blob: 9da925c4485e0ddc73867ddbcdcc0d7887106ae7 [file] [log] [blame]
// Copyright (c) 2011 The Chromium OS Authors. All rights reserved.
// Use of this source code is governed by a BSD-style license that can be
// found in the LICENSE file.
#include "update_engine/download_action.h"
#include <errno.h>
#include <algorithm>
#include <string>
#include <vector>
#include <glib.h>
#include "update_engine/action_pipe.h"
#include "update_engine/subprocess.h"
using std::min;
using std::string;
using std::vector;
namespace chromeos_update_engine {
// Use a buffer to reduce the number of IOPS on SSD devices.
const size_t kFileWriterBufferSize = 128 * 1024; // 128 KiB
DownloadAction::DownloadAction(PrefsInterface* prefs,
HttpFetcher* http_fetcher)
: prefs_(prefs),
writer_(NULL),
http_fetcher_(http_fetcher),
code_(kActionCodeSuccess),
delegate_(NULL),
bytes_received_(0) {}
DownloadAction::~DownloadAction() {}
void DownloadAction::PerformAction() {
http_fetcher_->set_delegate(this);
// Get the InstallPlan and read it
CHECK(HasInputObject());
install_plan_ = GetInputObject();
bytes_received_ = 0;
install_plan_.Dump();
if (writer_) {
LOG(INFO) << "Using writer for test.";
} else {
if (install_plan_.is_full_update) {
kernel_file_writer_.reset(new DirectFileWriter);
rootfs_file_writer_.reset(new DirectFileWriter);
kernel_buffered_file_writer_.reset(
new BufferedFileWriter(kernel_file_writer_.get(),
kFileWriterBufferSize));
rootfs_buffered_file_writer_.reset(
new BufferedFileWriter(rootfs_file_writer_.get(),
kFileWriterBufferSize));
split_file_writer_.reset(
new SplitFileWriter(kernel_buffered_file_writer_.get(),
rootfs_buffered_file_writer_.get()));
split_file_writer_->SetFirstOpenArgs(
install_plan_.kernel_install_path.c_str(),
O_WRONLY | O_CREAT | O_TRUNC | O_LARGEFILE,
0644);
decompressing_file_writer_.reset(
new GzipDecompressingFileWriter(split_file_writer_.get()));
writer_ = decompressing_file_writer_.get();
} else {
delta_performer_.reset(new DeltaPerformer(prefs_));
delta_performer_->set_current_kernel_hash(install_plan_.kernel_hash);
delta_performer_->set_current_rootfs_hash(install_plan_.rootfs_hash);
writer_ = delta_performer_.get();
}
}
int rc = writer_->Open(install_plan_.install_path.c_str(),
O_TRUNC | O_WRONLY | O_CREAT | O_LARGEFILE,
0644);
if (rc < 0) {
LOG(ERROR) << "Unable to open output file " << install_plan_.install_path;
// report error to processor
processor_->ActionComplete(this, kActionCodeInstallDeviceOpenError);
return;
}
if (!install_plan_.is_full_update) {
if (!delta_performer_->OpenKernel(
install_plan_.kernel_install_path.c_str())) {
LOG(ERROR) << "Unable to open kernel file "
<< install_plan_.kernel_install_path.c_str();
writer_->Close();
processor_->ActionComplete(this, kActionCodeKernelDeviceOpenError);
return;
}
}
if (delegate_) {
delegate_->SetDownloadStatus(true); // Set to active.
}
http_fetcher_->BeginTransfer(install_plan_.download_url);
}
void DownloadAction::TerminateProcessing() {
if (writer_) {
LOG_IF(WARNING, writer_->Close() != 0) << "Error closing the writer.";
writer_ = NULL;
}
if (delegate_) {
delegate_->SetDownloadStatus(false); // Set to inactive.
}
// 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;
}
void DownloadAction::ReceivedBytes(HttpFetcher *fetcher,
const char* bytes,
int length) {
bytes_received_ += length;
if (delegate_)
delegate_->BytesReceived(bytes_received_, install_plan_.size);
if (writer_ && writer_->Write(bytes, length) < 0) {
LOG(ERROR) << "Write error -- 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.
code_ = kActionCodeDownloadWriteError;
TerminateProcessing();
return;
}
// DeltaPerformer checks the hashes for delta updates.
if (install_plan_.is_full_update) {
omaha_hash_calculator_.Update(bytes, length);
}
}
namespace {
void FlushLinuxCaches() {
vector<string> command;
command.push_back("/bin/sync");
int rc;
LOG(INFO) << "FlushLinuxCaches-sync...";
Subprocess::SynchronousExec(command, &rc, NULL);
LOG(INFO) << "FlushLinuxCaches-drop_caches...";
const char* const drop_cmd = "3\n";
utils::WriteFile("/proc/sys/vm/drop_caches", drop_cmd, strlen(drop_cmd));
LOG(INFO) << "FlushLinuxCaches done.";
}
}
void DownloadAction::TransferComplete(HttpFetcher *fetcher, bool successful) {
if (writer_) {
LOG_IF(WARNING, writer_->Close() != 0) << "Error closing the writer.";
writer_ = NULL;
}
if (delegate_) {
delegate_->SetDownloadStatus(false); // Set to inactive.
}
ActionExitCode code =
successful ? kActionCodeSuccess : kActionCodeDownloadTransferError;
if (code == kActionCodeSuccess) {
if (!install_plan_.is_full_update) {
code = delta_performer_->VerifyPayload("",
install_plan_.download_hash,
install_plan_.size);
if (code != kActionCodeSuccess) {
LOG(ERROR) << "Download of " << install_plan_.download_url
<< " failed due to payload verification error.";
} else if (!delta_performer_->GetNewPartitionInfo(
&install_plan_.kernel_size,
&install_plan_.kernel_hash,
&install_plan_.rootfs_size,
&install_plan_.rootfs_hash)) {
LOG(ERROR) << "Unable to get new partition hash info.";
code = kActionCodeDownloadNewPartitionInfoError;
}
} else {
// Makes sure the hash and size are correct for an old-style full update.
omaha_hash_calculator_.Finalize();
if (omaha_hash_calculator_.hash() != install_plan_.download_hash) {
LOG(ERROR) << "Download of " << install_plan_.download_url
<< " failed. Expected hash " << install_plan_.download_hash
<< " but got hash " << omaha_hash_calculator_.hash();
code = kActionCodeDownloadHashMismatchError;
} else if (bytes_received_ != install_plan_.size) {
LOG(ERROR) << "Download of " << install_plan_.download_url
<< " failed. Expected size " << install_plan_.size
<< " but got size " << bytes_received_;
code = kActionCodeDownloadSizeMismatchError;
}
}
}
FlushLinuxCaches();
// Write the path to the output pipe if we're successful.
if (code == kActionCodeSuccess && HasOutputPipe())
SetOutputObject(install_plan_);
processor_->ActionComplete(this, code);
}
void DownloadAction::TransferTerminated(HttpFetcher *fetcher) {
if (code_ != kActionCodeSuccess) {
processor_->ActionComplete(this, code_);
}
}
}; // namespace {}