/** * Copyright (c) 2022, The Android Open Source Project * * Licensed under the Apache License, Version 2.0 (the "License"); * you may not use this file except in compliance with the License. * You may obtain a copy of the License at * * http://www.apache.org/licenses/LICENSE-2.0 * * Unless required by applicable law or agreed to in writing, software * distributed under the License is distributed on an "AS IS" BASIS, * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. * See the License for the specific language governing permissions and * limitations under the License. */ #include "ThreadPriorityController.h" #include "UidProcStatsCollector.h" namespace android { namespace automotive { namespace watchdog { namespace { using ::aidl::android::automotive::watchdog::internal::ThreadPolicyWithPriority; using ::android::base::Error; using ::android::base::Result; constexpr int PRIORITY_MIN = 1; constexpr int PRIORITY_MAX = 99; } // namespace Result ThreadPriorityController::checkPidTidUid(pid_t pid, pid_t tid, uid_t uid) { auto tidStatus = mSystemCallsInterface->readPidStatusFileForPid(tid); if (!tidStatus.ok()) { return Error(EX_ILLEGAL_STATE) << "Invalid thread ID: " << tid; } uid_t uidForThread = std::get<0>(*tidStatus); pid_t tgid = std::get<1>(*tidStatus); if (pid != tgid) { return Error(EX_ILLEGAL_STATE) << "Invalid process ID: " << pid; } if (uid != uidForThread) { return Error(EX_ILLEGAL_STATE) << "Invalid user ID: " << uid; } return {}; } Result ThreadPriorityController::setThreadPriority(int pid, int tid, int uid, int policy, int priority) { pid_t tpid = static_cast(tid); pid_t ppid = static_cast(pid); uid_t uuid = static_cast(uid); if (auto result = checkPidTidUid(ppid, tpid, uuid); !result.ok()) { return result; } if (policy != SCHED_FIFO && policy != SCHED_RR && policy != SCHED_OTHER) { return Error(EX_ILLEGAL_ARGUMENT) << "Invalid policy: " << policy << ". Supported policies are SCHED_OTHER(" << SCHED_OTHER << ") , SCHED_FIFO(" << SCHED_FIFO << ") and SCHED_RR(" << SCHED_RR << ")"; } if (policy == SCHED_OTHER) { priority = 0; } else if (priority < PRIORITY_MIN || priority > PRIORITY_MAX) { return Error(EX_ILLEGAL_ARGUMENT) << "Invalid priority: " << priority << ". For policy: (" << policy << "), priority must be within " << PRIORITY_MIN << " and " << PRIORITY_MAX; } sched_param param{.sched_priority = priority}; errno = 0; if (mSystemCallsInterface->setScheduler(tpid, policy, ¶m) != 0) { return Error(EX_SERVICE_SPECIFIC) << "sched_setscheduler failed, errno: " << errno; } return {}; } Result ThreadPriorityController::getThreadPriority(int pid, int tid, int uid, ThreadPolicyWithPriority* result) { pid_t tpid = static_cast(tid); pid_t ppid = static_cast(pid); uid_t uuid = static_cast(uid); if (auto result = checkPidTidUid(ppid, tpid, uuid); !result.ok()) { return result; } errno = 0; int policy = mSystemCallsInterface->getScheduler(tpid); if (policy < 0) { return Error(EX_SERVICE_SPECIFIC) << "sched_getscheduler failed, errno: " << errno; } sched_param param = {}; errno = 0; int callResult = mSystemCallsInterface->getParam(tpid, ¶m); if (callResult != 0) { return Error(EX_SERVICE_SPECIFIC) << "sched_getparam failed, errno: " << errno; } result->policy = policy; result->priority = param.sched_priority; return {}; } int ThreadPriorityController::SystemCalls::setScheduler(pid_t tid, int policy, const sched_param* param) { return sched_setscheduler(tid, policy, param); } int ThreadPriorityController::SystemCalls::getScheduler(pid_t tid) { return sched_getscheduler(tid); } int ThreadPriorityController::SystemCalls::getParam(pid_t tid, sched_param* param) { return sched_getparam(tid, param); } Result> ThreadPriorityController::SystemCalls::readPidStatusFileForPid( pid_t pid) { return UidProcStatsCollector::readPidStatusFileForPid(pid); } } // namespace watchdog } // namespace automotive } // namespace android