pdf/document_loader.cc - chromium/src - Git at Google

 // Copyright (c) 2010 The Chromium 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 "pdf/document_loader.h"

 #include <stddef.h>
 #include <stdint.h>

 #include "base/logging.h"
 #include "base/strings/string_util.h"
 #include "net/http/http_util.h"
 #include "ppapi/c/pp_errors.h"
 #include "ppapi/cpp/url_loader.h"
 #include "ppapi/cpp/url_request_info.h"
 #include "ppapi/cpp/url_response_info.h"

 namespace chrome_pdf {

 namespace {

 // If the headers have a byte-range response, writes the start and end
 // positions and returns true if at least the start position was parsed.
 // The end position will be set to 0 if it was not found or parsed from the
 // response.
 // Returns false if not even a start position could be parsed.
 bool GetByteRange(const std::string& headers, uint32_t* start, uint32_t* end) {
   net::HttpUtil::HeadersIterator it(headers.begin(), headers.end(), "\n");
   while (it.GetNext()) {
     if (base::LowerCaseEqualsASCII(it.name(), "content-range")) {
       std::string range = it.values().c_str();
       if (base::StartsWith(range, "bytes",
                            base::CompareCase::INSENSITIVE_ASCII)) {
         range = range.substr(strlen("bytes"));
         std::string::size_type pos = range.find('-');
         std::string range_end;
         if (pos != std::string::npos)
           range_end = range.substr(pos + 1);
         base::TrimWhitespaceASCII(range, base::TRIM_LEADING, &range);
         base::TrimWhitespaceASCII(range_end, base::TRIM_LEADING, &range_end);
         *start = atoi(range.c_str());
         *end = atoi(range_end.c_str());
         return true;
       }
     }
   }
   return false;
 }

 // If the headers have a multi-part response, returns the boundary name.
 // Otherwise returns an empty string.
 std::string GetMultiPartBoundary(const std::string& headers) {
   net::HttpUtil::HeadersIterator it(headers.begin(), headers.end(), "\n");
   while (it.GetNext()) {
     if (base::LowerCaseEqualsASCII(it.name(), "content-type")) {
       std::string type = base::ToLowerASCII(it.values());
       if (base::StartsWith(type, "multipart/", base::CompareCase::SENSITIVE)) {
         const char* boundary = strstr(type.c_str(), "boundary=");
         if (!boundary) {
           NOTREACHED();
           break;
         }

         return std::string(boundary + 9);
       }
     }
   }
   return std::string();
 }

 // Return true if the HTTP response of |loader| is a successful one and loading
 // should continue. 4xx error indicate subsequent requests will fail too.
 // e.g. resource has been removed from the server while loading it. 301
 // indicates a redirect was returned which won't be successful because we
 // disable following redirects for PDF loading (we assume they are already
 // resolved by the browser.
 bool ResponseStatusSuccess(const pp::URLLoader& loader) {
   int32_t http_code = loader.GetResponseInfo().GetStatusCode();
   return (http_code < 400 && http_code != 301) || http_code >= 500;
 }

 bool IsValidContentType(const std::string& type) {
   return base::EndsWith(type, "/pdf", base::CompareCase::INSENSITIVE_ASCII) ||
          base::EndsWith(type, ".pdf", base::CompareCase::INSENSITIVE_ASCII) ||
          base::EndsWith(type, "/x-pdf", base::CompareCase::INSENSITIVE_ASCII) ||
          base::EndsWith(type, "/*", base::CompareCase::INSENSITIVE_ASCII) ||
          base::EndsWith(type, "/acrobat",
                         base::CompareCase::INSENSITIVE_ASCII) ||
          base::EndsWith(type, "/unknown", base::CompareCase::INSENSITIVE_ASCII);
 }

 }  // namespace

 DocumentLoader::Client::~Client() {}

 DocumentLoader::DocumentLoader(Client* client)
     : client_(client),
       partial_document_(false),
       request_pending_(false),
       current_pos_(0),
       current_chunk_size_(0),
       current_chunk_read_(0),
       document_size_(0),
       header_request_(true),
       is_multipart_(false) {
   loader_factory_.Initialize(this);
 }

 DocumentLoader::~DocumentLoader() {}

 bool DocumentLoader::Init(const pp::URLLoader& loader,
                           const std::string& url,
                           const std::string& headers) {
   DCHECK(url_.empty());

   // Check that the initial response status is a valid one.
   if (!ResponseStatusSuccess(loader))
     return false;

   url_ = url;
   loader_ = loader;

   std::string response_headers;
   if (!headers.empty()) {
     response_headers = headers;
   } else {
     pp::URLResponseInfo response = loader_.GetResponseInfo();
     pp::Var headers_var = response.GetHeaders();

     if (headers_var.is_string()) {
       response_headers = headers_var.AsString();
     }
   }

   bool accept_ranges_bytes = false;
   bool content_encoded = false;
   uint32_t content_length = 0;
   std::string type;
   std::string disposition;

   // This happens for PDFs not loaded from http(s) sources.
   if (response_headers == "Content-Type: text/plain") {
     if (!base::StartsWith(url, "http://",
                           base::CompareCase::INSENSITIVE_ASCII) &&
         !base::StartsWith(url, "https://",
                           base::CompareCase::INSENSITIVE_ASCII)) {
       type = "application/pdf";
     }
   }
   if (type.empty() && !response_headers.empty()) {
     net::HttpUtil::HeadersIterator it(response_headers.begin(),
                                       response_headers.end(), "\n");
     while (it.GetNext()) {
       if (base::LowerCaseEqualsASCII(it.name(), "content-length")) {
         content_length = atoi(it.values().c_str());
       } else if (base::LowerCaseEqualsASCII(it.name(), "accept-ranges")) {
         accept_ranges_bytes = base::LowerCaseEqualsASCII(it.values(), "bytes");
       } else if (base::LowerCaseEqualsASCII(it.name(), "content-encoding")) {
         content_encoded = true;
       } else if (base::LowerCaseEqualsASCII(it.name(), "content-type")) {
         type = it.values();
         size_t semi_colon_pos = type.find(';');
         if (semi_colon_pos != std::string::npos) {
           type = type.substr(0, semi_colon_pos);
         }
         TrimWhitespaceASCII(type, base::TRIM_ALL, &type);
       } else if (base::LowerCaseEqualsASCII(it.name(), "content-disposition")) {
         disposition = it.values();
       }
     }
   }
   if (!type.empty() && !IsValidContentType(type))
     return false;
   if (base::StartsWith(disposition, "attachment",
                        base::CompareCase::INSENSITIVE_ASCII))
     return false;

   if (content_length > 0)
     chunk_stream_.Preallocate(content_length);

   document_size_ = content_length;
   requests_count_ = 0;

   // Enable partial loading only if file size is above the threshold.
   // It will allow avoiding latency for multiple requests.
   if (content_length > kMinFileSize && accept_ranges_bytes &&
       !content_encoded) {
     LoadPartialDocument();
   } else {
     LoadFullDocument();
   }
   return true;
 }

 void DocumentLoader::LoadPartialDocument() {
   // The current request is a full request (not a range request) so it starts at
   // 0 and ends at |document_size_|.
   current_chunk_size_ = document_size_;
   current_pos_ = 0;
   current_request_offset_ = 0;
   current_request_size_ = 0;
   current_request_extended_size_ = document_size_;
   request_pending_ = true;

   partial_document_ = true;
   header_request_ = true;
   ReadMore();
 }

 void DocumentLoader::LoadFullDocument() {
   partial_document_ = false;
   chunk_buffer_.clear();
   ReadMore();
 }

 bool DocumentLoader::IsDocumentComplete() const {
   if (document_size_ == 0)  // Document size unknown.
     return false;
   return IsDataAvailable(0, document_size_);
 }

 uint32_t DocumentLoader::GetAvailableData() const {
   if (document_size_ == 0) {  // If document size is unknown.
     return current_pos_;
   }

   std::vector<std::pair<size_t, size_t>> ranges;
   chunk_stream_.GetMissedRanges(0, document_size_, &ranges);
   uint32_t available = document_size_;
   for (const auto& range : ranges)
     available -= range.second;
   return available;
 }

 void DocumentLoader::ClearPendingRequests() {
   pending_requests_.erase(pending_requests_.begin(), pending_requests_.end());
 }

 bool DocumentLoader::GetBlock(uint32_t position,
                               uint32_t size,
                               void* buf) const {
   return chunk_stream_.ReadData(position, size, buf);
 }

 bool DocumentLoader::IsDataAvailable(uint32_t position, uint32_t size) const {
   return chunk_stream_.IsRangeAvailable(position, size);
 }

 void DocumentLoader::RequestData(uint32_t position, uint32_t size) {
   DCHECK(partial_document_);

   // We have some artefact request from
   // PDFiumEngine::OnDocumentComplete() -> FPDFAvail_IsPageAvail after
   // document is complete.
   // We need this fix in PDFIum. Adding this as a work around.
   // Bug: http://code.google.com/p/chromium/issues/detail?id=79996
   // Test url:
   // http://www.icann.org/en/correspondence/holtzman-to-jeffrey-02mar11-en.pdf
   if (IsDocumentComplete())
     return;

   pending_requests_.push_back(std::pair<size_t, size_t>(position, size));
   DownloadPendingRequests();
 }

 void DocumentLoader::RemoveCompletedRanges() {
   // Split every request that has been partially downloaded already into smaller
   // requests.
   std::vector<std::pair<size_t, size_t>> ranges;
   auto it = pending_requests_.begin();
   while (it != pending_requests_.end()) {
     chunk_stream_.GetMissedRanges(it->first, it->second, &ranges);
     pending_requests_.insert(it, ranges.begin(), ranges.end());
     ranges.clear();
     pending_requests_.erase(it++);
   }
 }

 void DocumentLoader::DownloadPendingRequests() {
   if (request_pending_)
     return;

   uint32_t pos;
   uint32_t size;
   if (pending_requests_.empty()) {
     // If the document is not complete and we have no outstanding requests,
     // download what's left for as long as no other request gets added to
     // |pending_requests_|.
     pos = chunk_stream_.GetFirstMissingByte();
     if (pos >= document_size_) {
       // We're done downloading the document.
       return;
     }
     // Start with size 0, we'll set |current_request_extended_size_| to > 0.
     // This way this request will get cancelled as soon as the renderer wants
     // another portion of the document.
     size = 0;
   } else {
     RemoveCompletedRanges();

     pos = pending_requests_.front().first;
     size = pending_requests_.front().second;
     if (IsDataAvailable(pos, size)) {
       ReadComplete();
       return;
     }
   }

   size_t last_byte_before = chunk_stream_.GetFirstMissingByteInInterval(pos);
   if (size < kDefaultRequestSize) {
     // Try to extend before pos, up to size |kDefaultRequestSize|.
     if (pos + size - last_byte_before > kDefaultRequestSize) {
       pos += size - kDefaultRequestSize;
       size = kDefaultRequestSize;
     } else {
       size += pos - last_byte_before;
       pos = last_byte_before;
     }
   }
   if (pos - last_byte_before < kDefaultRequestSize) {
     // Don't leave a gap smaller than |kDefaultRequestSize|.
     size += pos - last_byte_before;
     pos = last_byte_before;
   }

   current_request_offset_ = pos;
   current_request_size_ = size;

   // Extend the request until the next downloaded byte or the end of the
   // document.
   size_t last_missing_byte =
       chunk_stream_.GetLastMissingByteInInterval(pos + size - 1);
   current_request_extended_size_ = last_missing_byte - pos + 1;

   request_pending_ = true;

   // Start downloading first pending request.
   loader_.Close();
   loader_ = client_->CreateURLLoader();
   pp::CompletionCallback callback =
       loader_factory_.NewCallback(&DocumentLoader::DidOpen);
   pp::URLRequestInfo request = GetRequest(pos, current_request_extended_size_);
   requests_count_++;
   int rv = loader_.Open(request, callback);
   if (rv != PP_OK_COMPLETIONPENDING)
     callback.Run(rv);
 }

 pp::URLRequestInfo DocumentLoader::GetRequest(uint32_t position,
                                               uint32_t size) const {
   pp::URLRequestInfo request(client_->GetPluginInstance());
   request.SetURL(url_);
   request.SetMethod("GET");
   request.SetFollowRedirects(false);
   request.SetCustomReferrerURL(url_);

   const size_t kBufSize = 100;
   char buf[kBufSize];
   // According to rfc2616, byte range specifies position of the first and last
   // bytes in the requested range inclusively. Therefore we should subtract 1
   // from the position + size, to get index of the last byte that needs to be
   // downloaded.
   base::snprintf(buf, kBufSize, "Range: bytes=%d-%d", position,
                  position + size - 1);
   pp::Var header(buf);
   request.SetHeaders(header);

   return request;
 }

 void DocumentLoader::DidOpen(int32_t result) {
   if (result != PP_OK) {
     NOTREACHED();
     client_->OnDocumentFailed();
     return;
   }

   if (!ResponseStatusSuccess(loader_)) {
     client_->OnDocumentFailed();
     return;
   }

   is_multipart_ = false;
   current_chunk_size_ = 0;
   current_chunk_read_ = 0;

   pp::Var headers_var = loader_.GetResponseInfo().GetHeaders();
   std::string headers;
   if (headers_var.is_string())
     headers = headers_var.AsString();

   std::string boundary = GetMultiPartBoundary(headers);
   if (!boundary.empty()) {
     // Leave position untouched for now, when we read the data we'll get it.
     is_multipart_ = true;
     multipart_boundary_ = boundary;
   } else {
     // Need to make sure that the server returned a byte-range, since it's
     // possible for a server to just ignore our byte-range request and just
     // return the entire document even if it supports byte-range requests.
     // i.e. sniff response to
     // http://www.act.org/compass/sample/pdf/geometry.pdf
     current_pos_ = 0;
     uint32_t start_pos, end_pos;
     if (GetByteRange(headers, &start_pos, &end_pos)) {
       current_pos_ = start_pos;
       if (end_pos && end_pos > start_pos)
         current_chunk_size_ = end_pos - start_pos + 1;
     } else {
       partial_document_ = false;
     }
   }

   ReadMore();
 }

 void DocumentLoader::ReadMore() {
   pp::CompletionCallback callback =
       loader_factory_.NewCallback(&DocumentLoader::DidRead);
   int rv = loader_.ReadResponseBody(buffer_, sizeof(buffer_), callback);
   if (rv != PP_OK_COMPLETIONPENDING)
     callback.Run(rv);
 }

 void DocumentLoader::DidRead(int32_t result) {
   if (result <= 0) {
     // If |result| == PP_OK, the document was loaded, otherwise an error was
     // encountered. Either way we want to stop processing the response. In the
     // case where an error occurred, the renderer will detect that we're missing
     // data and will display a message.
     ReadComplete();
     return;
   }

   char* start = buffer_;
   size_t length = result;
   if (is_multipart_ && result > 2) {
     for (int i = 2; i < result; ++i) {
       if ((buffer_[i - 1] == '\n' && buffer_[i - 2] == '\n') ||
           (i >= 4 && buffer_[i - 1] == '\n' && buffer_[i - 2] == '\r' &&
            buffer_[i - 3] == '\n' && buffer_[i - 4] == '\r')) {
         uint32_t start_pos, end_pos;
         if (GetByteRange(std::string(buffer_, i), &start_pos, &end_pos)) {
           current_pos_ = start_pos;
           start += i;
           length -= i;
           if (end_pos && end_pos > start_pos)
             current_chunk_size_ = end_pos - start_pos + 1;
         }
         break;
       }
     }

     // Reset this flag so we don't look inside the buffer in future calls of
     // DidRead for this response.  Note that this code DOES NOT handle multi-
     // part responses with more than one part (we don't issue them at the
     // moment, so they shouldn't arrive).
     is_multipart_ = false;
   }

   if (current_chunk_size_ && current_chunk_read_ + length > current_chunk_size_)
     length = current_chunk_size_ - current_chunk_read_;

   if (length) {
     if (document_size_ > 0) {
       chunk_stream_.WriteData(current_pos_, start, length);
     } else {
       // If we did not get content-length in the response, we can't
       // preallocate buffer for the entire document. Resizing array causing
       // memory fragmentation issues on the large files and OOM exceptions.
       // To fix this, we collect all chunks of the file to the list and
       // concatenate them together after request is complete.
       std::vector<unsigned char> buf(length);
       memcpy(buf.data(), start, length);
       chunk_buffer_.push_back(std::move(buf));
     }
     current_pos_ += length;
     current_chunk_read_ += length;
     client_->OnNewDataAvailable();
   }

   // Only call the renderer if we allow partial loading.
   if (!partial_document_) {
     ReadMore();
     return;
   }

   UpdateRendering();
   RemoveCompletedRanges();

   if (!pending_requests_.empty()) {
     // If there are pending requests and the current content we're downloading
     // doesn't satisfy any of these requests, cancel the current request to
     // fullfill those more important requests.
     bool satisfying_pending_request =
         SatisfyingRequest(current_request_offset_, current_request_size_);
     for (const auto& pending_request : pending_requests_) {
       if (SatisfyingRequest(pending_request.first, pending_request.second)) {
         satisfying_pending_request = true;
         break;
       }
     }
     // Cancel the request as it's not satisfying any request from the
     // renderer, unless the current request is finished in which case we let
     // it finish cleanly.
     if (!satisfying_pending_request &&
         current_pos_ <
             current_request_offset_ + current_request_extended_size_) {
       loader_.Close();
     }
   }

   ReadMore();
 }

 bool DocumentLoader::SatisfyingRequest(size_t offset, size_t size) const {
   return offset <= current_pos_ + kDefaultRequestSize &&
          current_pos_ < offset + size;
 }

 void DocumentLoader::ReadComplete() {
   if (!partial_document_) {
     if (document_size_ == 0) {
       // For the document with no 'content-length" specified we've collected all
       // the chunks already. Let's allocate final document buffer and copy them
       // over.
       chunk_stream_.Preallocate(current_pos_);
       uint32_t pos = 0;
       for (auto& chunk : chunk_buffer_) {
         chunk_stream_.WriteData(pos, chunk.data(), chunk.size());
         pos += chunk.size();
       }
       chunk_buffer_.clear();
     }
     document_size_ = current_pos_;
     client_->OnDocumentComplete();
     return;
   }

   request_pending_ = false;

   if (IsDocumentComplete()) {
     client_->OnDocumentComplete();
     return;
   }

   UpdateRendering();
   DownloadPendingRequests();
 }

 void DocumentLoader::UpdateRendering() {
   if (header_request_)
     client_->OnPartialDocumentLoaded();
   else
     client_->OnPendingRequestComplete();
   header_request_ = false;
 }

 }  // namespace chrome_pdf
	// Copyright (c) 2010 The Chromium 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 "pdf/document_loader.h"

	#include <stddef.h>
	#include <stdint.h>

	#include "base/logging.h"
	#include "base/strings/string_util.h"
	#include "net/http/http_util.h"
	#include "ppapi/c/pp_errors.h"
	#include "ppapi/cpp/url_loader.h"
	#include "ppapi/cpp/url_request_info.h"
	#include "ppapi/cpp/url_response_info.h"

	namespace chrome_pdf {

	namespace {

	// If the headers have a byte-range response, writes the start and end
	// positions and returns true if at least the start position was parsed.
	// The end position will be set to 0 if it was not found or parsed from the
	// response.
	// Returns false if not even a start position could be parsed.
	bool GetByteRange(const std::string& headers, uint32_t* start, uint32_t* end) {
	net::HttpUtil::HeadersIterator it(headers.begin(), headers.end(), "\n");
	while (it.GetNext()) {
	if (base::LowerCaseEqualsASCII(it.name(), "content-range")) {
	std::string range = it.values().c_str();
	if (base::StartsWith(range, "bytes",
	base::CompareCase::INSENSITIVE_ASCII)) {
	range = range.substr(strlen("bytes"));
	std::string::size_type pos = range.find('-');
	std::string range_end;
	if (pos != std::string::npos)
	range_end = range.substr(pos + 1);
	base::TrimWhitespaceASCII(range, base::TRIM_LEADING, &range);
	base::TrimWhitespaceASCII(range_end, base::TRIM_LEADING, &range_end);
	*start = atoi(range.c_str());
	*end = atoi(range_end.c_str());
	return true;
	}
	}
	}
	return false;
	}

	// If the headers have a multi-part response, returns the boundary name.
	// Otherwise returns an empty string.
	std::string GetMultiPartBoundary(const std::string& headers) {
	net::HttpUtil::HeadersIterator it(headers.begin(), headers.end(), "\n");
	while (it.GetNext()) {
	if (base::LowerCaseEqualsASCII(it.name(), "content-type")) {
	std::string type = base::ToLowerASCII(it.values());
	if (base::StartsWith(type, "multipart/", base::CompareCase::SENSITIVE)) {
	const char* boundary = strstr(type.c_str(), "boundary=");
	if (!boundary) {
	NOTREACHED();
	break;
	}

	return std::string(boundary + 9);
	}
	}
	}
	return std::string();
	}

	// Return true if the HTTP response of \|loader\| is a successful one and loading
	// should continue. 4xx error indicate subsequent requests will fail too.
	// e.g. resource has been removed from the server while loading it. 301
	// indicates a redirect was returned which won't be successful because we
	// disable following redirects for PDF loading (we assume they are already
	// resolved by the browser.
	bool ResponseStatusSuccess(const pp::URLLoader& loader) {
	int32_t http_code = loader.GetResponseInfo().GetStatusCode();
	return (http_code < 400 && http_code != 301) \|\| http_code >= 500;
	}

	bool IsValidContentType(const std::string& type) {
	return base::EndsWith(type, "/pdf", base::CompareCase::INSENSITIVE_ASCII) \|\|
	base::EndsWith(type, ".pdf", base::CompareCase::INSENSITIVE_ASCII) \|\|
	base::EndsWith(type, "/x-pdf", base::CompareCase::INSENSITIVE_ASCII) \|\|
	base::EndsWith(type, "/*", base::CompareCase::INSENSITIVE_ASCII) \|\|
	base::EndsWith(type, "/acrobat",
	base::CompareCase::INSENSITIVE_ASCII) \|\|
	base::EndsWith(type, "/unknown", base::CompareCase::INSENSITIVE_ASCII);
	}

	} // namespace

	DocumentLoader::Client::~Client() {}

	DocumentLoader::DocumentLoader(Client* client)
	: client_(client),
	partial_document_(false),
	request_pending_(false),
	current_pos_(0),
	current_chunk_size_(0),
	current_chunk_read_(0),
	document_size_(0),
	header_request_(true),
	is_multipart_(false) {
	loader_factory_.Initialize(this);
	}

	DocumentLoader::~DocumentLoader() {}

	bool DocumentLoader::Init(const pp::URLLoader& loader,
	const std::string& url,
	const std::string& headers) {
	DCHECK(url_.empty());

	// Check that the initial response status is a valid one.
	if (!ResponseStatusSuccess(loader))
	return false;

	url_ = url;
	loader_ = loader;

	std::string response_headers;
	if (!headers.empty()) {
	response_headers = headers;
	} else {
	pp::URLResponseInfo response = loader_.GetResponseInfo();
	pp::Var headers_var = response.GetHeaders();

	if (headers_var.is_string()) {
	response_headers = headers_var.AsString();
	}
	}

	bool accept_ranges_bytes = false;
	bool content_encoded = false;
	uint32_t content_length = 0;
	std::string type;
	std::string disposition;

	// This happens for PDFs not loaded from http(s) sources.
	if (response_headers == "Content-Type: text/plain") {
	if (!base::StartsWith(url, "http://",
	base::CompareCase::INSENSITIVE_ASCII) &&
	!base::StartsWith(url, "https://",
	base::CompareCase::INSENSITIVE_ASCII)) {
	type = "application/pdf";
	}
	}
	if (type.empty() && !response_headers.empty()) {
	net::HttpUtil::HeadersIterator it(response_headers.begin(),
	response_headers.end(), "\n");
	while (it.GetNext()) {
	if (base::LowerCaseEqualsASCII(it.name(), "content-length")) {
	content_length = atoi(it.values().c_str());
	} else if (base::LowerCaseEqualsASCII(it.name(), "accept-ranges")) {
	accept_ranges_bytes = base::LowerCaseEqualsASCII(it.values(), "bytes");
	} else if (base::LowerCaseEqualsASCII(it.name(), "content-encoding")) {
	content_encoded = true;
	} else if (base::LowerCaseEqualsASCII(it.name(), "content-type")) {
	type = it.values();
	size_t semi_colon_pos = type.find(';');
	if (semi_colon_pos != std::string::npos) {
	type = type.substr(0, semi_colon_pos);
	}
	TrimWhitespaceASCII(type, base::TRIM_ALL, &type);
	} else if (base::LowerCaseEqualsASCII(it.name(), "content-disposition")) {
	disposition = it.values();
	}
	}
	}
	if (!type.empty() && !IsValidContentType(type))
	return false;
	if (base::StartsWith(disposition, "attachment",
	base::CompareCase::INSENSITIVE_ASCII))
	return false;

	if (content_length > 0)
	chunk_stream_.Preallocate(content_length);

	document_size_ = content_length;
	requests_count_ = 0;

	// Enable partial loading only if file size is above the threshold.
	// It will allow avoiding latency for multiple requests.
	if (content_length > kMinFileSize && accept_ranges_bytes &&
	!content_encoded) {
	LoadPartialDocument();
	} else {
	LoadFullDocument();
	}
	return true;
	}

	void DocumentLoader::LoadPartialDocument() {
	// The current request is a full request (not a range request) so it starts at
	// 0 and ends at \|document_size_\|.
	current_chunk_size_ = document_size_;
	current_pos_ = 0;
	current_request_offset_ = 0;
	current_request_size_ = 0;
	current_request_extended_size_ = document_size_;
	request_pending_ = true;

	partial_document_ = true;
	header_request_ = true;
	ReadMore();
	}

	void DocumentLoader::LoadFullDocument() {
	partial_document_ = false;
	chunk_buffer_.clear();
	ReadMore();
	}

	bool DocumentLoader::IsDocumentComplete() const {
	if (document_size_ == 0) // Document size unknown.
	return false;
	return IsDataAvailable(0, document_size_);
	}

	uint32_t DocumentLoader::GetAvailableData() const {
	if (document_size_ == 0) { // If document size is unknown.
	return current_pos_;
	}

	std::vector<std::pair<size_t, size_t>> ranges;
	chunk_stream_.GetMissedRanges(0, document_size_, &ranges);
	uint32_t available = document_size_;
	for (const auto& range : ranges)
	available -= range.second;
	return available;
	}

	void DocumentLoader::ClearPendingRequests() {
	pending_requests_.erase(pending_requests_.begin(), pending_requests_.end());
	}

	bool DocumentLoader::GetBlock(uint32_t position,
	uint32_t size,
	void* buf) const {
	return chunk_stream_.ReadData(position, size, buf);
	}

	bool DocumentLoader::IsDataAvailable(uint32_t position, uint32_t size) const {
	return chunk_stream_.IsRangeAvailable(position, size);
	}

	void DocumentLoader::RequestData(uint32_t position, uint32_t size) {
	DCHECK(partial_document_);

	// We have some artefact request from
	// PDFiumEngine::OnDocumentComplete() -> FPDFAvail_IsPageAvail after
	// document is complete.
	// We need this fix in PDFIum. Adding this as a work around.
	// Bug: http://code.google.com/p/chromium/issues/detail?id=79996
	// Test url:
	// http://www.icann.org/en/correspondence/holtzman-to-jeffrey-02mar11-en.pdf
	if (IsDocumentComplete())
	return;

	pending_requests_.push_back(std::pair<size_t, size_t>(position, size));
	DownloadPendingRequests();
	}

	void DocumentLoader::RemoveCompletedRanges() {
	// Split every request that has been partially downloaded already into smaller
	// requests.
	std::vector<std::pair<size_t, size_t>> ranges;
	auto it = pending_requests_.begin();
	while (it != pending_requests_.end()) {
	chunk_stream_.GetMissedRanges(it->first, it->second, &ranges);
	pending_requests_.insert(it, ranges.begin(), ranges.end());
	ranges.clear();
	pending_requests_.erase(it++);
	}
	}

	void DocumentLoader::DownloadPendingRequests() {
	if (request_pending_)
	return;

	uint32_t pos;
	uint32_t size;
	if (pending_requests_.empty()) {
	// If the document is not complete and we have no outstanding requests,
	// download what's left for as long as no other request gets added to
	// \|pending_requests_\|.
	pos = chunk_stream_.GetFirstMissingByte();
	if (pos >= document_size_) {
	// We're done downloading the document.
	return;
	}
	// Start with size 0, we'll set \|current_request_extended_size_\| to > 0.
	// This way this request will get cancelled as soon as the renderer wants
	// another portion of the document.
	size = 0;
	} else {
	RemoveCompletedRanges();

	pos = pending_requests_.front().first;
	size = pending_requests_.front().second;
	if (IsDataAvailable(pos, size)) {
	ReadComplete();
	return;
	}
	}

	size_t last_byte_before = chunk_stream_.GetFirstMissingByteInInterval(pos);
	if (size < kDefaultRequestSize) {
	// Try to extend before pos, up to size \|kDefaultRequestSize\|.
	if (pos + size - last_byte_before > kDefaultRequestSize) {
	pos += size - kDefaultRequestSize;
	size = kDefaultRequestSize;
	} else {
	size += pos - last_byte_before;
	pos = last_byte_before;
	}
	}
	if (pos - last_byte_before < kDefaultRequestSize) {
	// Don't leave a gap smaller than \|kDefaultRequestSize\|.
	size += pos - last_byte_before;
	pos = last_byte_before;
	}

	current_request_offset_ = pos;
	current_request_size_ = size;

	// Extend the request until the next downloaded byte or the end of the
	// document.
	size_t last_missing_byte =
	chunk_stream_.GetLastMissingByteInInterval(pos + size - 1);
	current_request_extended_size_ = last_missing_byte - pos + 1;

	request_pending_ = true;

	// Start downloading first pending request.
	loader_.Close();
	loader_ = client_->CreateURLLoader();
	pp::CompletionCallback callback =
	loader_factory_.NewCallback(&DocumentLoader::DidOpen);
	pp::URLRequestInfo request = GetRequest(pos, current_request_extended_size_);
	requests_count_++;
	int rv = loader_.Open(request, callback);
	if (rv != PP_OK_COMPLETIONPENDING)
	callback.Run(rv);
	}

	pp::URLRequestInfo DocumentLoader::GetRequest(uint32_t position,
	uint32_t size) const {
	pp::URLRequestInfo request(client_->GetPluginInstance());
	request.SetURL(url_);
	request.SetMethod("GET");
	request.SetFollowRedirects(false);
	request.SetCustomReferrerURL(url_);

	const size_t kBufSize = 100;
	char buf[kBufSize];
	// According to rfc2616, byte range specifies position of the first and last
	// bytes in the requested range inclusively. Therefore we should subtract 1
	// from the position + size, to get index of the last byte that needs to be
	// downloaded.
	base::snprintf(buf, kBufSize, "Range: bytes=%d-%d", position,
	position + size - 1);
	pp::Var header(buf);
	request.SetHeaders(header);

	return request;
	}

	void DocumentLoader::DidOpen(int32_t result) {
	if (result != PP_OK) {
	NOTREACHED();
	client_->OnDocumentFailed();
	return;
	}

	if (!ResponseStatusSuccess(loader_)) {
	client_->OnDocumentFailed();
	return;
	}

	is_multipart_ = false;
	current_chunk_size_ = 0;
	current_chunk_read_ = 0;

	pp::Var headers_var = loader_.GetResponseInfo().GetHeaders();
	std::string headers;
	if (headers_var.is_string())
	headers = headers_var.AsString();

	std::string boundary = GetMultiPartBoundary(headers);
	if (!boundary.empty()) {
	// Leave position untouched for now, when we read the data we'll get it.
	is_multipart_ = true;
	multipart_boundary_ = boundary;
	} else {
	// Need to make sure that the server returned a byte-range, since it's
	// possible for a server to just ignore our byte-range request and just
	// return the entire document even if it supports byte-range requests.
	// i.e. sniff response to
	// http://www.act.org/compass/sample/pdf/geometry.pdf
	current_pos_ = 0;
	uint32_t start_pos, end_pos;
	if (GetByteRange(headers, &start_pos, &end_pos)) {
	current_pos_ = start_pos;
	if (end_pos && end_pos > start_pos)
	current_chunk_size_ = end_pos - start_pos + 1;
	} else {
	partial_document_ = false;
	}
	}

	ReadMore();
	}

	void DocumentLoader::ReadMore() {
	pp::CompletionCallback callback =
	loader_factory_.NewCallback(&DocumentLoader::DidRead);
	int rv = loader_.ReadResponseBody(buffer_, sizeof(buffer_), callback);
	if (rv != PP_OK_COMPLETIONPENDING)
	callback.Run(rv);
	}

	void DocumentLoader::DidRead(int32_t result) {
	if (result <= 0) {
	// If \|result\| == PP_OK, the document was loaded, otherwise an error was
	// encountered. Either way we want to stop processing the response. In the
	// case where an error occurred, the renderer will detect that we're missing
	// data and will display a message.
	ReadComplete();
	return;
	}

	char* start = buffer_;
	size_t length = result;
	if (is_multipart_ && result > 2) {
	for (int i = 2; i < result; ++i) {
	if ((buffer_[i - 1] == '\n' && buffer_[i - 2] == '\n') \|\|
	(i >= 4 && buffer_[i - 1] == '\n' && buffer_[i - 2] == '\r' &&
	buffer_[i - 3] == '\n' && buffer_[i - 4] == '\r')) {
	uint32_t start_pos, end_pos;
	if (GetByteRange(std::string(buffer_, i), &start_pos, &end_pos)) {
	current_pos_ = start_pos;
	start += i;
	length -= i;
	if (end_pos && end_pos > start_pos)
	current_chunk_size_ = end_pos - start_pos + 1;
	}
	break;
	}
	}

	// Reset this flag so we don't look inside the buffer in future calls of
	// DidRead for this response. Note that this code DOES NOT handle multi-
	// part responses with more than one part (we don't issue them at the
	// moment, so they shouldn't arrive).
	is_multipart_ = false;
	}

	if (current_chunk_size_ && current_chunk_read_ + length > current_chunk_size_)
	length = current_chunk_size_ - current_chunk_read_;

	if (length) {
	if (document_size_ > 0) {
	chunk_stream_.WriteData(current_pos_, start, length);
	} else {
	// If we did not get content-length in the response, we can't
	// preallocate buffer for the entire document. Resizing array causing
	// memory fragmentation issues on the large files and OOM exceptions.
	// To fix this, we collect all chunks of the file to the list and
	// concatenate them together after request is complete.
	std::vector<unsigned char> buf(length);
	memcpy(buf.data(), start, length);
	chunk_buffer_.push_back(std::move(buf));
	}
	current_pos_ += length;
	current_chunk_read_ += length;
	client_->OnNewDataAvailable();
	}

	// Only call the renderer if we allow partial loading.
	if (!partial_document_) {
	ReadMore();
	return;
	}

	UpdateRendering();
	RemoveCompletedRanges();

	if (!pending_requests_.empty()) {
	// If there are pending requests and the current content we're downloading
	// doesn't satisfy any of these requests, cancel the current request to
	// fullfill those more important requests.
	bool satisfying_pending_request =
	SatisfyingRequest(current_request_offset_, current_request_size_);
	for (const auto& pending_request : pending_requests_) {
	if (SatisfyingRequest(pending_request.first, pending_request.second)) {
	satisfying_pending_request = true;
	break;
	}
	}
	// Cancel the request as it's not satisfying any request from the
	// renderer, unless the current request is finished in which case we let
	// it finish cleanly.
	if (!satisfying_pending_request &&
	current_pos_ <
	current_request_offset_ + current_request_extended_size_) {
	loader_.Close();
	}
	}

	ReadMore();
	}

	bool DocumentLoader::SatisfyingRequest(size_t offset, size_t size) const {
	return offset <= current_pos_ + kDefaultRequestSize &&
	current_pos_ < offset + size;
	}

	void DocumentLoader::ReadComplete() {
	if (!partial_document_) {
	if (document_size_ == 0) {
	// For the document with no 'content-length" specified we've collected all
	// the chunks already. Let's allocate final document buffer and copy them
	// over.
	chunk_stream_.Preallocate(current_pos_);
	uint32_t pos = 0;
	for (auto& chunk : chunk_buffer_) {
	chunk_stream_.WriteData(pos, chunk.data(), chunk.size());
	pos += chunk.size();
	}
	chunk_buffer_.clear();
	}
	document_size_ = current_pos_;
	client_->OnDocumentComplete();
	return;
	}

	request_pending_ = false;

	if (IsDocumentComplete()) {
	client_->OnDocumentComplete();
	return;
	}

	UpdateRendering();
	DownloadPendingRequests();
	}

	void DocumentLoader::UpdateRendering() {
	if (header_request_)
	client_->OnPartialDocumentLoaded();
	else
	client_->OnPendingRequestComplete();
	header_request_ = false;
	}

	} // namespace chrome_pdf