/* * Copyright (C) 2007 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. */ #define TRACE_TAG SERVICES #include "sysdeps.h" #include #include #include #include #include #ifndef _WIN32 #include #include #include #include #endif #include #include #include #include #include #include #if !ADB_HOST #include #include #include #include #endif #include "adb.h" #include "adb_io.h" #include "adb_utils.h" #include "file_sync_service.h" #include "remount_service.h" #include "services.h" #include "shell_service.h" #include "socket_spec.h" #include "sysdeps.h" #include "transport.h" struct stinfo { const char* service_name; void (*func)(int fd, void *cookie); int fd; void *cookie; }; static void service_bootstrap_func(void* x) { stinfo* sti = reinterpret_cast(x); adb_thread_setname(android::base::StringPrintf("%s svc %d", sti->service_name, sti->fd)); sti->func(sti->fd, sti->cookie); free(sti); } #if !ADB_HOST void restart_root_service(int fd, void *cookie) { if (getuid() == 0) { WriteFdExactly(fd, "adbd is already running as root\n"); adb_close(fd); } else { if (!__android_log_is_debuggable()) { WriteFdExactly(fd, "adbd cannot run as root in production builds\n"); adb_close(fd); return; } android::base::SetProperty("service.adb.root", "1"); WriteFdExactly(fd, "restarting adbd as root\n"); adb_close(fd); } } void restart_unroot_service(int fd, void *cookie) { if (getuid() != 0) { WriteFdExactly(fd, "adbd not running as root\n"); adb_close(fd); } else { android::base::SetProperty("service.adb.root", "0"); WriteFdExactly(fd, "restarting adbd as non root\n"); adb_close(fd); } } void restart_tcp_service(int fd, void *cookie) { int port = (int) (uintptr_t) cookie; if (port <= 0) { WriteFdFmt(fd, "invalid port %d\n", port); adb_close(fd); return; } android::base::SetProperty("service.adb.tcp.port", android::base::StringPrintf("%d", port)); WriteFdFmt(fd, "restarting in TCP mode port: %d\n", port); adb_close(fd); } void restart_usb_service(int fd, void *cookie) { android::base::SetProperty("service.adb.tcp.port", "0"); WriteFdExactly(fd, "restarting in USB mode\n"); adb_close(fd); } static bool reboot_service_impl(int fd, const char* arg) { const char* reboot_arg = arg; bool auto_reboot = false; if (strcmp(reboot_arg, "sideload-auto-reboot") == 0) { auto_reboot = true; reboot_arg = "sideload"; } // It reboots into sideload mode by setting "--sideload" or "--sideload_auto_reboot" // in the command file. if (strcmp(reboot_arg, "sideload") == 0) { if (getuid() != 0) { WriteFdExactly(fd, "'adb root' is required for 'adb reboot sideload'.\n"); return false; } const std::vector options = { auto_reboot ? "--sideload_auto_reboot" : "--sideload" }; std::string err; if (!write_bootloader_message(options, &err)) { D("Failed to set bootloader message: %s", err.c_str()); return false; } reboot_arg = "recovery"; } sync(); if (!reboot_arg || !reboot_arg[0]) reboot_arg = "adb"; std::string reboot_string = android::base::StringPrintf("reboot,%s", reboot_arg); if (!android::base::SetProperty(ANDROID_RB_PROPERTY, reboot_string)) { WriteFdFmt(fd, "reboot (%s) failed\n", reboot_string.c_str()); return false; } return true; } void reboot_service(int fd, void* arg) { if (reboot_service_impl(fd, static_cast(arg))) { // Don't return early. Give the reboot command time to take effect // to avoid messing up scripts which do "adb reboot && adb wait-for-device" while (true) { pause(); } } free(arg); adb_close(fd); } static void reconnect_service(int fd, void* arg) { WriteFdExactly(fd, "done"); adb_close(fd); atransport* t = static_cast(arg); kick_transport(t); } int reverse_service(const char* command) { int s[2]; if (adb_socketpair(s)) { PLOG(ERROR) << "cannot create service socket pair."; return -1; } VLOG(SERVICES) << "service socketpair: " << s[0] << ", " << s[1]; if (handle_forward_request(command, kTransportAny, nullptr, 0, s[1]) < 0) { SendFail(s[1], "not a reverse forwarding command"); } adb_close(s[1]); return s[0]; } // Shell service string can look like: // shell[,arg1,arg2,...]:[command] static int ShellService(const std::string& args, const atransport* transport) { size_t delimiter_index = args.find(':'); if (delimiter_index == std::string::npos) { LOG(ERROR) << "No ':' found in shell service arguments: " << args; return -1; } const std::string service_args = args.substr(0, delimiter_index); const std::string command = args.substr(delimiter_index + 1); // Defaults: // PTY for interactive, raw for non-interactive. // No protocol. // $TERM set to "dumb". SubprocessType type(command.empty() ? SubprocessType::kPty : SubprocessType::kRaw); SubprocessProtocol protocol = SubprocessProtocol::kNone; std::string terminal_type = "dumb"; for (const std::string& arg : android::base::Split(service_args, ",")) { if (arg == kShellServiceArgRaw) { type = SubprocessType::kRaw; } else if (arg == kShellServiceArgPty) { type = SubprocessType::kPty; } else if (arg == kShellServiceArgShellProtocol) { protocol = SubprocessProtocol::kShell; } else if (android::base::StartsWith(arg, "TERM=")) { terminal_type = arg.substr(5); } else if (!arg.empty()) { // This is not an error to allow for future expansion. LOG(WARNING) << "Ignoring unknown shell service argument: " << arg; } } return StartSubprocess(command.c_str(), terminal_type.c_str(), type, protocol); } #endif // !ADB_HOST static int create_service_thread(const char* service_name, void (*func)(int, void*), void* cookie) { int s[2]; if (adb_socketpair(s)) { printf("cannot create service socket pair\n"); return -1; } D("socketpair: (%d,%d)", s[0], s[1]); #if !ADB_HOST if (func == &file_sync_service) { // Set file sync service socket to maximum size int max_buf = LINUX_MAX_SOCKET_SIZE; adb_setsockopt(s[0], SOL_SOCKET, SO_SNDBUF, &max_buf, sizeof(max_buf)); adb_setsockopt(s[1], SOL_SOCKET, SO_SNDBUF, &max_buf, sizeof(max_buf)); } #endif // !ADB_HOST stinfo* sti = reinterpret_cast(malloc(sizeof(stinfo))); if (sti == nullptr) { fatal("cannot allocate stinfo"); } sti->service_name = service_name; sti->func = func; sti->cookie = cookie; sti->fd = s[1]; std::thread(service_bootstrap_func, sti).detach(); D("service thread started, %d:%d",s[0], s[1]); return s[0]; } int service_to_fd(const char* name, const atransport* transport) { int ret = -1; if (is_socket_spec(name)) { std::string error; ret = socket_spec_connect(name, &error); if (ret < 0) { LOG(ERROR) << "failed to connect to socket '" << name << "': " << error; } #if !ADB_HOST } else if(!strncmp("dev:", name, 4)) { ret = unix_open(name + 4, O_RDWR | O_CLOEXEC); } else if(!strncmp(name, "framebuffer:", 12)) { ret = create_service_thread("fb", framebuffer_service, nullptr); } else if (!strncmp(name, "jdwp:", 5)) { ret = create_jdwp_connection_fd(atoi(name+5)); } else if(!strncmp(name, "shell", 5)) { ret = ShellService(name + 5, transport); } else if(!strncmp(name, "exec:", 5)) { ret = StartSubprocess(name + 5, nullptr, SubprocessType::kRaw, SubprocessProtocol::kNone); } else if(!strncmp(name, "sync:", 5)) { ret = create_service_thread("sync", file_sync_service, nullptr); } else if(!strncmp(name, "remount:", 8)) { ret = create_service_thread("remount", remount_service, nullptr); } else if(!strncmp(name, "reboot:", 7)) { void* arg = strdup(name + 7); if (arg == NULL) return -1; ret = create_service_thread("reboot", reboot_service, arg); if (ret < 0) free(arg); } else if(!strncmp(name, "root:", 5)) { ret = create_service_thread("root", restart_root_service, nullptr); } else if(!strncmp(name, "unroot:", 7)) { ret = create_service_thread("unroot", restart_unroot_service, nullptr); } else if(!strncmp(name, "backup:", 7)) { ret = StartSubprocess(android::base::StringPrintf("/system/bin/bu backup %s", (name + 7)).c_str(), nullptr, SubprocessType::kRaw, SubprocessProtocol::kNone); } else if(!strncmp(name, "restore:", 8)) { ret = StartSubprocess("/system/bin/bu restore", nullptr, SubprocessType::kRaw, SubprocessProtocol::kNone); } else if(!strncmp(name, "tcpip:", 6)) { int port; if (sscanf(name + 6, "%d", &port) != 1) { return -1; } ret = create_service_thread("tcp", restart_tcp_service, reinterpret_cast(port)); } else if(!strncmp(name, "usb:", 4)) { ret = create_service_thread("usb", restart_usb_service, nullptr); } else if (!strncmp(name, "reverse:", 8)) { ret = reverse_service(name + 8); } else if(!strncmp(name, "disable-verity:", 15)) { ret = create_service_thread("verity-on", set_verity_enabled_state_service, reinterpret_cast(0)); } else if(!strncmp(name, "enable-verity:", 15)) { ret = create_service_thread("verity-off", set_verity_enabled_state_service, reinterpret_cast(1)); } else if (!strcmp(name, "reconnect")) { ret = create_service_thread("reconnect", reconnect_service, const_cast(transport)); #endif } if (ret >= 0) { close_on_exec(ret); } return ret; } #if ADB_HOST struct state_info { TransportType transport_type; std::string serial; TransportId transport_id; ConnectionState state; }; static void wait_for_state(int fd, void* data) { std::unique_ptr sinfo(reinterpret_cast(data)); D("wait_for_state %d", sinfo->state); while (true) { bool is_ambiguous = false; std::string error = "unknown error"; const char* serial = sinfo->serial.length() ? sinfo->serial.c_str() : NULL; atransport* t = acquire_one_transport(sinfo->transport_type, serial, sinfo->transport_id, &is_ambiguous, &error); if (t != nullptr && (sinfo->state == kCsAny || sinfo->state == t->GetConnectionState())) { SendOkay(fd); break; } else if (!is_ambiguous) { adb_pollfd pfd = {.fd = fd, .events = POLLIN }; int rc = adb_poll(&pfd, 1, 1000); if (rc < 0) { SendFail(fd, error); break; } else if (rc > 0 && (pfd.revents & POLLHUP) != 0) { // The other end of the socket is closed, probably because the other side was // terminated, bail out. break; } // Try again... } else { SendFail(fd, error); break; } } adb_close(fd); D("wait_for_state is done"); } void connect_emulator(const std::string& port_spec, std::string* response) { std::vector pieces = android::base::Split(port_spec, ","); if (pieces.size() != 2) { *response = android::base::StringPrintf("unable to parse '%s' as ,", port_spec.c_str()); return; } int console_port = strtol(pieces[0].c_str(), NULL, 0); int adb_port = strtol(pieces[1].c_str(), NULL, 0); if (console_port <= 0 || adb_port <= 0) { *response = android::base::StringPrintf("Invalid port numbers: %s", port_spec.c_str()); return; } // Check if the emulator is already known. // Note: There's a small but harmless race condition here: An emulator not // present just yet could be registered by another invocation right // after doing this check here. However, local_connect protects // against double-registration too. From here, a better error message // can be produced. In the case of the race condition, the very specific // error message won't be shown, but the data doesn't get corrupted. atransport* known_emulator = find_emulator_transport_by_adb_port(adb_port); if (known_emulator != nullptr) { *response = android::base::StringPrintf("Emulator already registered on port %d", adb_port); return; } // Preconditions met, try to connect to the emulator. std::string error; if (!local_connect_arbitrary_ports(console_port, adb_port, &error)) { *response = android::base::StringPrintf("Connected to emulator on ports %d,%d", console_port, adb_port); } else { *response = android::base::StringPrintf("Could not connect to emulator on ports %d,%d: %s", console_port, adb_port, error.c_str()); } } static void connect_service(int fd, void* data) { char* host = reinterpret_cast(data); std::string response; if (!strncmp(host, "emu:", 4)) { connect_emulator(host + 4, &response); } else { connect_device(host, &response); } free(host); // Send response for emulator and device SendProtocolString(fd, response); adb_close(fd); } #endif #if ADB_HOST asocket* host_service_to_socket(const char* name, const char* serial, TransportId transport_id) { if (!strcmp(name,"track-devices")) { return create_device_tracker(false); } else if (!strcmp(name, "track-devices-l")) { return create_device_tracker(true); } else if (android::base::StartsWith(name, "wait-for-")) { name += strlen("wait-for-"); std::unique_ptr sinfo(new state_info); if (sinfo == nullptr) { fprintf(stderr, "couldn't allocate state_info: %s", strerror(errno)); return nullptr; } if (serial) sinfo->serial = serial; sinfo->transport_id = transport_id; if (android::base::StartsWith(name, "local")) { name += strlen("local"); sinfo->transport_type = kTransportLocal; } else if (android::base::StartsWith(name, "usb")) { name += strlen("usb"); sinfo->transport_type = kTransportUsb; } else if (android::base::StartsWith(name, "any")) { name += strlen("any"); sinfo->transport_type = kTransportAny; } else { return nullptr; } if (!strcmp(name, "-device")) { sinfo->state = kCsDevice; } else if (!strcmp(name, "-recovery")) { sinfo->state = kCsRecovery; } else if (!strcmp(name, "-sideload")) { sinfo->state = kCsSideload; } else if (!strcmp(name, "-bootloader")) { sinfo->state = kCsBootloader; } else if (!strcmp(name, "-any")) { sinfo->state = kCsAny; } else { return nullptr; } int fd = create_service_thread("wait", wait_for_state, sinfo.get()); if (fd != -1) { sinfo.release(); } return create_local_socket(fd); } else if (!strncmp(name, "connect:", 8)) { char* host = strdup(name + 8); int fd = create_service_thread("connect", connect_service, host); if (fd == -1) { free(host); } return create_local_socket(fd); } return NULL; } #endif /* ADB_HOST */