/* * Copyright (C) 2017 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 specic language governing permissions and * limitations under the License. */ #define LOG_TAG "libperfmgr" #include #include #include #include #include #include #include "perfmgr/FileNode.h" #include "perfmgr/HintManager.h" #include "perfmgr/PropertyNode.h" namespace android { namespace perfmgr { bool HintManager::ValidateHint(const std::string& hint_type) const { if (nm_.get() == nullptr) { LOG(ERROR) << "NodeLooperThread not present"; return false; } if (actions_.find(hint_type) == actions_.end()) { LOG(ERROR) << "PowerHint type not present in actions: " << hint_type; return false; } return true; } bool HintManager::DoHint(const std::string& hint_type) { LOG(VERBOSE) << "Do Powerhint: " << hint_type; return ValidateHint(hint_type) ? nm_->Request(actions_.at(hint_type), hint_type) : false; } bool HintManager::DoHint(const std::string& hint_type, std::chrono::milliseconds timeout_ms_override) { LOG(VERBOSE) << "Do Powerhint: " << hint_type << " for " << timeout_ms_override.count() << "ms"; if (!ValidateHint(hint_type)) { return false; } std::vector actions_override = actions_.at(hint_type); for (auto& action : actions_override) { action.timeout_ms = timeout_ms_override; } return nm_->Request(actions_override, hint_type); } bool HintManager::EndHint(const std::string& hint_type) { LOG(VERBOSE) << "End Powerhint: " << hint_type; return ValidateHint(hint_type) ? nm_->Cancel(actions_.at(hint_type), hint_type) : false; } bool HintManager::IsRunning() const { return (nm_.get() == nullptr) ? false : nm_->isRunning(); } std::vector HintManager::GetHints() const { std::vector hints; for (auto const& action : actions_) { hints.push_back(action.first); } return hints; } void HintManager::DumpToFd(int fd) { std::string header( "========== Begin perfmgr nodes ==========\n" "Node Name\t" "Node Path\t" "Current Index\t" "Current Value\n"); if (!android::base::WriteStringToFd(header, fd)) { LOG(ERROR) << "Failed to dump fd: " << fd; } nm_->DumpToFd(fd); std::string footer("========== End perfmgr nodes ==========\n"); if (!android::base::WriteStringToFd(footer, fd)) { LOG(ERROR) << "Failed to dump fd: " << fd; } fsync(fd); } std::unique_ptr HintManager::GetFromJSON( const std::string& config_path) { std::string json_doc; if (!android::base::ReadFileToString(config_path, &json_doc)) { LOG(ERROR) << "Failed to read JSON config from " << config_path; return nullptr; } std::vector> nodes = ParseNodes(json_doc); if (nodes.empty()) { LOG(ERROR) << "Failed to parse Nodes section from " << config_path; return nullptr; } std::map> actions = HintManager::ParseActions(json_doc, nodes); if (actions.empty()) { LOG(ERROR) << "Failed to parse Actions section from " << config_path; return nullptr; } sp nm = new NodeLooperThread(std::move(nodes)); std::unique_ptr hm = std::make_unique(std::move(nm), actions); LOG(INFO) << "Initialized HintManager from JSON config: " << config_path; return hm; } std::vector> HintManager::ParseNodes( const std::string& json_doc) { // function starts std::vector> nodes_parsed; std::set nodes_name_parsed; std::set nodes_path_parsed; Json::Value root; Json::Reader reader; if (!reader.parse(json_doc, root)) { LOG(ERROR) << "Failed to parse JSON config"; return nodes_parsed; } Json::Value nodes = root["Nodes"]; for (Json::Value::ArrayIndex i = 0; i < nodes.size(); ++i) { std::string name = nodes[i]["Name"].asString(); LOG(VERBOSE) << "Node[" << i << "]'s Name: " << name; if (name.empty()) { LOG(ERROR) << "Failed to read " << "Node[" << i << "]'s Name"; nodes_parsed.clear(); return nodes_parsed; } auto result = nodes_name_parsed.insert(name); if (!result.second) { LOG(ERROR) << "Duplicate Node[" << i << "]'s Name"; nodes_parsed.clear(); return nodes_parsed; } std::string path = nodes[i]["Path"].asString(); LOG(VERBOSE) << "Node[" << i << "]'s Path: " << path; if (path.empty()) { LOG(ERROR) << "Failed to read " << "Node[" << i << "]'s Path"; nodes_parsed.clear(); return nodes_parsed; } result = nodes_path_parsed.insert(path); if (!result.second) { LOG(ERROR) << "Duplicate Node[" << i << "]'s Path"; nodes_parsed.clear(); return nodes_parsed; } bool is_file = true; std::string node_type = nodes[i]["Type"].asString(); LOG(VERBOSE) << "Node[" << i << "]'s Type: " << node_type; if (node_type.empty()) { LOG(ERROR) << "Failed to read " << "Node[" << i << "]'s Type, set to 'File' as default"; } else if (node_type == "File") { is_file = true; } else if (node_type == "Property") { is_file = false; } else { LOG(ERROR) << "Invalid Node[" << i << "]'s Type: only File and Property supported."; nodes_parsed.clear(); return nodes_parsed; } std::vector values_parsed; std::set values_set_parsed; Json::Value values = nodes[i]["Values"]; for (Json::Value::ArrayIndex j = 0; j < values.size(); ++j) { std::string value = values[j].asString(); LOG(VERBOSE) << "Node[" << i << "]'s Value[" << j << "]: " << value; auto result = values_set_parsed.insert(value); if (!result.second) { LOG(ERROR) << "Duplicate value parsed in Node[" << i << "]'s Value[" << j << "]"; nodes_parsed.clear(); return nodes_parsed; } if (is_file && value.empty()) { LOG(ERROR) << "Failed to read Node[" << i << "]'s Value[" << j << "]"; nodes_parsed.clear(); return nodes_parsed; } values_parsed.emplace_back(value); } if (values_parsed.size() < 1) { LOG(ERROR) << "Failed to read Node[" << i << "]'s Values"; nodes_parsed.clear(); return nodes_parsed; } Json::UInt64 default_index = values_parsed.size() - 1; if (nodes[i]["DefaultIndex"].empty() || !nodes[i]["DefaultIndex"].isUInt64()) { LOG(INFO) << "Failed to read Node[" << i << "]'s DefaultIndex, set to last index: " << default_index; } else { default_index = nodes[i]["DefaultIndex"].asUInt64(); } if (default_index > values_parsed.size() - 1) { default_index = values_parsed.size() - 1; LOG(ERROR) << "Node[" << i << "]'s DefaultIndex out of bound, max value index: " << default_index; nodes_parsed.clear(); return nodes_parsed; } LOG(VERBOSE) << "Node[" << i << "]'s DefaultIndex: " << default_index; bool reset = false; if (nodes[i]["ResetOnInit"].empty() || !nodes[i]["ResetOnInit"].isBool()) { LOG(INFO) << "Failed to read Node[" << i << "]'s ResetOnInit, set to 'false'"; } else { reset = nodes[i]["ResetOnInit"].asBool(); } LOG(VERBOSE) << "Node[" << i << "]'s ResetOnInit: " << std::boolalpha << reset << std::noboolalpha; if (is_file) { bool hold_fd = false; if (nodes[i]["HoldFd"].empty() || !nodes[i]["HoldFd"].isBool()) { LOG(INFO) << "Failed to read Node[" << i << "]'s HoldFd, set to 'false'"; } else { hold_fd = nodes[i]["HoldFd"].asBool(); } LOG(VERBOSE) << "Node[" << i << "]'s HoldFd: " << std::boolalpha << hold_fd << std::noboolalpha; nodes_parsed.emplace_back(std::make_unique( name, path, values_parsed, static_cast(default_index), reset, hold_fd)); } else { nodes_parsed.emplace_back(std::make_unique( name, path, values_parsed, static_cast(default_index), reset)); } } LOG(INFO) << nodes_parsed.size() << " Nodes parsed successfully"; return nodes_parsed; } std::map> HintManager::ParseActions( const std::string& json_doc, const std::vector>& nodes) { // function starts std::map> actions_parsed; Json::Value root; Json::Reader reader; if (!reader.parse(json_doc, root)) { LOG(ERROR) << "Failed to parse JSON config"; return actions_parsed; } Json::Value actions = root["Actions"]; std::size_t total_parsed = 0; std::map nodes_index; for (std::size_t i = 0; i < nodes.size(); ++i) { nodes_index[nodes[i]->GetName()] = i; } for (Json::Value::ArrayIndex i = 0; i < actions.size(); ++i) { const std::string& hint_type = actions[i]["PowerHint"].asString(); LOG(VERBOSE) << "Action[" << i << "]'s PowerHint: " << hint_type; if (hint_type.empty()) { LOG(ERROR) << "Failed to read " << "Action[" << i << "]'s PowerHint"; actions_parsed.clear(); return actions_parsed; } std::string node_name = actions[i]["Node"].asString(); LOG(VERBOSE) << "Action[" << i << "]'s Node: " << node_name; std::size_t node_index; if (nodes_index.find(node_name) == nodes_index.end()) { LOG(ERROR) << "Failed to find " << "Action[" << i << "]'s Node from Nodes section: [" << node_name << "]"; actions_parsed.clear(); return actions_parsed; } node_index = nodes_index[node_name]; std::string value_name = actions[i]["Value"].asString(); LOG(VERBOSE) << "Action[" << i << "]'s Value: " << value_name; std::size_t value_index = 0; if (!nodes[node_index]->GetValueIndex(value_name, &value_index)) { LOG(ERROR) << "Failed to read Action[" << i << "]'s Value"; LOG(ERROR) << "Action[" << i << "]'s Value " << value_name << " is not defined in Node[" << node_name << "]"; actions_parsed.clear(); return actions_parsed; } LOG(VERBOSE) << "Action[" << i << "]'s ValueIndex: " << value_index; Json::UInt64 duration = 0; if (actions[i]["Duration"].empty() || !actions[i]["Duration"].isUInt64()) { LOG(ERROR) << "Failed to read Action[" << i << "]'s Duration"; actions_parsed.clear(); return actions_parsed; } else { duration = actions[i]["Duration"].asUInt64(); } LOG(VERBOSE) << "Action[" << i << "]'s Duration: " << duration; if (actions_parsed.find(hint_type) == actions_parsed.end()) { actions_parsed[hint_type] = std::vector{ {node_index, value_index, std::chrono::milliseconds(duration)}}; } else { for (const auto& action : actions_parsed[hint_type]) { if (action.node_index == node_index) { LOG(ERROR) << "Action[" << i << "]'s NodeIndex is duplicated with another Action"; actions_parsed.clear(); return actions_parsed; } } actions_parsed[hint_type].emplace_back( node_index, value_index, std::chrono::milliseconds(duration)); } ++total_parsed; } LOG(INFO) << total_parsed << " Actions parsed successfully"; for (const auto& action : actions_parsed) { LOG(INFO) << "PowerHint " << action.first << " has " << action.second.size() << " actions parsed"; } return actions_parsed; } } // namespace perfmgr } // namespace android