// Copyright (c) 2012 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/quic_utils.h" #include #include #include "base/basictypes.h" #include "base/logging.h" #include "base/port.h" #include "base/strings/stringprintf.h" #include "base/strings/string_number_conversions.h" #include "net/quic/quic_write_blocked_list.h" using base::StringPiece; using std::string; namespace net { // static uint64 QuicUtils::FNV1a_64_Hash(const char* data, int len) { static const uint64 kOffset = GG_UINT64_C(14695981039346656037); static const uint64 kPrime = GG_UINT64_C(1099511628211); const uint8* octets = reinterpret_cast(data); uint64 hash = kOffset; for (int i = 0; i < len; ++i) { hash = hash ^ octets[i]; hash = hash * kPrime; } return hash; } // static uint128 QuicUtils::FNV1a_128_Hash(const char* data, int len) { // The following two constants are defined as part of the hash algorithm. // see http://www.isthe.com/chongo/tech/comp/fnv/ // 309485009821345068724781371 const uint128 kPrime(16777216, 315); // 144066263297769815596495629667062367629 const uint128 kOffset(GG_UINT64_C(7809847782465536322), GG_UINT64_C(7113472399480571277)); const uint8* octets = reinterpret_cast(data); uint128 hash = kOffset; for (int i = 0; i < len; ++i) { hash = hash ^ uint128(0, octets[i]); hash = hash * kPrime; } return hash; } // static bool QuicUtils::FindMutualTag(const QuicTagVector& our_tags_vector, const QuicTag* their_tags, size_t num_their_tags, Priority priority, QuicTag* out_result, size_t* out_index) { if (our_tags_vector.empty()) { return false; } const size_t num_our_tags = our_tags_vector.size(); const QuicTag* our_tags = &our_tags_vector[0]; size_t num_priority_tags, num_inferior_tags; const QuicTag* priority_tags; const QuicTag* inferior_tags; if (priority == LOCAL_PRIORITY) { num_priority_tags = num_our_tags; priority_tags = our_tags; num_inferior_tags = num_their_tags; inferior_tags = their_tags; } else { num_priority_tags = num_their_tags; priority_tags = their_tags; num_inferior_tags = num_our_tags; inferior_tags = our_tags; } for (size_t i = 0; i < num_priority_tags; i++) { for (size_t j = 0; j < num_inferior_tags; j++) { if (priority_tags[i] == inferior_tags[j]) { *out_result = priority_tags[i]; if (out_index) { if (priority == LOCAL_PRIORITY) { *out_index = j; } else { *out_index = i; } } return true; } } } return false; } // static void QuicUtils::SerializeUint128(uint128 v, uint8* out) { const uint64 lo = Uint128Low64(v); const uint64 hi = Uint128High64(v); // This assumes that the system is little-endian. memcpy(out, &lo, sizeof(lo)); memcpy(out + sizeof(lo), &hi, sizeof(hi)); } // static void QuicUtils::SerializeUint128Short(uint128 v, uint8* out) { const uint64 lo = Uint128Low64(v); const uint64 hi = Uint128High64(v); // This assumes that the system is little-endian. memcpy(out, &lo, sizeof(lo)); memcpy(out + sizeof(lo), &hi, sizeof(hi) / 2); } #define RETURN_STRING_LITERAL(x) \ case x: \ return #x; // static const char* QuicUtils::StreamErrorToString(QuicRstStreamErrorCode error) { switch (error) { RETURN_STRING_LITERAL(QUIC_STREAM_NO_ERROR); RETURN_STRING_LITERAL(QUIC_STREAM_CONNECTION_ERROR); RETURN_STRING_LITERAL(QUIC_ERROR_PROCESSING_STREAM); RETURN_STRING_LITERAL(QUIC_MULTIPLE_TERMINATION_OFFSETS); RETURN_STRING_LITERAL(QUIC_BAD_APPLICATION_PAYLOAD); RETURN_STRING_LITERAL(QUIC_STREAM_PEER_GOING_AWAY); RETURN_STRING_LITERAL(QUIC_STREAM_CANCELLED); RETURN_STRING_LITERAL(QUIC_RST_FLOW_CONTROL_ACCOUNTING); RETURN_STRING_LITERAL(QUIC_STREAM_LAST_ERROR); } // Return a default value so that we return this when |error| doesn't match // any of the QuicRstStreamErrorCodes. This can happen when the RstStream // frame sent by the peer (attacker) has invalid error code. return "INVALID_RST_STREAM_ERROR_CODE"; } // static const char* QuicUtils::ErrorToString(QuicErrorCode error) { switch (error) { RETURN_STRING_LITERAL(QUIC_NO_ERROR); RETURN_STRING_LITERAL(QUIC_INTERNAL_ERROR); RETURN_STRING_LITERAL(QUIC_STREAM_DATA_AFTER_TERMINATION); RETURN_STRING_LITERAL(QUIC_INVALID_PACKET_HEADER); RETURN_STRING_LITERAL(QUIC_INVALID_FRAME_DATA); RETURN_STRING_LITERAL(QUIC_MISSING_PAYLOAD); RETURN_STRING_LITERAL(QUIC_INVALID_FEC_DATA); RETURN_STRING_LITERAL(QUIC_INVALID_STREAM_DATA); RETURN_STRING_LITERAL(QUIC_UNENCRYPTED_STREAM_DATA); RETURN_STRING_LITERAL(QUIC_INVALID_RST_STREAM_DATA); RETURN_STRING_LITERAL(QUIC_INVALID_CONNECTION_CLOSE_DATA); RETURN_STRING_LITERAL(QUIC_INVALID_GOAWAY_DATA); RETURN_STRING_LITERAL(QUIC_INVALID_WINDOW_UPDATE_DATA); RETURN_STRING_LITERAL(QUIC_INVALID_BLOCKED_DATA); RETURN_STRING_LITERAL(QUIC_INVALID_STOP_WAITING_DATA); RETURN_STRING_LITERAL(QUIC_INVALID_ACK_DATA); RETURN_STRING_LITERAL(QUIC_INVALID_CONGESTION_FEEDBACK_DATA); RETURN_STRING_LITERAL(QUIC_INVALID_VERSION_NEGOTIATION_PACKET); RETURN_STRING_LITERAL(QUIC_INVALID_PUBLIC_RST_PACKET); RETURN_STRING_LITERAL(QUIC_DECRYPTION_FAILURE); RETURN_STRING_LITERAL(QUIC_ENCRYPTION_FAILURE); RETURN_STRING_LITERAL(QUIC_PACKET_TOO_LARGE); RETURN_STRING_LITERAL(QUIC_PACKET_FOR_NONEXISTENT_STREAM); RETURN_STRING_LITERAL(QUIC_PEER_GOING_AWAY); RETURN_STRING_LITERAL(QUIC_HANDSHAKE_FAILED); RETURN_STRING_LITERAL(QUIC_CRYPTO_TAGS_OUT_OF_ORDER); RETURN_STRING_LITERAL(QUIC_CRYPTO_TOO_MANY_ENTRIES); RETURN_STRING_LITERAL(QUIC_CRYPTO_TOO_MANY_REJECTS); RETURN_STRING_LITERAL(QUIC_CRYPTO_INVALID_VALUE_LENGTH) RETURN_STRING_LITERAL(QUIC_CRYPTO_MESSAGE_AFTER_HANDSHAKE_COMPLETE); RETURN_STRING_LITERAL(QUIC_CRYPTO_INTERNAL_ERROR); RETURN_STRING_LITERAL(QUIC_CRYPTO_VERSION_NOT_SUPPORTED); RETURN_STRING_LITERAL(QUIC_CRYPTO_NO_SUPPORT); RETURN_STRING_LITERAL(QUIC_INVALID_CRYPTO_MESSAGE_TYPE); RETURN_STRING_LITERAL(QUIC_INVALID_CRYPTO_MESSAGE_PARAMETER); RETURN_STRING_LITERAL(QUIC_CRYPTO_MESSAGE_PARAMETER_NOT_FOUND); RETURN_STRING_LITERAL(QUIC_CRYPTO_MESSAGE_PARAMETER_NO_OVERLAP); RETURN_STRING_LITERAL(QUIC_CRYPTO_MESSAGE_INDEX_NOT_FOUND); RETURN_STRING_LITERAL(QUIC_INVALID_STREAM_ID); RETURN_STRING_LITERAL(QUIC_INVALID_PRIORITY); RETURN_STRING_LITERAL(QUIC_TOO_MANY_OPEN_STREAMS); RETURN_STRING_LITERAL(QUIC_PUBLIC_RESET); RETURN_STRING_LITERAL(QUIC_INVALID_VERSION); RETURN_STRING_LITERAL(QUIC_INVALID_HEADER_ID); RETURN_STRING_LITERAL(QUIC_INVALID_NEGOTIATED_VALUE); RETURN_STRING_LITERAL(QUIC_DECOMPRESSION_FAILURE); RETURN_STRING_LITERAL(QUIC_CONNECTION_TIMED_OUT); RETURN_STRING_LITERAL(QUIC_ERROR_MIGRATING_ADDRESS); RETURN_STRING_LITERAL(QUIC_PACKET_WRITE_ERROR); RETURN_STRING_LITERAL(QUIC_PACKET_READ_ERROR); RETURN_STRING_LITERAL(QUIC_INVALID_STREAM_FRAME); RETURN_STRING_LITERAL(QUIC_INVALID_HEADERS_STREAM_DATA); RETURN_STRING_LITERAL(QUIC_FLOW_CONTROL_RECEIVED_TOO_MUCH_DATA); RETURN_STRING_LITERAL(QUIC_FLOW_CONTROL_SENT_TOO_MUCH_DATA); RETURN_STRING_LITERAL(QUIC_FLOW_CONTROL_INVALID_WINDOW); RETURN_STRING_LITERAL(QUIC_CONNECTION_IP_POOLED); RETURN_STRING_LITERAL(QUIC_PROOF_INVALID); RETURN_STRING_LITERAL(QUIC_CRYPTO_DUPLICATE_TAG); RETURN_STRING_LITERAL(QUIC_CRYPTO_ENCRYPTION_LEVEL_INCORRECT); RETURN_STRING_LITERAL(QUIC_CRYPTO_SERVER_CONFIG_EXPIRED); RETURN_STRING_LITERAL(QUIC_INVALID_CHANNEL_ID_SIGNATURE); RETURN_STRING_LITERAL(QUIC_CRYPTO_SYMMETRIC_KEY_SETUP_FAILED); RETURN_STRING_LITERAL(QUIC_CRYPTO_MESSAGE_WHILE_VALIDATING_CLIENT_HELLO); RETURN_STRING_LITERAL(QUIC_VERSION_NEGOTIATION_MISMATCH); RETURN_STRING_LITERAL(QUIC_LAST_ERROR); // Intentionally have no default case, so we'll break the build // if we add errors and don't put them here. } // Return a default value so that we return this when |error| doesn't match // any of the QuicErrorCodes. This can happen when the ConnectionClose // frame sent by the peer (attacker) has invalid error code. return "INVALID_ERROR_CODE"; } // static const char* QuicUtils::EncryptionLevelToString(EncryptionLevel level) { switch (level) { RETURN_STRING_LITERAL(ENCRYPTION_NONE); RETURN_STRING_LITERAL(ENCRYPTION_INITIAL); RETURN_STRING_LITERAL(ENCRYPTION_FORWARD_SECURE); RETURN_STRING_LITERAL(NUM_ENCRYPTION_LEVELS); } return "INVALID_ENCRYPTION_LEVEL"; } // static const char* QuicUtils::TransmissionTypeToString(TransmissionType type) { switch (type) { RETURN_STRING_LITERAL(NOT_RETRANSMISSION); RETURN_STRING_LITERAL(HANDSHAKE_RETRANSMISSION); RETURN_STRING_LITERAL(LOSS_RETRANSMISSION); RETURN_STRING_LITERAL(ALL_UNACKED_RETRANSMISSION); RETURN_STRING_LITERAL(RTO_RETRANSMISSION); RETURN_STRING_LITERAL(TLP_RETRANSMISSION); } return "INVALID_TRANSMISSION_TYPE"; } // static string QuicUtils::TagToString(QuicTag tag) { char chars[4]; bool ascii = true; const QuicTag orig_tag = tag; for (size_t i = 0; i < sizeof(chars); i++) { chars[i] = tag; if ((chars[i] == 0 || chars[i] == '\xff') && i == 3) { chars[i] = ' '; } if (!isprint(static_cast(chars[i]))) { ascii = false; break; } tag >>= 8; } if (ascii) { return string(chars, sizeof(chars)); } return base::UintToString(orig_tag); } // static string QuicUtils::StringToHexASCIIDump(StringPiece in_buffer) { int offset = 0; const int kBytesPerLine = 16; // Max bytes dumped per line const char* buf = in_buffer.data(); int bytes_remaining = in_buffer.size(); string s; // our output const char* p = buf; while (bytes_remaining > 0) { const int line_bytes = std::min(bytes_remaining, kBytesPerLine); base::StringAppendF(&s, "0x%04x: ", offset); // Do the line header for (int i = 0; i < kBytesPerLine; ++i) { if (i < line_bytes) { base::StringAppendF(&s, "%02x", static_cast(p[i])); } else { s += " "; // two-space filler instead of two-space hex digits } if (i % 2) s += ' '; } s += ' '; for (int i = 0; i < line_bytes; ++i) { // Do the ASCII dump s+= (p[i] > 32 && p[i] < 127) ? p[i] : '.'; } bytes_remaining -= line_bytes; offset += line_bytes; p += line_bytes; s += '\n'; } return s; } // static QuicPriority QuicUtils::LowestPriority() { return QuicWriteBlockedList::kLowestPriority; } // static QuicPriority QuicUtils::HighestPriority() { return QuicWriteBlockedList::kHighestPriority; } } // namespace net