/* * Copyright (C) 2019 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. */ //#define LOG_NDEBUG 0 #define LOG_TAG "libprocessgroup" #include #include #include #include #include #include #include #include #include #include // To avoid issues in sdk_mac build #if defined(__ANDROID__) #include #endif using android::base::GetThreadId; using android::base::StringPrintf; using android::base::unique_fd; using android::base::WriteStringToFile; #define TASK_PROFILE_DB_FILE "/etc/task_profiles.json" #define TASK_PROFILE_DB_VENDOR_FILE "/vendor/etc/task_profiles.json" void ProfileAttribute::Reset(const CgroupController& controller, const std::string& file_name) { controller_ = controller; file_name_ = file_name; } bool ProfileAttribute::GetPathForTask(int tid, std::string* path) const { std::string subgroup; if (!controller()->GetTaskGroup(tid, &subgroup)) { return false; } if (path == nullptr) { return true; } if (subgroup.empty()) { *path = StringPrintf("%s/%s", controller()->path(), file_name_.c_str()); } else { *path = StringPrintf("%s/%s/%s", controller()->path(), subgroup.c_str(), file_name_.c_str()); } return true; } bool SetClampsAction::ExecuteForProcess(uid_t, pid_t) const { // TODO: add support when kernel supports util_clamp LOG(WARNING) << "SetClampsAction::ExecuteForProcess is not supported"; return false; } bool SetClampsAction::ExecuteForTask(int) const { // TODO: add support when kernel supports util_clamp LOG(WARNING) << "SetClampsAction::ExecuteForTask is not supported"; return false; } // To avoid issues in sdk_mac build #if defined(__ANDROID__) bool SetTimerSlackAction::IsTimerSlackSupported(int tid) { auto file = StringPrintf("/proc/%d/timerslack_ns", tid); return (access(file.c_str(), W_OK) == 0); } bool SetTimerSlackAction::ExecuteForTask(int tid) const { static bool sys_supports_timerslack = IsTimerSlackSupported(tid); // v4.6+ kernels support the /proc//timerslack_ns interface. // TODO: once we've backported this, log if the open(2) fails. if (sys_supports_timerslack) { auto file = StringPrintf("/proc/%d/timerslack_ns", tid); if (!WriteStringToFile(std::to_string(slack_), file)) { if (errno == ENOENT) { // This happens when process is already dead return true; } PLOG(ERROR) << "set_timerslack_ns write failed"; } } // TODO: Remove when /proc//timerslack_ns interface is backported. if (tid == 0 || tid == GetThreadId()) { if (prctl(PR_SET_TIMERSLACK, slack_) == -1) { PLOG(ERROR) << "set_timerslack_ns prctl failed"; } } return true; } #endif bool SetAttributeAction::ExecuteForProcess(uid_t, pid_t pid) const { return ExecuteForTask(pid); } bool SetAttributeAction::ExecuteForTask(int tid) const { std::string path; if (!attribute_->GetPathForTask(tid, &path)) { LOG(ERROR) << "Failed to find cgroup for tid " << tid; return false; } if (!WriteStringToFile(value_, path)) { PLOG(ERROR) << "Failed to write '" << value_ << "' to " << path; return false; } return true; } bool SetCgroupAction::IsAppDependentPath(const std::string& path) { return path.find("", 0) != std::string::npos || path.find("", 0) != std::string::npos; } SetCgroupAction::SetCgroupAction(const CgroupController& c, const std::string& p) : controller_(c), path_(p) { // file descriptors for app-dependent paths can't be cached if (IsAppDependentPath(path_)) { // file descriptor is not cached fd_.reset(FDS_APP_DEPENDENT); return; } // file descriptor can be cached later on request fd_.reset(FDS_NOT_CACHED); } void SetCgroupAction::EnableResourceCaching() { std::lock_guard lock(fd_mutex_); if (fd_ != FDS_NOT_CACHED) { return; } std::string tasks_path = controller_.GetTasksFilePath(path_); if (access(tasks_path.c_str(), W_OK) != 0) { // file is not accessible fd_.reset(FDS_INACCESSIBLE); return; } unique_fd fd(TEMP_FAILURE_RETRY(open(tasks_path.c_str(), O_WRONLY | O_CLOEXEC))); if (fd < 0) { PLOG(ERROR) << "Failed to cache fd '" << tasks_path << "'"; fd_.reset(FDS_INACCESSIBLE); return; } fd_ = std::move(fd); } void SetCgroupAction::DropResourceCaching() { std::lock_guard lock(fd_mutex_); if (fd_ == FDS_NOT_CACHED) { return; } fd_.reset(FDS_NOT_CACHED); } bool SetCgroupAction::AddTidToCgroup(int tid, int fd) { if (tid <= 0) { return true; } std::string value = std::to_string(tid); if (TEMP_FAILURE_RETRY(write(fd, value.c_str(), value.length())) < 0) { // If the thread is in the process of exiting, don't flag an error if (errno != ESRCH) { PLOG(ERROR) << "AddTidToCgroup failed to write '" << value << "'; fd=" << fd; return false; } } return true; } bool SetCgroupAction::ExecuteForProcess(uid_t uid, pid_t pid) const { std::string procs_path = controller()->GetProcsFilePath(path_, uid, pid); unique_fd tmp_fd(TEMP_FAILURE_RETRY(open(procs_path.c_str(), O_WRONLY | O_CLOEXEC))); if (tmp_fd < 0) { PLOG(WARNING) << "Failed to open " << procs_path; return false; } if (!AddTidToCgroup(pid, tmp_fd)) { LOG(ERROR) << "Failed to add task into cgroup"; return false; } return true; } bool SetCgroupAction::ExecuteForTask(int tid) const { std::lock_guard lock(fd_mutex_); if (IsFdValid()) { // fd is cached, reuse it if (!AddTidToCgroup(tid, fd_)) { LOG(ERROR) << "Failed to add task into cgroup"; return false; } return true; } if (fd_ == FDS_INACCESSIBLE) { // no permissions to access the file, ignore return true; } if (fd_ == FDS_APP_DEPENDENT) { // application-dependent path can't be used with tid PLOG(ERROR) << "Application profile can't be applied to a thread"; return false; } // fd was not cached because cached fd can't be used std::string tasks_path = controller()->GetTasksFilePath(path_); unique_fd tmp_fd(TEMP_FAILURE_RETRY(open(tasks_path.c_str(), O_WRONLY | O_CLOEXEC))); if (tmp_fd < 0) { PLOG(WARNING) << "Failed to open " << tasks_path << ": " << strerror(errno); return false; } if (!AddTidToCgroup(tid, tmp_fd)) { LOG(ERROR) << "Failed to add task into cgroup"; return false; } return true; } bool ApplyProfileAction::ExecuteForProcess(uid_t uid, pid_t pid) const { for (const auto& profile : profiles_) { if (!profile->ExecuteForProcess(uid, pid)) { PLOG(WARNING) << "ExecuteForProcess failed for aggregate profile"; } } return true; } bool ApplyProfileAction::ExecuteForTask(int tid) const { for (const auto& profile : profiles_) { if (!profile->ExecuteForTask(tid)) { PLOG(WARNING) << "ExecuteForTask failed for aggregate profile"; } } return true; } void ApplyProfileAction::EnableResourceCaching() { for (const auto& profile : profiles_) { profile->EnableResourceCaching(); } } void ApplyProfileAction::DropResourceCaching() { for (const auto& profile : profiles_) { profile->DropResourceCaching(); } } void TaskProfile::MoveTo(TaskProfile* profile) { profile->elements_ = std::move(elements_); profile->res_cached_ = res_cached_; } bool TaskProfile::ExecuteForProcess(uid_t uid, pid_t pid) const { for (const auto& element : elements_) { if (!element->ExecuteForProcess(uid, pid)) { return false; } } return true; } bool TaskProfile::ExecuteForTask(int tid) const { if (tid == 0) { tid = GetThreadId(); } for (const auto& element : elements_) { if (!element->ExecuteForTask(tid)) { return false; } } return true; } void TaskProfile::EnableResourceCaching() { if (res_cached_) { return; } for (auto& element : elements_) { element->EnableResourceCaching(); } res_cached_ = true; } void TaskProfile::DropResourceCaching() { if (!res_cached_) { return; } for (auto& element : elements_) { element->DropResourceCaching(); } res_cached_ = false; } void TaskProfiles::DropResourceCaching() const { for (auto& iter : profiles_) { iter.second->DropResourceCaching(); } } TaskProfiles& TaskProfiles::GetInstance() { // Deliberately leak this object to avoid a race between destruction on // process exit and concurrent access from another thread. static auto* instance = new TaskProfiles; return *instance; } TaskProfiles::TaskProfiles() { // load system task profiles if (!Load(CgroupMap::GetInstance(), TASK_PROFILE_DB_FILE)) { LOG(ERROR) << "Loading " << TASK_PROFILE_DB_FILE << " for [" << getpid() << "] failed"; } // load vendor task profiles if the file exists if (!access(TASK_PROFILE_DB_VENDOR_FILE, F_OK) && !Load(CgroupMap::GetInstance(), TASK_PROFILE_DB_VENDOR_FILE)) { LOG(ERROR) << "Loading " << TASK_PROFILE_DB_VENDOR_FILE << " for [" << getpid() << "] failed"; } } bool TaskProfiles::Load(const CgroupMap& cg_map, const std::string& file_name) { std::string json_doc; if (!android::base::ReadFileToString(file_name, &json_doc)) { LOG(ERROR) << "Failed to read task profiles from " << file_name; return false; } Json::Reader reader; Json::Value root; if (!reader.parse(json_doc, root)) { LOG(ERROR) << "Failed to parse task profiles: " << reader.getFormattedErrorMessages(); return false; } const Json::Value& attr = root["Attributes"]; for (Json::Value::ArrayIndex i = 0; i < attr.size(); ++i) { std::string name = attr[i]["Name"].asString(); std::string controller_name = attr[i]["Controller"].asString(); std::string file_attr = attr[i]["File"].asString(); auto controller = cg_map.FindController(controller_name); if (controller.HasValue()) { auto iter = attributes_.find(name); if (iter == attributes_.end()) { attributes_[name] = std::make_unique(controller, file_attr); } else { iter->second->Reset(controller, file_attr); } } else { LOG(WARNING) << "Controller " << controller_name << " is not found"; } } const Json::Value& profiles_val = root["Profiles"]; for (Json::Value::ArrayIndex i = 0; i < profiles_val.size(); ++i) { const Json::Value& profile_val = profiles_val[i]; std::string profile_name = profile_val["Name"].asString(); const Json::Value& actions = profile_val["Actions"]; auto profile = std::make_shared(); for (Json::Value::ArrayIndex act_idx = 0; act_idx < actions.size(); ++act_idx) { const Json::Value& action_val = actions[act_idx]; std::string action_name = action_val["Name"].asString(); const Json::Value& params_val = action_val["Params"]; if (action_name == "JoinCgroup") { std::string controller_name = params_val["Controller"].asString(); std::string path = params_val["Path"].asString(); auto controller = cg_map.FindController(controller_name); if (controller.HasValue()) { profile->Add(std::make_unique(controller, path)); } else { LOG(WARNING) << "JoinCgroup: controller " << controller_name << " is not found"; } } else if (action_name == "SetTimerSlack") { std::string slack_value = params_val["Slack"].asString(); char* end; unsigned long slack; slack = strtoul(slack_value.c_str(), &end, 10); if (end > slack_value.c_str()) { profile->Add(std::make_unique(slack)); } else { LOG(WARNING) << "SetTimerSlack: invalid parameter: " << slack_value; } } else if (action_name == "SetAttribute") { std::string attr_name = params_val["Name"].asString(); std::string attr_value = params_val["Value"].asString(); auto iter = attributes_.find(attr_name); if (iter != attributes_.end()) { profile->Add( std::make_unique(iter->second.get(), attr_value)); } else { LOG(WARNING) << "SetAttribute: unknown attribute: " << attr_name; } } else if (action_name == "SetClamps") { std::string boost_value = params_val["Boost"].asString(); std::string clamp_value = params_val["Clamp"].asString(); char* end; unsigned long boost; boost = strtoul(boost_value.c_str(), &end, 10); if (end > boost_value.c_str()) { unsigned long clamp = strtoul(clamp_value.c_str(), &end, 10); if (end > clamp_value.c_str()) { profile->Add(std::make_unique(boost, clamp)); } else { LOG(WARNING) << "SetClamps: invalid parameter " << clamp_value; } } else { LOG(WARNING) << "SetClamps: invalid parameter: " << boost_value; } } else { LOG(WARNING) << "Unknown profile action: " << action_name; } } auto iter = profiles_.find(profile_name); if (iter == profiles_.end()) { profiles_[profile_name] = profile; } else { // Move the content rather that replace the profile because old profile might be // referenced from an aggregate profile if vendor overrides task profiles profile->MoveTo(iter->second.get()); profile.reset(); } } const Json::Value& aggregateprofiles_val = root["AggregateProfiles"]; for (Json::Value::ArrayIndex i = 0; i < aggregateprofiles_val.size(); ++i) { const Json::Value& aggregateprofile_val = aggregateprofiles_val[i]; std::string aggregateprofile_name = aggregateprofile_val["Name"].asString(); const Json::Value& aggregateprofiles = aggregateprofile_val["Profiles"]; std::vector> profiles; bool ret = true; for (Json::Value::ArrayIndex pf_idx = 0; pf_idx < aggregateprofiles.size(); ++pf_idx) { std::string profile_name = aggregateprofiles[pf_idx].asString(); if (profile_name == aggregateprofile_name) { LOG(WARNING) << "AggregateProfiles: recursive profile name: " << profile_name; ret = false; break; } else if (profiles_.find(profile_name) == profiles_.end()) { LOG(WARNING) << "AggregateProfiles: undefined profile name: " << profile_name; ret = false; break; } else { profiles.push_back(profiles_[profile_name]); } } if (ret) { auto profile = std::make_shared(); profile->Add(std::make_unique(profiles)); profiles_[aggregateprofile_name] = profile; } } return true; } TaskProfile* TaskProfiles::GetProfile(const std::string& name) const { auto iter = profiles_.find(name); if (iter != profiles_.end()) { return iter->second.get(); } return nullptr; } const ProfileAttribute* TaskProfiles::GetAttribute(const std::string& name) const { auto iter = attributes_.find(name); if (iter != attributes_.end()) { return iter->second.get(); } return nullptr; } bool TaskProfiles::SetProcessProfiles(uid_t uid, pid_t pid, const std::vector& profiles) { for (const auto& name : profiles) { TaskProfile* profile = GetProfile(name); if (profile != nullptr) { if (!profile->ExecuteForProcess(uid, pid)) { PLOG(WARNING) << "Failed to apply " << name << " process profile"; } } else { PLOG(WARNING) << "Failed to find " << name << "process profile"; } } return true; } bool TaskProfiles::SetTaskProfiles(int tid, const std::vector& profiles, bool use_fd_cache) { for (const auto& name : profiles) { TaskProfile* profile = GetProfile(name); if (profile != nullptr) { if (use_fd_cache) { profile->EnableResourceCaching(); } if (!profile->ExecuteForTask(tid)) { PLOG(WARNING) << "Failed to apply " << name << " task profile"; } } else { PLOG(WARNING) << "Failed to find " << name << "task profile"; } } return true; }