google_apis/drive/drive_base_requests.cc - chromium/src - Git at Google

 // Copyright 2021 The Chromium Authors
 // Use of this source code is governed by a BSD-style license that can be
 // found in the LICENSE file.

 #include "google_apis/drive/drive_base_requests.h"

 #include <stddef.h>

 #include <algorithm>
 #include <memory>
 #include <utility>

 #include "base/containers/contains.h"
 #include "base/files/file_util.h"
 #include "base/functional/bind.h"
 #include "base/json/json_reader.h"
 #include "base/json/json_writer.h"
 #include "base/location.h"
 #include "base/strings/string_number_conversions.h"
 #include "base/strings/stringprintf.h"
 #include "base/task/sequenced_task_runner.h"
 #include "base/values.h"
 #include "google_apis/common/base_requests.h"
 #include "google_apis/common/request_sender.h"
 #include "google_apis/common/task_util.h"
 #include "google_apis/common/time_util.h"
 #include "google_apis/drive/drive_api_parser.h"
 #include "google_apis/drive/request_util.h"
 #include "net/base/load_flags.h"
 #include "net/base/mime_util.h"
 #include "net/http/http_util.h"
 #include "services/network/public/cpp/resource_request.h"
 #include "services/network/public/mojom/url_response_head.mojom.h"

 namespace {

 // Template for initiate upload of both GData WAPI and Drive API v2.
 const char kUploadContentType[] = "X-Upload-Content-Type: ";
 const char kUploadContentLength[] = "X-Upload-Content-Length: ";
 const char kUploadResponseLocation[] = "location";

 // Template for upload data range of both GData WAPI and Drive API v2.
 const char kUploadContentRange[] = "Content-Range: bytes ";
 const char kUploadResponseRange[] = "range";

 // Mime type of JSON.
 const char kJsonMimeType[] = "application/json";

 // Mime type of multipart related.
 const char kMultipartRelatedMimeTypePrefix[] = "multipart/related; boundary=";

 // Mime type of multipart mixed.
 const char kMultipartMixedMimeTypePrefix[] = "multipart/mixed; boundary=";

 // Header for each item in a multipart message.
 const char kMultipartItemHeaderFormat[] = "--%s\nContent-Type: %s\n\n";

 // Footer for whole multipart message.
 const char kMultipartFooterFormat[] = "--%s--";

 // Parses JSON passed in |json| on |blocking_task_runner|. Runs |callback| on
 // the calling thread when finished with either success or failure.
 // The callback must not be null.
 void ParseJsonOnBlockingPool(
     base::TaskRunner* blocking_task_runner,
     std::string json,
     base::OnceCallback<void(std::unique_ptr<base::Value> value)> callback) {
   blocking_task_runner->PostTaskAndReplyWithResult(
       FROM_HERE, base::BindOnce(&google_apis::ParseJson, std::move(json)),
       std::move(callback));
 }

 // Obtains the multipart body for the metadata string and file contents. If
 // predetermined_boundary is empty, the function generates the boundary string.
 bool GetMultipartContent(const std::string& predetermined_boundary,
                          const std::string& metadata_json,
                          const std::string& content_type,
                          const base::FilePath& path,
                          std::string* upload_content_type,
                          std::string* upload_content_data) {
   std::vector<google_apis::ContentTypeAndData> parts(2);
   parts[0].type = kJsonMimeType;
   parts[0].data = metadata_json;
   parts[1].type = content_type;
   if (!ReadFileToString(path, &parts[1].data))
     return false;

   google_apis::ContentTypeAndData output;
   GenerateMultipartBody(google_apis::MultipartType::kRelated,
                         predetermined_boundary, parts, &output, nullptr);
   upload_content_type->swap(output.type);
   upload_content_data->swap(output.data);
   return true;
 }

 // See https://developers.google.com/drive/handle-errors
 google_apis::ApiErrorCode MapDriveReasonToError(google_apis::ApiErrorCode code,
                                                 const std::string& reason) {
   const char kErrorReasonRateLimitExceeded[] = "rateLimitExceeded";
   const char kErrorReasonUserRateLimitExceeded[] = "userRateLimitExceeded";
   const char kErrorReasonQuotaExceeded[] = "quotaExceeded";
   const char kErrorReasonResponseTooLarge[] = "responseTooLarge";

   if (reason == kErrorReasonRateLimitExceeded ||
       reason == kErrorReasonUserRateLimitExceeded) {
     return google_apis::HTTP_SERVICE_UNAVAILABLE;
   }
   if (reason == kErrorReasonQuotaExceeded)
     return google_apis::DRIVE_NO_SPACE;
   if (reason == kErrorReasonResponseTooLarge)
     return google_apis::DRIVE_RESPONSE_TOO_LARGE;
   return code;
 }

 }  // namespace

 namespace google_apis {

 void GenerateMultipartBody(MultipartType multipart_type,
                            const std::string& predetermined_boundary,
                            const std::vector<ContentTypeAndData>& parts,
                            ContentTypeAndData* output,
                            std::vector<uint64_t>* data_offset) {
   std::string boundary;
   // Generate random boundary.
   if (predetermined_boundary.empty()) {
     while (true) {
       boundary = net::GenerateMimeMultipartBoundary();
       bool conflict_with_content = false;
       for (const auto& part : parts) {
         if (base::Contains(part.data, boundary)) {
           conflict_with_content = true;
           break;
         }
       }
       if (!conflict_with_content)
         break;
     }
   } else {
     boundary = predetermined_boundary;
   }

   switch (multipart_type) {
     case MultipartType::kRelated:
       output->type = kMultipartRelatedMimeTypePrefix + boundary;
       break;
     case MultipartType::kMixed:
       output->type = kMultipartMixedMimeTypePrefix + boundary;
       break;
   }

   output->data.clear();
   if (data_offset)
     data_offset->clear();
   for (const auto& part : parts) {
     output->data.append(base::StringPrintf(
         kMultipartItemHeaderFormat, boundary.c_str(), part.type.c_str()));
     if (data_offset)
       data_offset->push_back(output->data.size());
     output->data.append(part.data);
     output->data.append("\n");
   }
   output->data.append(
       base::StringPrintf(kMultipartFooterFormat, boundary.c_str()));
 }

 //========================== DriveUrlFetchRequestBase ======================
 DriveUrlFetchRequestBase::DriveUrlFetchRequestBase(
     RequestSender* sender,
     ProgressCallback upload_progress_callback,
     ProgressCallback download_progress_callback)
     : UrlFetchRequestBase(sender,
                           upload_progress_callback,
                           download_progress_callback) {}

 DriveUrlFetchRequestBase::~DriveUrlFetchRequestBase() = default;

 ApiErrorCode DriveUrlFetchRequestBase::MapReasonToError(
     ApiErrorCode code,
     const std::string& reason) {
   return MapDriveReasonToError(code, reason);
 }

 bool DriveUrlFetchRequestBase::IsSuccessfulErrorCode(ApiErrorCode error) {
   return IsSuccessfulDriveApiErrorCode(error);
 }

 //============================ EntryActionRequest ============================

 EntryActionRequest::EntryActionRequest(RequestSender* sender,
                                        EntryActionCallback callback)
     : DriveUrlFetchRequestBase(sender, ProgressCallback(), ProgressCallback()),
       callback_(std::move(callback)) {
   DCHECK(callback_);
 }

 EntryActionRequest::~EntryActionRequest() = default;

 void EntryActionRequest::ProcessURLFetchResults(
     const network::mojom::URLResponseHead* response_head,
     base::FilePath response_file,
     std::string response_body) {
   std::move(callback_).Run(GetErrorCode());
   OnProcessURLFetchResultsComplete();
 }

 void EntryActionRequest::RunCallbackOnPrematureFailure(ApiErrorCode code) {
   std::move(callback_).Run(code);
 }

 //========================= InitiateUploadRequestBase ========================

 InitiateUploadRequestBase::InitiateUploadRequestBase(
     RequestSender* sender,
     InitiateUploadCallback callback,
     const std::string& content_type,
     int64_t content_length)
     : DriveUrlFetchRequestBase(sender, ProgressCallback(), ProgressCallback()),
       callback_(std::move(callback)),
       content_type_(content_type),
       content_length_(content_length) {
   DCHECK(!callback_.is_null());
   DCHECK(!content_type_.empty());
   DCHECK_GE(content_length_, 0);
 }

 InitiateUploadRequestBase::~InitiateUploadRequestBase() = default;

 void InitiateUploadRequestBase::ProcessURLFetchResults(
     const network::mojom::URLResponseHead* response_head,
     base::FilePath response_file,
     std::string response_body) {
   std::string upload_location;
   if (GetErrorCode() == HTTP_SUCCESS) {
     // Retrieve value of the first "Location" header.
     response_head->headers->EnumerateHeader(nullptr, kUploadResponseLocation,
                                             &upload_location);
   }

   std::move(callback_).Run(GetErrorCode(), GURL(upload_location));
   OnProcessURLFetchResultsComplete();
 }

 void InitiateUploadRequestBase::RunCallbackOnPrematureFailure(
     ApiErrorCode code) {
   std::move(callback_).Run(code, GURL());
 }

 std::vector<std::string> InitiateUploadRequestBase::GetExtraRequestHeaders()
     const {
   std::vector<std::string> headers;
   headers.push_back(kUploadContentType + content_type_);
   headers.push_back(kUploadContentLength +
                     base::NumberToString(content_length_));
   return headers;
 }

 //============================ UploadRangeResponse =============================

 UploadRangeResponse::UploadRangeResponse() = default;

 UploadRangeResponse::UploadRangeResponse(ApiErrorCode code,
                                          int64_t start_position_received,
                                          int64_t end_position_received)
     : code(code),
       start_position_received(start_position_received),
       end_position_received(end_position_received) {}

 UploadRangeResponse::~UploadRangeResponse() = default;

 //========================== UploadRangeRequestBase ==========================

 UploadRangeRequestBase::UploadRangeRequestBase(
     RequestSender* sender,
     const GURL& upload_url,
     ProgressCallback progress_callback)
     : DriveUrlFetchRequestBase(sender, progress_callback, ProgressCallback()),
       upload_url_(upload_url) {}

 UploadRangeRequestBase::~UploadRangeRequestBase() = default;

 GURL UploadRangeRequestBase::GetURL() const {
   // This is very tricky to get json from this request. To do that, &alt=json
   // has to be appended not here but in InitiateUploadRequestBase::GetURL().
   return upload_url_;
 }

 HttpRequestMethod UploadRangeRequestBase::GetRequestType() const {
   return HttpRequestMethod::kPut;
 }

 void UploadRangeRequestBase::ProcessURLFetchResults(
     const network::mojom::URLResponseHead* response_head,
     base::FilePath response_file,
     std::string response_body) {
   ApiErrorCode code = GetErrorCode();
   if (code == HTTP_RESUME_INCOMPLETE) {
     // Retrieve value of the first "Range" header.
     // The Range header is appeared only if there is at least one received
     // byte. So, initialize the positions by 0 so that the [0,0) will be
     // returned via the |callback_| for empty data case.
     int64_t start_position_received = 0;
     int64_t end_position_received = 0;
     std::string range_received;
     response_head->headers->EnumerateHeader(nullptr, kUploadResponseRange,
                                             &range_received);
     if (!range_received.empty()) {  // Parse the range header.
       std::vector<net::HttpByteRange> ranges;
       if (net::HttpUtil::ParseRangeHeader(range_received, &ranges) &&
           !ranges.empty()) {
         // We only care about the first start-end pair in the range.
         //
         // Range header represents the range inclusively, while we are treating
         // ranges exclusively (i.e., end_position_received should be one passed
         // the last valid index). So "+ 1" is added.
         start_position_received = ranges[0].first_byte_position();
         end_position_received = ranges[0].last_byte_position() + 1;
       }
     }
     // The Range header has the received data range, so the start position
     // should be always 0.
     DCHECK_EQ(start_position_received, 0);

     OnRangeRequestComplete(UploadRangeResponse(code, start_position_received,
                                                end_position_received),
                            std::unique_ptr<base::Value>());

     OnProcessURLFetchResultsComplete();
   } else if (code == HTTP_CREATED || code == HTTP_SUCCESS) {
     // The upload is successfully done. Parse the response which should be
     // the entry's metadata.
     ParseJsonOnBlockingPool(
         blocking_task_runner(), std::move(response_body),
         base::BindOnce(&UploadRangeRequestBase::OnDataParsed,
                        weak_ptr_factory_.GetWeakPtr(), code));
   } else {
     // Failed to upload. Run callbacks to notify the error.
     OnRangeRequestComplete(UploadRangeResponse(code, -1, -1),
                            std::unique_ptr<base::Value>());
     OnProcessURLFetchResultsComplete();
   }
 }

 void UploadRangeRequestBase::OnDataParsed(ApiErrorCode code,
                                           std::unique_ptr<base::Value> value) {
   DCHECK(CalledOnValidThread());
   DCHECK(code == HTTP_CREATED || code == HTTP_SUCCESS);

   OnRangeRequestComplete(UploadRangeResponse(code, -1, -1), std::move(value));
   OnProcessURLFetchResultsComplete();
 }

 void UploadRangeRequestBase::RunCallbackOnPrematureFailure(ApiErrorCode code) {
   OnRangeRequestComplete(UploadRangeResponse(code, 0, 0),
                          std::unique_ptr<base::Value>());
 }

 //========================== ResumeUploadRequestBase =========================

 ResumeUploadRequestBase::ResumeUploadRequestBase(
     RequestSender* sender,
     const GURL& upload_location,
     int64_t start_position,
     int64_t end_position,
     int64_t content_length,
     const std::string& content_type,
     const base::FilePath& local_file_path,
     ProgressCallback progress_callback)
     : UploadRangeRequestBase(sender, upload_location, progress_callback),
       start_position_(start_position),
       end_position_(end_position),
       content_length_(content_length),
       content_type_(content_type),
       local_file_path_(local_file_path) {
   DCHECK_LE(start_position_, end_position_);
 }

 ResumeUploadRequestBase::~ResumeUploadRequestBase() = default;

 std::vector<std::string> ResumeUploadRequestBase::GetExtraRequestHeaders()
     const {
   if (content_length_ == 0) {
     // For uploading an empty document, just PUT an empty content.
     DCHECK_EQ(start_position_, 0);
     DCHECK_EQ(end_position_, 0);
     return std::vector<std::string>();
   }

   // The header looks like
   // Content-Range: bytes <start_position>-<end_position>/<content_length>
   // for example:
   // Content-Range: bytes 7864320-8388607/13851821
   // The header takes inclusive range, so we adjust by "end_position - 1".
   DCHECK_GE(start_position_, 0);
   DCHECK_GT(end_position_, 0);
   DCHECK_GE(content_length_, 0);

   std::vector<std::string> headers;
   headers.push_back(std::string(kUploadContentRange) +
                     base::NumberToString(start_position_) + "-" +
                     base::NumberToString(end_position_ - 1) + "/" +
                     base::NumberToString(content_length_));
   return headers;
 }

 bool ResumeUploadRequestBase::GetContentFile(base::FilePath* local_file_path,
                                              int64_t* range_offset,
                                              int64_t* range_length,
                                              std::string* upload_content_type) {
   if (start_position_ == end_position_) {
     // No content data.
     return false;
   }

   *local_file_path = local_file_path_;
   *range_offset = start_position_;
   *range_length = end_position_ - start_position_;
   *upload_content_type = content_type_;
   return true;
 }

 //======================== GetUploadStatusRequestBase ========================

 GetUploadStatusRequestBase::GetUploadStatusRequestBase(RequestSender* sender,
                                                        const GURL& upload_url,
                                                        int64_t content_length)
     : UploadRangeRequestBase(sender, upload_url, ProgressCallback()),
       content_length_(content_length) {}

 GetUploadStatusRequestBase::~GetUploadStatusRequestBase() = default;

 std::vector<std::string> GetUploadStatusRequestBase::GetExtraRequestHeaders()
     const {
   // The header looks like
   // Content-Range: bytes */<content_length>
   // for example:
   // Content-Range: bytes */13851821
   DCHECK_GE(content_length_, 0);

   std::vector<std::string> headers;
   headers.push_back(std::string(kUploadContentRange) + "*/" +
                     base::NumberToString(content_length_));
   return headers;
 }

 //========================= MultipartUploadRequestBase ========================

 MultipartUploadRequestBase::MultipartUploadRequestBase(
     base::SequencedTaskRunner* blocking_task_runner,
     const std::string& metadata_json,
     const std::string& content_type,
     int64_t content_length,
     const base::FilePath& local_file_path,
     FileResourceCallback callback,
     ProgressCallback progress_callback)
     : blocking_task_runner_(blocking_task_runner),
       metadata_json_(metadata_json),
       content_type_(content_type),
       local_path_(local_file_path),
       callback_(std::move(callback)),
       progress_callback_(progress_callback) {
   DCHECK(!content_type.empty());
   DCHECK_GE(content_length, 0);
   DCHECK(!local_file_path.empty());
   DCHECK(!callback_.is_null());
 }

 MultipartUploadRequestBase::~MultipartUploadRequestBase() = default;

 std::vector<std::string> MultipartUploadRequestBase::GetExtraRequestHeaders()
     const {
   return std::vector<std::string>();
 }

 void MultipartUploadRequestBase::Prepare(PrepareCallback callback) {
   // If the request is cancelled, the request instance will be deleted in
   // |UrlFetchRequestBase::Cancel| and OnPrepareUploadContent won't be called.
   std::string* const upload_content_type = new std::string();
   std::string* const upload_content_data = new std::string();
   blocking_task_runner_->PostTaskAndReplyWithResult(
       FROM_HERE,
       base::BindOnce(&GetMultipartContent, boundary_, metadata_json_,
                      content_type_, local_path_,
                      base::Unretained(upload_content_type),
                      base::Unretained(upload_content_data)),
       base::BindOnce(&MultipartUploadRequestBase::OnPrepareUploadContent,
                      weak_ptr_factory_.GetWeakPtr(), std::move(callback),
                      base::Owned(upload_content_type),
                      base::Owned(upload_content_data)));
 }

 void MultipartUploadRequestBase::OnPrepareUploadContent(
     PrepareCallback callback,
     std::string* upload_content_type,
     std::string* upload_content_data,
     bool result) {
   if (!result) {
     std::move(callback).Run(DRIVE_FILE_ERROR);
     return;
   }
   upload_content_type_.swap(*upload_content_type);
   upload_content_data_.swap(*upload_content_data);
   std::move(callback).Run(HTTP_SUCCESS);
 }

 void MultipartUploadRequestBase::SetBoundaryForTesting(
     const std::string& boundary) {
   boundary_ = boundary;
 }

 bool MultipartUploadRequestBase::GetContentData(
     std::string* upload_content_type,
     std::string* upload_content_data) {
   // TODO(hirono): Pass stream instead of actual data to reduce memory usage.
   upload_content_type->swap(upload_content_type_);
   upload_content_data->swap(upload_content_data_);
   return true;
 }

 void MultipartUploadRequestBase::NotifyResult(
     ApiErrorCode code,
     const std::string& body,
     base::OnceClosure notify_complete_callback) {
   // The upload is successfully done. Parse the response which should be
   // the entry's metadata.
   if (code == HTTP_CREATED || code == HTTP_SUCCESS) {
     ParseJsonOnBlockingPool(
         blocking_task_runner_.get(), body,
         base::BindOnce(&MultipartUploadRequestBase::OnDataParsed,
                        weak_ptr_factory_.GetWeakPtr(), code,
                        std::move(notify_complete_callback)));
   } else {
     std::optional<std::string> reason = MapJsonErrorToReason(body);
     NotifyError(reason.has_value() ? MapDriveReasonToError(code, reason.value())
                                    : code);
     std::move(notify_complete_callback).Run();
   }
 }

 void MultipartUploadRequestBase::NotifyError(ApiErrorCode code) {
   std::move(callback_).Run(code, std::unique_ptr<FileResource>());
 }

 void MultipartUploadRequestBase::NotifyUploadProgress(int64_t current,
                                                       int64_t total) {
   if (!progress_callback_.is_null())
     progress_callback_.Run(current, total);
 }

 void MultipartUploadRequestBase::OnDataParsed(
     ApiErrorCode code,
     base::OnceClosure notify_complete_callback,
     std::unique_ptr<base::Value> value) {
   DCHECK_CALLED_ON_VALID_THREAD(thread_checker_);

   if (value)
     std::move(callback_).Run(code,
                              google_apis::FileResource::CreateFrom(*value));
   else
     NotifyError(PARSE_ERROR);
   std::move(notify_complete_callback).Run();
 }

 //============================ DownloadFileRequestBase =========================

 DownloadFileRequestBase::DownloadFileRequestBase(
     RequestSender* sender,
     DownloadActionCallback download_action_callback,
     const GetContentCallback& get_content_callback,
     ProgressCallback progress_callback,
     const GURL& download_url,
     const base::FilePath& output_file_path)
     : DriveUrlFetchRequestBase(sender, ProgressCallback(), progress_callback),
       download_action_callback_(std::move(download_action_callback)),
       get_content_callback_(get_content_callback),
       download_url_(download_url),
       output_file_path_(output_file_path) {
   DCHECK(!download_action_callback_.is_null());
   DCHECK(!output_file_path_.empty());
   // get_content_callback may be null.
 }

 DownloadFileRequestBase::~DownloadFileRequestBase() = default;

 // Overridden from UrlFetchRequestBase.
 GURL DownloadFileRequestBase::GetURL() const {
   return download_url_;
 }

 void DownloadFileRequestBase::GetOutputFilePath(
     base::FilePath* local_file_path,
     GetContentCallback* get_content_callback) {
   // Configure so that the downloaded content is saved to |output_file_path_|.
   *local_file_path = output_file_path_;
   *get_content_callback = get_content_callback_;
 }

 void DownloadFileRequestBase::ProcessURLFetchResults(
     const network::mojom::URLResponseHead* response_head,
     base::FilePath response_file,
     std::string response_body) {
   std::move(download_action_callback_).Run(GetErrorCode(), response_file);
   OnProcessURLFetchResultsComplete();
 }

 void DownloadFileRequestBase::RunCallbackOnPrematureFailure(ApiErrorCode code) {
   std::move(download_action_callback_).Run(code, base::FilePath());
 }

 }  // namespace google_apis
	// Copyright 2021 The Chromium Authors
	// Use of this source code is governed by a BSD-style license that can be
	// found in the LICENSE file.

	#include "google_apis/drive/drive_base_requests.h"

	#include <stddef.h>

	#include <algorithm>
	#include <memory>
	#include <utility>

	#include "base/containers/contains.h"
	#include "base/files/file_util.h"
	#include "base/functional/bind.h"
	#include "base/json/json_reader.h"
	#include "base/json/json_writer.h"
	#include "base/location.h"
	#include "base/strings/string_number_conversions.h"
	#include "base/strings/stringprintf.h"
	#include "base/task/sequenced_task_runner.h"
	#include "base/values.h"
	#include "google_apis/common/base_requests.h"
	#include "google_apis/common/request_sender.h"
	#include "google_apis/common/task_util.h"
	#include "google_apis/common/time_util.h"
	#include "google_apis/drive/drive_api_parser.h"
	#include "google_apis/drive/request_util.h"
	#include "net/base/load_flags.h"
	#include "net/base/mime_util.h"
	#include "net/http/http_util.h"
	#include "services/network/public/cpp/resource_request.h"
	#include "services/network/public/mojom/url_response_head.mojom.h"

	namespace {

	// Template for initiate upload of both GData WAPI and Drive API v2.
	const char kUploadContentType[] = "X-Upload-Content-Type: ";
	const char kUploadContentLength[] = "X-Upload-Content-Length: ";
	const char kUploadResponseLocation[] = "location";

	// Template for upload data range of both GData WAPI and Drive API v2.
	const char kUploadContentRange[] = "Content-Range: bytes ";
	const char kUploadResponseRange[] = "range";

	// Mime type of JSON.
	const char kJsonMimeType[] = "application/json";

	// Mime type of multipart related.
	const char kMultipartRelatedMimeTypePrefix[] = "multipart/related; boundary=";

	// Mime type of multipart mixed.
	const char kMultipartMixedMimeTypePrefix[] = "multipart/mixed; boundary=";

	// Header for each item in a multipart message.
	const char kMultipartItemHeaderFormat[] = "--%s\nContent-Type: %s\n\n";

	// Footer for whole multipart message.
	const char kMultipartFooterFormat[] = "--%s--";

	// Parses JSON passed in \|json\| on \|blocking_task_runner\|. Runs \|callback\| on
	// the calling thread when finished with either success or failure.
	// The callback must not be null.
	void ParseJsonOnBlockingPool(
	base::TaskRunner* blocking_task_runner,
	std::string json,
	base::OnceCallback<void(std::unique_ptr<base::Value> value)> callback) {
	blocking_task_runner->PostTaskAndReplyWithResult(
	FROM_HERE, base::BindOnce(&google_apis::ParseJson, std::move(json)),
	std::move(callback));
	}

	// Obtains the multipart body for the metadata string and file contents. If
	// predetermined_boundary is empty, the function generates the boundary string.
	bool GetMultipartContent(const std::string& predetermined_boundary,
	const std::string& metadata_json,
	const std::string& content_type,
	const base::FilePath& path,
	std::string* upload_content_type,
	std::string* upload_content_data) {
	std::vector<google_apis::ContentTypeAndData> parts(2);
	parts[0].type = kJsonMimeType;
	parts[0].data = metadata_json;
	parts[1].type = content_type;
	if (!ReadFileToString(path, &parts[1].data))
	return false;

	google_apis::ContentTypeAndData output;
	GenerateMultipartBody(google_apis::MultipartType::kRelated,
	predetermined_boundary, parts, &output, nullptr);
	upload_content_type->swap(output.type);
	upload_content_data->swap(output.data);
	return true;
	}

	// See https://developers.google.com/drive/handle-errors
	google_apis::ApiErrorCode MapDriveReasonToError(google_apis::ApiErrorCode code,
	const std::string& reason) {
	const char kErrorReasonRateLimitExceeded[] = "rateLimitExceeded";
	const char kErrorReasonUserRateLimitExceeded[] = "userRateLimitExceeded";
	const char kErrorReasonQuotaExceeded[] = "quotaExceeded";
	const char kErrorReasonResponseTooLarge[] = "responseTooLarge";

	if (reason == kErrorReasonRateLimitExceeded \|\|
	reason == kErrorReasonUserRateLimitExceeded) {
	return google_apis::HTTP_SERVICE_UNAVAILABLE;
	}
	if (reason == kErrorReasonQuotaExceeded)
	return google_apis::DRIVE_NO_SPACE;
	if (reason == kErrorReasonResponseTooLarge)
	return google_apis::DRIVE_RESPONSE_TOO_LARGE;
	return code;
	}

	} // namespace

	namespace google_apis {

	void GenerateMultipartBody(MultipartType multipart_type,
	const std::string& predetermined_boundary,
	const std::vector<ContentTypeAndData>& parts,
	ContentTypeAndData* output,
	std::vector<uint64_t>* data_offset) {
	std::string boundary;
	// Generate random boundary.
	if (predetermined_boundary.empty()) {
	while (true) {
	boundary = net::GenerateMimeMultipartBoundary();
	bool conflict_with_content = false;
	for (const auto& part : parts) {
	if (base::Contains(part.data, boundary)) {
	conflict_with_content = true;
	break;
	}
	}
	if (!conflict_with_content)
	break;
	}
	} else {
	boundary = predetermined_boundary;
	}

	switch (multipart_type) {
	case MultipartType::kRelated:
	output->type = kMultipartRelatedMimeTypePrefix + boundary;
	break;
	case MultipartType::kMixed:
	output->type = kMultipartMixedMimeTypePrefix + boundary;
	break;
	}

	output->data.clear();
	if (data_offset)
	data_offset->clear();
	for (const auto& part : parts) {
	output->data.append(base::StringPrintf(
	kMultipartItemHeaderFormat, boundary.c_str(), part.type.c_str()));
	if (data_offset)
	data_offset->push_back(output->data.size());
	output->data.append(part.data);
	output->data.append("\n");
	}
	output->data.append(
	base::StringPrintf(kMultipartFooterFormat, boundary.c_str()));
	}

	//========================== DriveUrlFetchRequestBase ======================
	DriveUrlFetchRequestBase::DriveUrlFetchRequestBase(
	RequestSender* sender,
	ProgressCallback upload_progress_callback,
	ProgressCallback download_progress_callback)
	: UrlFetchRequestBase(sender,
	upload_progress_callback,
	download_progress_callback) {}

	DriveUrlFetchRequestBase::~DriveUrlFetchRequestBase() = default;

	ApiErrorCode DriveUrlFetchRequestBase::MapReasonToError(
	ApiErrorCode code,
	const std::string& reason) {
	return MapDriveReasonToError(code, reason);
	}

	bool DriveUrlFetchRequestBase::IsSuccessfulErrorCode(ApiErrorCode error) {
	return IsSuccessfulDriveApiErrorCode(error);
	}

	//============================ EntryActionRequest ============================

	EntryActionRequest::EntryActionRequest(RequestSender* sender,
	EntryActionCallback callback)
	: DriveUrlFetchRequestBase(sender, ProgressCallback(), ProgressCallback()),
	callback_(std::move(callback)) {
	DCHECK(callback_);
	}

	EntryActionRequest::~EntryActionRequest() = default;

	void EntryActionRequest::ProcessURLFetchResults(
	const network::mojom::URLResponseHead* response_head,
	base::FilePath response_file,
	std::string response_body) {
	std::move(callback_).Run(GetErrorCode());
	OnProcessURLFetchResultsComplete();
	}

	void EntryActionRequest::RunCallbackOnPrematureFailure(ApiErrorCode code) {
	std::move(callback_).Run(code);
	}

	//========================= InitiateUploadRequestBase ========================

	InitiateUploadRequestBase::InitiateUploadRequestBase(
	RequestSender* sender,
	InitiateUploadCallback callback,
	const std::string& content_type,
	int64_t content_length)
	: DriveUrlFetchRequestBase(sender, ProgressCallback(), ProgressCallback()),
	callback_(std::move(callback)),
	content_type_(content_type),
	content_length_(content_length) {
	DCHECK(!callback_.is_null());
	DCHECK(!content_type_.empty());
	DCHECK_GE(content_length_, 0);
	}

	InitiateUploadRequestBase::~InitiateUploadRequestBase() = default;

	void InitiateUploadRequestBase::ProcessURLFetchResults(
	const network::mojom::URLResponseHead* response_head,
	base::FilePath response_file,
	std::string response_body) {
	std::string upload_location;
	if (GetErrorCode() == HTTP_SUCCESS) {
	// Retrieve value of the first "Location" header.
	response_head->headers->EnumerateHeader(nullptr, kUploadResponseLocation,
	&upload_location);
	}

	std::move(callback_).Run(GetErrorCode(), GURL(upload_location));
	OnProcessURLFetchResultsComplete();
	}

	void InitiateUploadRequestBase::RunCallbackOnPrematureFailure(
	ApiErrorCode code) {
	std::move(callback_).Run(code, GURL());
	}

	std::vector<std::string> InitiateUploadRequestBase::GetExtraRequestHeaders()
	const {
	std::vector<std::string> headers;
	headers.push_back(kUploadContentType + content_type_);
	headers.push_back(kUploadContentLength +
	base::NumberToString(content_length_));
	return headers;
	}

	//============================ UploadRangeResponse =============================

	UploadRangeResponse::UploadRangeResponse() = default;

	UploadRangeResponse::UploadRangeResponse(ApiErrorCode code,
	int64_t start_position_received,
	int64_t end_position_received)
	: code(code),
	start_position_received(start_position_received),
	end_position_received(end_position_received) {}

	UploadRangeResponse::~UploadRangeResponse() = default;

	//========================== UploadRangeRequestBase ==========================

	UploadRangeRequestBase::UploadRangeRequestBase(
	RequestSender* sender,
	const GURL& upload_url,
	ProgressCallback progress_callback)
	: DriveUrlFetchRequestBase(sender, progress_callback, ProgressCallback()),
	upload_url_(upload_url) {}

	UploadRangeRequestBase::~UploadRangeRequestBase() = default;

	GURL UploadRangeRequestBase::GetURL() const {
	// This is very tricky to get json from this request. To do that, &alt=json
	// has to be appended not here but in InitiateUploadRequestBase::GetURL().
	return upload_url_;
	}

	HttpRequestMethod UploadRangeRequestBase::GetRequestType() const {
	return HttpRequestMethod::kPut;
	}

	void UploadRangeRequestBase::ProcessURLFetchResults(
	const network::mojom::URLResponseHead* response_head,
	base::FilePath response_file,
	std::string response_body) {
	ApiErrorCode code = GetErrorCode();
	if (code == HTTP_RESUME_INCOMPLETE) {
	// Retrieve value of the first "Range" header.
	// The Range header is appeared only if there is at least one received
	// byte. So, initialize the positions by 0 so that the [0,0) will be
	// returned via the \|callback_\| for empty data case.
	int64_t start_position_received = 0;
	int64_t end_position_received = 0;
	std::string range_received;
	response_head->headers->EnumerateHeader(nullptr, kUploadResponseRange,
	&range_received);
	if (!range_received.empty()) { // Parse the range header.
	std::vector<net::HttpByteRange> ranges;
	if (net::HttpUtil::ParseRangeHeader(range_received, &ranges) &&
	!ranges.empty()) {
	// We only care about the first start-end pair in the range.
	//
	// Range header represents the range inclusively, while we are treating
	// ranges exclusively (i.e., end_position_received should be one passed
	// the last valid index). So "+ 1" is added.
	start_position_received = ranges[0].first_byte_position();
	end_position_received = ranges[0].last_byte_position() + 1;
	}
	}
	// The Range header has the received data range, so the start position
	// should be always 0.
	DCHECK_EQ(start_position_received, 0);

	OnRangeRequestComplete(UploadRangeResponse(code, start_position_received,
	end_position_received),
	std::unique_ptr<base::Value>());

	OnProcessURLFetchResultsComplete();
	} else if (code == HTTP_CREATED \|\| code == HTTP_SUCCESS) {
	// The upload is successfully done. Parse the response which should be
	// the entry's metadata.
	ParseJsonOnBlockingPool(
	blocking_task_runner(), std::move(response_body),
	base::BindOnce(&UploadRangeRequestBase::OnDataParsed,
	weak_ptr_factory_.GetWeakPtr(), code));
	} else {
	// Failed to upload. Run callbacks to notify the error.
	OnRangeRequestComplete(UploadRangeResponse(code, -1, -1),
	std::unique_ptr<base::Value>());
	OnProcessURLFetchResultsComplete();
	}
	}

	void UploadRangeRequestBase::OnDataParsed(ApiErrorCode code,
	std::unique_ptr<base::Value> value) {
	DCHECK(CalledOnValidThread());
	DCHECK(code == HTTP_CREATED \|\| code == HTTP_SUCCESS);

	OnRangeRequestComplete(UploadRangeResponse(code, -1, -1), std::move(value));
	OnProcessURLFetchResultsComplete();
	}

	void UploadRangeRequestBase::RunCallbackOnPrematureFailure(ApiErrorCode code) {
	OnRangeRequestComplete(UploadRangeResponse(code, 0, 0),
	std::unique_ptr<base::Value>());
	}

	//========================== ResumeUploadRequestBase =========================

	ResumeUploadRequestBase::ResumeUploadRequestBase(
	RequestSender* sender,
	const GURL& upload_location,
	int64_t start_position,
	int64_t end_position,
	int64_t content_length,
	const std::string& content_type,
	const base::FilePath& local_file_path,
	ProgressCallback progress_callback)
	: UploadRangeRequestBase(sender, upload_location, progress_callback),
	start_position_(start_position),
	end_position_(end_position),
	content_length_(content_length),
	content_type_(content_type),
	local_file_path_(local_file_path) {
	DCHECK_LE(start_position_, end_position_);
	}

	ResumeUploadRequestBase::~ResumeUploadRequestBase() = default;

	std::vector<std::string> ResumeUploadRequestBase::GetExtraRequestHeaders()
	const {
	if (content_length_ == 0) {
	// For uploading an empty document, just PUT an empty content.
	DCHECK_EQ(start_position_, 0);
	DCHECK_EQ(end_position_, 0);
	return std::vector<std::string>();
	}

	// The header looks like
	// Content-Range: bytes <start_position>-<end_position>/<content_length>
	// for example:
	// Content-Range: bytes 7864320-8388607/13851821
	// The header takes inclusive range, so we adjust by "end_position - 1".
	DCHECK_GE(start_position_, 0);
	DCHECK_GT(end_position_, 0);
	DCHECK_GE(content_length_, 0);

	std::vector<std::string> headers;
	headers.push_back(std::string(kUploadContentRange) +
	base::NumberToString(start_position_) + "-" +
	base::NumberToString(end_position_ - 1) + "/" +
	base::NumberToString(content_length_));
	return headers;
	}

	bool ResumeUploadRequestBase::GetContentFile(base::FilePath* local_file_path,
	int64_t* range_offset,
	int64_t* range_length,
	std::string* upload_content_type) {
	if (start_position_ == end_position_) {
	// No content data.
	return false;
	}

	*local_file_path = local_file_path_;
	*range_offset = start_position_;
	*range_length = end_position_ - start_position_;
	*upload_content_type = content_type_;
	return true;
	}

	//======================== GetUploadStatusRequestBase ========================

	GetUploadStatusRequestBase::GetUploadStatusRequestBase(RequestSender* sender,
	const GURL& upload_url,
	int64_t content_length)
	: UploadRangeRequestBase(sender, upload_url, ProgressCallback()),
	content_length_(content_length) {}

	GetUploadStatusRequestBase::~GetUploadStatusRequestBase() = default;

	std::vector<std::string> GetUploadStatusRequestBase::GetExtraRequestHeaders()
	const {
	// The header looks like
	// Content-Range: bytes */<content_length>
	// for example:
	// Content-Range: bytes */13851821
	DCHECK_GE(content_length_, 0);

	std::vector<std::string> headers;
	headers.push_back(std::string(kUploadContentRange) + "*/" +
	base::NumberToString(content_length_));
	return headers;
	}

	//========================= MultipartUploadRequestBase ========================

	MultipartUploadRequestBase::MultipartUploadRequestBase(
	base::SequencedTaskRunner* blocking_task_runner,
	const std::string& metadata_json,
	const std::string& content_type,
	int64_t content_length,
	const base::FilePath& local_file_path,
	FileResourceCallback callback,
	ProgressCallback progress_callback)
	: blocking_task_runner_(blocking_task_runner),
	metadata_json_(metadata_json),
	content_type_(content_type),
	local_path_(local_file_path),
	callback_(std::move(callback)),
	progress_callback_(progress_callback) {
	DCHECK(!content_type.empty());
	DCHECK_GE(content_length, 0);
	DCHECK(!local_file_path.empty());
	DCHECK(!callback_.is_null());
	}

	MultipartUploadRequestBase::~MultipartUploadRequestBase() = default;

	std::vector<std::string> MultipartUploadRequestBase::GetExtraRequestHeaders()
	const {
	return std::vector<std::string>();
	}

	void MultipartUploadRequestBase::Prepare(PrepareCallback callback) {
	// If the request is cancelled, the request instance will be deleted in
	// \|UrlFetchRequestBase::Cancel\| and OnPrepareUploadContent won't be called.
	std::string* const upload_content_type = new std::string();
	std::string* const upload_content_data = new std::string();
	blocking_task_runner_->PostTaskAndReplyWithResult(
	FROM_HERE,
	base::BindOnce(&GetMultipartContent, boundary_, metadata_json_,
	content_type_, local_path_,
	base::Unretained(upload_content_type),
	base::Unretained(upload_content_data)),
	base::BindOnce(&MultipartUploadRequestBase::OnPrepareUploadContent,
	weak_ptr_factory_.GetWeakPtr(), std::move(callback),
	base::Owned(upload_content_type),
	base::Owned(upload_content_data)));
	}

	void MultipartUploadRequestBase::OnPrepareUploadContent(
	PrepareCallback callback,
	std::string* upload_content_type,
	std::string* upload_content_data,
	bool result) {
	if (!result) {
	std::move(callback).Run(DRIVE_FILE_ERROR);
	return;
	}
	upload_content_type_.swap(*upload_content_type);
	upload_content_data_.swap(*upload_content_data);
	std::move(callback).Run(HTTP_SUCCESS);
	}

	void MultipartUploadRequestBase::SetBoundaryForTesting(
	const std::string& boundary) {
	boundary_ = boundary;
	}

	bool MultipartUploadRequestBase::GetContentData(
	std::string* upload_content_type,
	std::string* upload_content_data) {
	// TODO(hirono): Pass stream instead of actual data to reduce memory usage.
	upload_content_type->swap(upload_content_type_);
	upload_content_data->swap(upload_content_data_);
	return true;
	}

	void MultipartUploadRequestBase::NotifyResult(
	ApiErrorCode code,
	const std::string& body,
	base::OnceClosure notify_complete_callback) {
	// The upload is successfully done. Parse the response which should be
	// the entry's metadata.
	if (code == HTTP_CREATED \|\| code == HTTP_SUCCESS) {
	ParseJsonOnBlockingPool(
	blocking_task_runner_.get(), body,
	base::BindOnce(&MultipartUploadRequestBase::OnDataParsed,
	weak_ptr_factory_.GetWeakPtr(), code,
	std::move(notify_complete_callback)));
	} else {
	std::optional<std::string> reason = MapJsonErrorToReason(body);
	NotifyError(reason.has_value() ? MapDriveReasonToError(code, reason.value())
	: code);
	std::move(notify_complete_callback).Run();
	}
	}

	void MultipartUploadRequestBase::NotifyError(ApiErrorCode code) {
	std::move(callback_).Run(code, std::unique_ptr<FileResource>());
	}

	void MultipartUploadRequestBase::NotifyUploadProgress(int64_t current,
	int64_t total) {
	if (!progress_callback_.is_null())
	progress_callback_.Run(current, total);
	}

	void MultipartUploadRequestBase::OnDataParsed(
	ApiErrorCode code,
	base::OnceClosure notify_complete_callback,
	std::unique_ptr<base::Value> value) {
	DCHECK_CALLED_ON_VALID_THREAD(thread_checker_);

	if (value)
	std::move(callback_).Run(code,
	google_apis::FileResource::CreateFrom(*value));
	else
	NotifyError(PARSE_ERROR);
	std::move(notify_complete_callback).Run();
	}

	//============================ DownloadFileRequestBase =========================

	DownloadFileRequestBase::DownloadFileRequestBase(
	RequestSender* sender,
	DownloadActionCallback download_action_callback,
	const GetContentCallback& get_content_callback,
	ProgressCallback progress_callback,
	const GURL& download_url,
	const base::FilePath& output_file_path)
	: DriveUrlFetchRequestBase(sender, ProgressCallback(), progress_callback),
	download_action_callback_(std::move(download_action_callback)),
	get_content_callback_(get_content_callback),
	download_url_(download_url),
	output_file_path_(output_file_path) {
	DCHECK(!download_action_callback_.is_null());
	DCHECK(!output_file_path_.empty());
	// get_content_callback may be null.
	}

	DownloadFileRequestBase::~DownloadFileRequestBase() = default;

	// Overridden from UrlFetchRequestBase.
	GURL DownloadFileRequestBase::GetURL() const {
	return download_url_;
	}

	void DownloadFileRequestBase::GetOutputFilePath(
	base::FilePath* local_file_path,
	GetContentCallback* get_content_callback) {
	// Configure so that the downloaded content is saved to \|output_file_path_\|.
	*local_file_path = output_file_path_;
	*get_content_callback = get_content_callback_;
	}

	void DownloadFileRequestBase::ProcessURLFetchResults(
	const network::mojom::URLResponseHead* response_head,
	base::FilePath response_file,
	std::string response_body) {
	std::move(download_action_callback_).Run(GetErrorCode(), response_file);
	OnProcessURLFetchResultsComplete();
	}

	void DownloadFileRequestBase::RunCallbackOnPrematureFailure(ApiErrorCode code) {
	std::move(download_action_callback_).Run(code, base::FilePath());
	}

	} // namespace google_apis