h"
#include "los_swtmr_pri.h"
#define OS_PROCESS_MEM_INFO 0x2U
#define OS_PROCESS_INFO_LEN (g_processMaxNum * (sizeof(LosProcessCB)))
#define OS_PROCESS_GROUP_INFO_LEN (g_processMaxNum * sizeof(UINT32))
#define OS_PROCESS_UID_INFO_LEN (g_processMaxNum * sizeof(UINT32))
#define OS_PROCESS_MEM_ALL_INFO_LEN (g_processMaxNum * PROCESS_MEMINFO_LEN)
#ifdef LOSCFG_KERNEL_CPUP
#define OS_PROCESS_CPUP_LEN (g_processMaxNum * sizeof(CPUP_INFO_S))
#define OS_PROCESS_AND_TASK_CPUP_LEN ((g_processMaxNum + g_taskMaxNum) * sizeof(CPUP_INFO_S))
#define OS_PROCESS_CPUP_ALLINFO_LEN (OS_PROCESS_AND_TASK_CPUP_LEN * 3)
STATIC VOID TaskCpupInfoBaseGet(UINTPTR base, const CPUP_INFO_S **, const CPUP_INFO_S **, const CPUP_INFO_S **);
STATIC VOID ProcessCpupInfoBaseGet(UINTPTR base, const CPUP_INFO_S **, const CPUP_INFO_S **, const CPUP_INFO_S **);
#else
#define OS_PROCESS_CPUP_ALLINFO_LEN 0
#endif
#define OS_PROCESS_ALL_INFO_LEN (g_processMaxNum * (sizeof(LosProcessCB) + sizeof(UINT32)) + \
OS_PROCESS_CPUP_ALLINFO_LEN + OS_PROCESS_UID_INFO_LEN)
#define OS_INVALID_SEM_ID 0xFFFFFFFF
#define OS_TASK_WATER_LINE_SIZE (g_taskMaxNum * sizeof(UINT32))
#define OS_TASK_INFO_LEN (g_taskMaxNum * sizeof(LosTaskCB))
#define OS_TASK_SCHED_INFO_LEN (g_taskMaxNum * sizeof(SchedParam))
#define OS_TASK_ALL_INFO_LEN (g_taskMaxNum * (sizeof(LosTaskCB) + sizeof(UINT32) + sizeof(SchedParam)))
#undef SHOW
#ifdef LOSCFG_FS_VFS
#if defined(LOSCFG_BLACKBOX) && defined(LOSCFG_SAVE_EXCINFO)
#define SaveExcInfo(arg, ...) WriteExcInfoToBuf(arg, ##__VA_ARGS__)
#else
#define SaveExcInfo(arg, ...)
#endif
#define SHOW(arg...) do { \
if (seqBuf != NULL) { \
(void)LosBufPrintf((struct SeqBuf *)seqBuf, ##arg); \
} else { \
PRINTK(arg); \
} \
SaveExcInfo(arg); \
} while (0)
#else
#define SHOW(arg...) PRINTK(arg)
#endif
#define VM_INDEX PROCESS_VM_INDEX
#define SM_INDEX PROCESS_SM_INDEX
#define PM_INDEX PROCESS_PM_INDEX
#define CPUP_MULT LOS_CPUP_PRECISION_MULT
STATIC UINT8 *ConvertProcessModeToString(UINT16 mode)
{
if (mode == OS_KERNEL_MODE) {
return (UINT8 *)"kernel";
} else if (mode == OS_USER_MODE) {
return (UINT8 *)"user";
}
return (UINT8 *)"ERROR";
}
STATIC UINT8 *ConvertSchedPolicyToString(UINT16 policy)
{
if (policy == LOS_SCHED_RR) {
return (UINT8 *)"RR";
} else if (policy == LOS_SCHED_FIFO) {
return (UINT8 *)"FIFO";
} else if (policy == LOS_SCHED_IDLE) {
return (UINT8 *)"IDLE";
}
return (UINT8 *)"ERROR";
}
STATIC UINT8 *ConvertProcessStatusToString(UINT16 status)
{
if (status & OS_PROCESS_STATUS_ZOMBIES) {
return (UINT8 *)"Zombies";
} else if (status & OS_PROCESS_STATUS_INIT) {
return (UINT8 *)"Init";
} else if (status & OS_PROCESS_STATUS_RUNNING) {
return (UINT8 *)"Running";
} else if (status & OS_PROCESS_STATUS_READY) {
return (UINT8 *)"Ready";
}
return (UINT8 *)"Pending";
}
STATIC VOID ProcessInfoTitle(VOID *seqBuf, UINT16 flag)
{
SHOW("\r\n PID PPID PGID UID Mode Status Policy Priority MTID TTotal");
if (flag & OS_PROCESS_INFO_ALL) {
if (flag & OS_PROCESS_MEM_INFO) {
SHOW(" VirtualMem ShareMem PhysicalMem");
}
#ifdef LOSCFG_KERNEL_CPUP
SHOW(" CPUUSE CPUUSE10s CPUUSE1s");
#endif /* LOSCFG_KERNEL_CPUP */
} else {
#ifdef LOSCFG_KERNEL_CPUP
SHOW(" CPUUSE10s");
#endif /* LOSCFG_KERNEL_CPUP */
}
SHOW(" PName\n");
}
STATIC VOID AllProcessDataShow(const LosProcessCB *pcbArray, const SchedParam *param,
UINTPTR cpupInfo, VOID *seqBuf, UINT16 flag)
{
const INT32 *group = (const INT32 *)((UINTPTR)pcbArray + OS_PROCESS_INFO_LEN);
const INT32 *user = (const INT32 *)((UINTPTR)group + OS_PROCESS_GROUP_INFO_LEN);
const UINT32 *memArray = (const UINT32 *)((UINTPTR)pcbArray + OS_PROCESS_ALL_INFO_LEN);
#ifdef LOSCFG_KERNEL_CPUP
const CPUP_INFO_S *cpupAll = NULL;
const CPUP_INFO_S *cpup10s = NULL;
const CPUP_INFO_S *cpup1s = NULL;
ProcessCpupInfoBaseGet(cpupInfo, &cpupAll, &cpup10s, &cpup1s);
#else
(VOID)cpupInfo;
#endif
for (UINT32 pid = 1; pid < g_processMaxNum; ++pid) {
const LosProcessCB *processCB = pcbArray + pid;
if (OsProcessIsUnused(processCB)) {
continue;
}
SHOW("%5u%6d%5d%6d%7s%8s%7s%9u%5u%7u", pid, (INT32)processCB->parentProcessID, group[pid], user[pid],
ConvertProcessModeToString(processCB->processMode), ConvertProcessStatusToString(processCB->processStatus),
ConvertSchedPolicyToString(LOS_SCHED_RR), param[processCB->threadGroupID].basePrio,
processCB->threadGroupID, processCB->threadNumber);
if (flag & OS_PROCESS_INFO_ALL) {
if (flag & OS_PROCESS_MEM_INFO) {
const UINT32 *memUsage = &memArray[pid * PROCESS_VM_INDEX_MAX];
SHOW("%#11x%#9x%#12x", memUsage[VM_INDEX], memUsage[SM_INDEX], memUsage[PM_INDEX]);
}
#ifdef LOSCFG_KERNEL_CPUP
SHOW("%4u.%-2u%7u.%-2u%6u.%-2u ", cpupAll[pid].usage / CPUP_MULT, cpupAll[pid].usage % CPUP_MULT,
cpup10s[pid].usage / CPUP_MULT, cpup10s[pid].usage % CPUP_MULT,
cpup1s[pid].usage / CPUP_MULT, cpup1s[pid].usage % CPUP_MULT);
#endif /* LOSCFG_KERNEL_CPUP */
} else {
#ifdef LOSCFG_KERNEL_CPUP
SHOW("%7u.%-2u ", cpup10s[pid].usage / CPUP_MULT, cpup10s[pid].usage % CPUP_MULT);
#endif /* LOSCFG_KERNEL_CPUP */
}
SHOW("%-32s\n", processCB->processName);
}
}
#ifdef LOSCFG_KERNEL_VM
STATIC VOID ProcessMemUsageGet(LosProcessCB *pcbArray)
{
UINT32 intSave, memUsed;
UINT32 *memArray = (UINT32 *)((UINTPTR)pcbArray + OS_PROCESS_ALL_INFO_LEN);
for (UINT32 pid = 0; pid < g_processMaxNum; ++pid) {
const LosProcessCB *processCB = g_processCBArray + pid;
UINT32 *proMemUsage = &memArray[pid * PROCESS_VM_INDEX_MAX];
SCHEDULER_LOCK(intSave);
if (OsProcessIsUnused(processCB)) {
SCHEDULER_UNLOCK(intSave);
pcbArray[pid].processStatus = OS_PROCESS_FLAG_UNUSED;
continue;
}
LosVmSpace *vmSpace = processCB->vmSpace;
SCHEDULER_UNLOCK(intSave);
/* Process memory usage statistics, idle task defaults to 0 */
if (pid == OsGetIdleProcessID()) {
proMemUsage[VM_INDEX] = 0;
proMemUsage[SM_INDEX] = 0;
proMemUsage[PM_INDEX] = 0;
} else if (vmSpace == LOS_GetKVmSpace()) {
(VOID)OsShellCmdProcessPmUsage(vmSpace, &proMemUsage[SM_INDEX], &proMemUsage[PM_INDEX]);
proMemUsage[VM_INDEX] = proMemUsage[PM_INDEX];
} else {
memUsed = OsShellCmdProcessVmUsage(vmSpace);
if (memUsed == 0) {
pcbArray[pid].processStatus = OS_PROCESS_FLAG_UNUSED;
continue;
}
proMemUsage[VM_INDEX] = memUsed;
memUsed = OsShellCmdProcessPmUsage(vmSpace, &proMemUsage[SM_INDEX], &proMemUsage[PM_INDEX]);
if (memUsed == 0) {
pcbArray[pid].processStatus = OS_PROCESS_FLAG_UNUSED;
}
}
}
}
#endif
#define OS_TASK_STATUS_MASK 0x00FF
STATIC VOID ProcessInfoGet(LosProcessCB **pcbArray, LosTaskCB **tcbArray, SchedParam **schedParam)
{
INT32 *group = (INT32 *)((UINTPTR)*pcbArray + OS_PROCESS_INFO_LEN);
INT32 *user = (INT32 *)((UINTPTR)group + OS_PROCESS_GROUP_INFO_LEN);
SchedParam *param = (SchedParam *)((UINTPTR)*tcbArray + OS_TASK_INFO_LEN);
*schedParam = param;
for (UINT32 tid = 0; tid < g_taskMaxNum; tid++) {
const LosTaskCB *taskCB = *tcbArray + tid;
if (OsTaskIsUnused(taskCB)) {
continue;
}
LosProcessCB *processCB = *pcbArray + taskCB->processID;
if (!OsProcessIsDead(processCB) && !OsProcessIsInit(processCB)) {
processCB->processStatus |= (taskCB->taskStatus & OS_TASK_STATUS_MASK);
}
taskCB->ops->schedParamGet(taskCB, &param[tid]);
}
for (UINT32 pid = 0; pid < g_processMaxNum; ++pid) {
const LosProcessCB *processCB = *pcbArray + pid;
if (OsProcessIsUnused(processCB)) {
continue;
}
if (processCB->group != NULL) {
group[processCB->processID] = processCB->group->groupID;
} else {
group[processCB->processID] = -1;
}
#ifdef LOSCFG_SECURITY_CAPABILITY
if (processCB->user != NULL) {
user[processCB->processID] = processCB->user->userID;
} else {
user[processCB->processID] = -1;
}
#else
user[processCB->processID] = 0;
#endif
}
}
STATIC VOID ProcessInfoShow(const LosProcessCB *pcbArray, const SchedParam *param,
UINTPTR cpupInfo, VOID *seqBuf, UINT16 flag)
{
#ifdef LOSCFG_KERNEL_CPUP
const CPUP_INFO_S *cpupAll = NULL;
const CPUP_INFO_S *cpup10s = NULL;
const CPUP_INFO_S *cpup1s = NULL;
ProcessCpupInfoBaseGet(cpupInfo, &cpupAll, &cpup10s, &cpup1s);
UINT32 pid = OsGetIdleProcessID();
UINT32 sysUsage = LOS_CPUP_PRECISION - cpupAll[pid].usage;
SHOW("\n allCpu(%%): %4u.%02u sys, %4u.%02u idle\n", sysUsage / CPUP_MULT, sysUsage % CPUP_MULT,
cpupAll[pid].usage / CPUP_MULT, cpupAll[pid].usage % CPUP_MULT);
#endif
ProcessInfoTitle(seqBuf, flag);
AllProcessDataShow(pcbArray, param, cpupInfo, seqBuf, flag);
}
STATIC UINT8 *ConvertTaskStatusToString(UINT16 taskStatus)
{
if (taskStatus & OS_TASK_STATUS_INIT) {
return (UINT8 *)"Init";
} else if (taskStatus & OS_TASK_STATUS_RUNNING) {
return (UINT8 *)"Running";
} else if (taskStatus & OS_TASK_STATUS_READY) {
return (UINT8 *)"Ready";
} else if (taskStatus & OS_TASK_STATUS_FROZEN) {
return (UINT8 *)"Frozen";
} else if (taskStatus & OS_TASK_STATUS_SUSPENDED) {
return (UINT8 *)"Suspended";
} else if (taskStatus & OS_TASK_STATUS_DELAY) {
return (UINT8 *)"Delay";
} else if (taskStatus & OS_TASK_STATUS_PENDING) {
if (taskStatus & OS_TASK_STATUS_PEND_TIME) {
return (UINT8 *)"PendTime";
} else {
return (UINT8 *)"Pending";
}
} else if (taskStatus & OS_TASK_STATUS_EXIT) {
return (UINT8 *)"Exit";
}
return (UINT8 *)"Invalid";
}
STATIC VOID TaskWaterLineGet(UINTPTR waterLineBase, LosTaskCB *tcbArray)
{
UINT32 intSave;
UINT32 *taskWaterLine = (UINT32 *)waterLineBase;
for (UINT32 tid = 0; tid < g_taskMaxNum; ++tid) {
const LosTaskCB *taskCB = g_taskCBArray + tid;
SCHEDULER_LOCK(intSave);
if (OsTaskIsUnused(taskCB)) {
SCHEDULER_UNLOCK(intSave);
tcbArray[tid].taskStatus = OS_TASK_STATUS_UNUSED;
continue;
}
(VOID)OsStackWaterLineGet((const UINTPTR *)((UINTPTR)taskCB->topOfStack + taskCB->stackSize),
(const UINTPTR *)taskCB->topOfStack, &taskWaterLine[taskCB->taskID]);
SCHEDULER_UNLOCK(intSave);
}
}
#ifdef LOSCFG_SHELL_CMD_DEBUG
#define OS_PEND_REASON_MAX_LEN 20
STATIC CHAR *CheckTaskWaitFlag(const LosTaskCB *taskCB, UINTPTR *lockID)
{
*lockID = taskCB->waitID;
switch (taskCB->waitFlag) {
case OS_TASK_WAIT_PROCESS:
return "Child";
case OS_TASK_WAIT_GID:
return "PGroup";
case OS_TASK_WAIT_ANYPROCESS:
return "AnyChild";
case OS_TASK_WAIT_SEM:
return "Semaphore";
case OS_TASK_WAIT_QUEUE:
return "Queue";
case OS_TASK_WAIT_JOIN:
return "Join";
case OS_TASK_WAIT_SIGNAL:
return "Signal";
case OS_TASK_WAIT_LITEIPC:
return "LiteIPC";
case OS_TASK_WAIT_MUTEX:
return "Mutex";
case OS_TASK_WAIT_EVENT:
return "Event";
case OS_TASK_WAIT_FUTEX:
return "Futex";
case OS_TASK_WAIT_COMPLETE:
return "Complete";
default:
break;
}
return NULL;
}
STATIC VOID TaskPendingReasonInfoGet(const LosTaskCB *taskCB, CHAR *pendReason, UINT32 maxLen, UINTPTR *lockID)
{
CHAR *reason = NULL;
if (!(taskCB->taskStatus & OS_TASK_STATUS_PENDING)) {
reason = (CHAR *)ConvertTaskStatusToString(taskCB->taskStatus);
goto EXIT;
}
reason = CheckTaskWaitFlag(taskCB, lockID);
if (reason == NULL) {
reason = "Others";
}
if (taskCB->taskMux != NULL) {
*lockID = (UINTPTR)taskCB->taskMux;
LosTaskCB *owner = ((LosMux *)taskCB->taskMux)->owner;
if (owner != NULL) {
if (snprintf_s(pendReason, maxLen, maxLen - 1, "Mutex-%u", owner->taskID) == EOK) {
return;
}
}
}
EXIT:
if (strcpy_s(pendReason, maxLen, reason) != EOK) {
PRINT_ERR("Get pend reason copy failed !\n");
}
}
#endif
STATIC VOID TaskInfoTitle(VOID *seqBuf, UINT16 flag)
{
SHOW("\r\n TID PID");
#ifdef LOSCFG_KERNEL_SMP
SHOW(" Affi CPU");
#endif
SHOW(" Status Policy Priority StackSize WaterLine");
if (flag & OS_PROCESS_INFO_ALL) {
#ifdef LOSCFG_KERNEL_CPUP
SHOW(" CPUUSE CPUUSE10s CPUUSE1s");
#endif /* LOSCFG_KERNEL_CPUP */
#ifdef LOSCFG_SHELL_CMD_DEBUG
SHOW(" StackPoint TopOfStack PendReason LockID");
#endif
} else {
#ifdef LOSCFG_KERNEL_CPUP
SHOW(" CPUUSE10s ");
#endif /* LOSCFG_KERNEL_CPUP */
}
SHOW(" TaskName\n");
}
STATIC VOID AllTaskInfoDataShow(const LosTaskCB *allTaskArray, UINTPTR cpupInfo, VOID *seqBuf, UINT16 flag)
{
const SchedParam *param = (const SchedParam *)((UINTPTR)allTaskArray + OS_TASK_INFO_LEN);
const UINT32 *waterLine = (const UINT32 *)((UINTPTR)allTaskArray + OS_TASK_INFO_LEN + OS_TASK_SCHED_INFO_LEN);
#ifdef LOSCFG_KERNEL_CPUP
const CPUP_INFO_S *cpupAll = NULL;
const CPUP_INFO_S *cpup10s = NULL;
const CPUP_INFO_S *cpup1s = NULL;
TaskCpupInfoBaseGet(cpupInfo, &cpupAll, &cpup10s, &cpup1s);
#else
(VOID)cpupInfo;
#endif
for (UINT32 pid = 1; pid < g_processMaxNum; ++pid) {
for (UINT32 tid = 0; tid < g_taskMaxNum; ++tid) {
const LosTaskCB *taskCB = allTaskArray + tid;
if (OsTaskIsUnused(taskCB) || (taskCB->processID != pid)) {
continue;
}
#ifdef LOSCFG_SHELL_CMD_DEBUG
UINTPTR lockID = 0;
CHAR pendReason[OS_PEND_REASON_MAX_LEN] = { 0 };
#endif
SHOW(" %4u%5u", tid, taskCB->processID);
#ifdef LOSCFG_KERNEL_SMP
SHOW("%#5x%4d ", taskCB->cpuAffiMask, (INT16)(taskCB->currCpu));
#endif
SHOW("%9s%7s%9u%#10x%#10x", ConvertTaskStatusToString(taskCB->taskStatus),
ConvertSchedPolicyToString(param[tid].policy), param[tid].priority, taskCB->stackSize, waterLine[tid]);
if (flag & OS_PROCESS_INFO_ALL) {
#ifdef LOSCFG_KERNEL_CPUP
SHOW("%4u.%-2u%7u.%-2u%6u.%-2u ", cpupAll[tid].usage / CPUP_MULT, cpupAll[tid].usage % CPUP_MULT,
cpup10s[tid].usage / CPUP_MULT, cpup10s[tid].usage % CPUP_MULT,
cpup1s[tid].usage / CPUP_MULT, cpup1s[tid].usage % CPUP_MULT);
#endif /* LOSCFG_KERNEL_CPUP */
#ifdef LOSCFG_SHELL_CMD_DEBUG
TaskPendingReasonInfoGet(taskCB, pendReason, OS_PEND_REASON_MAX_LEN, &lockID);
SHOW("%#12x%#12x%11s%#11x", taskCB->stackPointer, taskCB->topOfStack, pendReason, lockID);
#endif
} else {
#ifdef LOSCFG_KERNEL_CPUP
SHOW("%8u.%-2u ", cpup10s[tid].usage / CPUP_MULT, cpup10s[tid].usage % CPUP_MULT);
#endif /* LOSCFG_KERNEL_CPUP */
}
SHOW(" %-32s\n", taskCB->taskName);
}
}
}
STATIC VOID TaskInfoData(const LosTaskCB *allTaskArray, UINTPTR cpupInfo, VOID *seqBuf, UINT16 flag)
{
TaskInfoTitle(seqBuf, flag);
AllTaskInfoDataShow(allTaskArray, cpupInfo, seqBuf, flag);
}
#ifdef LOSCFG_KERNEL_CPUP
STATIC VOID TaskCpupInfoBaseGet(UINTPTR base, const CPUP_INFO_S **cpupAll,
const CPUP_INFO_S **cpup10s, const CPUP_INFO_S **cpup1s)
{
UINTPTR processCpupAll = base + OS_PROCESS_UID_INFO_LEN;
*cpupAll = (CPUP_INFO_S *)(processCpupAll + OS_PROCESS_CPUP_LEN);
UINTPTR processCpup10s = processCpupAll + OS_PROCESS_AND_TASK_CPUP_LEN;
*cpup10s = (CPUP_INFO_S *)(processCpup10s + OS_PROCESS_CPUP_LEN);
UINTPTR processCpup1s = processCpup10s + OS_PROCESS_AND_TASK_CPUP_LEN;
*cpup1s = (CPUP_INFO_S *)(processCpup1s + OS_PROCESS_CPUP_LEN);
}
STATIC VOID ProcessCpupInfoBaseGet(UINTPTR base, const CPUP_INFO_S **cpupAll,
const CPUP_INFO_S **cpup10s, const CPUP_INFO_S **cpup1s)
{
*cpupAll = (CPUP_INFO_S *)(base + OS_PROCESS_UID_INFO_LEN);
*cpup10s = (CPUP_INFO_S *)((UINTPTR)*cpupAll + OS_PROCESS_AND_TASK_CPUP_LEN);
*cpup1s = (CPUP_INFO_S *)((UINTPTR)*cpup10s + OS_PROCESS_AND_TASK_CPUP_LEN);
}
STATIC VOID TaskCpupInfoGet(UINTPTR base)
{
UINT32 intSave;
CPUP_INFO_S *processCpupAll = (CPUP_INFO_S *)(base + OS_PROCESS_UID_INFO_LEN);
CPUP_INFO_S *processCpup10s = (CPUP_INFO_S *)((UINTPTR)processCpupAll + OS_PROCESS_AND_TASK_CPUP_LEN);
CPUP_INFO_S *processCpup1s = (CPUP_INFO_S *)((UINTPTR)processCpup10s + OS_PROCESS_AND_TASK_CPUP_LEN);
SCHEDULER_LOCK(intSave);
(VOID)OsGetAllProcessAndTaskCpuUsageUnsafe(CPUP_ALL_TIME, processCpupAll, OS_PROCESS_AND_TASK_CPUP_LEN);
SCHEDULER_UNLOCK(intSave);
SCHEDULER_LOCK(intSave);
(VOID)OsGetAllProcessAndTaskCpuUsageUnsafe(CPUP_LAST_TEN_SECONDS, processCpup10s, OS_PROCESS_AND_TASK_CPUP_LEN);
SCHEDULER_UNLOCK(intSave);
SCHEDULER_LOCK(intSave);
(VOID)OsGetAllProcessAndTaskCpuUsageUnsafe(CPUP_LAST_ONE_SECONDS, processCpup1s, OS_PROCESS_AND_TASK_CPUP_LEN);
SCHEDULER_UNLOCK(intSave);
}
#endif
/*
* | pcb | group | user | task and process cpup | process mem | tcb | sched param | task water line |
*/
STATIC VOID ProcessAndTaskInfoGet(LosProcessCB **pcbArray, LosTaskCB **tcbArray,
SchedParam **schedParam, UINTPTR *cpupInfo, UINT16 flag)
{
UINT32 intSave;
UINT32 processInfoLen = OS_PROCESS_ALL_INFO_LEN;
#ifdef LOSCFG_KERNEL_VM
if (flag & OS_PROCESS_MEM_INFO) {
processInfoLen += OS_PROCESS_MEM_ALL_INFO_LEN;
}
#endif
SCHEDULER_LOCK(intSave);
(VOID)memcpy_s(*pcbArray, OS_PROCESS_INFO_LEN, g_processCBArray, OS_PROCESS_INFO_LEN);
*tcbArray = (LosTaskCB *)((UINTPTR)*pcbArray + processInfoLen);
(VOID)memcpy_s(*tcbArray, OS_TASK_INFO_LEN, g_taskCBArray, OS_TASK_INFO_LEN);
ProcessInfoGet(pcbArray, tcbArray, schedParam);
SCHEDULER_UNLOCK(intSave);
#ifdef LOSCFG_KERNEL_CPUP
*cpupInfo = (UINTPTR)*pcbArray + OS_PROCESS_INFO_LEN + OS_PROCESS_GROUP_INFO_LEN;
TaskCpupInfoGet(*cpupInfo);
#endif
#ifdef LOSCFG_KERNEL_VM
if (flag & OS_PROCESS_MEM_INFO) {
ProcessMemUsageGet(*pcbArray);
}
#endif
TaskWaterLineGet((UINTPTR)*tcbArray + OS_TASK_INFO_LEN + OS_TASK_SCHED_INFO_LEN, *tcbArray);
}
LITE_OS_SEC_TEXT_MINOR UINT32 OsShellCmdTskInfoGet(UINT32 taskID, VOID *seqBuf, UINT16 flag)
{
UINT32 size;
LosProcessCB *pcbArray = NULL;
LosTaskCB *tcbArray = NULL;
SchedParam *schedParam = NULL;
UINTPTR cpupInfo = 0;
if (taskID == OS_ALL_TASK_MASK) {
if (flag & OS_PROCESS_MEM_INFO) {
size = OS_PROCESS_ALL_INFO_LEN + OS_PROCESS_MEM_ALL_INFO_LEN + OS_TASK_ALL_INFO_LEN;
} else {
size = OS_PROCESS_ALL_INFO_LEN + OS_TASK_ALL_INFO_LEN;
}
pcbArray = (LosProcessCB *)LOS_MemAlloc(m_aucSysMem1, size);
if (pcbArray == NULL) {
PRINT_ERR("Memory is not enough to save task info!\n");
return LOS_NOK;
}
(VOID)memset_s(pcbArray, size, 0, size);
ProcessAndTaskInfoGet(&pcbArray, &tcbArray, &schedParam, &cpupInfo, flag);
ProcessInfoShow(pcbArray, schedParam, cpupInfo, seqBuf, flag);
TaskInfoData(tcbArray, cpupInfo, seqBuf, flag);
(VOID)LOS_MemFree(m_aucSysMem1, pcbArray);
}
return LOS_OK;
}
LITE_OS_SEC_TEXT_MINOR UINT32 OsShellCmdDumpTask(INT32 argc, const CHAR **argv)
{
UINT32 flag = 0;
#ifdef LOSCFG_KERNEL_VM
flag |= OS_PROCESS_MEM_INFO;
#endif
if (argc >= 2) { /* 2: The task shell name restricts the parameters */
goto TASK_HELP;
}
if (argc == 1) {
if (strcmp("-a", argv[0]) == 0) {
flag |= OS_PROCESS_INFO_ALL;
#ifdef LOSCFG_SCHED_DEBUG
#ifdef LOSCFG_SCHED_TICK_DEBUG
} else if (strcmp("-i", argv[0]) == 0) {
if (!OsShellShowTickResponse()) {
return LOS_OK;
}
goto TASK_HELP;
#endif
} else if (strcmp("-t", argv[0]) == 0) {
if (!OsShellShowSchedStatistics()) {
return LOS_OK;
}
goto TASK_HELP;
#endif
} else {
goto TASK_HELP;
}
}
return OsShellCmdTskInfoGet(OS_ALL_TASK_MASK, NULL, flag);
TASK_HELP:
PRINTK("Unknown option: %s\n", argv[0]);
PRINTK("Usage:\n");
PRINTK(" task --- Basic information about all created processes.\n");
PRINTK(" task -a --- Complete information about all created processes.\n");
return LOS_NOK;
}
#ifdef LOSCFG_SHELL
SHELLCMD_ENTRY(task_shellcmd, CMD_TYPE_EX, "task", 1, (CmdCallBackFunc)OsShellCmdDumpTask);
#endif
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