// Copyright 2014 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/spdy/fuzzing/hpack_fuzz_util.h" #include #include #include "base/rand_util.h" #include "base/sys_byteorder.h" #include "net/spdy/hpack_constants.h" namespace net { namespace { // Sampled exponential distribution parameters: // Number of headers in each header set. const size_t kHeaderCountMean = 7; const size_t kHeaderCountMax = 50; // Selected index within list of headers. const size_t kHeaderIndexMean = 20; const size_t kHeaderIndexMax = 200; // Approximate distribution of header name lengths. const size_t kNameLengthMean = 5; const size_t kNameLengthMax = 30; // Approximate distribution of header value lengths. const size_t kValueLengthMean = 15; const size_t kValueLengthMax = 75; } // namespace using base::StringPiece; using base::RandBytesAsString; using std::map; using std::string; HpackFuzzUtil::GeneratorContext::GeneratorContext() {} HpackFuzzUtil::GeneratorContext::~GeneratorContext() {} HpackFuzzUtil::Input::Input() : offset(0) {} HpackFuzzUtil::Input::~Input() {} HpackFuzzUtil::FuzzerContext::FuzzerContext() {} HpackFuzzUtil::FuzzerContext::~FuzzerContext() {} // static void HpackFuzzUtil::InitializeGeneratorContext(GeneratorContext* context) { // Seed the generator with common header fixtures. context->names.push_back(":authority"); context->names.push_back(":path"); context->names.push_back(":status"); context->names.push_back("cookie"); context->names.push_back("content-type"); context->names.push_back("cache-control"); context->names.push_back("date"); context->names.push_back("user-agent"); context->names.push_back("via"); context->values.push_back("/"); context->values.push_back("/index.html"); context->values.push_back("200"); context->values.push_back("404"); context->values.push_back(""); context->values.push_back("baz=bing; foo=bar; garbage"); context->values.push_back("baz=bing; fizzle=fazzle; garbage"); context->values.push_back("rudolph=the-red-nosed-reindeer"); context->values.push_back("had=a;very_shiny=nose"); context->values.push_back("and\0if\0you\0ever\1saw\0it;"); context->values.push_back("u; would=even;say-it\xffglows"); } // static map HpackFuzzUtil::NextGeneratedHeaderSet( GeneratorContext* context) { map headers; size_t header_count = 1 + SampleExponential(kHeaderCountMean, kHeaderCountMax); for (size_t j = 0; j != header_count; ++j) { size_t name_index = SampleExponential(kHeaderIndexMean, kHeaderIndexMax); size_t value_index = SampleExponential(kHeaderIndexMean, kHeaderIndexMax); string name, value; if (name_index >= context->names.size()) { context->names.push_back( RandBytesAsString(1 + SampleExponential(kNameLengthMean, kNameLengthMax))); name = context->names.back(); } else { name = context->names[name_index]; } if (value_index >= context->values.size()) { context->values.push_back( RandBytesAsString(1 + SampleExponential(kValueLengthMean, kValueLengthMax))); value = context->values.back(); } else { value = context->values[value_index]; } headers[name] = value; } return headers; } // static size_t HpackFuzzUtil::SampleExponential(size_t mean, size_t sanity_bound) { return std::min(-std::log(base::RandDouble()) * mean, sanity_bound); } // static bool HpackFuzzUtil::NextHeaderBlock(Input* input, StringPiece* out) { // ClusterFuzz may truncate input files if the fuzzer ran out of allocated // disk space. Be tolerant of these. CHECK_LE(input->offset, input->input.size()); if (input->remaining() < sizeof(uint32)) { return false; } size_t length = ntohl(*reinterpret_cast(input->ptr())); input->offset += sizeof(uint32); if (input->remaining() < length) { return false; } *out = StringPiece(input->ptr(), length); input->offset += length; return true; } // static string HpackFuzzUtil::HeaderBlockPrefix(size_t block_size) { uint32 length = htonl(block_size); return string(reinterpret_cast(&length), sizeof(uint32)); } // static void HpackFuzzUtil::InitializeFuzzerContext(FuzzerContext* context) { context->first_stage.reset(new HpackDecoder(ObtainHpackHuffmanTable())); context->second_stage.reset(new HpackEncoder(ObtainHpackHuffmanTable())); context->third_stage.reset(new HpackDecoder(ObtainHpackHuffmanTable())); } // static bool HpackFuzzUtil::RunHeaderBlockThroughFuzzerStages(FuzzerContext* context, StringPiece input_block) { // First stage: Decode the input header block. This may fail on invalid input. if (!context->first_stage->HandleControlFrameHeadersData( 1, input_block.data(), input_block.size())) { return false; } if (!context->first_stage->HandleControlFrameHeadersComplete(1)) { return false; } // Second stage: Re-encode the decoded header block. This must succeed. string second_stage_out; CHECK(context->second_stage->EncodeHeaderSet( context->first_stage->decoded_block(), &second_stage_out)); // Third stage: Expect a decoding of the re-encoded block to succeed, but // don't require it. It's possible for the stage-two encoder to produce an // output which violates decoder size tolerances. if (!context->third_stage->HandleControlFrameHeadersData( 1, second_stage_out.data(), second_stage_out.length())) { return false; } if (!context->third_stage->HandleControlFrameHeadersComplete(1)) { return false; } return true; } // static void HpackFuzzUtil::FlipBits(uint8* buffer, size_t buffer_length, size_t flip_per_thousand) { uint64 buffer_bit_length = buffer_length * 8u; uint64 bits_to_flip = flip_per_thousand * (1 + buffer_bit_length / 1024); // Iteratively identify & flip offsets in the buffer bit-sequence. for (uint64 i = 0; i != bits_to_flip; ++i) { uint64 bit_offset = base::RandUint64() % buffer_bit_length; buffer[bit_offset / 8u] ^= (1 << (bit_offset % 8u)); } } } // namespace net