/* * Copyright (C) 2018 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 "fastboot/Fastboot.h" #include #include #include #include #include #include #include #include #include // FS headers #include #include #include // Nugget headers #include #include #include namespace android { namespace hardware { namespace fastboot { namespace V1_1 { namespace implementation { constexpr const char* BRIGHTNESS_FILE = "/sys/class/backlight/panel0-backlight/brightness"; constexpr int DISPLAY_BRIGHTNESS_DIM_THRESHOLD = 20; using OEMCommandHandler = std::function&)>; Return Fastboot::getPartitionType(const ::android::hardware::hidl_string& /* partitionName */, getPartitionType_cb _hidl_cb) { // For bluecross devices, all partitions need to return raw. _hidl_cb(FileSystemType::RAW, { Status::SUCCESS, "" }); return Void(); } Return Fastboot::getVariant(getVariant_cb _hidl_cb) { _hidl_cb("MSM USF", {Status::SUCCESS, "" }); return Void(); } Return Fastboot::getOffModeChargeState(getOffModeChargeState_cb _hidl_cb) { constexpr const char* kDevinfoPath = "/dev/block/by-name/devinfo"; constexpr int kDevInfoOffModeChargeOffset = 15; uint8_t off_mode_charge_status = 0; android::base::unique_fd fd(TEMP_FAILURE_RETRY(open(kDevinfoPath, O_RDONLY | O_BINARY))); if (!android::base::ReadFullyAtOffset(fd, &off_mode_charge_status, 1 /* byte count */, kDevInfoOffModeChargeOffset)) { _hidl_cb(false, { Status::FAILURE_UNKNOWN, "Unable to read off-mode-charge state" }); } else { _hidl_cb(off_mode_charge_status != 0, { Status::SUCCESS, "" }); } return Void(); } Return Fastboot::getBatteryVoltageFlashingThreshold( getBatteryVoltageFlashingThreshold_cb _hidl_cb) { constexpr int kMinVoltageForFlashing = 3500; _hidl_cb(kMinVoltageForFlashing, { Status::SUCCESS, "" }); return Void(); } Result SetBrightnessLevel(const std::vector& args) { if (!args.size()) { return { Status::INVALID_ARGUMENT, "Brightness level unspecified" }; } auto level = std::stoi(args[0]); if (level < 0 || level > 100) { return { Status::INVALID_ARGUMENT, "Brighness level must be between 0 and 100" }; } // Avoid screen being dimmed too much. if (level < DISPLAY_BRIGHTNESS_DIM_THRESHOLD) { level = DISPLAY_BRIGHTNESS_DIM_THRESHOLD; } if (android::base::WriteStringToFile(std::to_string(level), BRIGHTNESS_FILE)) { return { Status::SUCCESS, "" }; } return { Status::FAILURE_UNKNOWN, "Unable to set display brightness" }; } Return Fastboot::doOemCommand(const ::android::hardware::hidl_string& oemCmdArgs, doOemCommand_cb _hidl_cb) { const std::unordered_map kOEMCmdMap = { {FB_OEM_SET_BRIGHTNESS, SetBrightnessLevel}, }; auto args = android::base::Split(oemCmdArgs, " "); if (args.size() < 2) { _hidl_cb({ Status::INVALID_ARGUMENT, "Invalid OEM command" }); return Void(); } // args[0] will be "oem", args[1] will be the command name auto cmd_handler = kOEMCmdMap.find(args[1]); if (cmd_handler != kOEMCmdMap.end()) { _hidl_cb(cmd_handler->second(std::vector(args.begin() + 2, args.end()))); } else { _hidl_cb({ Status::FAILURE_UNKNOWN, "Unknown OEM command" }); } return Void(); } static android::fs_mgr::Fstab fstab; enum WipeVolumeStatus { WIPE_OK = 0, VOL_FSTAB, VOL_UNKNOWN, VOL_MOUNTED, VOL_BLK_DEV_OPEN, WIPE_ERROR_MAX = 0xffffffff, }; std::map wipe_vol_ret_msg{ {WIPE_OK, ""}, {VOL_FSTAB, "Unknown FS table"}, {VOL_UNKNOWN, "Unknown volume"}, {VOL_MOUNTED, "Fail to unmount volume"}, {VOL_BLK_DEV_OPEN, "Fail to open block device"}, {WIPE_ERROR_MAX, "Unknown wipe error"}}; enum WipeVolumeStatus wipe_volume(const std::string &volume) { if (!android::fs_mgr::ReadDefaultFstab(&fstab)) { return VOL_FSTAB; } const fs_mgr::FstabEntry *v = android::fs_mgr::GetEntryForPath(&fstab, volume); if (v == nullptr) { return VOL_UNKNOWN; } if (android::fs_mgr::EnsurePathUnmounted(&fstab, volume) != true) { return VOL_MOUNTED; } int fd = open(v->blk_device.c_str(), O_WRONLY | O_CREAT, 0644); if (fd == -1) { return VOL_BLK_DEV_OPEN; } wipe_block_device(fd, get_block_device_size(fd)); close(fd); return WIPE_OK; } // Attempt to reuse a WipeKeys function that might be found in the recovery // library in order to clear any digital car keys on the secure element. bool WipeDigitalCarKeys(void) { static constexpr const char *kDefaultLibRecoveryUIExt = "librecovery_ui_ext.so"; void *librecovery_ui_ext = dlopen(kDefaultLibRecoveryUIExt, RTLD_NOW); if (librecovery_ui_ext == nullptr) { // Dynamic library not found. Returning true since this likely // means target does not support DCK. return true; } bool *(*WipeKeysFunc)(void *const); reinterpret_cast(WipeKeysFunc) = dlsym(librecovery_ui_ext, "WipeKeys"); if (WipeKeysFunc == nullptr) { // No WipeKeys implementation found. Returning true since this likely // means target does not support DCK. return true; } return (*WipeKeysFunc)(nullptr); } Return Fastboot::doOemSpecificErase(V1_1::IFastboot::doOemSpecificErase_cb _hidl_cb) { // Erase metadata partition along with userdata partition. // Keep erasing Titan M even if failing on this case. auto wipe_status = wipe_volume("/metadata"); bool dck_wipe_success = WipeDigitalCarKeys(); // Connect to Titan M ::nos::NuggetClient client; client.Open(); if (!client.IsOpen()) { _hidl_cb({ Status::FAILURE_UNKNOWN, "open Titan M fail" }); return Void(); } // Tell Titan M to wipe user data const uint32_t magicValue = htole32(ERASE_CONFIRMATION); std::vector magic(sizeof(magicValue)); memcpy(magic.data(), &magicValue, sizeof(magicValue)); const uint8_t retry_count = 5; uint32_t nugget_status; for (uint8_t i = 0; i < retry_count; i++) { nugget_status = client.CallApp(APP_ID_NUGGET, NUGGET_PARAM_NUKE_FROM_ORBIT, magic, nullptr); if (nugget_status == APP_SUCCESS && wipe_status == WIPE_OK && dck_wipe_success) { _hidl_cb({Status::SUCCESS, wipe_vol_ret_msg[wipe_status]}); return Void(); } } // Return exactly what happened if (nugget_status != APP_SUCCESS && wipe_status != WIPE_OK && !dck_wipe_success) { _hidl_cb({Status::FAILURE_UNKNOWN, "Fail on wiping metadata, Titan M user data, and DCK"}); } else if (nugget_status != APP_SUCCESS && wipe_status != WIPE_OK) { _hidl_cb({Status::FAILURE_UNKNOWN, "Fail on wiping metadata and Titan M user data"}); } else if (nugget_status != APP_SUCCESS && !dck_wipe_success) { _hidl_cb({Status::FAILURE_UNKNOWN, "Titan M user data and DCK wipe failed"}); } else if (nugget_status != APP_SUCCESS) { _hidl_cb({Status::FAILURE_UNKNOWN, "Titan M user data wipe failed"}); } else if (wipe_status != WIPE_OK && !dck_wipe_success) { _hidl_cb({Status::FAILURE_UNKNOWN, "Fail on wiping metadata and DCK"}); } else if (!dck_wipe_success) { _hidl_cb({Status::FAILURE_UNKNOWN, "DCK wipe failed"}); } else { if (wipe_vol_ret_msg.find(wipe_status) != wipe_vol_ret_msg.end()) _hidl_cb({Status::FAILURE_UNKNOWN, wipe_vol_ret_msg[wipe_status]}); else // Should not reach here, but handle it anyway _hidl_cb({Status::FAILURE_UNKNOWN, "Unknown failure"}); } return Void(); } Fastboot::Fastboot() {} // Methods from ::android::hidl::base::V1_0::IBase follow. extern "C" IFastboot* HIDL_FETCH_IFastboot(const char* /* name */) { return new Fastboot(); } } // namespace implementation } // namespace V1_1 } // namespace fastboot } // namespace hardware } // namespace android