/* * 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 "service.h" #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include "action.h" #include "init.h" #include "init_parser.h" #include "log.h" #include "property_service.h" #include "util.h" using android::base::StringPrintf; using android::base::WriteStringToFile; #define CRITICAL_CRASH_THRESHOLD 4 // if we crash >4 times ... #define CRITICAL_CRASH_WINDOW (4*60) // ... in 4 minutes, goto recovery static std::string ComputeContextFromExecutable(std::string& service_name, const std::string& service_path) { std::string computed_context; char* raw_con = nullptr; char* raw_filecon = nullptr; if (getcon(&raw_con) == -1) { LOG(ERROR) << "could not get context while starting '" << service_name << "'"; return ""; } std::unique_ptr mycon(raw_con); if (getfilecon(service_path.c_str(), &raw_filecon) == -1) { LOG(ERROR) << "could not get file context while starting '" << service_name << "'"; return ""; } std::unique_ptr filecon(raw_filecon); char* new_con = nullptr; int rc = security_compute_create(mycon.get(), filecon.get(), string_to_security_class("process"), &new_con); if (rc == 0) { computed_context = new_con; free(new_con); } if (rc == 0 && computed_context == mycon.get()) { LOG(ERROR) << "service " << service_name << " does not have a SELinux domain defined"; return ""; } if (rc < 0) { LOG(ERROR) << "could not get context while starting '" << service_name << "'"; return ""; } return computed_context; } static void SetUpPidNamespace(const std::string& service_name) { constexpr unsigned int kSafeFlags = MS_NODEV | MS_NOEXEC | MS_NOSUID; // It's OK to LOG(FATAL) in this function since it's running in the first // child process. if (mount("", "/proc", "proc", kSafeFlags | MS_REMOUNT, "") == -1) { PLOG(FATAL) << "couldn't remount(/proc) for " << service_name; } if (prctl(PR_SET_NAME, service_name.c_str()) == -1) { PLOG(FATAL) << "couldn't set name for " << service_name; } pid_t child_pid = fork(); if (child_pid == -1) { PLOG(FATAL) << "couldn't fork init inside the PID namespace for " << service_name; } if (child_pid > 0) { // So that we exit with the right status. static int init_exitstatus = 0; signal(SIGTERM, [](int) { _exit(init_exitstatus); }); pid_t waited_pid; int status; while ((waited_pid = wait(&status)) > 0) { // This loop will end when there are no processes left inside the // PID namespace or when the init process inside the PID namespace // gets a signal. if (waited_pid == child_pid) { init_exitstatus = status; } } if (!WIFEXITED(init_exitstatus)) { _exit(EXIT_FAILURE); } _exit(WEXITSTATUS(init_exitstatus)); } } static void ExpandArgs(const std::vector& args, std::vector* strs) { std::vector expanded_args; expanded_args.resize(args.size()); strs->push_back(const_cast(args[0].c_str())); for (std::size_t i = 1; i < args.size(); ++i) { if (!expand_props(args[i], &expanded_args[i])) { LOG(FATAL) << args[0] << ": cannot expand '" << args[i] << "'"; } strs->push_back(const_cast(expanded_args[i].c_str())); } strs->push_back(nullptr); } SocketInfo::SocketInfo() : uid(0), gid(0), perm(0) { } SocketInfo::SocketInfo(const std::string& name, const std::string& type, uid_t uid, gid_t gid, int perm, const std::string& socketcon) : name(name), type(type), uid(uid), gid(gid), perm(perm), socketcon(socketcon) { } ServiceEnvironmentInfo::ServiceEnvironmentInfo() { } ServiceEnvironmentInfo::ServiceEnvironmentInfo(const std::string& name, const std::string& value) : name(name), value(value) { } Service::Service(const std::string& name, const std::string& classname, const std::vector& args) : name_(name), classname_(classname), flags_(0), pid_(0), time_started_(0), time_crashed_(0), nr_crashed_(0), uid_(0), gid_(0), namespace_flags_(0), seclabel_(""), ioprio_class_(IoSchedClass_NONE), ioprio_pri_(0), priority_(0), oom_score_adjust_(-1000), args_(args) { onrestart_.InitSingleTrigger("onrestart"); } Service::Service(const std::string& name, const std::string& classname, unsigned flags, uid_t uid, gid_t gid, const std::vector& supp_gids, unsigned namespace_flags, const std::string& seclabel, const std::vector& args) : name_(name), classname_(classname), flags_(flags), pid_(0), time_started_(0), time_crashed_(0), nr_crashed_(0), uid_(uid), gid_(gid), supp_gids_(supp_gids), namespace_flags_(namespace_flags), seclabel_(seclabel), ioprio_class_(IoSchedClass_NONE), ioprio_pri_(0), priority_(0), oom_score_adjust_(-1000), args_(args) { onrestart_.InitSingleTrigger("onrestart"); } void Service::NotifyStateChange(const std::string& new_state) const { if ((flags_ & SVC_EXEC) != 0) { // 'exec' commands don't have properties tracking their state. return; } std::string prop_name = StringPrintf("init.svc.%s", name_.c_str()); if (prop_name.length() >= PROP_NAME_MAX) { // If the property name would be too long, we can't set it. LOG(ERROR) << "Property name \"init.svc." << name_ << "\" too long; not setting to " << new_state; return; } property_set(prop_name.c_str(), new_state.c_str()); } void Service::KillProcessGroup(int signal) { LOG(INFO) << "Sending signal " << signal << " to service '" << name_ << "' (pid " << pid_ << ") process group..."; if (killProcessGroup(uid_, pid_, signal) == -1) { PLOG(ERROR) << "killProcessGroup(" << uid_ << ", " << pid_ << ", " << signal << ") failed"; } if (kill(-pid_, signal) == -1) { PLOG(ERROR) << "kill(" << pid_ << ", " << signal << ") failed"; } } void Service::CreateSockets(const std::string& context) { for (const auto& si : sockets_) { int socket_type = ((si.type == "stream" ? SOCK_STREAM : (si.type == "dgram" ? SOCK_DGRAM : SOCK_SEQPACKET))); const char* socketcon = !si.socketcon.empty() ? si.socketcon.c_str() : context.c_str(); int s = create_socket(si.name.c_str(), socket_type, si.perm, si.uid, si.gid, socketcon); if (s >= 0) { PublishSocket(si.name, s); } } } void Service::SetProcessAttributes() { // TODO: work out why this fails for `console` then upgrade to FATAL. if (setpgid(0, getpid()) == -1) PLOG(ERROR) << "setpgid failed for " << name_; if (gid_) { if (setgid(gid_) != 0) { PLOG(FATAL) << "setgid failed for " << name_; } } if (!supp_gids_.empty()) { if (setgroups(supp_gids_.size(), &supp_gids_[0]) != 0) { PLOG(FATAL) << "setgroups failed for " << name_; } } if (uid_) { if (setuid(uid_) != 0) { PLOG(FATAL) << "setuid failed for " << name_; } } if (!seclabel_.empty()) { if (setexeccon(seclabel_.c_str()) < 0) { PLOG(FATAL) << "cannot setexeccon('" << seclabel_ << "') for " << name_; } } if (priority_ != 0) { if (setpriority(PRIO_PROCESS, 0, priority_) != 0) { PLOG(FATAL) << "setpriority failed for " << name_; } } } bool Service::Reap() { if (!(flags_ & SVC_ONESHOT) || (flags_ & SVC_RESTART)) { KillProcessGroup(SIGKILL); } // Remove any sockets we may have created. for (const auto& si : sockets_) { std::string tmp = StringPrintf(ANDROID_SOCKET_DIR "/%s", si.name.c_str()); unlink(tmp.c_str()); } if (flags_ & SVC_EXEC) { LOG(INFO) << "SVC_EXEC pid " << pid_ << " finished..."; return true; } pid_ = 0; flags_ &= (~SVC_RUNNING); // Oneshot processes go into the disabled state on exit, // except when manually restarted. if ((flags_ & SVC_ONESHOT) && !(flags_ & SVC_RESTART)) { flags_ |= SVC_DISABLED; } // Disabled and reset processes do not get restarted automatically. if (flags_ & (SVC_DISABLED | SVC_RESET)) { NotifyStateChange("stopped"); return false; } time_t now = gettime(); if ((flags_ & SVC_CRITICAL) && !(flags_ & SVC_RESTART)) { if (time_crashed_ + CRITICAL_CRASH_WINDOW >= now) { if (++nr_crashed_ > CRITICAL_CRASH_THRESHOLD) { LOG(ERROR) << "critical process '" << name_ << "' exited " << CRITICAL_CRASH_THRESHOLD << " times in " << (CRITICAL_CRASH_WINDOW / 60) << " minutes; " << "rebooting into recovery mode"; android_reboot(ANDROID_RB_RESTART2, 0, "recovery"); return false; } } else { time_crashed_ = now; nr_crashed_ = 1; } } flags_ &= (~SVC_RESTART); flags_ |= SVC_RESTARTING; // Execute all onrestart commands for this service. onrestart_.ExecuteAllCommands(); NotifyStateChange("restarting"); return false; } void Service::DumpState() const { LOG(INFO) << "service " << name_; LOG(INFO) << " class '" << classname_ << "'"; LOG(INFO) << " exec "<< android::base::Join(args_, " "); for (const auto& si : sockets_) { LOG(INFO) << " socket " << si.name << " " << si.type << " " << std::oct << si.perm; } } bool Service::ParseClass(const std::vector& args, std::string* err) { classname_ = args[1]; return true; } bool Service::ParseConsole(const std::vector& args, std::string* err) { flags_ |= SVC_CONSOLE; console_ = args.size() > 1 ? "/dev/" + args[1] : ""; return true; } bool Service::ParseCritical(const std::vector& args, std::string* err) { flags_ |= SVC_CRITICAL; return true; } bool Service::ParseDisabled(const std::vector& args, std::string* err) { flags_ |= SVC_DISABLED; flags_ |= SVC_RC_DISABLED; return true; } bool Service::ParseGroup(const std::vector& args, std::string* err) { gid_ = decode_uid(args[1].c_str()); for (std::size_t n = 2; n < args.size(); n++) { supp_gids_.emplace_back(decode_uid(args[n].c_str())); } return true; } bool Service::ParsePriority(const std::vector& args, std::string* err) { priority_ = std::stoi(args[1]); if (priority_ < ANDROID_PRIORITY_HIGHEST || priority_ > ANDROID_PRIORITY_LOWEST) { priority_ = 0; *err = StringPrintf("process priority value must be range %d - %d", ANDROID_PRIORITY_HIGHEST, ANDROID_PRIORITY_LOWEST); return false; } return true; } bool Service::ParseIoprio(const std::vector& args, std::string* err) { ioprio_pri_ = std::stoul(args[2], 0, 8); if (ioprio_pri_ < 0 || ioprio_pri_ > 7) { *err = "priority value must be range 0 - 7"; return false; } if (args[1] == "rt") { ioprio_class_ = IoSchedClass_RT; } else if (args[1] == "be") { ioprio_class_ = IoSchedClass_BE; } else if (args[1] == "idle") { ioprio_class_ = IoSchedClass_IDLE; } else { *err = "ioprio option usage: ioprio <0-7>"; return false; } return true; } bool Service::ParseKeycodes(const std::vector& args, std::string* err) { for (std::size_t i = 1; i < args.size(); i++) { keycodes_.emplace_back(std::stoi(args[i])); } return true; } bool Service::ParseOneshot(const std::vector& args, std::string* err) { flags_ |= SVC_ONESHOT; return true; } bool Service::ParseOnrestart(const std::vector& args, std::string* err) { std::vector str_args(args.begin() + 1, args.end()); onrestart_.AddCommand(str_args, "", 0, err); return true; } bool Service::ParseNamespace(const std::vector& args, std::string* err) { for (size_t i = 1; i < args.size(); i++) { if (args[i] == "pid") { namespace_flags_ |= CLONE_NEWPID; // PID namespaces require mount namespaces. namespace_flags_ |= CLONE_NEWNS; } else if (args[i] == "mnt") { namespace_flags_ |= CLONE_NEWNS; } else { *err = "namespace must be 'pid' or 'mnt'"; return false; } } return true; } bool Service::ParseOomScoreAdjust(const std::vector& args, std::string* err) { oom_score_adjust_ = std::stol(args[1], 0, 10); if (oom_score_adjust_ < -1000 || oom_score_adjust_ > 1000) { *err = "oom_score_adjust value must be in range -1000 - +1000"; return false; } return true; } bool Service::ParseSeclabel(const std::vector& args, std::string* err) { seclabel_ = args[1]; return true; } bool Service::ParseSetenv(const std::vector& args, std::string* err) { envvars_.emplace_back(args[1], args[2]); return true; } /* name type perm [ uid gid context ] */ bool Service::ParseSocket(const std::vector& args, std::string* err) { if (args[2] != "dgram" && args[2] != "stream" && args[2] != "seqpacket") { *err = "socket type must be 'dgram', 'stream' or 'seqpacket'"; return false; } int perm = std::stoul(args[3], 0, 8); uid_t uid = args.size() > 4 ? decode_uid(args[4].c_str()) : 0; gid_t gid = args.size() > 5 ? decode_uid(args[5].c_str()) : 0; std::string socketcon = args.size() > 6 ? args[6] : ""; sockets_.emplace_back(args[1], args[2], uid, gid, perm, socketcon); return true; } bool Service::ParseUser(const std::vector& args, std::string* err) { uid_ = decode_uid(args[1].c_str()); return true; } bool Service::ParseWritepid(const std::vector& args, std::string* err) { writepid_files_.assign(args.begin() + 1, args.end()); return true; } class Service::OptionParserMap : public KeywordMap { public: OptionParserMap() { } private: Map& map() const override; }; Service::OptionParserMap::Map& Service::OptionParserMap::map() const { constexpr std::size_t kMax = std::numeric_limits::max(); static const Map option_parsers = { {"class", {1, 1, &Service::ParseClass}}, {"console", {0, 1, &Service::ParseConsole}}, {"critical", {0, 0, &Service::ParseCritical}}, {"disabled", {0, 0, &Service::ParseDisabled}}, {"group", {1, NR_SVC_SUPP_GIDS + 1, &Service::ParseGroup}}, {"ioprio", {2, 2, &Service::ParseIoprio}}, {"priority", {1, 1, &Service::ParsePriority}}, {"keycodes", {1, kMax, &Service::ParseKeycodes}}, {"oneshot", {0, 0, &Service::ParseOneshot}}, {"onrestart", {1, kMax, &Service::ParseOnrestart}}, {"oom_score_adjust", {1, 1, &Service::ParseOomScoreAdjust}}, {"namespace", {1, 2, &Service::ParseNamespace}}, {"seclabel", {1, 1, &Service::ParseSeclabel}}, {"setenv", {2, 2, &Service::ParseSetenv}}, {"socket", {3, 6, &Service::ParseSocket}}, {"user", {1, 1, &Service::ParseUser}}, {"writepid", {1, kMax, &Service::ParseWritepid}}, }; return option_parsers; } bool Service::ParseLine(const std::vector& args, std::string* err) { if (args.empty()) { *err = "option needed, but not provided"; return false; } static const OptionParserMap parser_map; auto parser = parser_map.FindFunction(args[0], args.size() - 1, err); if (!parser) { return false; } return (this->*parser)(args, err); } bool Service::Start() { // Starting a service removes it from the disabled or reset state and // immediately takes it out of the restarting state if it was in there. flags_ &= (~(SVC_DISABLED|SVC_RESTARTING|SVC_RESET|SVC_RESTART|SVC_DISABLED_START)); time_started_ = 0; // Running processes require no additional work --- if they're in the // process of exiting, we've ensured that they will immediately restart // on exit, unless they are ONESHOT. if (flags_ & SVC_RUNNING) { return false; } bool needs_console = (flags_ & SVC_CONSOLE); if (needs_console) { if (console_.empty()) { console_ = default_console; } bool have_console = (open(console_.c_str(), O_RDWR | O_CLOEXEC) != -1); if (!have_console) { PLOG(ERROR) << "service '" << name_ << "' couldn't open console '" << console_ << "'"; flags_ |= SVC_DISABLED; return false; } } struct stat sb; if (stat(args_[0].c_str(), &sb) == -1) { PLOG(ERROR) << "cannot find '" << args_[0] << "', disabling '" << name_ << "'"; flags_ |= SVC_DISABLED; return false; } std::string scon; if (!seclabel_.empty()) { scon = seclabel_; } else { LOG(INFO) << "computing context for service '" << name_ << "'"; scon = ComputeContextFromExecutable(name_, args_[0]); if (scon == "") { return false; } } LOG(VERBOSE) << "starting service '" << name_ << "'..."; pid_t pid = -1; if (namespace_flags_) { pid = clone(nullptr, nullptr, namespace_flags_ | SIGCHLD, nullptr); } else { pid = fork(); } if (pid == 0) { umask(077); if (namespace_flags_ & CLONE_NEWPID) { // This will fork again to run an init process inside the PID // namespace. SetUpPidNamespace(name_); } for (const auto& ei : envvars_) { add_environment(ei.name.c_str(), ei.value.c_str()); } CreateSockets(scon); std::string pid_str = StringPrintf("%d", getpid()); for (const auto& file : writepid_files_) { if (!WriteStringToFile(pid_str, file)) { PLOG(ERROR) << "couldn't write " << pid_str << " to " << file; } } if (ioprio_class_ != IoSchedClass_NONE) { if (android_set_ioprio(getpid(), ioprio_class_, ioprio_pri_)) { PLOG(ERROR) << "failed to set pid " << getpid() << " ioprio=" << ioprio_class_ << "," << ioprio_pri_; } } if (needs_console) { setsid(); OpenConsole(); } else { ZapStdio(); } // As requested, set our gid, supplemental gids, uid, context, and // priority. Aborts on failure. SetProcessAttributes(); std::vector strs; ExpandArgs(args_, &strs); if (execve(strs[0], (char**) &strs[0], (char**) ENV) < 0) { PLOG(ERROR) << "cannot execve('" << strs[0] << "')"; } _exit(127); } if (pid < 0) { PLOG(ERROR) << "failed to fork for '" << name_ << "'"; pid_ = 0; return false; } if (oom_score_adjust_ != -1000) { std::string oom_str = StringPrintf("%d", oom_score_adjust_); std::string oom_file = StringPrintf("/proc/%d/oom_score_adj", pid); if (!WriteStringToFile(oom_str, oom_file)) { PLOG(ERROR) << "couldn't write oom_score_adj: " << strerror(errno); } } time_started_ = gettime(); pid_ = pid; flags_ |= SVC_RUNNING; errno = -createProcessGroup(uid_, pid_); if (errno != 0) { PLOG(ERROR) << "createProcessGroup(" << uid_ << ", " << pid_ << ") failed for service '" << name_ << "'"; } if ((flags_ & SVC_EXEC) != 0) { LOG(INFO) << android::base::StringPrintf( "SVC_EXEC pid %d (uid %d gid %d+%zu context %s) started; waiting...", pid_, uid_, gid_, supp_gids_.size(), !seclabel_.empty() ? seclabel_.c_str() : "default"); } NotifyStateChange("running"); return true; } bool Service::StartIfNotDisabled() { if (!(flags_ & SVC_DISABLED)) { return Start(); } else { flags_ |= SVC_DISABLED_START; } return true; } bool Service::Enable() { flags_ &= ~(SVC_DISABLED | SVC_RC_DISABLED); if (flags_ & SVC_DISABLED_START) { return Start(); } return true; } void Service::Reset() { StopOrReset(SVC_RESET); } void Service::Stop() { StopOrReset(SVC_DISABLED); } void Service::Terminate() { flags_ &= ~(SVC_RESTARTING | SVC_DISABLED_START); flags_ |= SVC_DISABLED; if (pid_) { KillProcessGroup(SIGTERM); NotifyStateChange("stopping"); } } void Service::Restart() { if (flags_ & SVC_RUNNING) { /* Stop, wait, then start the service. */ StopOrReset(SVC_RESTART); } else if (!(flags_ & SVC_RESTARTING)) { /* Just start the service since it's not running. */ Start(); } /* else: Service is restarting anyways. */ } void Service::RestartIfNeeded(time_t& process_needs_restart) { time_t next_start_time = time_started_ + 5; if (next_start_time <= gettime()) { flags_ &= (~SVC_RESTARTING); Start(); return; } if ((next_start_time < process_needs_restart) || (process_needs_restart == 0)) { process_needs_restart = next_start_time; } } // The how field should be either SVC_DISABLED, SVC_RESET, or SVC_RESTART. void Service::StopOrReset(int how) { // The service is still SVC_RUNNING until its process exits, but if it has // already exited it shoudn't attempt a restart yet. flags_ &= ~(SVC_RESTARTING | SVC_DISABLED_START); if ((how != SVC_DISABLED) && (how != SVC_RESET) && (how != SVC_RESTART)) { // An illegal flag: default to SVC_DISABLED. how = SVC_DISABLED; } // If the service has not yet started, prevent it from auto-starting with its class. if (how == SVC_RESET) { flags_ |= (flags_ & SVC_RC_DISABLED) ? SVC_DISABLED : SVC_RESET; } else { flags_ |= how; } if (pid_) { KillProcessGroup(SIGKILL); NotifyStateChange("stopping"); } else { NotifyStateChange("stopped"); } } void Service::ZapStdio() const { int fd; fd = open("/dev/null", O_RDWR); dup2(fd, 0); dup2(fd, 1); dup2(fd, 2); close(fd); } void Service::OpenConsole() const { int fd = open(console_.c_str(), O_RDWR); if (fd == -1) fd = open("/dev/null", O_RDWR); ioctl(fd, TIOCSCTTY, 0); dup2(fd, 0); dup2(fd, 1); dup2(fd, 2); close(fd); } void Service::PublishSocket(const std::string& name, int fd) const { std::string key = StringPrintf(ANDROID_SOCKET_ENV_PREFIX "%s", name.c_str()); std::string val = StringPrintf("%d", fd); add_environment(key.c_str(), val.c_str()); /* make sure we don't close-on-exec */ fcntl(fd, F_SETFD, 0); } int ServiceManager::exec_count_ = 0; ServiceManager::ServiceManager() { } ServiceManager& ServiceManager::GetInstance() { static ServiceManager instance; return instance; } void ServiceManager::AddService(std::unique_ptr service) { Service* old_service = FindServiceByName(service->name()); if (old_service) { LOG(ERROR) << "ignored duplicate definition of service '" << service->name() << "'"; return; } services_.emplace_back(std::move(service)); } Service* ServiceManager::MakeExecOneshotService(const std::vector& args) { // Parse the arguments: exec [SECLABEL [UID [GID]*] --] COMMAND ARGS... // SECLABEL can be a - to denote default std::size_t command_arg = 1; for (std::size_t i = 1; i < args.size(); ++i) { if (args[i] == "--") { command_arg = i + 1; break; } } if (command_arg > 4 + NR_SVC_SUPP_GIDS) { LOG(ERROR) << "exec called with too many supplementary group ids"; return nullptr; } if (command_arg >= args.size()) { LOG(ERROR) << "exec called without command"; return nullptr; } std::vector str_args(args.begin() + command_arg, args.end()); exec_count_++; std::string name = StringPrintf("exec %d (%s)", exec_count_, str_args[0].c_str()); unsigned flags = SVC_EXEC | SVC_ONESHOT; unsigned namespace_flags = 0; std::string seclabel = ""; if (command_arg > 2 && args[1] != "-") { seclabel = args[1]; } uid_t uid = 0; if (command_arg > 3) { uid = decode_uid(args[2].c_str()); } gid_t gid = 0; std::vector supp_gids; if (command_arg > 4) { gid = decode_uid(args[3].c_str()); std::size_t nr_supp_gids = command_arg - 1 /* -- */ - 4 /* exec SECLABEL UID GID */; for (size_t i = 0; i < nr_supp_gids; ++i) { supp_gids.push_back(decode_uid(args[4 + i].c_str())); } } std::unique_ptr svc_p(new Service(name, "default", flags, uid, gid, supp_gids, namespace_flags, seclabel, str_args)); if (!svc_p) { LOG(ERROR) << "Couldn't allocate service for exec of '" << str_args[0] << "'"; return nullptr; } Service* svc = svc_p.get(); services_.push_back(std::move(svc_p)); return svc; } Service* ServiceManager::FindServiceByName(const std::string& name) const { auto svc = std::find_if(services_.begin(), services_.end(), [&name] (const std::unique_ptr& s) { return name == s->name(); }); if (svc != services_.end()) { return svc->get(); } return nullptr; } Service* ServiceManager::FindServiceByPid(pid_t pid) const { auto svc = std::find_if(services_.begin(), services_.end(), [&pid] (const std::unique_ptr& s) { return s->pid() == pid; }); if (svc != services_.end()) { return svc->get(); } return nullptr; } Service* ServiceManager::FindServiceByKeychord(int keychord_id) const { auto svc = std::find_if(services_.begin(), services_.end(), [&keychord_id] (const std::unique_ptr& s) { return s->keychord_id() == keychord_id; }); if (svc != services_.end()) { return svc->get(); } return nullptr; } void ServiceManager::ForEachService(const std::function& callback) const { for (const auto& s : services_) { callback(s.get()); } } void ServiceManager::ForEachServiceInClass(const std::string& classname, void (*func)(Service* svc)) const { for (const auto& s : services_) { if (classname == s->classname()) { func(s.get()); } } } void ServiceManager::ForEachServiceWithFlags(unsigned matchflags, void (*func)(Service* svc)) const { for (const auto& s : services_) { if (s->flags() & matchflags) { func(s.get()); } } } void ServiceManager::RemoveService(const Service& svc) { auto svc_it = std::find_if(services_.begin(), services_.end(), [&svc] (const std::unique_ptr& s) { return svc.name() == s->name(); }); if (svc_it == services_.end()) { return; } services_.erase(svc_it); } void ServiceManager::DumpState() const { for (const auto& s : services_) { s->DumpState(); } } bool ServiceManager::ReapOneProcess() { int status; pid_t pid = TEMP_FAILURE_RETRY(waitpid(-1, &status, WNOHANG)); if (pid == 0) { return false; } else if (pid == -1) { PLOG(ERROR) << "waitpid failed"; return false; } Service* svc = FindServiceByPid(pid); std::string name; if (svc) { name = android::base::StringPrintf("Service '%s' (pid %d)", svc->name().c_str(), pid); } else { name = android::base::StringPrintf("Untracked pid %d", pid); } if (WIFEXITED(status)) { LOG(VERBOSE) << name << " exited with status " << WEXITSTATUS(status); } else if (WIFSIGNALED(status)) { LOG(VERBOSE) << name << " killed by signal " << WTERMSIG(status); } else if (WIFSTOPPED(status)) { LOG(VERBOSE) << name << " stopped by signal " << WSTOPSIG(status); } else { LOG(VERBOSE) << name << " state changed"; } if (!svc) { return true; } if (svc->Reap()) { waiting_for_exec = false; RemoveService(*svc); } return true; } void ServiceManager::ReapAnyOutstandingChildren() { while (ReapOneProcess()) { } } bool ServiceParser::ParseSection(const std::vector& args, std::string* err) { if (args.size() < 3) { *err = "services must have a name and a program"; return false; } const std::string& name = args[1]; if (!IsValidName(name)) { *err = StringPrintf("invalid service name '%s'", name.c_str()); return false; } std::vector str_args(args.begin() + 2, args.end()); service_ = std::make_unique(name, "default", str_args); return true; } bool ServiceParser::ParseLineSection(const std::vector& args, const std::string& filename, int line, std::string* err) const { return service_ ? service_->ParseLine(args, err) : false; } void ServiceParser::EndSection() { if (service_) { ServiceManager::GetInstance().AddService(std::move(service_)); } } bool ServiceParser::IsValidName(const std::string& name) const { if (name.size() > 16) { return false; } for (const auto& c : name) { if (!isalnum(c) && (c != '_') && (c != '-')) { return false; } } return true; }