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ruanjiangongcheng/process(800-1200).cpp

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```c
// 去掉初始化标签
kerInitProcess->processStatus &= ~OS_PROCESS_STATUS_INIT;
g_processGroup = kerInitProcess->group;
LOS_ListInit(&g_processGroup->groupList);
OsCurrProcessSet(kerInitProcess);
// 创建内核态0号进程
LosProcessCB *idleProcess = OS_PCB_FROM_PID(g_kernelIdleProcess);
ret = OsInitPCB(idleProcess, OS_KERNEL_MODE, OS_TASK_PRIORITY_LOWEST, "KIdle");
if (ret != LOS_OK) {
return ret;
}
idleProcess->parentProcessID = kerInitProcess->processID;
LOS_ListTailInsert(&kerInitProcess->childrenList, &idleProcess->siblingList);
idleProcess->group = kerInitProcess->group;
LOS_ListTailInsert(&kerInitProcess->group->processList, &idleProcess->subordinateGroupList);
#ifdef LOSCFG_SECURITY_CAPABILITY
idleProcess->user = kerInitProcess->user;
#endif
#ifdef LOSCFG_FS_VFS
idleProcess->files = kerInitProcess->files;
#endif
// 创建空闲任务并将其指定给内核态0号进程
ret = OsIdleTaskCreate();
if (ret != LOS_OK) {
return ret;
}
idleProcess->threadGroupID = OsPercpuGet()->idleTaskID;
return LOS_OK;
```
```c
// 进程调度参数检查
STATIC INLINE INT32 OsProcessSchedlerParamCheck(INT32 which, INT32 pid, UINT16 prio, UINT16 policy)
{
if (OS_PID_CHECK_INVALID(pid)) {
return LOS_EINVAL;
}
if (which != LOS_PRIO_PROCESS) {
return LOS_EINVAL;
}
if (prio > OS_PROCESS_PRIORITY_LOWEST) {
return LOS_EINVAL;
}
if (policy != LOS_SCHED_RR) {
return LOS_EINVAL;
}
return LOS_OK;
}
#ifdef LOSCFG_SECURITY_CAPABILITY
STATIC BOOL OsProcessCapPermitCheck(const LosProcessCB *processCB, UINT16 prio)
{
LosProcessCB *runProcess = OsCurrProcessGet();
// 对于内核态进程直接通过检查
if (!OsProcessIsUserMode(runProcess)) {
return TRUE;
}
// 用户态进程可以降低自己的优先级
if ((runProcess->processID == processCB->processID) && (prio > processCB->priority)) {
return TRUE;
}
// 如果具有 CAP_SCHED_SETPRIORITY 权限,可以修改进程的优先级
if (IsCapPermit(CAP_SCHED_SETPRIORITY)) {
return TRUE;
}
return FALSE;
}
#endif
LITE_OS_SEC_TEXT INT32 OsSetProcessScheduler(INT32 which, INT32 pid, UINT16 prio, UINT16 policy)
{
LosProcessCB *processCB = NULL;
BOOL needSched = FALSE;
UINT32 intSave;
INT32 ret;
ret = OsProcessSchedlerParamCheck(which, pid, prio, policy);
if (ret != LOS_OK) {
return -ret;
}
SCHEDULER_LOCK(intSave);
processCB = OS_PCB_FROM_PID(pid);
// 如果进程未激活,则返回错误
if (OsProcessIsInactive(processCB)) {
ret = LOS_ESRCH;
goto EXIT;
}
#ifdef LOSCFG_SECURITY_CAPABILITY
// 如果权限不足,则返回错误
if (!OsProcessCapPermitCheck(processCB, prio)) {
ret = LOS_EPERM;
goto EXIT;
}
#endif
// 修改进程调度参数,判断是否需要进行调度
needSched = OsSchedModifyProcessSchedParam(processCB, policy, prio);
SCHEDULER_UNLOCK(intSave);
// 调度其他核上的进程
LOS_MpSchedule(OS_MP_CPU_ALL);
// 如果需要调度且调度器已经激活,则进行调度
if (needSched && OS_SCHEDULER_ACTIVE) {
LOS_Schedule();
}
return LOS_OK;
EXIT:
SCHEDULER_UNLOCK(intSave);
return -ret;
}
LITE_OS_SEC_TEXT INT32 LOS_SetProcessScheduler(INT32 pid, UINT16 policy, UINT16 prio)
{
return OsSetProcessScheduler(LOS_PRIO_PROCESS, pid, prio, policy);
}
LITE_OS_SEC_TEXT INT32 LOS_GetProcessScheduler(INT32 pid)
{
UINT32 intSave;
if (OS_PID_CHECK_INVALID(pid)) {
return -LOS_EINVAL;
}
SCHEDULER_LOCK(intSave);
LosProcessCB *processCB = OS_PCB_FROM_PID(pid);
// 如果进程未使用,则返回错误
if (OsProcessIsUnused(processCB)) {
SCHEDULER_UNLOCK(intSave);
return -LOS_ESRCH;
}
SCHEDULER_UNLOCK(intSave);
return LOS_SCHED_RR;
}
LITE_OS_SEC_TEXT INT32 LOS_SetProcessPriority(INT32 pid, UINT16 prio)
{
return OsSetProcessScheduler(LOS_PRIO_PROCESS, pid, prio, LOS_GetProcessScheduler(pid));
}
LITE_OS_SEC_TEXT INT32 OsGetProcessPriority(INT32 which, INT32 pid)
{
LosProcessCB *processCB = NULL;
INT32 prio;
UINT32 intSave;
(VOID)which;
if (OS_PID_CHECK_INVALID(pid)) {
return -LOS_EINVAL;
}
if (which != LOS_PRIO_PROCESS) {
return -LOS_EINVAL;
}
SCHEDULER_LOCK(intSave);
processCB = OS_PCB_FROM_PID(pid);
// 如果进程未使用,则返回错误
if (OsProcessIsUnused(processCB)) {
prio = -LOS_ESRCH;
goto OUT;
}
prio = (INT32)processCB->priority;
OUT:
SCHEDULER_UNLOCK(intSave);
return prio;
}
LITE_OS_SEC_TEXT INT32 LOS_GetProcessPriority(INT32 pid)
{
return OsGetProcessPriority(LOS_PRIO_PROCESS, pid);
}
// 将运行任务插入等待列表
STATIC VOID OsWaitInsertWaitListInOrder(LosTaskCB *runTask, LosProcessCB *processCB)
{
LOS_DL_LIST *head = &processCB->waitList;
LOS_DL_LIST *list = head;
LosTaskCB *taskCB = NULL;
if (runTask->waitFlag == OS_PROCESS_WAIT_GID) {
while (list->pstNext != head) {
taskCB = OS_TCB_FROM_PENDLIST(LOS_DL_LIST_FIRST(list));
// 如果等待标记为 OS_PROCESS_WAIT_PRO则继续查找下一个等待队列
if (taskCB->waitFlag == OS_PROCESS_WAIT_PRO) {
list = list->pstNext;
continue;
}
break;
}
} else if (runTask->waitFlag == OS_PROCESS_WAIT_ANY) {
while (list->pstNext != head) {
taskCB = OS_TCB_FROM_PENDLIST(LOS_DL_LIST_FIRST(list));
// 如果等待标记不为 OS_PROCESS_WAIT_ANY则继续查找下一个等待队列
if (taskCB->waitFlag != OS_PROCESS_WAIT_ANY) {
list = list->pstNext;
continue;
}
break;
}
}
}
```
// 等待指定的子进程退出
STATIC UINT32 OsWaitSetFlag(const LosProcessCB *processCB, INT32 pid, LosProcessCB **child)
{
LosProcessCB *childCB = NULL;
ProcessGroup *group = NULL;
LosTaskCB *runTask = OsCurrTaskGet(); // 获取当前运行的任务控制块
UINT32 ret;
if (pid > 0) {
// 等待具有指定进程号的子进程退出
childCB = OsFindExitChildProcess(processCB, pid); // 查找具有指定进程号的已退出的子进程
if (childCB != NULL) {
goto WAIT_BACK; // 子进程已退出则跳转到WAIT_BACK标签处
}
ret = OsFindChildProcess(processCB, pid); // 查找具有指定进程号的子进程是否存在
if (ret != LOS_OK) {
return LOS_ECHILD; // 没有找到指定进程号的子进程返回错误码LOS_ECHILD
}
runTask->waitFlag = OS_PROCESS_WAIT_PRO; // 设置当前任务的等待标志为进程号
runTask->waitID = pid; // 设置当前任务等待的进程号为指定进程号
} else if (pid == 0) {
// 等待同一进程组中的任何子进程退出
childCB = OsFindGroupExitProcess(processCB->group, OS_INVALID_VALUE); // 查找同一进程组中的已退出的子进程
if (childCB != NULL) {
goto WAIT_BACK; // 子进程已退出则跳转到WAIT_BACK标签处
}
runTask->waitID = processCB->group->groupID; // 设置当前任务等待的进程号为进程组号
runTask->waitFlag = OS_PROCESS_WAIT_GID; // 设置当前任务的等待标志为进程组号
} else if (pid == -1) {
// 等待任何子进程退出
childCB = OsFindExitChildProcess(processCB, OS_INVALID_VALUE); // 查找任何已退出的子进程
if (childCB != NULL) {
goto WAIT_BACK; // 子进程已退出则跳转到WAIT_BACK标签处
}
runTask->waitID = pid; // 设置当前任务等待的进程号为-1
runTask->waitFlag = OS_PROCESS_WAIT_ANY; // 设置当前任务的等待标志为任何子进程
} else { // pid < -1
// 等待进程组号为pid绝对值的任何子进程退出
group = OsFindProcessGroup(-pid); // 查找具有指定进程组号的进程组
if (group == NULL) {
return LOS_ECHILD; // 没有找到指定进程组号的进程组返回错误码LOS_ECHILD
}
childCB = OsFindGroupExitProcess(group, OS_INVALID_VALUE); // 查找指定进程组中已退出的子进程
if (childCB != NULL) {
goto WAIT_BACK; // 子进程已退出则跳转到WAIT_BACK标签处
}
runTask->waitID = -pid; // 设置当前任务等待的进程号为进程组号的绝对值
runTask->waitFlag = OS_PROCESS_WAIT_GID; // 设置当前任务的等待标志为进程组号
}
WAIT_BACK:
*child = childCB; // 返回已退出的子进程
return LOS_OK;
}
// 回收已退出的子进程资源,并返回进程号
STATIC UINT32 OsWaitRecycleChildProcess(const LosProcessCB *childCB, UINT32 intSave, INT32 *status, siginfo_t *info)
{
ProcessGroup *group = NULL;
UINT32 pid = childCB->processID; // 子进程的进程号
UINT16 mode = childCB->processMode; // 子进程的运行模式
INT32 exitCode = childCB->exitCode; // 子进程的退出码
UINT32 uid = 0;
#ifdef LOSCFG_SECURITY_CAPABILITY
if (childCB->user != NULL) {
uid = childCB->user->userID; // 子进程的用户ID
}
#endif
OsRecycleZombiesProcess((LosProcessCB *)childCB, &group); // 回收已退出的子进程资源,并获取进程组
SCHEDULER_UNLOCK(intSave); // 解锁调度器
if (status != NULL) {
if (mode == OS_USER_MODE) {
(VOID)LOS_ArchCopyToUser((VOID *)status, (const VOID *)(&(exitCode)), sizeof(INT32)); // 拷贝退出码到用户空间
} else {
*status = exitCode; // 将退出码保存到status中
}
}
/* get signal info */
if (info != NULL) {
siginfo_t tempinfo = { 0 };
tempinfo.si_signo = SIGCHLD;
tempinfo.si_errno = 0;
tempinfo.si_pid = pid;
tempinfo.si_uid = uid;
/*
* Process exit code
* 31 15 8 7 0
* | | exit code | core dump | signal |
*/
if ((exitCode & 0x7f) == 0) {
tempinfo.si_code = CLD_EXITED;
tempinfo.si_status = (exitCode >> 8U);
} else {
tempinfo.si_code = (exitCode & 0x80) ? CLD_DUMPED : CLD_KILLED;
tempinfo.si_status = (exitCode & 0x7f);
}
if (mode == OS_USER_MODE) {
(VOID)LOS_ArchCopyToUser((VOID *)(info), (const VOID *)(&(tempinfo)), sizeof(siginfo_t)); // 拷贝信号信息到用户空间
} else {
(VOID)memcpy_s((VOID *)(info), sizeof(siginfo_t), (const VOID *)(&(tempinfo)), sizeof(siginfo_t));
}
}
(VOID)LOS_MemFree(m_aucSysMem1, group); // 释放进程组资源
return pid; // 返回子进程的进程号
}
// 检查等待子进程的具体信息
STATIC UINT32 OsWaitChildProcessCheck(LosProcessCB *processCB, INT32 pid, LosProcessCB **childCB)
{
if (LOS_ListEmpty(&(processCB->childrenList)) && LOS_ListEmpty(&(processCB->exitChildList))) {
return LOS_ECHILD; // 没有子进程则返回错误码LOS_ECHILD
}
return OsWaitSetFlag(processCB, pid, childCB); // 设置等待标志等信息
}
// 检查等待选项是否正确
STATIC UINT32 OsWaitOptionsCheck(UINT32 options)
{
UINT32 flag = LOS_WAIT_WNOHANG | LOS_WAIT_WUNTRACED | LOS_WAIT_WCONTINUED;
flag = ~flag & options;
if (flag != 0) {
return LOS_EINVAL; // 选项不正确返回错误码LOS_EINVAL
}
if ((options & (LOS_WAIT_WCONTINUED | LOS_WAIT_WUNTRACED)) != 0) {
return LOS_EOPNOTSUPP; // 不支持的选项返回错误码LOS_EOPNOTSUPP
}
if (OS_INT_ACTIVE) {
return LOS_EINTR; // 当前处于中断上下文中返回错误码LOS_EINTR
}
return LOS_OK; // 选项正确返回LOS_OK
}
// 等待子进程退出
STATIC INT32 OsWait(INT32 pid, USER INT32 *status, USER siginfo_t *info, UINT32 options, VOID *rusage)
{
(VOID)rusage;
UINT32 ret;
UINT32 intSave;
LosProcessCB *childCB = NULL;
LosProcessCB *processCB = NULL;
LosTaskCB *runTask = NULL;
SCHEDULER_LOCK(intSave); // 加锁调度器
processCB = OsCurrProcessGet(); // 获取当前进程控制块
runTask = OsCurrTaskGet(); // 获取当前任务控制块
ret = OsWaitChildProcessCheck(processCB, pid, &childCB); // 检查等待子进程的具体信息
if (ret != LOS_OK) {
pid = -ret; // 若等待子进程的标志不正确将错误码赋值给pid
goto ERROR;
}
if (childCB != NULL) {
return (INT32)OsWaitRecycleChildProcess(childCB, intSave, status, info); // 回收已退出的子进程资源并返回进程号
}
if ((options & LOS_WAIT_WNOHANG) != 0) {
runTask->waitFlag = 0; // 不阻塞任务
pid = 0;
goto ERROR;
}
OsWaitInsertWaitListInOrder(runTask, processCB); // 将当前任务插入等待列表中
runTask->waitFlag = 0;
if (runTask->waitID == OS_INVALID_VALUE) {
pid = -LOS_ECHILD; // 没有子进程需要等待返回错误码LOS_ECHILD
goto ERROR;
}
childCB = OS_PCB_FROM_PID(runTask->waitID); // 根据等待的进程号获取子进程控制块
if (!(childCB->processStatus & OS_PROCESS_STATUS_ZOMBIES)) {
pid = -LOS_ESRCH; // 子进程没有退出返回错误码LOS_ESRCH
goto ERROR;
}
return (INT32)OsWaitRecycleChildProcess(childCB, intSave, status, info); // 回收已退出的子进程资源并返回进程号
ERROR:
SCHEDULER_UNLOCK(intSave); // 解锁调度器
return pid;
}