402 lines
16 KiB
C++
402 lines
16 KiB
C++
// Copyright (c) 2019 GitHub, Inc.
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// Use of this source code is governed by the MIT license that can be
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// found in the LICENSE file.
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#include "shell/browser/net/asar/asar_url_loader.h"
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#include <algorithm>
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#include <memory>
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#include <string>
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#include <utility>
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#include <vector>
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#include "base/strings/stringprintf.h"
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#include "base/task/thread_pool.h"
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#include "content/public/browser/file_url_loader.h"
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#include "electron/fuses.h"
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#include "mojo/public/cpp/bindings/receiver.h"
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#include "mojo/public/cpp/bindings/remote.h"
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#include "mojo/public/cpp/system/data_pipe_producer.h"
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#include "mojo/public/cpp/system/file_data_source.h"
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#include "net/base/filename_util.h"
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#include "net/base/mime_sniffer.h"
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#include "net/base/mime_util.h"
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#include "net/http/http_byte_range.h"
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#include "net/http/http_util.h"
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#include "services/network/public/mojom/url_response_head.mojom.h"
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#include "shell/browser/net/asar/asar_file_validator.h"
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#include "shell/common/asar/archive.h"
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#include "shell/common/asar/asar_util.h"
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namespace asar {
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namespace {
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net::Error ConvertMojoResultToNetError(MojoResult result) {
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switch (result) {
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case MOJO_RESULT_OK:
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return net::OK;
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case MOJO_RESULT_NOT_FOUND:
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return net::ERR_FILE_NOT_FOUND;
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case MOJO_RESULT_PERMISSION_DENIED:
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return net::ERR_ACCESS_DENIED;
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case MOJO_RESULT_RESOURCE_EXHAUSTED:
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return net::ERR_INSUFFICIENT_RESOURCES;
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case MOJO_RESULT_ABORTED:
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return net::ERR_ABORTED;
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default:
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return net::ERR_FAILED;
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}
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}
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constexpr size_t kDefaultFileUrlPipeSize = 65536;
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// Because this makes things simpler.
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static_assert(kDefaultFileUrlPipeSize >= net::kMaxBytesToSniff,
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"Default file data pipe size must be at least as large as a MIME-"
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"type sniffing buffer.");
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// Modified from the |FileURLLoader| in |file_url_loader_factory.cc|, to serve
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// asar files instead of normal files.
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class AsarURLLoader : public network::mojom::URLLoader {
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public:
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static void CreateAndStart(
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const network::ResourceRequest& request,
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mojo::PendingReceiver<network::mojom::URLLoader> loader,
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mojo::PendingRemote<network::mojom::URLLoaderClient> client,
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scoped_refptr<net::HttpResponseHeaders> extra_response_headers) {
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// Owns itself. Will live as long as its URLLoader and URLLoaderClientPtr
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// bindings are alive - essentially until either the client gives up or all
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// file data has been sent to it.
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auto* asar_url_loader = new AsarURLLoader;
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asar_url_loader->Start(request, std::move(loader), std::move(client),
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std::move(extra_response_headers));
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}
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// network::mojom::URLLoader:
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void FollowRedirect(
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const std::vector<std::string>& removed_headers,
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const net::HttpRequestHeaders& modified_headers,
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const net::HttpRequestHeaders& modified_cors_exempt_headers,
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const absl::optional<GURL>& new_url) override {}
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void SetPriority(net::RequestPriority priority,
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int32_t intra_priority_value) override {}
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void PauseReadingBodyFromNet() override {}
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void ResumeReadingBodyFromNet() override {}
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// disable copy
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AsarURLLoader(const AsarURLLoader&) = delete;
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AsarURLLoader& operator=(const AsarURLLoader&) = delete;
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private:
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AsarURLLoader() = default;
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~AsarURLLoader() override = default;
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void Start(const network::ResourceRequest& request,
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mojo::PendingReceiver<network::mojom::URLLoader> loader,
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mojo::PendingRemote<network::mojom::URLLoaderClient> client,
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scoped_refptr<net::HttpResponseHeaders> extra_response_headers) {
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auto head = network::mojom::URLResponseHead::New();
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head->request_start = base::TimeTicks::Now();
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head->response_start = base::TimeTicks::Now();
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head->headers = extra_response_headers;
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base::FilePath path;
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if (!net::FileURLToFilePath(request.url, &path)) {
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mojo::Remote<network::mojom::URLLoaderClient> client_remote(
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std::move(client));
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client_remote->OnComplete(
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network::URLLoaderCompletionStatus(net::ERR_FAILED));
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MaybeDeleteSelf();
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return;
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}
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// Determine whether it is an asar file.
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base::FilePath asar_path, relative_path;
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if (!GetAsarArchivePath(path, &asar_path, &relative_path)) {
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content::CreateFileURLLoaderBypassingSecurityChecks(
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request, std::move(loader), std::move(client), nullptr, false,
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extra_response_headers);
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MaybeDeleteSelf();
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return;
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}
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client_.Bind(std::move(client));
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receiver_.Bind(std::move(loader));
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receiver_.set_disconnect_handler(base::BindOnce(
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&AsarURLLoader::OnConnectionError, base::Unretained(this)));
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// Parse asar archive.
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std::shared_ptr<Archive> archive = GetOrCreateAsarArchive(asar_path);
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Archive::FileInfo info;
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if (!archive || !archive->GetFileInfo(relative_path, &info)) {
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OnClientComplete(net::ERR_FILE_NOT_FOUND);
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return;
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}
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bool is_verifying_file = info.integrity.has_value();
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// For unpacked path, read like normal file.
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base::FilePath real_path;
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if (info.unpacked) {
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archive->CopyFileOut(relative_path, &real_path);
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info.offset = 0;
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}
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mojo::ScopedDataPipeProducerHandle producer_handle;
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mojo::ScopedDataPipeConsumerHandle consumer_handle;
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if (mojo::CreateDataPipe(kDefaultFileUrlPipeSize, producer_handle,
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consumer_handle) != MOJO_RESULT_OK) {
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OnClientComplete(net::ERR_FAILED);
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return;
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}
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// Note that while the |Archive| already opens a |base::File|, we still need
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// to create a new |base::File| here, as it might be accessed by multiple
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// requests at the same time.
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base::File file(info.unpacked ? real_path : archive->path(),
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base::File::FLAG_OPEN | base::File::FLAG_READ);
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auto file_data_source =
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std::make_unique<mojo::FileDataSource>(file.Duplicate());
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std::unique_ptr<mojo::DataPipeProducer::DataSource> readable_data_source;
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mojo::FileDataSource* file_data_source_raw = file_data_source.get();
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AsarFileValidator* file_validator_raw = nullptr;
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uint32_t block_size = 0;
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if (info.integrity.has_value()) {
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block_size = info.integrity.value().block_size;
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auto asar_validator = std::make_unique<AsarFileValidator>(
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std::move(info.integrity.value()), std::move(file));
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file_validator_raw = asar_validator.get();
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readable_data_source.reset(new mojo::FilteredDataSource(
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std::move(file_data_source), std::move(asar_validator)));
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} else {
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readable_data_source = std::move(file_data_source);
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}
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std::vector<char> initial_read_buffer(
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std::min(static_cast<uint32_t>(net::kMaxBytesToSniff), info.size));
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auto read_result = readable_data_source.get()->Read(
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info.offset, base::span<char>(initial_read_buffer));
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if (read_result.result != MOJO_RESULT_OK) {
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OnClientComplete(ConvertMojoResultToNetError(read_result.result));
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return;
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}
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std::string range_header;
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net::HttpByteRange byte_range;
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if (request.headers.GetHeader(net::HttpRequestHeaders::kRange,
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&range_header)) {
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// Handle a simple Range header for a single range.
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std::vector<net::HttpByteRange> ranges;
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bool fail = false;
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if (net::HttpUtil::ParseRangeHeader(range_header, &ranges) &&
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ranges.size() == 1) {
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byte_range = ranges[0];
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if (!byte_range.ComputeBounds(info.size))
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fail = true;
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} else {
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fail = true;
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}
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if (fail) {
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OnClientComplete(net::ERR_REQUEST_RANGE_NOT_SATISFIABLE);
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return;
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}
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}
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uint64_t first_byte_to_send = 0;
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uint64_t total_bytes_dropped_from_head = initial_read_buffer.size();
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uint64_t total_bytes_to_send = info.size;
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if (byte_range.IsValid()) {
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first_byte_to_send = byte_range.first_byte_position();
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total_bytes_to_send =
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byte_range.last_byte_position() - first_byte_to_send + 1;
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}
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total_bytes_written_ = total_bytes_to_send;
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head->content_length = base::saturated_cast<int64_t>(total_bytes_to_send);
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if (first_byte_to_send < read_result.bytes_read) {
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// Write any data we read for MIME sniffing, constraining by range where
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// applicable. This will always fit in the pipe (see assertion near
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// |kDefaultFileUrlPipeSize| definition).
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uint32_t write_size = std::min(
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static_cast<uint32_t>(read_result.bytes_read - first_byte_to_send),
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static_cast<uint32_t>(total_bytes_to_send));
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const uint32_t expected_write_size = write_size;
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MojoResult result =
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producer_handle->WriteData(&initial_read_buffer[first_byte_to_send],
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&write_size, MOJO_WRITE_DATA_FLAG_NONE);
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if (result != MOJO_RESULT_OK || write_size != expected_write_size) {
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OnFileWritten(result);
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return;
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}
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// Discount the bytes we just sent from the total range.
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first_byte_to_send = read_result.bytes_read;
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total_bytes_to_send -= write_size;
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} else if (is_verifying_file &&
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first_byte_to_send >= static_cast<uint64_t>(block_size)) {
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// If validation is active and the range of bytes the request wants starts
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// beyond the first block we need to read the next 4MB-1KB to validate
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// that block. Then we can skip ahead to the target block in the SetRange
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// call below If we hit this case it is assumed that none of the data read
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// will be needed by the producer
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uint64_t bytes_to_drop = block_size - net::kMaxBytesToSniff;
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total_bytes_dropped_from_head += bytes_to_drop;
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std::vector<char> abandoned_buffer(bytes_to_drop);
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auto abandon_read_result =
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readable_data_source.get()->Read(info.offset + net::kMaxBytesToSniff,
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base::span<char>(abandoned_buffer));
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if (abandon_read_result.result != MOJO_RESULT_OK) {
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OnClientComplete(
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ConvertMojoResultToNetError(abandon_read_result.result));
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return;
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}
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}
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if (!net::GetMimeTypeFromFile(path, &head->mime_type)) {
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std::string new_type;
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net::SniffMimeType(
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base::StringPiece(initial_read_buffer.data(), read_result.bytes_read),
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request.url, head->mime_type,
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net::ForceSniffFileUrlsForHtml::kDisabled, &new_type);
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head->mime_type.assign(new_type);
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head->did_mime_sniff = true;
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}
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if (head->headers) {
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head->headers->AddHeader(net::HttpRequestHeaders::kContentType,
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head->mime_type.c_str());
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}
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client_->OnReceiveResponse(std::move(head), std::move(consumer_handle));
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if (total_bytes_to_send == 0) {
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// There's definitely no more data, so we're already done.
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// We provide the range data to the file validator so that
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// it can validate the tiny amount of data we did send
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if (file_validator_raw)
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file_validator_raw->SetRange(info.offset + first_byte_to_send,
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total_bytes_dropped_from_head,
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info.offset + info.size);
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OnFileWritten(MOJO_RESULT_OK);
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return;
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}
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if (is_verifying_file) {
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int start_block = first_byte_to_send / block_size;
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// If we're starting from the first block, we might not be starting from
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// where we sniffed. We might be a few KB into a file so we need to read
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// the data in the middle so it gets hashed.
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//
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// If we're starting from a later block we might be starting half-way
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// through the block regardless of what was sniffed. We need to read the
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// data from the start of our initial block up to the start of our actual
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// read point so it gets hashed.
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uint64_t bytes_to_drop =
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start_block == 0 ? first_byte_to_send - net::kMaxBytesToSniff
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: first_byte_to_send - (start_block * block_size);
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if (file_validator_raw)
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file_validator_raw->SetCurrentBlock(start_block);
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if (bytes_to_drop > 0) {
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uint64_t dropped_bytes_offset =
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info.offset + (start_block * block_size);
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if (start_block == 0)
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dropped_bytes_offset += net::kMaxBytesToSniff;
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total_bytes_dropped_from_head += bytes_to_drop;
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std::vector<char> abandoned_buffer(bytes_to_drop);
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auto abandon_read_result = readable_data_source.get()->Read(
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dropped_bytes_offset, base::span<char>(abandoned_buffer));
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if (abandon_read_result.result != MOJO_RESULT_OK) {
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OnClientComplete(
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ConvertMojoResultToNetError(abandon_read_result.result));
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return;
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}
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}
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}
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// In case of a range request, seek to the appropriate position before
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// sending the remaining bytes asynchronously. Under normal conditions
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// (i.e., no range request) this Seek is effectively a no-op.
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//
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// Note that in Electron we also need to add file offset.
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file_data_source_raw->SetRange(
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first_byte_to_send + info.offset,
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first_byte_to_send + info.offset + total_bytes_to_send);
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if (file_validator_raw)
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file_validator_raw->SetRange(info.offset + first_byte_to_send,
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total_bytes_dropped_from_head,
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info.offset + info.size);
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data_producer_ =
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std::make_unique<mojo::DataPipeProducer>(std::move(producer_handle));
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data_producer_->Write(
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std::move(readable_data_source),
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base::BindOnce(&AsarURLLoader::OnFileWritten, base::Unretained(this)));
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}
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void OnConnectionError() {
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receiver_.reset();
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MaybeDeleteSelf();
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}
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void OnClientComplete(net::Error net_error) {
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client_->OnComplete(network::URLLoaderCompletionStatus(net_error));
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client_.reset();
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MaybeDeleteSelf();
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}
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void MaybeDeleteSelf() {
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if (!receiver_.is_bound() && !client_.is_bound())
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delete this;
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}
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void OnFileWritten(MojoResult result) {
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// All the data has been written now. Close the data pipe. The consumer will
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// be notified that there will be no more data to read from now.
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data_producer_.reset();
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if (result == MOJO_RESULT_OK) {
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network::URLLoaderCompletionStatus status(net::OK);
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status.encoded_data_length = total_bytes_written_;
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status.encoded_body_length = total_bytes_written_;
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status.decoded_body_length = total_bytes_written_;
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client_->OnComplete(status);
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} else {
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client_->OnComplete(network::URLLoaderCompletionStatus(net::ERR_FAILED));
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}
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client_.reset();
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MaybeDeleteSelf();
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}
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std::unique_ptr<mojo::DataPipeProducer> data_producer_;
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mojo::Receiver<network::mojom::URLLoader> receiver_{this};
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mojo::Remote<network::mojom::URLLoaderClient> client_;
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// In case of successful loads, this holds the total number of bytes written
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// to the response (this may be smaller than the total size of the file when
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// a byte range was requested).
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// It is used to set some of the URLLoaderCompletionStatus data passed back
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// to the URLLoaderClients (eg SimpleURLLoader).
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size_t total_bytes_written_ = 0;
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};
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} // namespace
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void CreateAsarURLLoader(
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const network::ResourceRequest& request,
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mojo::PendingReceiver<network::mojom::URLLoader> loader,
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mojo::PendingRemote<network::mojom::URLLoaderClient> client,
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scoped_refptr<net::HttpResponseHeaders> extra_response_headers) {
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auto task_runner = base::ThreadPool::CreateSequencedTaskRunner(
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{base::MayBlock(), base::TaskPriority::USER_VISIBLE,
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base::TaskShutdownBehavior::SKIP_ON_SHUTDOWN});
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task_runner->PostTask(
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FROM_HERE,
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base::BindOnce(&AsarURLLoader::CreateAndStart, request, std::move(loader),
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std::move(client), std::move(extra_response_headers)));
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}
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} // namespace asar
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