/* * 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 specific language governing permissions and * limitations under the License. */ #include "subcontext.h" #include #include #include #include #include #include #include #include #include #include "action.h" #include "system/core/init/subcontext.pb.h" #include "util.h" using android::base::GetBoolProperty; using android::base::GetExecutablePath; using android::base::Join; using android::base::Socketpair; using android::base::Split; using android::base::StartsWith; using android::base::unique_fd; namespace android { namespace init { const std::string kInitContext = "u:r:init:s0"; const std::string kVendorContext = "u:r:vendor_init:s0"; namespace { constexpr size_t kBufferSize = 4096; Result ReadMessage(int socket) { char buffer[kBufferSize] = {}; auto result = TEMP_FAILURE_RETRY(recv(socket, buffer, sizeof(buffer), 0)); if (result <= 0) { return ErrnoError(); } return std::string(buffer, result); } template Result SendMessage(int socket, const T& message) { std::string message_string; if (!message.SerializeToString(&message_string)) { return Error() << "Unable to serialize message"; } if (message_string.size() > kBufferSize) { return Error() << "Serialized message too long to send"; } if (auto result = TEMP_FAILURE_RETRY(send(socket, message_string.c_str(), message_string.size(), 0)); result != static_cast(message_string.size())) { return ErrnoError() << "send() failed to send message contents"; } return Success(); } class SubcontextProcess { public: SubcontextProcess(const KeywordFunctionMap* function_map, std::string context, int init_fd) : function_map_(function_map), context_(std::move(context)), init_fd_(init_fd){}; void MainLoop(); private: void RunCommand(const SubcontextCommand::ExecuteCommand& execute_command, SubcontextReply::ResultMessage* result_message) const; const KeywordFunctionMap* function_map_; const std::string context_; const int init_fd_; }; void SubcontextProcess::RunCommand(const SubcontextCommand::ExecuteCommand& execute_command, SubcontextReply::ResultMessage* result_message) const { // Need to use ArraySplice instead of this code. auto args = std::vector(); for (const auto& string : execute_command.args()) { args.emplace_back(string); } auto map_result = function_map_->FindFunction(args); Result result; if (!map_result) { result = Error() << "Cannot find command: " << map_result.error(); } else { result = RunBuiltinFunction(map_result->second, args, context_); } if (result) { result_message->set_success(true); } else { result_message->set_success(false); result_message->set_error_string(result.error_string()); result_message->set_error_errno(result.error_errno()); } } void SubcontextProcess::MainLoop() { pollfd ufd[1]; ufd[0].events = POLLIN; ufd[0].fd = init_fd_; while (true) { ufd[0].revents = 0; int nr = TEMP_FAILURE_RETRY(poll(ufd, arraysize(ufd), -1)); if (nr == 0) continue; if (nr < 0) { PLOG(FATAL) << "poll() of subcontext socket failed, continuing"; } auto init_message = ReadMessage(init_fd_); if (!init_message) { LOG(FATAL) << "Could not read message from init: " << init_message.error(); } auto subcontext_command = SubcontextCommand(); if (!subcontext_command.ParseFromString(*init_message)) { LOG(FATAL) << "Unable to parse message from init"; } auto reply = SubcontextReply(); switch (subcontext_command.command_case()) { case SubcontextCommand::kExecuteCommand: { RunCommand(subcontext_command.execute_command(), reply.mutable_result()); break; } default: LOG(FATAL) << "Unknown message type from init: " << subcontext_command.command_case(); } if (auto result = SendMessage(init_fd_, reply); !result) { LOG(FATAL) << "Failed to send message to init: " << result.error(); } } } } // namespace int SubcontextMain(int argc, char** argv, const KeywordFunctionMap* function_map) { if (argc < 4) LOG(FATAL) << "Fewer than 4 args specified to subcontext (" << argc << ")"; auto context = std::string(argv[2]); auto init_fd = std::atoi(argv[3]); auto subcontext_process = SubcontextProcess(function_map, context, init_fd); subcontext_process.MainLoop(); return 0; } void Subcontext::Fork() { unique_fd subcontext_socket; if (!Socketpair(AF_UNIX, SOCK_SEQPACKET | SOCK_CLOEXEC, 0, &socket_, &subcontext_socket)) { LOG(FATAL) << "Could not create socket pair to communicate to subcontext"; return; } auto result = fork(); if (result == -1) { LOG(FATAL) << "Could not fork subcontext"; } else if (result == 0) { socket_.reset(); // We explicitly do not use O_CLOEXEC here, such that we can reference this FD by number // in the subcontext process after we exec. int child_fd = dup(subcontext_socket); if (child_fd < 0) { PLOG(FATAL) << "Could not dup child_fd"; } if (setexeccon(context_.c_str()) < 0) { PLOG(FATAL) << "Could not set execcon for '" << context_ << "'"; } auto init_path = GetExecutablePath(); auto child_fd_string = std::to_string(child_fd); const char* args[] = {init_path.c_str(), "subcontext", context_.c_str(), child_fd_string.c_str(), nullptr}; execv(init_path.data(), const_cast(args)); PLOG(FATAL) << "Could not execv subcontext init"; } else { subcontext_socket.reset(); pid_ = result; LOG(INFO) << "Forked subcontext for '" << context_ << "' with pid " << pid_; } } void Subcontext::Restart() { LOG(ERROR) << "Restarting subcontext '" << context_ << "'"; if (pid_) { kill(pid_, SIGKILL); } pid_ = 0; socket_.reset(); Fork(); } Result Subcontext::Execute(const std::vector& args) { auto subcontext_command = SubcontextCommand(); std::copy( args.begin(), args.end(), RepeatedPtrFieldBackInserter(subcontext_command.mutable_execute_command()->mutable_args())); if (auto result = SendMessage(socket_, subcontext_command); !result) { Restart(); return ErrnoError() << "Failed to send message to subcontext"; } auto subcontext_message = ReadMessage(socket_); if (!subcontext_message) { Restart(); return Error() << "Failed to receive result from subcontext: " << subcontext_message.error(); } auto subcontext_reply = SubcontextReply(); if (!subcontext_reply.ParseFromString(*subcontext_message)) { Restart(); return Error() << "Unable to parse message from subcontext"; } switch (subcontext_reply.reply_case()) { case SubcontextReply::kResult: { auto result = subcontext_reply.result(); if (result.success()) { return Success(); } else { return ResultError(result.error_string(), result.error_errno()); } } default: return Error() << "Unknown message type from subcontext: " << subcontext_reply.reply_case(); } } static std::vector subcontexts; std::vector* InitializeSubcontexts() { if (GetBoolProperty("ro.init.subcontexts_enabled", false)) { static const char* const paths_and_secontexts[][2] = { {"/vendor", kVendorContext.c_str()}, }; for (const auto& [path_prefix, secontext] : paths_and_secontexts) { subcontexts.emplace_back(path_prefix, secontext); } } return &subcontexts; } bool SubcontextChildReap(pid_t pid) { for (auto& subcontext : subcontexts) { if (subcontext.pid() == pid) { subcontext.Restart(); return true; } } return false; } } // namespace init } // namespace android