// // Copyright (C) 2023 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 "task.h" #include #include "fastboot.h" #include "filesystem.h" #include "super_flash_helper.h" #include using namespace std::string_literals; FlashTask::FlashTask(const std::string& _slot, const std::string& _pname, const std::string& _fname, const bool apply_vbmeta) : pname_(_pname), fname_(_fname), slot_(_slot), apply_vbmeta_(apply_vbmeta) {} void FlashTask::Run() { auto flash = [&](const std::string& partition) { if (should_flash_in_userspace(partition) && !is_userspace_fastboot()) { die("The partition you are trying to flash is dynamic, and " "should be flashed via fastbootd. Please run:\n" "\n" " fastboot reboot fastboot\n" "\n" "And try again. If you are intentionally trying to " "overwrite a fixed partition, use --force."); } do_flash(partition.c_str(), fname_.c_str(), apply_vbmeta_); }; do_for_partitions(pname_, slot_, flash, true); } RebootTask::RebootTask(FlashingPlan* fp) : fp_(fp){}; RebootTask::RebootTask(FlashingPlan* fp, const std::string& reboot_target) : reboot_target_(reboot_target), fp_(fp){}; void RebootTask::Run() { if ((reboot_target_ == "userspace" || reboot_target_ == "fastboot")) { if (!is_userspace_fastboot()) { reboot_to_userspace_fastboot(); fp_->fb->WaitForDisconnect(); } } else if (reboot_target_ == "recovery") { fp_->fb->RebootTo("recovery"); fp_->fb->WaitForDisconnect(); } else if (reboot_target_ == "bootloader") { fp_->fb->RebootTo("bootloader"); fp_->fb->WaitForDisconnect(); } else if (reboot_target_ == "") { fp_->fb->Reboot(); fp_->fb->WaitForDisconnect(); } else { syntax_error("unknown reboot target %s", reboot_target_.c_str()); } } FlashSuperLayoutTask::FlashSuperLayoutTask(const std::string& super_name, std::unique_ptr helper, SparsePtr sparse_layout, uint64_t super_size) : super_name_(super_name), helper_(std::move(helper)), sparse_layout_(std::move(sparse_layout)), super_size_(super_size) {} void FlashSuperLayoutTask::Run() { // Use the reported super partition size as the upper limit, rather than // sparse_file_len, which (1) can fail and (2) is kind of expensive, since // it will map in all of the embedded fds. std::vector files; if (int limit = get_sparse_limit(super_size_)) { files = resparse_file(sparse_layout_.get(), limit); } else { files.emplace_back(std::move(sparse_layout_)); } // Send the data to the device. flash_partition_files(super_name_, files); } std::unique_ptr FlashSuperLayoutTask::Initialize( FlashingPlan* fp, std::vector& os_images) { if (!supports_AB()) { LOG(VERBOSE) << "Cannot optimize flashing super on non-AB device"; return nullptr; } if (fp->slot == "all") { LOG(VERBOSE) << "Cannot optimize flashing super for all slots"; return nullptr; } // Does this device use dynamic partitions at all? unique_fd fd = fp->source->OpenFile("super_empty.img"); if (fd < 0) { LOG(VERBOSE) << "could not open super_empty.img"; return nullptr; } std::string super_name; // Try to find whether there is a super partition. if (fp->fb->GetVar("super-partition-name", &super_name) != fastboot::SUCCESS) { super_name = "super"; } uint64_t partition_size; std::string partition_size_str; if (fp->fb->GetVar("partition-size:" + super_name, &partition_size_str) != fastboot::SUCCESS) { LOG(VERBOSE) << "Cannot optimize super flashing: could not determine super partition"; return nullptr; } partition_size_str = fb_fix_numeric_var(partition_size_str); if (!android::base::ParseUint(partition_size_str, &partition_size)) { LOG(VERBOSE) << "Could not parse " << super_name << " size: " << partition_size_str; return nullptr; } std::unique_ptr helper = std::make_unique(*fp->source); if (!helper->Open(fd)) { return nullptr; } for (const auto& entry : os_images) { auto partition = GetPartitionName(entry, fp->current_slot); auto image = entry.first; if (!helper->AddPartition(partition, image->img_name, image->optional_if_no_image)) { return nullptr; } } auto s = helper->GetSparseLayout(); if (!s) return nullptr; // Remove images that we already flashed, just in case we have non-dynamic OS images. auto remove_if_callback = [&](const ImageEntry& entry) -> bool { return helper->WillFlash(GetPartitionName(entry, fp->current_slot)); }; os_images.erase(std::remove_if(os_images.begin(), os_images.end(), remove_if_callback), os_images.end()); return std::make_unique(super_name, std::move(helper), std::move(s), partition_size); } UpdateSuperTask::UpdateSuperTask(FlashingPlan* fp) : fp_(fp) {} void UpdateSuperTask::Run() { unique_fd fd = fp_->source->OpenFile("super_empty.img"); if (fd < 0) { return; } if (!is_userspace_fastboot()) { reboot_to_userspace_fastboot(); } std::string super_name; if (fp_->fb->GetVar("super-partition-name", &super_name) != fastboot::RetCode::SUCCESS) { super_name = "super"; } fp_->fb->Download(super_name, fd, get_file_size(fd)); std::string command = "update-super:" + super_name; if (fp_->wants_wipe) { command += ":wipe"; } fp_->fb->RawCommand(command, "Updating super partition"); } ResizeTask::ResizeTask(FlashingPlan* fp, const std::string& pname, const std::string& size, const std::string& slot) : fp_(fp), pname_(pname), size_(size), slot_(slot) {} void ResizeTask::Run() { auto resize_partition = [this](const std::string& partition) -> void { if (is_logical(partition)) { fp_->fb->ResizePartition(partition, size_); } }; do_for_partitions(pname_, slot_, resize_partition, false); } DeleteTask::DeleteTask(FlashingPlan* fp, const std::string& pname) : fp_(fp), pname_(pname){}; void DeleteTask::Run() { fp_->fb->DeletePartition(pname_); } WipeTask::WipeTask(FlashingPlan* fp, const std::string& pname) : fp_(fp), pname_(pname){}; void WipeTask::Run() { std::string partition_type; if (fp_->fb->GetVar("partition-type:" + pname_, &partition_type) != fastboot::SUCCESS) { return; } if (partition_type.empty()) return; fp_->fb->Erase(pname_); fb_perform_format(pname_, 1, partition_type, "", fp_->fs_options); }