/* * Copyright (c) 2023-2023 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 "los_time_container_pri.h" #include "los_process_pri.h" #ifdef LOSCFG_TIME_CONTAINER STATIC UINT32 g_currentTimeContainerNum; STATIC TimeContainer *CreateNewTimeContainer(TimeContainer *parent) { UINT32 size = sizeof(TimeContainer); TimeContainer *timeContainer = (TimeContainer *)LOS_MemAlloc(m_aucSysMem1, size); if (timeContainer == NULL) { return NULL; } (VOID)memset_s(timeContainer, size, 0, size); timeContainer->containerID = OsAllocContainerID(); if (parent != NULL) { timeContainer->frozenOffsets = FALSE; LOS_AtomicSet(&timeContainer->rc, 1); } else { timeContainer->frozenOffsets = TRUE; LOS_AtomicSet(&timeContainer->rc, 3); /* 3: Three system processes */ } return timeContainer; } STATIC UINT32 CreateTimeContainer(LosProcessCB *child, LosProcessCB *parent) { UINT32 intSave; SCHEDULER_LOCK(intSave); TimeContainer *newTimeContainer = parent->container->timeForChildContainer; LOS_AtomicInc(&newTimeContainer->rc); newTimeContainer->frozenOffsets = TRUE; child->container->timeContainer = newTimeContainer; child->container->timeForChildContainer = newTimeContainer; SCHEDULER_UNLOCK(intSave); return LOS_OK; } UINT32 OsInitRootTimeContainer(TimeContainer **timeContainer) { UINT32 intSave; TimeContainer *newTimeContainer = CreateNewTimeContainer(NULL); if (newTimeContainer == NULL) { return ENOMEM; } SCHEDULER_LOCK(intSave); *timeContainer = newTimeContainer; g_currentTimeContainerNum++; SCHEDULER_UNLOCK(intSave); return LOS_OK; } UINT32 OsCopyTimeContainer(UINTPTR flags, LosProcessCB *child, LosProcessCB *parent) { UINT32 intSave; TimeContainer *currTimeContainer = parent->container->timeContainer; if (currTimeContainer == parent->container->timeForChildContainer) { SCHEDULER_LOCK(intSave); LOS_AtomicInc(&currTimeContainer->rc); child->container->timeContainer = currTimeContainer; child->container->timeForChildContainer = currTimeContainer; SCHEDULER_UNLOCK(intSave); return LOS_OK; } if (OsContainerLimitCheck(TIME_CONTAINER, &g_currentTimeContainerNum) != LOS_OK) { return EPERM; } return CreateTimeContainer(child, parent); } UINT32 OsUnshareTimeContainer(UINTPTR flags, LosProcessCB *curr, Container *newContainer) { UINT32 intSave; if (!(flags & CLONE_NEWTIME)) { SCHEDULER_LOCK(intSave); newContainer->timeContainer = curr->container->timeContainer; newContainer->timeForChildContainer = curr->container->timeForChildContainer; LOS_AtomicInc(&newContainer->timeContainer->rc); if (newContainer->timeContainer != newContainer->timeForChildContainer) { LOS_AtomicInc(&newContainer->timeForChildContainer->rc); } SCHEDULER_UNLOCK(intSave); return LOS_OK; } if (OsContainerLimitCheck(TIME_CONTAINER, &g_currentTimeContainerNum) != LOS_OK) { return EPERM; } TimeContainer *timeForChild = CreateNewTimeContainer(curr->container->timeContainer); if (timeForChild == NULL) { return ENOMEM; } SCHEDULER_LOCK(intSave); if (curr->container->timeContainer != curr->container->timeForChildContainer) { SCHEDULER_UNLOCK(intSave); (VOID)LOS_MemFree(m_aucSysMem1, timeForChild); return EINVAL; } (VOID)memcpy_s(&timeForChild->monotonic, sizeof(struct timespec64), &curr->container->timeContainer->monotonic, sizeof(struct timespec64)); newContainer->timeContainer = curr->container->timeContainer; LOS_AtomicInc(&newContainer->timeContainer->rc); newContainer->timeForChildContainer = timeForChild; g_currentTimeContainerNum++; SCHEDULER_UNLOCK(intSave); return LOS_OK; } UINT32 OsSetNsTimeContainer(UINT32 flags, Container *container, Container *newContainer) { LosProcessCB *curr = OsCurrProcessGet(); if (flags & CLONE_NEWTIME) { container->timeContainer->frozenOffsets = TRUE; newContainer->timeContainer = container->timeContainer; newContainer->timeForChildContainer = container->timeContainer; LOS_AtomicInc(&container->timeContainer->rc); return LOS_OK; } newContainer->timeContainer = curr->container->timeContainer; LOS_AtomicInc(&curr->container->timeContainer->rc); newContainer->timeForChildContainer = curr->container->timeForChildContainer; if (curr->container->timeContainer != curr->container->timeForChildContainer) { LOS_AtomicInc(&curr->container->timeForChildContainer->rc); } return LOS_OK; } VOID OsTimeContainerDestroy(Container *container) { UINT32 intSave; TimeContainer *timeContainer = NULL; TimeContainer *timeForChild = NULL; if (container == NULL) { return; } SCHEDULER_LOCK(intSave); if (container->timeContainer == NULL) { SCHEDULER_UNLOCK(intSave); return; } if ((container->timeForChildContainer != NULL) && (container->timeContainer != container->timeForChildContainer)) { LOS_AtomicDec(&container->timeForChildContainer->rc); if (LOS_AtomicRead(&container->timeForChildContainer->rc) <= 0) { g_currentTimeContainerNum--; timeForChild = container->timeForChildContainer; container->timeForChildContainer = NULL; } } LOS_AtomicDec(&container->timeContainer->rc); if (LOS_AtomicRead(&container->timeContainer->rc) <= 0) { g_currentTimeContainerNum--; timeContainer = container->timeContainer; container->timeContainer = NULL; container->timeForChildContainer = NULL; } SCHEDULER_UNLOCK(intSave); (VOID)LOS_MemFree(m_aucSysMem1, timeForChild); (VOID)LOS_MemFree(m_aucSysMem1, timeContainer); return; } UINT32 OsGetTimeContainerID(TimeContainer *timeContainer) { if (timeContainer == NULL) { return OS_INVALID_VALUE; } return timeContainer->containerID; } TimeContainer *OsGetCurrTimeContainer(VOID) { return OsCurrProcessGet()->container->timeContainer; } UINT32 OsGetTimeContainerMonotonic(LosProcessCB *processCB, struct timespec64 *offsets) { if ((processCB == NULL) || (offsets == NULL)) { return EINVAL; } if (OsProcessIsInactive(processCB)) { return ESRCH; } TimeContainer *timeContainer = processCB->container->timeForChildContainer; (VOID)memcpy_s(offsets, sizeof(struct timespec64), &timeContainer->monotonic, sizeof(struct timespec64)); return LOS_OK; } UINT32 OsSetTimeContainerMonotonic(LosProcessCB *processCB, struct timespec64 *offsets) { if ((processCB == NULL) || (offsets == NULL)) { return EINVAL; } if (OsProcessIsInactive(processCB)) { return ESRCH; } TimeContainer *timeContainer = processCB->container->timeForChildContainer; if (timeContainer->frozenOffsets) { return EACCES; } timeContainer->monotonic.tv_sec = offsets->tv_sec; timeContainer->monotonic.tv_nsec = offsets->tv_nsec; return LOS_OK; } UINT32 OsGetTimeContainerCount(VOID) { return g_currentTimeContainerNum; } #endif