/* * Copyright (C) 2015 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 "action.h" #include #include #include #include "error.h" #include "init_parser.h" #include "log.h" #include "property_service.h" #include "util.h" class Action::Command { public: Command(int (*f)(int nargs, char** args), const std::vector& args, const std::string& filename, int line); int InvokeFunc() const; std::string BuildCommandString() const; std::string BuildSourceString() const; private: int (*func_)(int nargs, char** args); const std::vector args_; const std::string filename_; int line_; }; Action::Command::Command(int (*f)(int nargs, char** args), const std::vector& args, const std::string& filename, int line) : func_(f), args_(args), filename_(filename), line_(line) { } int Action::Command::InvokeFunc() const { std::vector strs; strs.resize(args_.size()); strs[0] = args_[0]; for (std::size_t i = 1; i < args_.size(); ++i) { if (expand_props(args_[i], &strs[i]) == -1) { ERROR("%s: cannot expand '%s'\n", args_[0].c_str(), args_[i].c_str()); return -EINVAL; } } std::vector args; for (auto& s : strs) { args.push_back(&s[0]); } return func_(args.size(), &args[0]); } std::string Action::Command::BuildCommandString() const { return android::base::Join(args_, ' '); } std::string Action::Command::BuildSourceString() const { if (!filename_.empty()) { return android::base::StringPrintf(" (%s:%d)", filename_.c_str(), line_); } else { return std::string(); } } Action::Action() { } void Action::AddCommand(int (*f)(int nargs, char** args), const std::vector& args, const std::string& filename, int line) { Action::Command* cmd = new Action::Command(f, args, filename, line); commands_.push_back(cmd); } std::size_t Action::NumCommands() const { return commands_.size(); } void Action::ExecuteOneCommand(std::size_t command) const { ExecuteCommand(*commands_[command]); } void Action::ExecuteAllCommands() const { for (const auto& c : commands_) { ExecuteCommand(*c); } } void Action::ExecuteCommand(const Command& command) const { Timer t; int result = command.InvokeFunc(); if (klog_get_level() >= KLOG_INFO_LEVEL) { std::string trigger_name = BuildTriggersString(); std::string cmd_str = command.BuildCommandString(); std::string source = command.BuildSourceString(); INFO("Command '%s' action=%s%s returned %d took %.2fs\n", cmd_str.c_str(), trigger_name.c_str(), source.c_str(), result, t.duration()); } } bool Action::ParsePropertyTrigger(const std::string& trigger, std::string* err) { const static std::string prop_str("property:"); std::string prop_name(trigger.substr(prop_str.length())); size_t equal_pos = prop_name.find('='); if (equal_pos == std::string::npos) { *err = "property trigger found without matching '='"; return false; } std::string prop_value(prop_name.substr(equal_pos + 1)); prop_name.erase(equal_pos); auto res = property_triggers_.emplace(prop_name, prop_value); if (res.second == false) { *err = "multiple property triggers found for same property"; return false; } return true; } bool Action::InitTriggers(const std::vector& args, std::string* err) { const static std::string prop_str("property:"); for (std::size_t i = 0; i < args.size(); ++i) { if (i % 2) { if (args[i].compare("&&")) { *err = "&& is the only symbol allowed to concatenate actions"; return false; } else { continue; } } if (!args[i].compare(0, prop_str.length(), prop_str)) { if (!ParsePropertyTrigger(args[i], err)) { return false; } } else { if (!event_trigger_.empty()) { *err = "multiple event triggers are not allowed"; return false; } event_trigger_ = args[i]; } } return true; } bool Action::InitSingleTrigger(const std::string& trigger) { std::vector name_vector{trigger}; std::string err; return InitTriggers(name_vector, &err); } bool Action::CheckPropertyTriggers(const std::string& name, const std::string& value) const { bool found = !name.compare(""); if (property_triggers_.empty()) { return true; } for (const auto& t : property_triggers_) { if (!t.first.compare(name)) { if (t.second.compare("*") && t.second.compare(value)) { return false; } else { found = true; } } else { std::string prop_val = property_get(t.first.c_str()); if (prop_val.empty() || (t.second.compare("*") && t.second.compare(prop_val))) { return false; } } } return found; } bool Action::CheckEventTrigger(const std::string& trigger) const { return !event_trigger_.empty() && !trigger.compare(event_trigger_) && CheckPropertyTriggers(); } bool Action::CheckPropertyTrigger(const std::string& name, const std::string& value) const { return event_trigger_.empty() && CheckPropertyTriggers(name, value); } bool Action::TriggersEqual(const class Action& other) const { return property_triggers_.size() == other.property_triggers_.size() && std::equal(property_triggers_.begin(), property_triggers_.end(), other.property_triggers_.begin()) && !event_trigger_.compare(other.event_trigger_); } std::string Action::BuildTriggersString() const { std::string result; for (const auto& t : property_triggers_) { result += t.first; result += '='; result += t.second; result += ' '; } if (!event_trigger_.empty()) { result += event_trigger_; result += ' '; } result.pop_back(); return result; } void Action::DumpState() const { INFO("on "); std::string trigger_name = BuildTriggersString(); INFO("%s", trigger_name.c_str()); INFO("\n"); for (const auto& c : commands_) { std::string cmd_str = c->BuildCommandString(); INFO(" %s", cmd_str.c_str()); } INFO("\n"); } ActionManager::ActionManager() : cur_command_(0) { } ActionManager& ActionManager::GetInstance() { static ActionManager instance; return instance; } void ActionManager::QueueEventTrigger(const std::string& trigger) { for (const auto& a : action_list_) { if (a->CheckEventTrigger(trigger)) { action_queue_.push(a); } } } void ActionManager::QueuePropertyTrigger(const std::string& name, const std::string& value) { for (const auto& a : action_list_) { if (a->CheckPropertyTrigger(name, value)) { action_queue_.push(a); } } } void ActionManager::QueueAllPropertyTriggers() { QueuePropertyTrigger("", ""); } void ActionManager::QueueBuiltinAction(int (*func)(int nargs, char** args), const std::string& name) { Action* act = new Action(); std::vector name_vector{name}; if (!act->InitSingleTrigger(name)) { return; } act->AddCommand(func, name_vector); action_queue_.push(act); } void ActionManager::ExecuteOneCommand() { if (action_queue_.empty()) { return; } Action* action = action_queue_.front(); if (!action->NumCommands()) { action_queue_.pop(); return; } if (cur_command_ == 0) { std::string trigger_name = action->BuildTriggersString(); INFO("processing action %p (%s)\n", action, trigger_name.c_str()); } action->ExecuteOneCommand(cur_command_++); if (cur_command_ == action->NumCommands()) { cur_command_ = 0; action_queue_.pop(); } } bool ActionManager::HasMoreCommands() const { return !action_queue_.empty(); } Action* ActionManager::AddNewAction(const std::vector& triggers, std::string* err) { if (triggers.size() < 1) { *err = "actions must have a trigger\n"; return nullptr; } Action* act = new Action(); if (!act->InitTriggers(triggers, err)) { return nullptr; } auto old_act_it = std::find_if(action_list_.begin(), action_list_.end(), [&act] (Action* a) { return act->TriggersEqual(*a); }); if (old_act_it != action_list_.end()) { delete act; return *old_act_it; } action_list_.push_back(act); return act; } void ActionManager::DumpState() const { for (const auto& a : action_list_) { a->DumpState(); } INFO("\n"); }