/* * 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 "utility.h" #include #include #include #include #include #include #include #include #include #include #include #include #include #include "fastboot_device.h" using namespace android::fs_mgr; using namespace std::chrono_literals; using android::base::unique_fd; using android::hardware::boot::V1_0::Slot; namespace { bool OpenPhysicalPartition(const std::string& name, PartitionHandle* handle) { std::optional path = FindPhysicalPartition(name); if (!path) { return false; } *handle = PartitionHandle(*path); return true; } bool OpenLogicalPartition(FastbootDevice* device, const std::string& partition_name, PartitionHandle* handle) { std::string slot_suffix = GetSuperSlotSuffix(device, partition_name); uint32_t slot_number = SlotNumberForSlotSuffix(slot_suffix); auto path = FindPhysicalPartition(fs_mgr_get_super_partition_name(slot_number)); if (!path) { return false; } CreateLogicalPartitionParams params = { .block_device = *path, .metadata_slot = slot_number, .partition_name = partition_name, .force_writable = true, .timeout_ms = 5s, }; std::string dm_path; if (!CreateLogicalPartition(params, &dm_path)) { LOG(ERROR) << "Could not map partition: " << partition_name; return false; } auto closer = [partition_name]() -> void { DestroyLogicalPartition(partition_name); }; *handle = PartitionHandle(dm_path, std::move(closer)); return true; } } // namespace bool OpenPartition(FastbootDevice* device, const std::string& name, PartitionHandle* handle, int flags) { // We prioritize logical partitions over physical ones, and do this // consistently for other partition operations (like getvar:partition-size). if (LogicalPartitionExists(device, name)) { if (!OpenLogicalPartition(device, name, handle)) { return false; } } else if (!OpenPhysicalPartition(name, handle)) { LOG(ERROR) << "No such partition: " << name; return false; } flags |= (O_EXCL | O_CLOEXEC | O_BINARY); unique_fd fd(TEMP_FAILURE_RETRY(open(handle->path().c_str(), flags))); if (fd < 0) { PLOG(ERROR) << "Failed to open block device: " << handle->path(); return false; } handle->set_fd(std::move(fd)); return true; } std::optional FindPhysicalPartition(const std::string& name) { // Check for an invalid file name if (android::base::StartsWith(name, "../") || name.find("/../") != std::string::npos) { return {}; } std::string path = "/dev/block/by-name/" + name; if (access(path.c_str(), W_OK) < 0) { return {}; } return path; } static const LpMetadataPartition* FindLogicalPartition(const LpMetadata& metadata, const std::string& name) { for (const auto& partition : metadata.partitions) { if (GetPartitionName(partition) == name) { return &partition; } } return nullptr; } bool LogicalPartitionExists(FastbootDevice* device, const std::string& name, bool* is_zero_length) { std::string slot_suffix = GetSuperSlotSuffix(device, name); uint32_t slot_number = SlotNumberForSlotSuffix(slot_suffix); auto path = FindPhysicalPartition(fs_mgr_get_super_partition_name(slot_number)); if (!path) { return false; } std::unique_ptr metadata = ReadMetadata(path->c_str(), slot_number); if (!metadata) { return false; } const LpMetadataPartition* partition = FindLogicalPartition(*metadata.get(), name); if (!partition) { return false; } if (is_zero_length) { *is_zero_length = (partition->num_extents == 0); } return true; } bool GetSlotNumber(const std::string& slot, Slot* number) { if (slot.size() != 1) { return false; } if (slot[0] < 'a' || slot[0] > 'z') { return false; } *number = slot[0] - 'a'; return true; } std::vector ListPartitions(FastbootDevice* device) { std::vector partitions; // First get physical partitions. struct dirent* de; std::unique_ptr by_name(opendir("/dev/block/by-name"), closedir); while ((de = readdir(by_name.get())) != nullptr) { if (!strcmp(de->d_name, ".") || !strcmp(de->d_name, "..")) { continue; } struct stat s; std::string path = "/dev/block/by-name/" + std::string(de->d_name); if (!stat(path.c_str(), &s) && S_ISBLK(s.st_mode)) { partitions.emplace_back(de->d_name); } } // Find metadata in each super partition (on retrofit devices, there will // be two). std::vector> metadata_list; uint32_t current_slot = SlotNumberForSlotSuffix(device->GetCurrentSlot()); std::string super_name = fs_mgr_get_super_partition_name(current_slot); if (auto metadata = ReadMetadata(super_name, current_slot)) { metadata_list.emplace_back(std::move(metadata)); } uint32_t other_slot = (current_slot == 0) ? 1 : 0; std::string other_super = fs_mgr_get_super_partition_name(other_slot); if (super_name != other_super) { if (auto metadata = ReadMetadata(other_super, other_slot)) { metadata_list.emplace_back(std::move(metadata)); } } for (const auto& metadata : metadata_list) { for (const auto& partition : metadata->partitions) { std::string partition_name = GetPartitionName(partition); if (std::find(partitions.begin(), partitions.end(), partition_name) == partitions.end()) { partitions.emplace_back(partition_name); } } } return partitions; } bool GetDeviceLockStatus() { return android::base::GetProperty("ro.boot.verifiedbootstate", "") != "orange"; } bool UpdateAllPartitionMetadata(FastbootDevice* device, const std::string& super_name, const android::fs_mgr::LpMetadata& metadata) { size_t num_slots = 1; auto boot_control_hal = device->boot_control_hal(); if (boot_control_hal) { num_slots = boot_control_hal->getNumberSlots(); } bool ok = true; for (size_t i = 0; i < num_slots; i++) { ok &= UpdatePartitionTable(super_name, metadata, i); } return ok; } std::string GetSuperSlotSuffix(FastbootDevice* device, const std::string& partition_name) { // If the super partition does not have a slot suffix, this is not a // retrofit device, and we should take the current slot. std::string current_slot_suffix = device->GetCurrentSlot(); uint32_t current_slot_number = SlotNumberForSlotSuffix(current_slot_suffix); std::string super_partition = fs_mgr_get_super_partition_name(current_slot_number); if (GetPartitionSlotSuffix(super_partition).empty()) { return current_slot_suffix; } // Otherwise, infer the slot from the partition name. std::string slot_suffix = GetPartitionSlotSuffix(partition_name); if (!slot_suffix.empty()) { return slot_suffix; } return current_slot_suffix; } AutoMountMetadata::AutoMountMetadata() { android::fs_mgr::Fstab proc_mounts; if (!ReadFstabFromFile("/proc/mounts", &proc_mounts)) { LOG(ERROR) << "Could not read /proc/mounts"; return; } if (GetEntryForMountPoint(&proc_mounts, "/metadata")) { mounted_ = true; return; } if (!ReadDefaultFstab(&fstab_)) { LOG(ERROR) << "Could not read default fstab"; return; } mounted_ = EnsurePathMounted(&fstab_, "/metadata"); should_unmount_ = true; } AutoMountMetadata::~AutoMountMetadata() { if (mounted_ && should_unmount_) { EnsurePathUnmounted(&fstab_, "/metadata"); } }