path: root/net/quic/test_tools/quic_test_packet_maker.cc

// Copyright 2013 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 "net/quic/test_tools/quic_test_packet_maker.h"

#include <list>

#include "net/quic/quic_framer.h"
#include "net/quic/quic_http_utils.h"
#include "net/quic/quic_utils.h"
#include "net/quic/test_tools/quic_test_utils.h"

using std::make_pair;

namespace net {
namespace test {

QuicTestPacketMaker::QuicTestPacketMaker(QuicVersion version,
                                         QuicConnectionId connection_id,
                                         MockClock* clock,
                                         const std::string& host)
    : version_(version),
      connection_id_(connection_id),
      clock_(clock),
      host_(host),
      spdy_request_framer_(HTTP2),
      spdy_response_framer_(HTTP2) {
}

QuicTestPacketMaker::~QuicTestPacketMaker() {
}

void QuicTestPacketMaker::set_hostname(const std::string& host) {
  host_.assign(host);
}

scoped_ptr<QuicEncryptedPacket> QuicTestPacketMaker::MakeRstPacket(
    QuicPacketNumber num,
    bool include_version,
    QuicStreamId stream_id,
    QuicRstStreamErrorCode error_code) {
  QuicPacketHeader header;
  header.public_header.connection_id = connection_id_;
  header.public_header.reset_flag = false;
  header.public_header.version_flag = include_version;
  header.public_header.packet_number_length = PACKET_1BYTE_PACKET_NUMBER;
  header.packet_number = num;
  header.entropy_flag = false;
  header.fec_flag = false;
  header.fec_group = 0;

  QuicRstStreamFrame rst(stream_id, error_code, 0);
  return scoped_ptr<QuicEncryptedPacket>(MakePacket(header, QuicFrame(&rst)));
}

scoped_ptr<QuicEncryptedPacket> QuicTestPacketMaker::MakeAckAndRstPacket(
    QuicPacketNumber num,
    bool include_version,
    QuicStreamId stream_id,
    QuicRstStreamErrorCode error_code,
    QuicPacketNumber largest_received,
    QuicPacketNumber least_unacked,
    bool send_feedback) {
  QuicPacketHeader header;
  header.public_header.connection_id = connection_id_;
  header.public_header.reset_flag = false;
  header.public_header.version_flag = include_version;
  header.public_header.packet_number_length = PACKET_1BYTE_PACKET_NUMBER;
  header.packet_number = num;
  header.entropy_flag = false;
  header.fec_flag = false;
  header.fec_group = 0;

  QuicAckFrame ack(MakeAckFrame(largest_received));
  ack.delta_time_largest_observed = QuicTime::Delta::Zero();
  for (QuicPacketNumber i = least_unacked; i <= largest_received; ++i) {
    ack.received_packet_times.push_back(make_pair(i, clock_->Now()));
  }
  QuicFrames frames;
  frames.push_back(QuicFrame(&ack));

  QuicStopWaitingFrame stop_waiting;
  stop_waiting.least_unacked = least_unacked;
  frames.push_back(QuicFrame(&stop_waiting));

  QuicRstStreamFrame rst(stream_id, error_code, 0);
  frames.push_back(QuicFrame(&rst));

  QuicFramer framer(SupportedVersions(version_), clock_->Now(),
                    Perspective::IS_CLIENT);
  scoped_ptr<QuicPacket> packet(
      BuildUnsizedDataPacket(&framer, header, frames));
  char buffer[kMaxPacketSize];
  size_t encrypted_size = framer.EncryptPayload(
      ENCRYPTION_NONE, header.packet_number, *packet, buffer, kMaxPacketSize);
  EXPECT_NE(0u, encrypted_size);
  QuicEncryptedPacket encrypted(buffer, encrypted_size, false);
  return scoped_ptr<QuicEncryptedPacket>(encrypted.Clone());
}

scoped_ptr<QuicEncryptedPacket>
QuicTestPacketMaker::MakeAckAndConnectionClosePacket(
    QuicPacketNumber num,
    bool include_version,
    QuicTime::Delta delta_time_largest_observed,
    QuicPacketNumber largest_received,
    QuicPacketNumber least_unacked,
    QuicErrorCode quic_error,
    std::string& quic_error_details) {
  QuicPacketHeader header;
  header.public_header.connection_id = connection_id_;
  header.public_header.reset_flag = false;
  header.public_header.version_flag = include_version;
  header.public_header.packet_number_length = PACKET_1BYTE_PACKET_NUMBER;
  header.packet_number = num;
  header.entropy_flag = false;
  header.fec_flag = false;
  header.fec_group = 0;

  QuicAckFrame ack(MakeAckFrame(largest_received));
  ack.delta_time_largest_observed = delta_time_largest_observed;
  for (QuicPacketNumber i = least_unacked; i <= largest_received; ++i) {
    ack.received_packet_times.push_back(make_pair(i, clock_->Now()));
  }
  QuicFrames frames;
  frames.push_back(QuicFrame(&ack));
  DVLOG(1) << "Adding frame: " << frames[0];

  QuicStopWaitingFrame stop_waiting;
  stop_waiting.least_unacked = least_unacked;
  frames.push_back(QuicFrame(&stop_waiting));
  DVLOG(1) << "Adding frame: " << frames[1];

  QuicConnectionCloseFrame close;
  close.error_code = quic_error;
  close.error_details = quic_error_details;

  frames.push_back(QuicFrame(&close));
  DVLOG(1) << "Adding frame: " << frames[2];

  QuicFramer framer(SupportedVersions(version_), clock_->Now(),
                    Perspective::IS_CLIENT);
  scoped_ptr<QuicPacket> packet(
      BuildUnsizedDataPacket(&framer, header, frames));
  char buffer[kMaxPacketSize];
  size_t encrypted_size = framer.EncryptPayload(
      ENCRYPTION_NONE, header.packet_number, *packet, buffer, kMaxPacketSize);
  EXPECT_NE(0u, encrypted_size);
  QuicEncryptedPacket encrypted(buffer, encrypted_size, false);
  return scoped_ptr<QuicEncryptedPacket>(encrypted.Clone());
}

scoped_ptr<QuicEncryptedPacket> QuicTestPacketMaker::MakeConnectionClosePacket(
    QuicPacketNumber num) {
  QuicPacketHeader header;
  header.public_header.connection_id = connection_id_;
  header.public_header.reset_flag = false;
  header.public_header.version_flag = false;
  header.public_header.packet_number_length = PACKET_1BYTE_PACKET_NUMBER;
  header.packet_number = num;
  header.entropy_flag = false;
  header.fec_flag = false;
  header.fec_group = 0;

  QuicConnectionCloseFrame close;
  close.error_code = QUIC_CRYPTO_VERSION_NOT_SUPPORTED;
  close.error_details = "Time to panic!";
  return scoped_ptr<QuicEncryptedPacket>(MakePacket(header, QuicFrame(&close)));
}

scoped_ptr<QuicEncryptedPacket> QuicTestPacketMaker::MakeAckPacket(
    QuicPacketNumber packet_number,
    QuicPacketNumber largest_received,
    QuicPacketNumber least_unacked,
    bool send_feedback) {
  QuicPacketHeader header;
  header.public_header.connection_id = connection_id_;
  header.public_header.reset_flag = false;
  header.public_header.version_flag = false;
  header.public_header.packet_number_length = PACKET_1BYTE_PACKET_NUMBER;
  header.packet_number = packet_number;
  header.entropy_flag = false;
  header.fec_flag = false;
  header.fec_group = 0;

  QuicAckFrame ack(MakeAckFrame(largest_received));
  ack.delta_time_largest_observed = QuicTime::Delta::Zero();
  for (QuicPacketNumber i = least_unacked; i <= largest_received; ++i) {
    ack.received_packet_times.push_back(make_pair(i, clock_->Now()));
  }

  QuicFramer framer(SupportedVersions(version_), clock_->Now(),
                    Perspective::IS_CLIENT);
  QuicFrames frames;
  frames.push_back(QuicFrame(&ack));

  QuicStopWaitingFrame stop_waiting;
  stop_waiting.least_unacked = least_unacked;
  frames.push_back(QuicFrame(&stop_waiting));

  scoped_ptr<QuicPacket> packet(
      BuildUnsizedDataPacket(&framer, header, frames));
  char buffer[kMaxPacketSize];
  size_t encrypted_size = framer.EncryptPayload(
      ENCRYPTION_NONE, header.packet_number, *packet, buffer, kMaxPacketSize);
  EXPECT_NE(0u, encrypted_size);
  QuicEncryptedPacket encrypted(buffer, encrypted_size, false);
  return scoped_ptr<QuicEncryptedPacket>(encrypted.Clone());
}

// Returns a newly created packet to send kData on stream 1.
scoped_ptr<QuicEncryptedPacket> QuicTestPacketMaker::MakeDataPacket(
    QuicPacketNumber packet_number,
    QuicStreamId stream_id,
    bool should_include_version,
    bool fin,
    QuicStreamOffset offset,
    base::StringPiece data) {
  InitializeHeader(packet_number, should_include_version);
  QuicStreamFrame frame(stream_id, fin, offset, data);
  return MakePacket(header_, QuicFrame(&frame));
}

scoped_ptr<QuicEncryptedPacket> QuicTestPacketMaker::MakeRequestHeadersPacket(
    QuicPacketNumber packet_number,
    QuicStreamId stream_id,
    bool should_include_version,
    bool fin,
    SpdyPriority priority,
    const SpdyHeaderBlock& headers,
    size_t* spdy_headers_frame_length) {
  InitializeHeader(packet_number, should_include_version);
  scoped_ptr<SpdySerializedFrame> spdy_frame;
  if (spdy_request_framer_.protocol_version() == SPDY3) {
    SpdySynStreamIR syn_stream(stream_id);
    syn_stream.set_header_block(headers);
    syn_stream.set_fin(fin);
    syn_stream.set_priority(priority);
    spdy_frame.reset(spdy_request_framer_.SerializeSynStream(syn_stream));
  } else {
    SpdyHeadersIR headers_frame(stream_id);
    headers_frame.set_header_block(headers);
    headers_frame.set_fin(fin);
    headers_frame.set_priority(priority);
    headers_frame.set_has_priority(true);
    spdy_frame.reset(spdy_request_framer_.SerializeFrame(headers_frame));
  }
  if (spdy_headers_frame_length) {
    *spdy_headers_frame_length = spdy_frame->size();
  }
  QuicStreamFrame frame(
      kHeadersStreamId, false, 0,
      base::StringPiece(spdy_frame->data(), spdy_frame->size()));
  return MakePacket(header_, QuicFrame(&frame));
}

scoped_ptr<QuicEncryptedPacket> QuicTestPacketMaker::MakeRequestHeadersPacket(
    QuicPacketNumber packet_number,
    QuicStreamId stream_id,
    bool should_include_version,
    bool fin,
    SpdyPriority priority,
    const SpdyHeaderBlock& headers) {
  return MakeRequestHeadersPacket(packet_number, stream_id,
                                  should_include_version, fin, priority,
                                  headers, nullptr);
}

scoped_ptr<QuicEncryptedPacket> QuicTestPacketMaker::MakeResponseHeadersPacket(
    QuicPacketNumber packet_number,
    QuicStreamId stream_id,
    bool should_include_version,
    bool fin,
    const SpdyHeaderBlock& headers,
    size_t* spdy_headers_frame_length) {
  InitializeHeader(packet_number, should_include_version);
  scoped_ptr<SpdySerializedFrame> spdy_frame;
  if (spdy_request_framer_.protocol_version() == SPDY3) {
    SpdySynReplyIR syn_reply(stream_id);
    syn_reply.set_header_block(headers);
    syn_reply.set_fin(fin);
    spdy_frame.reset(spdy_response_framer_.SerializeSynReply(syn_reply));
  } else {
    SpdyHeadersIR headers_frame(stream_id);
    headers_frame.set_header_block(headers);
    headers_frame.set_fin(fin);
    spdy_frame.reset(spdy_request_framer_.SerializeFrame(headers_frame));
  }
  if (spdy_headers_frame_length) {
    *spdy_headers_frame_length = spdy_frame->size();
  }
  QuicStreamFrame frame(
      kHeadersStreamId, false, 0,
      base::StringPiece(spdy_frame->data(), spdy_frame->size()));
  return MakePacket(header_, QuicFrame(&frame));
}

scoped_ptr<QuicEncryptedPacket> QuicTestPacketMaker::MakeResponseHeadersPacket(
    QuicPacketNumber packet_number,
    QuicStreamId stream_id,
    bool should_include_version,
    bool fin,
    const SpdyHeaderBlock& headers) {
  return MakeResponseHeadersPacket(
      packet_number, stream_id, should_include_version, fin, headers, nullptr);
}

SpdyHeaderBlock QuicTestPacketMaker::GetRequestHeaders(
    const std::string& method,
    const std::string& scheme,
    const std::string& path) {
  SpdyHeaderBlock headers;
  headers[":method"] = method;
  headers[":authority"] = host_;
  headers[":scheme"] = scheme;
  headers[":path"] = path;
  return headers;
}

SpdyHeaderBlock QuicTestPacketMaker::GetResponseHeaders(
    const std::string& status) {
  SpdyHeaderBlock headers;
  headers[":status"] = status;
  headers["content-type"] = "text/plain";
  return headers;
}

scoped_ptr<QuicEncryptedPacket> QuicTestPacketMaker::MakePacket(
    const QuicPacketHeader& header,
    const QuicFrame& frame) {
  QuicFramer framer(SupportedVersions(version_), QuicTime::Zero(),
                    Perspective::IS_CLIENT);
  QuicFrames frames;
  frames.push_back(frame);
  scoped_ptr<QuicPacket> packet(
      BuildUnsizedDataPacket(&framer, header, frames));
  char buffer[kMaxPacketSize];
  size_t encrypted_size = framer.EncryptPayload(
      ENCRYPTION_NONE, header.packet_number, *packet, buffer, kMaxPacketSize);
  EXPECT_NE(0u, encrypted_size);
  QuicEncryptedPacket encrypted(buffer, encrypted_size, false);
  return scoped_ptr<QuicEncryptedPacket>(encrypted.Clone());
}

void QuicTestPacketMaker::InitializeHeader(QuicPacketNumber packet_number,
                                           bool should_include_version) {
  header_.public_header.connection_id = connection_id_;
  header_.public_header.reset_flag = false;
  header_.public_header.version_flag = should_include_version;
  header_.public_header.packet_number_length = PACKET_1BYTE_PACKET_NUMBER;
  header_.packet_number = packet_number;
  header_.fec_group = 0;
  header_.entropy_flag = false;
  header_.fec_flag = false;
}

}  // namespace test
}  // namespace net