// // Copyright (C) 2011 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 "update_engine/common/download_action.h" #include #include #include #include #include #include #include "update_engine/common/action_pipe.h" #include "update_engine/common/boot_control_interface.h" #include "update_engine/common/error_code_utils.h" #include "update_engine/common/multi_range_http_fetcher.h" #include "update_engine/common/prefs_interface.h" #include "update_engine/common/utils.h" using base::FilePath; using std::string; namespace chromeos_update_engine { DownloadAction::DownloadAction(PrefsInterface* prefs, BootControlInterface* boot_control, HardwareInterface* hardware, HttpFetcher* http_fetcher, bool interactive) : prefs_(prefs), boot_control_(boot_control), hardware_(hardware), http_fetcher_(new MultiRangeHttpFetcher(http_fetcher)), interactive_(interactive), code_(ErrorCode::kSuccess), delegate_(nullptr) {} DownloadAction::~DownloadAction() {} void DownloadAction::PerformAction() { http_fetcher_->set_delegate(this); // Get the InstallPlan and read it CHECK(HasInputObject()); install_plan_ = GetInputObject(); install_plan_.Dump(); bytes_received_ = 0; bytes_received_previous_payloads_ = 0; bytes_total_ = 0; for (const auto& payload : install_plan_.payloads) bytes_total_ += payload.size; if (install_plan_.is_resume) { int64_t payload_index = 0; if (prefs_->GetInt64(kPrefsUpdateStatePayloadIndex, &payload_index) && static_cast(payload_index) < install_plan_.payloads.size()) { // Save the index for the resume payload before downloading any previous // payload, otherwise it will be overwritten. resume_payload_index_ = payload_index; for (int i = 0; i < payload_index; i++) install_plan_.payloads[i].already_applied = true; } } CHECK_GE(install_plan_.payloads.size(), 1UL); if (!payload_) payload_ = &install_plan_.payloads[0]; LOG(INFO) << "Marking new slot as unbootable"; if (!boot_control_->MarkSlotUnbootable(install_plan_.target_slot)) { LOG(WARNING) << "Unable to mark new slot " << BootControlInterface::SlotName(install_plan_.target_slot) << ". Proceeding with the update anyway."; } StartDownloading(); } bool DownloadAction::LoadCachedManifest(int64_t manifest_size) { std::string cached_manifest_bytes; if (!prefs_->GetString(kPrefsManifestBytes, &cached_manifest_bytes) || cached_manifest_bytes.size() <= 0) { LOG(INFO) << "Cached Manifest data not found"; return false; } if (static_cast(cached_manifest_bytes.size()) != manifest_size) { LOG(WARNING) << "Cached metadata has unexpected size: " << cached_manifest_bytes.size() << " vs. " << manifest_size; return false; } ErrorCode error; const bool success = delta_performer_->Write( cached_manifest_bytes.data(), cached_manifest_bytes.size(), &error) && delta_performer_->IsManifestValid(); if (success) { LOG(INFO) << "Successfully parsed cached manifest"; } else { // If parsing of cached data failed, fall back to fetch them using HTTP LOG(WARNING) << "Cached manifest data fails to load, error code:" << static_cast(error) << "," << error; } return success; } void DownloadAction::StartDownloading() { download_active_ = true; http_fetcher_->ClearRanges(); if (delta_performer_ != nullptr) { LOG(INFO) << "Using writer for test."; } else { delta_performer_.reset(new DeltaPerformer(prefs_, boot_control_, hardware_, delegate_, &install_plan_, payload_, interactive_)); } if (install_plan_.is_resume && payload_ == &install_plan_.payloads[resume_payload_index_]) { // Resuming an update so parse the cached manifest first int64_t manifest_metadata_size = 0; int64_t manifest_signature_size = 0; prefs_->GetInt64(kPrefsManifestMetadataSize, &manifest_metadata_size); prefs_->GetInt64(kPrefsManifestSignatureSize, &manifest_signature_size); // TODO(zhangkelvin) Add unittest for success and fallback route if (!LoadCachedManifest(manifest_metadata_size + manifest_signature_size)) { if (delta_performer_) { // Create a new DeltaPerformer to reset all its state delta_performer_ = std::make_unique(prefs_, boot_control_, hardware_, delegate_, &install_plan_, payload_, interactive_); } http_fetcher_->AddRange(base_offset_, manifest_metadata_size + manifest_signature_size); } // If there're remaining unprocessed data blobs, fetch them. Be careful // not to request data beyond the end of the payload to avoid 416 HTTP // response error codes. int64_t next_data_offset = 0; prefs_->GetInt64(kPrefsUpdateStateNextDataOffset, &next_data_offset); uint64_t resume_offset = manifest_metadata_size + manifest_signature_size + next_data_offset; if (!payload_->size) { http_fetcher_->AddRange(base_offset_ + resume_offset); } else if (resume_offset < payload_->size) { http_fetcher_->AddRange(base_offset_ + resume_offset, payload_->size - resume_offset); } } else { if (payload_->size) { http_fetcher_->AddRange(base_offset_, payload_->size); } else { // If no payload size is passed we assume we read until the end of the // stream. http_fetcher_->AddRange(base_offset_); } } http_fetcher_->BeginTransfer(install_plan_.download_url); } void DownloadAction::SuspendAction() { http_fetcher_->Pause(); } void DownloadAction::ResumeAction() { http_fetcher_->Unpause(); } void DownloadAction::TerminateProcessing() { if (delta_performer_) { delta_performer_->Close(); delta_performer_.reset(); } download_active_ = false; // Terminates the transfer. The action is terminated, if necessary, when the // TransferTerminated callback is received. http_fetcher_->TerminateTransfer(); } void DownloadAction::SeekToOffset(off_t offset) { bytes_received_ = offset; } bool DownloadAction::ReceivedBytes(HttpFetcher* fetcher, const void* bytes, size_t length) { bytes_received_ += length; uint64_t bytes_downloaded_total = bytes_received_previous_payloads_ + bytes_received_; if (delegate_ && download_active_) { delegate_->BytesReceived(length, bytes_downloaded_total, bytes_total_); } if (delta_performer_ && !delta_performer_->Write(bytes, length, &code_)) { if (code_ != ErrorCode::kSuccess) { LOG(ERROR) << "Error " << utils::ErrorCodeToString(code_) << " (" << code_ << ") in DeltaPerformer's Write method when " << "processing the received payload -- Terminating processing"; } // Don't tell the action processor that the action is complete until we get // the TransferTerminated callback. Otherwise, this and the HTTP fetcher // objects may get destroyed before all callbacks are complete. TerminateProcessing(); return false; } return true; } void DownloadAction::TransferComplete(HttpFetcher* fetcher, bool successful) { if (delta_performer_) { LOG_IF(WARNING, delta_performer_->Close() != 0) << "Error closing the writer."; } download_active_ = false; ErrorCode code = successful ? ErrorCode::kSuccess : ErrorCode::kDownloadTransferError; if (code == ErrorCode::kSuccess) { if (delta_performer_ && !payload_->already_applied) code = delta_performer_->VerifyPayload(payload_->hash, payload_->size); if (code == ErrorCode::kSuccess) { CHECK_EQ(install_plan_.payloads.size(), 1UL); // All payloads have been applied and verified. if (delegate_) delegate_->DownloadComplete(); // Log UpdateEngine.DownloadAction.* histograms to help diagnose // long-blocking operations. std::string histogram_output; base::StatisticsRecorder::WriteGraph("UpdateEngine.DownloadAction.", &histogram_output); LOG(INFO) << histogram_output; } else { LOG(ERROR) << "Download of " << install_plan_.download_url << " failed due to payload verification error."; } } // Write the path to the output pipe if we're successful. if (code == ErrorCode::kSuccess && HasOutputPipe()) SetOutputObject(install_plan_); processor_->ActionComplete(this, code); } void DownloadAction::TransferTerminated(HttpFetcher* fetcher) { if (code_ != ErrorCode::kSuccess) { processor_->ActionComplete(this, code_); } else if (payload_->already_applied) { LOG(INFO) << "TransferTerminated with ErrorCode::kSuccess when the current " "payload has already applied, treating as TransferComplete."; TransferComplete(fetcher, true); } } } // namespace chromeos_update_engine