/* * 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. */ #ifndef _INIT_SERVICE_H #define _INIT_SERVICE_H #include #include #include #include #include #include #include #include #include #include #include #include "action.h" #include "capabilities.h" #include "descriptors.h" #include "keyword_map.h" #include "parser.h" #include "subcontext.h" #define SVC_DISABLED 0x001 // do not autostart with class #define SVC_ONESHOT 0x002 // do not restart on exit #define SVC_RUNNING 0x004 // currently active #define SVC_RESTARTING 0x008 // waiting to restart #define SVC_CONSOLE 0x010 // requires console #define SVC_CRITICAL 0x020 // will reboot into bootloader if keeps crashing #define SVC_RESET 0x040 // Use when stopping a process, // but not disabling so it can be restarted with its class. #define SVC_RC_DISABLED 0x080 // Remember if the disabled flag was set in the rc script. #define SVC_RESTART 0x100 // Use to safely restart (stop, wait, start) a service. #define SVC_DISABLED_START 0x200 // A start was requested but it was disabled at the time. #define SVC_EXEC 0x400 // This service was started by either 'exec' or 'exec_start' and stops // init from processing more commands until it completes #define SVC_SHUTDOWN_CRITICAL 0x800 // This service is critical for shutdown and // should not be killed during shutdown #define SVC_TEMPORARY 0x1000 // This service was started by 'exec' and should be removed from the // service list once it is reaped. #define NR_SVC_SUPP_GIDS 12 // twelve supplementary groups namespace android { namespace init { class Service { public: Service(const std::string& name, Subcontext* subcontext_for_restart_commands, const std::vector& args); Service(const std::string& name, unsigned flags, uid_t uid, gid_t gid, const std::vector& supp_gids, unsigned namespace_flags, const std::string& seclabel, Subcontext* subcontext_for_restart_commands, const std::vector& args); static std::unique_ptr MakeTemporaryOneshotService(const std::vector& args); bool IsRunning() { return (flags_ & SVC_RUNNING) != 0; } Result ParseLine(std::vector&& args); Result ExecStart(); Result Start(); Result StartIfNotDisabled(); Result StartIfPostData(); Result Enable(); void Reset(); void ResetIfPostData(); void Stop(); void Terminate(); void Timeout(); void Restart(); void Reap(const siginfo_t& siginfo); void DumpState() const; void SetShutdownCritical() { flags_ |= SVC_SHUTDOWN_CRITICAL; } bool IsShutdownCritical() const { return (flags_ & SVC_SHUTDOWN_CRITICAL) != 0; } void UnSetExec() { is_exec_service_running_ = false; flags_ &= ~SVC_EXEC; } void AddReapCallback(std::function callback) { reap_callbacks_.emplace_back(std::move(callback)); } static bool is_exec_service_running() { return is_exec_service_running_; } const std::string& name() const { return name_; } const std::set& classnames() const { return classnames_; } unsigned flags() const { return flags_; } pid_t pid() const { return pid_; } android::base::boot_clock::time_point time_started() const { return time_started_; } int crash_count() const { return crash_count_; } uid_t uid() const { return uid_; } gid_t gid() const { return gid_; } unsigned namespace_flags() const { return namespace_flags_; } const std::vector& supp_gids() const { return supp_gids_; } const std::string& seclabel() const { return seclabel_; } const std::vector& keycodes() const { return keycodes_; } IoSchedClass ioprio_class() const { return ioprio_class_; } int ioprio_pri() const { return ioprio_pri_; } const std::set& interfaces() const { return interfaces_; } int priority() const { return priority_; } int oom_score_adjust() const { return oom_score_adjust_; } bool is_override() const { return override_; } bool process_cgroup_empty() const { return process_cgroup_empty_; } unsigned long start_order() const { return start_order_; } void set_sigstop(bool value) { sigstop_ = value; } std::chrono::seconds restart_period() const { return restart_period_; } std::optional timeout_period() const { return timeout_period_; } const std::vector& args() const { return args_; } bool is_updatable() const { return updatable_; } bool is_post_data() const { return post_data_; } private: using OptionParser = Result (Service::*)(std::vector&& args); class OptionParserMap; Result SetUpMountNamespace() const; Result SetUpPidNamespace() const; Result EnterNamespaces() const; void NotifyStateChange(const std::string& new_state) const; void StopOrReset(int how); void ZapStdio() const; void OpenConsole() const; void KillProcessGroup(int signal); void SetProcessAttributes(); Result ParseCapabilities(std::vector&& args); Result ParseClass(std::vector&& args); Result ParseConsole(std::vector&& args); Result ParseCritical(std::vector&& args); Result ParseDisabled(std::vector&& args); Result ParseEnterNamespace(std::vector&& args); Result ParseGroup(std::vector&& args); Result ParsePriority(std::vector&& args); Result ParseInterface(std::vector&& args); Result ParseIoprio(std::vector&& args); Result ParseKeycodes(std::vector&& args); Result ParseOneshot(std::vector&& args); Result ParseOnrestart(std::vector&& args); Result ParseOomScoreAdjust(std::vector&& args); Result ParseOverride(std::vector&& args); Result ParseMemcgLimitInBytes(std::vector&& args); Result ParseMemcgLimitPercent(std::vector&& args); Result ParseMemcgLimitProperty(std::vector&& args); Result ParseMemcgSoftLimitInBytes(std::vector&& args); Result ParseMemcgSwappiness(std::vector&& args); Result ParseNamespace(std::vector&& args); Result ParseProcessRlimit(std::vector&& args); Result ParseRestartPeriod(std::vector&& args); Result ParseSeclabel(std::vector&& args); Result ParseSetenv(std::vector&& args); Result ParseShutdown(std::vector&& args); Result ParseSigstop(std::vector&& args); Result ParseSocket(std::vector&& args); Result ParseTimeoutPeriod(std::vector&& args); Result ParseFile(std::vector&& args); Result ParseUser(std::vector&& args); Result ParseWritepid(std::vector&& args); Result ParseUpdatable(std::vector&& args); template Result AddDescriptor(std::vector&& args); static unsigned long next_start_order_; static bool is_exec_service_running_; std::string name_; std::set classnames_; std::string console_; unsigned flags_; pid_t pid_; android::base::boot_clock::time_point time_started_; // time of last start android::base::boot_clock::time_point time_crashed_; // first crash within inspection window int crash_count_; // number of times crashed within window uid_t uid_; gid_t gid_; std::vector supp_gids_; std::optional capabilities_; unsigned namespace_flags_; // Pair of namespace type, path to namespace. std::vector> namespaces_to_enter_; std::string seclabel_; std::vector> descriptors_; std::vector> environment_vars_; Action onrestart_; // Commands to execute on restart. std::vector writepid_files_; std::set interfaces_; // e.g. some.package.foo@1.0::IBaz/instance-name // keycodes for triggering this service via /dev/input/input* std::vector keycodes_; IoSchedClass ioprio_class_; int ioprio_pri_; int priority_; int oom_score_adjust_; int swappiness_ = -1; int soft_limit_in_bytes_ = -1; int limit_in_bytes_ = -1; int limit_percent_ = -1; std::string limit_property_; bool process_cgroup_empty_ = false; bool override_ = false; unsigned long start_order_; std::vector> rlimits_; bool sigstop_ = false; std::chrono::seconds restart_period_ = 5s; std::optional timeout_period_; bool updatable_ = false; std::vector args_; std::vector> reap_callbacks_; bool pre_apexd_ = false; bool post_data_ = false; bool running_at_post_data_reset_ = false; }; class ServiceList { public: static ServiceList& GetInstance(); // Exposed for testing ServiceList(); void AddService(std::unique_ptr service); void RemoveService(const Service& svc); template Service* FindService(T value, F function = &Service::name) const { auto svc = std::find_if(services_.begin(), services_.end(), [&function, &value](const std::unique_ptr& s) { return std::invoke(function, s) == value; }); if (svc != services_.end()) { return svc->get(); } return nullptr; } Service* FindInterface(const std::string& interface_name) { for (const auto& svc : services_) { if (svc->interfaces().count(interface_name) > 0) { return svc.get(); } } return nullptr; } void DumpState() const; auto begin() const { return services_.begin(); } auto end() const { return services_.end(); } const std::vector>& services() const { return services_; } const std::vector services_in_shutdown_order() const; void MarkPostData(); bool IsPostData(); void MarkServicesUpdate(); bool IsServicesUpdated() const { return services_update_finished_; } void DelayService(const Service& service); private: std::vector> services_; bool post_data_ = false; bool services_update_finished_ = false; std::vector delayed_service_names_; }; class ServiceParser : public SectionParser { public: ServiceParser(ServiceList* service_list, std::vector* subcontexts) : service_list_(service_list), subcontexts_(subcontexts), service_(nullptr) {} Result ParseSection(std::vector&& args, const std::string& filename, int line) override; Result ParseLineSection(std::vector&& args, int line) override; Result EndSection() override; void EndFile() override { filename_ = ""; } private: bool IsValidName(const std::string& name) const; ServiceList* service_list_; std::vector* subcontexts_; std::unique_ptr service_; std::string filename_; }; } // namespace init } // namespace android #endif