// Copyright (c) 2006-2008 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 "base/basictypes.h" #include "net/base/net_errors.h" #include "net/http/http_chunked_decoder.h" #include "testing/gtest/include/gtest/gtest.h" namespace { typedef testing::Test HttpChunkedDecoderTest; void RunTest(const char* inputs[], size_t num_inputs, const char* expected_output, bool expected_eof, int bytes_after_eof) { net::HttpChunkedDecoder decoder; EXPECT_FALSE(decoder.reached_eof()); std::string result; for (size_t i = 0; i < num_inputs; ++i) { std::string input = inputs[i]; int n = decoder.FilterBuf(&input[0], static_cast<int>(input.size())); EXPECT_GE(n, 0); if (n > 0) result.append(input.data(), n); } EXPECT_EQ(expected_output, result); EXPECT_EQ(expected_eof, decoder.reached_eof()); EXPECT_EQ(bytes_after_eof, decoder.bytes_after_eof()); } // Feed the inputs to the decoder, until it returns an error. void RunTestUntilFailure(const char* inputs[], size_t num_inputs, size_t fail_index) { net::HttpChunkedDecoder decoder; EXPECT_FALSE(decoder.reached_eof()); for (size_t i = 0; i < num_inputs; ++i) { std::string input = inputs[i]; int n = decoder.FilterBuf(&input[0], static_cast<int>(input.size())); if (n < 0) { EXPECT_EQ(net::ERR_INVALID_CHUNKED_ENCODING, n); EXPECT_EQ(fail_index, i); return; } } FAIL(); // We should have failed on the i'th iteration of the loop. } } // namespace TEST(HttpChunkedDecoderTest, Basic) { const char* inputs[] = { "5\r\nhello\r\n0\r\n\r\n" }; RunTest(inputs, arraysize(inputs), "hello", true, 0); } TEST(HttpChunkedDecoderTest, OneChunk) { const char* inputs[] = { "5\r\nhello\r\n" }; RunTest(inputs, arraysize(inputs), "hello", false, 0); } TEST(HttpChunkedDecoderTest, Typical) { const char* inputs[] = { "5\r\nhello\r\n", "1\r\n \r\n", "5\r\nworld\r\n", "0\r\n\r\n" }; RunTest(inputs, arraysize(inputs), "hello world", true, 0); } TEST(HttpChunkedDecoderTest, Incremental) { const char* inputs[] = { "5", "\r", "\n", "hello", "\r", "\n", "0", "\r", "\n", "\r", "\n" }; RunTest(inputs, arraysize(inputs), "hello", true, 0); } TEST(HttpChunkedDecoderTest, LF_InsteadOf_CRLF) { // Compatibility: [RFC 2616 - Invalid] // {Firefox3} - Valid // {IE7, Safari3.1, Opera9.51} - Invalid const char* inputs[] = { "5\nhello\n", "1\n \n", "5\nworld\n", "0\n\n" }; RunTest(inputs, arraysize(inputs), "hello world", true, 0); } TEST(HttpChunkedDecoderTest, Extensions) { const char* inputs[] = { "5;x=0\r\nhello\r\n", "0;y=\"2 \"\r\n\r\n" }; RunTest(inputs, arraysize(inputs), "hello", true, 0); } TEST(HttpChunkedDecoderTest, Trailers) { const char* inputs[] = { "5\r\nhello\r\n", "0\r\n", "Foo: 1\r\n", "Bar: 2\r\n", "\r\n" }; RunTest(inputs, arraysize(inputs), "hello", true, 0); } TEST(HttpChunkedDecoderTest, TrailersUnfinished) { const char* inputs[] = { "5\r\nhello\r\n", "0\r\n", "Foo: 1\r\n" }; RunTest(inputs, arraysize(inputs), "hello", false, 0); } TEST(HttpChunkedDecoderTest, InvalidChunkSize_TooBig) { const char* inputs[] = { // This chunked body is not terminated. // However we will fail decoding because the chunk-size // number is larger than we can handle. "48469410265455838241\r\nhello\r\n", "0\r\n\r\n" }; RunTestUntilFailure(inputs, arraysize(inputs), 0); } TEST(HttpChunkedDecoderTest, InvalidChunkSize_0X) { const char* inputs[] = { // Compatibility [RFC 2616 - Invalid]: // {Safari3.1, IE7} - Invalid // {Firefox3, Opera 9.51} - Valid "0x5\r\nhello\r\n", "0\r\n\r\n" }; RunTestUntilFailure(inputs, arraysize(inputs), 0); } TEST(HttpChunkedDecoderTest, ChunkSize_TrailingSpace) { const char* inputs[] = { // Compatibility [RFC 2616 - Invalid]: // {IE7, Safari3.1, Firefox3, Opera 9.51} - Valid // // At least yahoo.com depends on this being valid. "5 \r\nhello\r\n", "0\r\n\r\n" }; RunTest(inputs, arraysize(inputs), "hello", true, 0); } TEST(HttpChunkedDecoderTest, InvalidChunkSize_TrailingTab) { const char* inputs[] = { // Compatibility [RFC 2616 - Invalid]: // {IE7, Safari3.1, Firefox3, Opera 9.51} - Valid "5\t\r\nhello\r\n", "0\r\n\r\n" }; RunTestUntilFailure(inputs, arraysize(inputs), 0); } TEST(HttpChunkedDecoderTest, InvalidChunkSize_TrailingFormFeed) { const char* inputs[] = { // Compatibility [RFC 2616- Invalid]: // {Safari3.1} - Invalid // {IE7, Firefox3, Opera 9.51} - Valid "5\f\r\nhello\r\n", "0\r\n\r\n" }; RunTestUntilFailure(inputs, arraysize(inputs), 0); } TEST(HttpChunkedDecoderTest, InvalidChunkSize_TrailingVerticalTab) { const char* inputs[] = { // Compatibility [RFC 2616 - Invalid]: // {Safari 3.1} - Invalid // {IE7, Firefox3, Opera 9.51} - Valid "5\v\r\nhello\r\n", "0\r\n\r\n" }; RunTestUntilFailure(inputs, arraysize(inputs), 0); } TEST(HttpChunkedDecoderTest, InvalidChunkSize_TrailingNonHexDigit) { const char* inputs[] = { // Compatibility [RFC 2616 - Invalid]: // {Safari 3.1} - Invalid // {IE7, Firefox3, Opera 9.51} - Valid "5H\r\nhello\r\n", "0\r\n\r\n" }; RunTestUntilFailure(inputs, arraysize(inputs), 0); } TEST(HttpChunkedDecoderTest, InvalidChunkSize_LeadingSpace) { const char* inputs[] = { // Compatibility [RFC 2616 - Invalid]: // {IE7} - Invalid // {Safari 3.1, Firefox3, Opera 9.51} - Valid " 5\r\nhello\r\n", "0\r\n\r\n" }; RunTestUntilFailure(inputs, arraysize(inputs), 0); } TEST(HttpChunkedDecoderTest, InvalidLeadingSeparator) { const char* inputs[] = { "\r\n5\r\nhello\r\n", "0\r\n\r\n" }; RunTestUntilFailure(inputs, arraysize(inputs), 0); } TEST(HttpChunkedDecoderTest, InvalidChunkSize_NoSeparator) { const char* inputs[] = { "5\r\nhello", "1\r\n \r\n", "0\r\n\r\n" }; RunTestUntilFailure(inputs, arraysize(inputs), 1); } TEST(HttpChunkedDecoderTest, InvalidChunkSize_Negative) { const char* inputs[] = { "8\r\n12345678\r\n-5\r\nhello\r\n", "0\r\n\r\n" }; RunTestUntilFailure(inputs, arraysize(inputs), 0); } TEST(HttpChunkedDecoderTest, InvalidChunkSize_Plus) { const char* inputs[] = { // Compatibility [RFC 2616 - Invalid]: // {IE7, Safari 3.1} - Invalid // {Firefox3, Opera 9.51} - Valid "+5\r\nhello\r\n", "0\r\n\r\n" }; RunTestUntilFailure(inputs, arraysize(inputs), 0); } TEST(HttpChunkedDecoderTest, InvalidConsecutiveCRLFs) { const char* inputs[] = { "5\r\nhello\r\n", "\r\n\r\n\r\n\r\n", "0\r\n\r\n" }; RunTestUntilFailure(inputs, arraysize(inputs), 1); } TEST(HttpChunkedDecoderTest, ExcessiveChunkLen) { const char* inputs[] = { "c0000000\r\nhello\r\n" }; RunTestUntilFailure(inputs, arraysize(inputs), 0); } TEST(HttpChunkedDecoderTest, BasicExtraData) { const char* inputs[] = { "5\r\nhello\r\n0\r\n\r\nextra bytes" }; RunTest(inputs, arraysize(inputs), "hello", true, 11); } TEST(HttpChunkedDecoderTest, IncrementalExtraData) { const char* inputs[] = { "5", "\r", "\n", "hello", "\r", "\n", "0", "\r", "\n", "\r", "\nextra bytes" }; RunTest(inputs, arraysize(inputs), "hello", true, 11); } TEST(HttpChunkedDecoderTest, MultipleExtraDataBlocks) { const char* inputs[] = { "5\r\nhello\r\n0\r\n\r\nextra", " bytes" }; RunTest(inputs, arraysize(inputs), "hello", true, 11); }