1 // Copyright (c) 2012 The Chromium Authors. All rights reserved. 2 // Use of this source code is governed by a BSD-style license that can be 3 // found in the LICENSE file. 4 5 #ifndef NET_QUIC_QUIC_PROTOCOL_H_ 6 #define NET_QUIC_QUIC_PROTOCOL_H_ 7 8 #include <stddef.h> 9 #include <limits> 10 #include <map> 11 #include <ostream> 12 #include <set> 13 #include <string> 14 #include <utility> 15 #include <vector> 16 17 #include "base/basictypes.h" 18 #include "base/containers/hash_tables.h" 19 #include "base/logging.h" 20 #include "base/strings/string_piece.h" 21 #include "net/base/int128.h" 22 #include "net/base/ip_endpoint.h" 23 #include "net/base/net_export.h" 24 #include "net/quic/iovector.h" 25 #include "net/quic/quic_bandwidth.h" 26 #include "net/quic/quic_time.h" 27 28 namespace net { 29 30 using ::operator<<; 31 32 class QuicAckNotifier; 33 class QuicPacket; 34 struct QuicPacketHeader; 35 36 typedef uint64 QuicConnectionId; 37 typedef uint32 QuicStreamId; 38 typedef uint64 QuicStreamOffset; 39 typedef uint64 QuicPacketSequenceNumber; 40 typedef QuicPacketSequenceNumber QuicFecGroupNumber; 41 typedef uint64 QuicPublicResetNonceProof; 42 typedef uint8 QuicPacketEntropyHash; 43 typedef uint32 QuicHeaderId; 44 // QuicTag is the type of a tag in the wire protocol. 45 typedef uint32 QuicTag; 46 typedef std::vector<QuicTag> QuicTagVector; 47 typedef std::map<QuicTag, std::string> QuicTagValueMap; 48 // TODO(rtenneti): Didn't use SpdyPriority because SpdyPriority is uint8 and 49 // QuicPriority is uint32. Use SpdyPriority when we change the QUIC_VERSION. 50 typedef uint32 QuicPriority; 51 52 // TODO(rch): Consider Quic specific names for these constants. 53 // Default and initial maximum size in bytes of a QUIC packet. 54 const QuicByteCount kDefaultMaxPacketSize = 1200; 55 // The maximum packet size of any QUIC packet, based on ethernet's max size, 56 // minus the IP and UDP headers. IPv6 has a 40 byte header, UPD adds an 57 // additional 8 bytes. This is a total overhead of 48 bytes. Ethernet's 58 // max packet size is 1500 bytes, 1500 - 48 = 1452. 59 const QuicByteCount kMaxPacketSize = 1452; 60 // Default maximum packet size used in Linux TCP implementations. 61 const QuicByteCount kDefaultTCPMSS = 1460; 62 63 // Maximum size of the initial congestion window in packets. 64 const size_t kDefaultInitialWindow = 10; 65 const uint32 kMaxInitialWindow = 100; 66 67 // Default size of initial flow control window, for both stream and session. 68 const uint32 kDefaultFlowControlSendWindow = 16 * 1024; // 16 KB 69 70 // Maximum size of the congestion window, in packets, for TCP congestion control 71 // algorithms. 72 const size_t kMaxTcpCongestionWindow = 200; 73 74 // Don't allow a client to suggest an RTT longer than 15 seconds. 75 const uint32 kMaxInitialRoundTripTimeUs = 15 * kNumMicrosPerSecond; 76 77 // Maximum number of open streams per connection. 78 const size_t kDefaultMaxStreamsPerConnection = 100; 79 80 // Number of bytes reserved for public flags in the packet header. 81 const size_t kPublicFlagsSize = 1; 82 // Number of bytes reserved for version number in the packet header. 83 const size_t kQuicVersionSize = 4; 84 // Number of bytes reserved for private flags in the packet header. 85 const size_t kPrivateFlagsSize = 1; 86 // Number of bytes reserved for FEC group in the packet header. 87 const size_t kFecGroupSize = 1; 88 89 // Signifies that the QuicPacket will contain version of the protocol. 90 const bool kIncludeVersion = true; 91 92 // Index of the first byte in a QUIC packet which is used in hash calculation. 93 const size_t kStartOfHashData = 0; 94 95 // Limit on the delta between stream IDs. 96 const QuicStreamId kMaxStreamIdDelta = 200; 97 // Limit on the delta between header IDs. 98 const QuicHeaderId kMaxHeaderIdDelta = 200; 99 100 // Reserved ID for the crypto stream. 101 const QuicStreamId kCryptoStreamId = 1; 102 103 // Reserved ID for the headers stream. 104 const QuicStreamId kHeadersStreamId = 3; 105 106 // This is the default network timeout a for connection till the crypto 107 // handshake succeeds and the negotiated timeout from the handshake is received. 108 const int64 kDefaultInitialTimeoutSecs = 120; // 2 mins. 109 const int64 kDefaultTimeoutSecs = 60 * 10; // 10 minutes. 110 const int64 kDefaultMaxTimeForCryptoHandshakeSecs = 5; // 5 secs. 111 112 // Default ping timeout. 113 const int64 kPingTimeoutSecs = 15; // 15 secs. 114 115 // We define an unsigned 16-bit floating point value, inspired by IEEE floats 116 // (http://en.wikipedia.org/wiki/Half_precision_floating-point_format), 117 // with 5-bit exponent (bias 1), 11-bit mantissa (effective 12 with hidden 118 // bit) and denormals, but without signs, transfinites or fractions. Wire format 119 // 16 bits (little-endian byte order) are split into exponent (high 5) and 120 // mantissa (low 11) and decoded as: 121 // uint64 value; 122 // if (exponent == 0) value = mantissa; 123 // else value = (mantissa | 1 << 11) << (exponent - 1) 124 const int kUFloat16ExponentBits = 5; 125 const int kUFloat16MaxExponent = (1 << kUFloat16ExponentBits) - 2; // 30 126 const int kUFloat16MantissaBits = 16 - kUFloat16ExponentBits; // 11 127 const int kUFloat16MantissaEffectiveBits = kUFloat16MantissaBits + 1; // 12 128 const uint64 kUFloat16MaxValue = // 0x3FFC0000000 129 ((GG_UINT64_C(1) << kUFloat16MantissaEffectiveBits) - 1) << 130 kUFloat16MaxExponent; 131 132 enum TransmissionType { 133 NOT_RETRANSMISSION, 134 FIRST_TRANSMISSION_TYPE = NOT_RETRANSMISSION, 135 HANDSHAKE_RETRANSMISSION, // Retransmits due to handshake timeouts. 136 ALL_UNACKED_RETRANSMISSION, // Retransmits of all unacked packets. 137 LOSS_RETRANSMISSION, // Retransmits due to loss detection. 138 RTO_RETRANSMISSION, // Retransmits due to retransmit time out. 139 TLP_RETRANSMISSION, // Tail loss probes. 140 LAST_TRANSMISSION_TYPE = TLP_RETRANSMISSION, 141 }; 142 143 enum RetransmissionType { 144 INITIAL_ENCRYPTION_ONLY, 145 ALL_PACKETS 146 }; 147 148 enum HasRetransmittableData { 149 NO_RETRANSMITTABLE_DATA, 150 HAS_RETRANSMITTABLE_DATA, 151 }; 152 153 enum IsHandshake { 154 NOT_HANDSHAKE, 155 IS_HANDSHAKE 156 }; 157 158 // Indicates FEC protection level for data being written. 159 enum FecProtection { 160 MUST_FEC_PROTECT, // Callee must FEC protect this data. 161 MAY_FEC_PROTECT // Callee does not have to but may FEC protect this data. 162 }; 163 164 // Indicates FEC policy. 165 enum FecPolicy { 166 FEC_PROTECT_ALWAYS, // All data in the stream should be FEC protected. 167 FEC_PROTECT_OPTIONAL // Data in the stream does not need FEC protection. 168 }; 169 170 enum QuicFrameType { 171 // Regular frame types. The values set here cannot change without the 172 // introduction of a new QUIC version. 173 PADDING_FRAME = 0, 174 RST_STREAM_FRAME = 1, 175 CONNECTION_CLOSE_FRAME = 2, 176 GOAWAY_FRAME = 3, 177 WINDOW_UPDATE_FRAME = 4, 178 BLOCKED_FRAME = 5, 179 STOP_WAITING_FRAME = 6, 180 PING_FRAME = 7, 181 182 // STREAM, ACK, and CONGESTION_FEEDBACK frames are special frames. They are 183 // encoded differently on the wire and their values do not need to be stable. 184 STREAM_FRAME, 185 ACK_FRAME, 186 CONGESTION_FEEDBACK_FRAME, 187 NUM_FRAME_TYPES 188 }; 189 190 enum QuicConnectionIdLength { 191 PACKET_0BYTE_CONNECTION_ID = 0, 192 PACKET_1BYTE_CONNECTION_ID = 1, 193 PACKET_4BYTE_CONNECTION_ID = 4, 194 PACKET_8BYTE_CONNECTION_ID = 8 195 }; 196 197 enum InFecGroup { 198 NOT_IN_FEC_GROUP, 199 IN_FEC_GROUP, 200 }; 201 202 enum QuicSequenceNumberLength { 203 PACKET_1BYTE_SEQUENCE_NUMBER = 1, 204 PACKET_2BYTE_SEQUENCE_NUMBER = 2, 205 PACKET_4BYTE_SEQUENCE_NUMBER = 4, 206 PACKET_6BYTE_SEQUENCE_NUMBER = 6 207 }; 208 209 // Used to indicate a QuicSequenceNumberLength using two flag bits. 210 enum QuicSequenceNumberLengthFlags { 211 PACKET_FLAGS_1BYTE_SEQUENCE = 0, // 00 212 PACKET_FLAGS_2BYTE_SEQUENCE = 1, // 01 213 PACKET_FLAGS_4BYTE_SEQUENCE = 1 << 1, // 10 214 PACKET_FLAGS_6BYTE_SEQUENCE = 1 << 1 | 1, // 11 215 }; 216 217 // The public flags are specified in one byte. 218 enum QuicPacketPublicFlags { 219 PACKET_PUBLIC_FLAGS_NONE = 0, 220 221 // Bit 0: Does the packet header contains version info? 222 PACKET_PUBLIC_FLAGS_VERSION = 1 << 0, 223 224 // Bit 1: Is this packet a public reset packet? 225 PACKET_PUBLIC_FLAGS_RST = 1 << 1, 226 227 // Bits 2 and 3 specify the length of the ConnectionId as follows: 228 // ----00--: 0 bytes 229 // ----01--: 1 byte 230 // ----10--: 4 bytes 231 // ----11--: 8 bytes 232 PACKET_PUBLIC_FLAGS_0BYTE_CONNECTION_ID = 0, 233 PACKET_PUBLIC_FLAGS_1BYTE_CONNECTION_ID = 1 << 2, 234 PACKET_PUBLIC_FLAGS_4BYTE_CONNECTION_ID = 1 << 3, 235 PACKET_PUBLIC_FLAGS_8BYTE_CONNECTION_ID = 1 << 3 | 1 << 2, 236 237 // Bits 4 and 5 describe the packet sequence number length as follows: 238 // --00----: 1 byte 239 // --01----: 2 bytes 240 // --10----: 4 bytes 241 // --11----: 6 bytes 242 PACKET_PUBLIC_FLAGS_1BYTE_SEQUENCE = PACKET_FLAGS_1BYTE_SEQUENCE << 4, 243 PACKET_PUBLIC_FLAGS_2BYTE_SEQUENCE = PACKET_FLAGS_2BYTE_SEQUENCE << 4, 244 PACKET_PUBLIC_FLAGS_4BYTE_SEQUENCE = PACKET_FLAGS_4BYTE_SEQUENCE << 4, 245 PACKET_PUBLIC_FLAGS_6BYTE_SEQUENCE = PACKET_FLAGS_6BYTE_SEQUENCE << 4, 246 247 // All bits set (bits 6 and 7 are not currently used): 00111111 248 PACKET_PUBLIC_FLAGS_MAX = (1 << 6) - 1 249 }; 250 251 // The private flags are specified in one byte. 252 enum QuicPacketPrivateFlags { 253 PACKET_PRIVATE_FLAGS_NONE = 0, 254 255 // Bit 0: Does this packet contain an entropy bit? 256 PACKET_PRIVATE_FLAGS_ENTROPY = 1 << 0, 257 258 // Bit 1: Payload is part of an FEC group? 259 PACKET_PRIVATE_FLAGS_FEC_GROUP = 1 << 1, 260 261 // Bit 2: Payload is FEC as opposed to frames? 262 PACKET_PRIVATE_FLAGS_FEC = 1 << 2, 263 264 // All bits set (bits 3-7 are not currently used): 00000111 265 PACKET_PRIVATE_FLAGS_MAX = (1 << 3) - 1 266 }; 267 268 // The available versions of QUIC. Guaranteed that the integer value of the enum 269 // will match the version number. 270 // When adding a new version to this enum you should add it to 271 // kSupportedQuicVersions (if appropriate), and also add a new case to the 272 // helper methods QuicVersionToQuicTag, QuicTagToQuicVersion, and 273 // QuicVersionToString. 274 enum QuicVersion { 275 // Special case to indicate unknown/unsupported QUIC version. 276 QUIC_VERSION_UNSUPPORTED = 0, 277 278 QUIC_VERSION_15 = 15, 279 QUIC_VERSION_16 = 16, 280 QUIC_VERSION_17 = 17, 281 QUIC_VERSION_18 = 18, 282 QUIC_VERSION_19 = 19, 283 QUIC_VERSION_20 = 20, // Current version. 284 }; 285 286 // This vector contains QUIC versions which we currently support. 287 // This should be ordered such that the highest supported version is the first 288 // element, with subsequent elements in descending order (versions can be 289 // skipped as necessary). 290 // 291 // IMPORTANT: if you are addding to this list, follow the instructions at 292 // http://sites/quic/adding-and-removing-versions 293 static const QuicVersion kSupportedQuicVersions[] = {QUIC_VERSION_20, 294 QUIC_VERSION_19, 295 QUIC_VERSION_18, 296 QUIC_VERSION_17, 297 QUIC_VERSION_16, 298 QUIC_VERSION_15}; 299 300 typedef std::vector<QuicVersion> QuicVersionVector; 301 302 // Returns a vector of QUIC versions in kSupportedQuicVersions. 303 NET_EXPORT_PRIVATE QuicVersionVector QuicSupportedVersions(); 304 305 // QuicTag is written to and read from the wire, but we prefer to use 306 // the more readable QuicVersion at other levels. 307 // Helper function which translates from a QuicVersion to a QuicTag. Returns 0 308 // if QuicVersion is unsupported. 309 NET_EXPORT_PRIVATE QuicTag QuicVersionToQuicTag(const QuicVersion version); 310 311 // Returns appropriate QuicVersion from a QuicTag. 312 // Returns QUIC_VERSION_UNSUPPORTED if version_tag cannot be understood. 313 NET_EXPORT_PRIVATE QuicVersion QuicTagToQuicVersion(const QuicTag version_tag); 314 315 // Helper function which translates from a QuicVersion to a string. 316 // Returns strings corresponding to enum names (e.g. QUIC_VERSION_6). 317 NET_EXPORT_PRIVATE std::string QuicVersionToString(const QuicVersion version); 318 319 // Returns comma separated list of string representations of QuicVersion enum 320 // values in the supplied |versions| vector. 321 NET_EXPORT_PRIVATE std::string QuicVersionVectorToString( 322 const QuicVersionVector& versions); 323 324 // Version and Crypto tags are written to the wire with a big-endian 325 // representation of the name of the tag. For example 326 // the client hello tag (CHLO) will be written as the 327 // following 4 bytes: 'C' 'H' 'L' 'O'. Since it is 328 // stored in memory as a little endian uint32, we need 329 // to reverse the order of the bytes. 330 331 // MakeQuicTag returns a value given the four bytes. For example: 332 // MakeQuicTag('C', 'H', 'L', 'O'); 333 NET_EXPORT_PRIVATE QuicTag MakeQuicTag(char a, char b, char c, char d); 334 335 // Returns true if the tag vector contains the specified tag. 336 bool ContainsQuicTag(const QuicTagVector& tag_vector, QuicTag tag); 337 338 // Size in bytes of the data or fec packet header. 339 NET_EXPORT_PRIVATE size_t GetPacketHeaderSize(const QuicPacketHeader& header); 340 341 NET_EXPORT_PRIVATE size_t GetPacketHeaderSize( 342 QuicConnectionIdLength connection_id_length, 343 bool include_version, 344 QuicSequenceNumberLength sequence_number_length, 345 InFecGroup is_in_fec_group); 346 347 // Index of the first byte in a QUIC packet of FEC protected data. 348 NET_EXPORT_PRIVATE size_t GetStartOfFecProtectedData( 349 QuicConnectionIdLength connection_id_length, 350 bool include_version, 351 QuicSequenceNumberLength sequence_number_length); 352 // Index of the first byte in a QUIC packet of encrypted data. 353 NET_EXPORT_PRIVATE size_t GetStartOfEncryptedData( 354 QuicConnectionIdLength connection_id_length, 355 bool include_version, 356 QuicSequenceNumberLength sequence_number_length); 357 358 enum QuicRstStreamErrorCode { 359 QUIC_STREAM_NO_ERROR = 0, 360 361 // There was some error which halted stream processing. 362 QUIC_ERROR_PROCESSING_STREAM, 363 // We got two fin or reset offsets which did not match. 364 QUIC_MULTIPLE_TERMINATION_OFFSETS, 365 // We got bad payload and can not respond to it at the protocol level. 366 QUIC_BAD_APPLICATION_PAYLOAD, 367 // Stream closed due to connection error. No reset frame is sent when this 368 // happens. 369 QUIC_STREAM_CONNECTION_ERROR, 370 // GoAway frame sent. No more stream can be created. 371 QUIC_STREAM_PEER_GOING_AWAY, 372 // The stream has been cancelled. 373 QUIC_STREAM_CANCELLED, 374 // Sending a RST to allow for proper flow control accounting. 375 QUIC_RST_FLOW_CONTROL_ACCOUNTING, 376 377 // No error. Used as bound while iterating. 378 QUIC_STREAM_LAST_ERROR, 379 }; 380 381 // Because receiving an unknown QuicRstStreamErrorCode results in connection 382 // teardown, we use this to make sure any errors predating a given version are 383 // downgraded to the most appropriate existing error. 384 NET_EXPORT_PRIVATE QuicRstStreamErrorCode AdjustErrorForVersion( 385 QuicRstStreamErrorCode error_code, 386 QuicVersion version); 387 388 // These values must remain stable as they are uploaded to UMA histograms. 389 // To add a new error code, use the current value of QUIC_LAST_ERROR and 390 // increment QUIC_LAST_ERROR. 391 enum QuicErrorCode { 392 QUIC_NO_ERROR = 0, 393 394 // Connection has reached an invalid state. 395 QUIC_INTERNAL_ERROR = 1, 396 // There were data frames after the a fin or reset. 397 QUIC_STREAM_DATA_AFTER_TERMINATION = 2, 398 // Control frame is malformed. 399 QUIC_INVALID_PACKET_HEADER = 3, 400 // Frame data is malformed. 401 QUIC_INVALID_FRAME_DATA = 4, 402 // The packet contained no payload. 403 QUIC_MISSING_PAYLOAD = 48, 404 // FEC data is malformed. 405 QUIC_INVALID_FEC_DATA = 5, 406 // STREAM frame data is malformed. 407 QUIC_INVALID_STREAM_DATA = 46, 408 // STREAM frame data is not encrypted. 409 QUIC_UNENCRYPTED_STREAM_DATA = 61, 410 // RST_STREAM frame data is malformed. 411 QUIC_INVALID_RST_STREAM_DATA = 6, 412 // CONNECTION_CLOSE frame data is malformed. 413 QUIC_INVALID_CONNECTION_CLOSE_DATA = 7, 414 // GOAWAY frame data is malformed. 415 QUIC_INVALID_GOAWAY_DATA = 8, 416 // WINDOW_UPDATE frame data is malformed. 417 QUIC_INVALID_WINDOW_UPDATE_DATA = 57, 418 // BLOCKED frame data is malformed. 419 QUIC_INVALID_BLOCKED_DATA = 58, 420 // STOP_WAITING frame data is malformed. 421 QUIC_INVALID_STOP_WAITING_DATA = 60, 422 // ACK frame data is malformed. 423 QUIC_INVALID_ACK_DATA = 9, 424 // CONGESTION_FEEDBACK frame data is malformed. 425 QUIC_INVALID_CONGESTION_FEEDBACK_DATA = 47, 426 // Version negotiation packet is malformed. 427 QUIC_INVALID_VERSION_NEGOTIATION_PACKET = 10, 428 // Public RST packet is malformed. 429 QUIC_INVALID_PUBLIC_RST_PACKET = 11, 430 // There was an error decrypting. 431 QUIC_DECRYPTION_FAILURE = 12, 432 // There was an error encrypting. 433 QUIC_ENCRYPTION_FAILURE = 13, 434 // The packet exceeded kMaxPacketSize. 435 QUIC_PACKET_TOO_LARGE = 14, 436 // Data was sent for a stream which did not exist. 437 QUIC_PACKET_FOR_NONEXISTENT_STREAM = 15, 438 // The peer is going away. May be a client or server. 439 QUIC_PEER_GOING_AWAY = 16, 440 // A stream ID was invalid. 441 QUIC_INVALID_STREAM_ID = 17, 442 // A priority was invalid. 443 QUIC_INVALID_PRIORITY = 49, 444 // Too many streams already open. 445 QUIC_TOO_MANY_OPEN_STREAMS = 18, 446 // Received public reset for this connection. 447 QUIC_PUBLIC_RESET = 19, 448 // Invalid protocol version. 449 QUIC_INVALID_VERSION = 20, 450 451 // deprecated: QUIC_STREAM_RST_BEFORE_HEADERS_DECOMPRESSED = 21 452 453 // The Header ID for a stream was too far from the previous. 454 QUIC_INVALID_HEADER_ID = 22, 455 // Negotiable parameter received during handshake had invalid value. 456 QUIC_INVALID_NEGOTIATED_VALUE = 23, 457 // There was an error decompressing data. 458 QUIC_DECOMPRESSION_FAILURE = 24, 459 // We hit our prenegotiated (or default) timeout 460 QUIC_CONNECTION_TIMED_OUT = 25, 461 // There was an error encountered migrating addresses 462 QUIC_ERROR_MIGRATING_ADDRESS = 26, 463 // There was an error while writing to the socket. 464 QUIC_PACKET_WRITE_ERROR = 27, 465 // There was an error while reading from the socket. 466 QUIC_PACKET_READ_ERROR = 51, 467 // We received a STREAM_FRAME with no data and no fin flag set. 468 QUIC_INVALID_STREAM_FRAME = 50, 469 // We received invalid data on the headers stream. 470 QUIC_INVALID_HEADERS_STREAM_DATA = 56, 471 // The peer received too much data, violating flow control. 472 QUIC_FLOW_CONTROL_RECEIVED_TOO_MUCH_DATA = 59, 473 // The peer sent too much data, violating flow control. 474 QUIC_FLOW_CONTROL_SENT_TOO_MUCH_DATA = 63, 475 // The peer received an invalid flow control window. 476 QUIC_FLOW_CONTROL_INVALID_WINDOW = 64, 477 // The connection has been IP pooled into an existing connection. 478 QUIC_CONNECTION_IP_POOLED = 62, 479 480 // Crypto errors. 481 482 // Hanshake failed. 483 QUIC_HANDSHAKE_FAILED = 28, 484 // Handshake message contained out of order tags. 485 QUIC_CRYPTO_TAGS_OUT_OF_ORDER = 29, 486 // Handshake message contained too many entries. 487 QUIC_CRYPTO_TOO_MANY_ENTRIES = 30, 488 // Handshake message contained an invalid value length. 489 QUIC_CRYPTO_INVALID_VALUE_LENGTH = 31, 490 // A crypto message was received after the handshake was complete. 491 QUIC_CRYPTO_MESSAGE_AFTER_HANDSHAKE_COMPLETE = 32, 492 // A crypto message was received with an illegal message tag. 493 QUIC_INVALID_CRYPTO_MESSAGE_TYPE = 33, 494 // A crypto message was received with an illegal parameter. 495 QUIC_INVALID_CRYPTO_MESSAGE_PARAMETER = 34, 496 // An invalid channel id signature was supplied. 497 QUIC_INVALID_CHANNEL_ID_SIGNATURE = 52, 498 // A crypto message was received with a mandatory parameter missing. 499 QUIC_CRYPTO_MESSAGE_PARAMETER_NOT_FOUND = 35, 500 // A crypto message was received with a parameter that has no overlap 501 // with the local parameter. 502 QUIC_CRYPTO_MESSAGE_PARAMETER_NO_OVERLAP = 36, 503 // A crypto message was received that contained a parameter with too few 504 // values. 505 QUIC_CRYPTO_MESSAGE_INDEX_NOT_FOUND = 37, 506 // An internal error occured in crypto processing. 507 QUIC_CRYPTO_INTERNAL_ERROR = 38, 508 // A crypto handshake message specified an unsupported version. 509 QUIC_CRYPTO_VERSION_NOT_SUPPORTED = 39, 510 // There was no intersection between the crypto primitives supported by the 511 // peer and ourselves. 512 QUIC_CRYPTO_NO_SUPPORT = 40, 513 // The server rejected our client hello messages too many times. 514 QUIC_CRYPTO_TOO_MANY_REJECTS = 41, 515 // The client rejected the server's certificate chain or signature. 516 QUIC_PROOF_INVALID = 42, 517 // A crypto message was received with a duplicate tag. 518 QUIC_CRYPTO_DUPLICATE_TAG = 43, 519 // A crypto message was received with the wrong encryption level (i.e. it 520 // should have been encrypted but was not.) 521 QUIC_CRYPTO_ENCRYPTION_LEVEL_INCORRECT = 44, 522 // The server config for a server has expired. 523 QUIC_CRYPTO_SERVER_CONFIG_EXPIRED = 45, 524 // We failed to setup the symmetric keys for a connection. 525 QUIC_CRYPTO_SYMMETRIC_KEY_SETUP_FAILED = 53, 526 // A handshake message arrived, but we are still validating the 527 // previous handshake message. 528 QUIC_CRYPTO_MESSAGE_WHILE_VALIDATING_CLIENT_HELLO = 54, 529 // This connection involved a version negotiation which appears to have been 530 // tampered with. 531 QUIC_VERSION_NEGOTIATION_MISMATCH = 55, 532 533 // No error. Used as bound while iterating. 534 QUIC_LAST_ERROR = 65, 535 }; 536 537 struct NET_EXPORT_PRIVATE QuicPacketPublicHeader { 538 QuicPacketPublicHeader(); 539 explicit QuicPacketPublicHeader(const QuicPacketPublicHeader& other); 540 ~QuicPacketPublicHeader(); 541 542 // Universal header. All QuicPacket headers will have a connection_id and 543 // public flags. 544 QuicConnectionId connection_id; 545 QuicConnectionIdLength connection_id_length; 546 bool reset_flag; 547 bool version_flag; 548 QuicSequenceNumberLength sequence_number_length; 549 QuicVersionVector versions; 550 }; 551 552 // Header for Data or FEC packets. 553 struct NET_EXPORT_PRIVATE QuicPacketHeader { 554 QuicPacketHeader(); 555 explicit QuicPacketHeader(const QuicPacketPublicHeader& header); 556 557 NET_EXPORT_PRIVATE friend std::ostream& operator<<( 558 std::ostream& os, const QuicPacketHeader& s); 559 560 QuicPacketPublicHeader public_header; 561 bool fec_flag; 562 bool entropy_flag; 563 QuicPacketEntropyHash entropy_hash; 564 QuicPacketSequenceNumber packet_sequence_number; 565 InFecGroup is_in_fec_group; 566 QuicFecGroupNumber fec_group; 567 }; 568 569 struct NET_EXPORT_PRIVATE QuicPublicResetPacket { 570 QuicPublicResetPacket(); 571 explicit QuicPublicResetPacket(const QuicPacketPublicHeader& header); 572 573 QuicPacketPublicHeader public_header; 574 QuicPublicResetNonceProof nonce_proof; 575 QuicPacketSequenceNumber rejected_sequence_number; 576 IPEndPoint client_address; 577 }; 578 579 enum QuicVersionNegotiationState { 580 START_NEGOTIATION = 0, 581 // Server-side this implies we've sent a version negotiation packet and are 582 // waiting on the client to select a compatible version. Client-side this 583 // implies we've gotten a version negotiation packet, are retransmitting the 584 // initial packets with a supported version and are waiting for our first 585 // packet from the server. 586 NEGOTIATION_IN_PROGRESS, 587 // This indicates this endpoint has received a packet from the peer with a 588 // version this endpoint supports. Version negotiation is complete, and the 589 // version number will no longer be sent with future packets. 590 NEGOTIATED_VERSION 591 }; 592 593 typedef QuicPacketPublicHeader QuicVersionNegotiationPacket; 594 595 // A padding frame contains no payload. 596 struct NET_EXPORT_PRIVATE QuicPaddingFrame { 597 }; 598 599 // A ping frame contains no payload, though it is retransmittable, 600 // and ACK'd just like other normal frames. 601 struct NET_EXPORT_PRIVATE QuicPingFrame { 602 }; 603 604 struct NET_EXPORT_PRIVATE QuicStreamFrame { 605 QuicStreamFrame(); 606 QuicStreamFrame(const QuicStreamFrame& frame); 607 QuicStreamFrame(QuicStreamId stream_id, 608 bool fin, 609 QuicStreamOffset offset, 610 IOVector data); 611 612 NET_EXPORT_PRIVATE friend std::ostream& operator<<( 613 std::ostream& os, const QuicStreamFrame& s); 614 615 // Returns a copy of the IOVector |data| as a heap-allocated string. 616 // Caller must take ownership of the returned string. 617 std::string* GetDataAsString() const; 618 619 QuicStreamId stream_id; 620 bool fin; 621 QuicStreamOffset offset; // Location of this data in the stream. 622 IOVector data; 623 624 // If this is set, then when this packet is ACKed the AckNotifier will be 625 // informed. 626 QuicAckNotifier* notifier; 627 }; 628 629 // TODO(ianswett): Re-evaluate the trade-offs of hash_set vs set when framing 630 // is finalized. 631 typedef std::set<QuicPacketSequenceNumber> SequenceNumberSet; 632 // TODO(pwestin): Add a way to enforce the max size of this map. 633 typedef std::map<QuicPacketSequenceNumber, QuicTime> TimeMap; 634 635 struct NET_EXPORT_PRIVATE ReceivedPacketInfo { 636 ReceivedPacketInfo(); 637 ~ReceivedPacketInfo(); 638 639 NET_EXPORT_PRIVATE friend std::ostream& operator<<( 640 std::ostream& os, const ReceivedPacketInfo& s); 641 642 // Entropy hash of all packets up to largest observed not including missing 643 // packets. 644 QuicPacketEntropyHash entropy_hash; 645 646 // The highest packet sequence number we've observed from the peer. 647 // 648 // In general, this should be the largest packet number we've received. In 649 // the case of truncated acks, we may have to advertise a lower "upper bound" 650 // than largest received, to avoid implicitly acking missing packets that 651 // don't fit in the missing packet list due to size limitations. In this 652 // case, largest_observed may be a packet which is also in the missing packets 653 // list. 654 QuicPacketSequenceNumber largest_observed; 655 656 // Time elapsed since largest_observed was received until this Ack frame was 657 // sent. 658 QuicTime::Delta delta_time_largest_observed; 659 660 // TODO(satyamshekhar): Can be optimized using an interval set like data 661 // structure. 662 // The set of packets which we're expecting and have not received. 663 SequenceNumberSet missing_packets; 664 665 // Whether the ack had to be truncated when sent. 666 bool is_truncated; 667 668 // Packets which have been revived via FEC. 669 // All of these must also be in missing_packets. 670 SequenceNumberSet revived_packets; 671 }; 672 673 // True if the sequence number is greater than largest_observed or is listed 674 // as missing. 675 // Always returns false for sequence numbers less than least_unacked. 676 bool NET_EXPORT_PRIVATE IsAwaitingPacket( 677 const ReceivedPacketInfo& received_info, 678 QuicPacketSequenceNumber sequence_number); 679 680 // Inserts missing packets between [lower, higher). 681 void NET_EXPORT_PRIVATE InsertMissingPacketsBetween( 682 ReceivedPacketInfo* received_info, 683 QuicPacketSequenceNumber lower, 684 QuicPacketSequenceNumber higher); 685 686 struct NET_EXPORT_PRIVATE QuicStopWaitingFrame { 687 QuicStopWaitingFrame(); 688 ~QuicStopWaitingFrame(); 689 690 NET_EXPORT_PRIVATE friend std::ostream& operator<<( 691 std::ostream& os, const QuicStopWaitingFrame& s); 692 693 // Entropy hash of all packets up to, but not including, the least unacked 694 // packet. 695 QuicPacketEntropyHash entropy_hash; 696 // The lowest packet we've sent which is unacked, and we expect an ack for. 697 QuicPacketSequenceNumber least_unacked; 698 }; 699 700 struct NET_EXPORT_PRIVATE QuicAckFrame { 701 QuicAckFrame(); 702 703 NET_EXPORT_PRIVATE friend std::ostream& operator<<( 704 std::ostream& os, const QuicAckFrame& s); 705 706 QuicStopWaitingFrame sent_info; 707 ReceivedPacketInfo received_info; 708 }; 709 710 // Defines for all types of congestion feedback that will be negotiated in QUIC, 711 // kTCP MUST be supported by all QUIC implementations to guarantee 100% 712 // compatibility. 713 enum CongestionFeedbackType { 714 kTCP, // Used to mimic TCP. 715 kInterArrival, // Use additional inter arrival information. 716 kFixRate, // Provided for testing. 717 kTCPBBR, // BBR implementation based on TCP congestion feedback. 718 }; 719 720 enum LossDetectionType { 721 kNack, // Used to mimic TCP's loss detection. 722 kTime, // Time based loss detection. 723 }; 724 725 struct NET_EXPORT_PRIVATE CongestionFeedbackMessageTCP { 726 CongestionFeedbackMessageTCP(); 727 728 QuicByteCount receive_window; 729 }; 730 731 struct NET_EXPORT_PRIVATE CongestionFeedbackMessageInterArrival { 732 CongestionFeedbackMessageInterArrival(); 733 ~CongestionFeedbackMessageInterArrival(); 734 735 // The set of received packets since the last feedback was sent, along with 736 // their arrival times. 737 TimeMap received_packet_times; 738 }; 739 740 struct NET_EXPORT_PRIVATE CongestionFeedbackMessageFixRate { 741 CongestionFeedbackMessageFixRate(); 742 QuicBandwidth bitrate; 743 }; 744 745 struct NET_EXPORT_PRIVATE QuicCongestionFeedbackFrame { 746 QuicCongestionFeedbackFrame(); 747 ~QuicCongestionFeedbackFrame(); 748 749 NET_EXPORT_PRIVATE friend std::ostream& operator<<( 750 std::ostream& os, const QuicCongestionFeedbackFrame& c); 751 752 CongestionFeedbackType type; 753 // This should really be a union, but since the inter arrival struct 754 // is non-trivial, C++ prohibits it. 755 CongestionFeedbackMessageTCP tcp; 756 CongestionFeedbackMessageInterArrival inter_arrival; 757 CongestionFeedbackMessageFixRate fix_rate; 758 }; 759 760 struct NET_EXPORT_PRIVATE QuicRstStreamFrame { 761 QuicRstStreamFrame(); 762 QuicRstStreamFrame(QuicStreamId stream_id, 763 QuicRstStreamErrorCode error_code, 764 QuicStreamOffset bytes_written); 765 766 NET_EXPORT_PRIVATE friend std::ostream& operator<<( 767 std::ostream& os, const QuicRstStreamFrame& r); 768 769 QuicStreamId stream_id; 770 QuicRstStreamErrorCode error_code; 771 std::string error_details; 772 773 // Used to update flow control windows. On termination of a stream, both 774 // endpoints must inform the peer of the number of bytes they have sent on 775 // that stream. This can be done through normal termination (data packet with 776 // FIN) or through a RST. 777 QuicStreamOffset byte_offset; 778 }; 779 780 struct NET_EXPORT_PRIVATE QuicConnectionCloseFrame { 781 QuicConnectionCloseFrame(); 782 783 NET_EXPORT_PRIVATE friend std::ostream& operator<<( 784 std::ostream& os, const QuicConnectionCloseFrame& c); 785 786 QuicErrorCode error_code; 787 std::string error_details; 788 }; 789 790 struct NET_EXPORT_PRIVATE QuicGoAwayFrame { 791 QuicGoAwayFrame(); 792 QuicGoAwayFrame(QuicErrorCode error_code, 793 QuicStreamId last_good_stream_id, 794 const std::string& reason); 795 796 NET_EXPORT_PRIVATE friend std::ostream& operator<<( 797 std::ostream& os, const QuicGoAwayFrame& g); 798 799 QuicErrorCode error_code; 800 QuicStreamId last_good_stream_id; 801 std::string reason_phrase; 802 }; 803 804 // Flow control updates per-stream and at the connection levoel. 805 // Based on SPDY's WINDOW_UPDATE frame, but uses an absolute byte offset rather 806 // than a window delta. 807 // TODO(rjshade): A possible future optimization is to make stream_id and 808 // byte_offset variable length, similar to stream frames. 809 struct NET_EXPORT_PRIVATE QuicWindowUpdateFrame { QuicWindowUpdateFrameQuicWindowUpdateFrame810 QuicWindowUpdateFrame() {} 811 QuicWindowUpdateFrame(QuicStreamId stream_id, QuicStreamOffset byte_offset); 812 813 NET_EXPORT_PRIVATE friend std::ostream& operator<<( 814 std::ostream& os, const QuicWindowUpdateFrame& w); 815 816 // The stream this frame applies to. 0 is a special case meaning the overall 817 // connection rather than a specific stream. 818 QuicStreamId stream_id; 819 820 // Byte offset in the stream or connection. The receiver of this frame must 821 // not send data which would result in this offset being exceeded. 822 QuicStreamOffset byte_offset; 823 }; 824 825 // The BLOCKED frame is used to indicate to the remote endpoint that this 826 // endpoint believes itself to be flow-control blocked but otherwise ready to 827 // send data. The BLOCKED frame is purely advisory and optional. 828 // Based on SPDY's BLOCKED frame (undocumented as of 2014-01-28). 829 struct NET_EXPORT_PRIVATE QuicBlockedFrame { QuicBlockedFrameQuicBlockedFrame830 QuicBlockedFrame() {} 831 explicit QuicBlockedFrame(QuicStreamId stream_id); 832 833 NET_EXPORT_PRIVATE friend std::ostream& operator<<( 834 std::ostream& os, const QuicBlockedFrame& b); 835 836 // The stream this frame applies to. 0 is a special case meaning the overall 837 // connection rather than a specific stream. 838 QuicStreamId stream_id; 839 }; 840 841 // EncryptionLevel enumerates the stages of encryption that a QUIC connection 842 // progresses through. When retransmitting a packet, the encryption level needs 843 // to be specified so that it is retransmitted at a level which the peer can 844 // understand. 845 enum EncryptionLevel { 846 ENCRYPTION_NONE = 0, 847 ENCRYPTION_INITIAL = 1, 848 ENCRYPTION_FORWARD_SECURE = 2, 849 850 NUM_ENCRYPTION_LEVELS, 851 }; 852 853 struct NET_EXPORT_PRIVATE QuicFrame { 854 QuicFrame(); 855 explicit QuicFrame(QuicPaddingFrame* padding_frame); 856 explicit QuicFrame(QuicStreamFrame* stream_frame); 857 explicit QuicFrame(QuicAckFrame* frame); 858 explicit QuicFrame(QuicCongestionFeedbackFrame* frame); 859 explicit QuicFrame(QuicRstStreamFrame* frame); 860 explicit QuicFrame(QuicConnectionCloseFrame* frame); 861 explicit QuicFrame(QuicStopWaitingFrame* frame); 862 explicit QuicFrame(QuicPingFrame* frame); 863 explicit QuicFrame(QuicGoAwayFrame* frame); 864 explicit QuicFrame(QuicWindowUpdateFrame* frame); 865 explicit QuicFrame(QuicBlockedFrame* frame); 866 867 NET_EXPORT_PRIVATE friend std::ostream& operator<<( 868 std::ostream& os, const QuicFrame& frame); 869 870 QuicFrameType type; 871 union { 872 QuicPaddingFrame* padding_frame; 873 QuicStreamFrame* stream_frame; 874 QuicAckFrame* ack_frame; 875 QuicCongestionFeedbackFrame* congestion_feedback_frame; 876 QuicStopWaitingFrame* stop_waiting_frame; 877 QuicPingFrame* ping_frame; 878 QuicRstStreamFrame* rst_stream_frame; 879 QuicConnectionCloseFrame* connection_close_frame; 880 QuicGoAwayFrame* goaway_frame; 881 QuicWindowUpdateFrame* window_update_frame; 882 QuicBlockedFrame* blocked_frame; 883 }; 884 }; 885 886 typedef std::vector<QuicFrame> QuicFrames; 887 888 struct NET_EXPORT_PRIVATE QuicFecData { 889 QuicFecData(); 890 891 // The FEC group number is also the sequence number of the first 892 // FEC protected packet. The last protected packet's sequence number will 893 // be one less than the sequence number of the FEC packet. 894 QuicFecGroupNumber fec_group; 895 base::StringPiece redundancy; 896 }; 897 898 class NET_EXPORT_PRIVATE QuicData { 899 public: 900 QuicData(const char* buffer, size_t length); 901 QuicData(char* buffer, size_t length, bool owns_buffer); 902 virtual ~QuicData(); 903 AsStringPiece()904 base::StringPiece AsStringPiece() const { 905 return base::StringPiece(data(), length()); 906 } 907 data()908 const char* data() const { return buffer_; } length()909 size_t length() const { return length_; } 910 911 private: 912 const char* buffer_; 913 size_t length_; 914 bool owns_buffer_; 915 916 DISALLOW_COPY_AND_ASSIGN(QuicData); 917 }; 918 919 class NET_EXPORT_PRIVATE QuicPacket : public QuicData { 920 public: NewDataPacket(char * buffer,size_t length,bool owns_buffer,QuicConnectionIdLength connection_id_length,bool includes_version,QuicSequenceNumberLength sequence_number_length)921 static QuicPacket* NewDataPacket( 922 char* buffer, 923 size_t length, 924 bool owns_buffer, 925 QuicConnectionIdLength connection_id_length, 926 bool includes_version, 927 QuicSequenceNumberLength sequence_number_length) { 928 return new QuicPacket(buffer, length, owns_buffer, connection_id_length, 929 includes_version, sequence_number_length, false); 930 } 931 NewFecPacket(char * buffer,size_t length,bool owns_buffer,QuicConnectionIdLength connection_id_length,bool includes_version,QuicSequenceNumberLength sequence_number_length)932 static QuicPacket* NewFecPacket( 933 char* buffer, 934 size_t length, 935 bool owns_buffer, 936 QuicConnectionIdLength connection_id_length, 937 bool includes_version, 938 QuicSequenceNumberLength sequence_number_length) { 939 return new QuicPacket(buffer, length, owns_buffer, connection_id_length, 940 includes_version, sequence_number_length, true); 941 } 942 943 base::StringPiece FecProtectedData() const; 944 base::StringPiece AssociatedData() const; 945 base::StringPiece BeforePlaintext() const; 946 base::StringPiece Plaintext() const; 947 is_fec_packet()948 bool is_fec_packet() const { return is_fec_packet_; } 949 mutable_data()950 char* mutable_data() { return buffer_; } 951 952 private: 953 QuicPacket(char* buffer, 954 size_t length, 955 bool owns_buffer, 956 QuicConnectionIdLength connection_id_length, 957 bool includes_version, 958 QuicSequenceNumberLength sequence_number_length, 959 bool is_fec_packet); 960 961 char* buffer_; 962 const bool is_fec_packet_; 963 const QuicConnectionIdLength connection_id_length_; 964 const bool includes_version_; 965 const QuicSequenceNumberLength sequence_number_length_; 966 967 DISALLOW_COPY_AND_ASSIGN(QuicPacket); 968 }; 969 970 class NET_EXPORT_PRIVATE QuicEncryptedPacket : public QuicData { 971 public: 972 QuicEncryptedPacket(const char* buffer, size_t length); 973 QuicEncryptedPacket(char* buffer, size_t length, bool owns_buffer); 974 975 // Clones the packet into a new packet which owns the buffer. 976 QuicEncryptedPacket* Clone() const; 977 978 // By default, gtest prints the raw bytes of an object. The bool data 979 // member (in the base class QuicData) causes this object to have padding 980 // bytes, which causes the default gtest object printer to read 981 // uninitialize memory. So we need to teach gtest how to print this object. 982 NET_EXPORT_PRIVATE friend std::ostream& operator<<( 983 std::ostream& os, const QuicEncryptedPacket& s); 984 985 private: 986 DISALLOW_COPY_AND_ASSIGN(QuicEncryptedPacket); 987 }; 988 989 class NET_EXPORT_PRIVATE RetransmittableFrames { 990 public: 991 RetransmittableFrames(); 992 ~RetransmittableFrames(); 993 994 // Allocates a local copy of the referenced StringPiece has QuicStreamFrame 995 // use it. 996 // Takes ownership of |stream_frame|. 997 const QuicFrame& AddStreamFrame(QuicStreamFrame* stream_frame); 998 // Takes ownership of the frame inside |frame|. 999 const QuicFrame& AddNonStreamFrame(const QuicFrame& frame); frames()1000 const QuicFrames& frames() const { return frames_; } 1001 1002 IsHandshake HasCryptoHandshake() const; 1003 1004 void set_encryption_level(EncryptionLevel level); encryption_level()1005 EncryptionLevel encryption_level() const { 1006 return encryption_level_; 1007 } 1008 1009 private: 1010 QuicFrames frames_; 1011 EncryptionLevel encryption_level_; 1012 // Data referenced by the StringPiece of a QuicStreamFrame. 1013 std::vector<std::string*> stream_data_; 1014 1015 DISALLOW_COPY_AND_ASSIGN(RetransmittableFrames); 1016 }; 1017 1018 struct NET_EXPORT_PRIVATE SerializedPacket { 1019 SerializedPacket(QuicPacketSequenceNumber sequence_number, 1020 QuicSequenceNumberLength sequence_number_length, 1021 QuicPacket* packet, 1022 QuicPacketEntropyHash entropy_hash, 1023 RetransmittableFrames* retransmittable_frames); 1024 ~SerializedPacket(); 1025 1026 QuicPacketSequenceNumber sequence_number; 1027 QuicSequenceNumberLength sequence_number_length; 1028 QuicPacket* packet; 1029 QuicPacketEntropyHash entropy_hash; 1030 RetransmittableFrames* retransmittable_frames; 1031 1032 // If set, these will be called when this packet is ACKed by the peer. 1033 std::set<QuicAckNotifier*> notifiers; 1034 }; 1035 1036 struct NET_EXPORT_PRIVATE TransmissionInfo { 1037 // Used by STL when assigning into a map. 1038 TransmissionInfo(); 1039 1040 // Constructs a Transmission with a new all_tranmissions set 1041 // containing |sequence_number|. 1042 TransmissionInfo(RetransmittableFrames* retransmittable_frames, 1043 QuicPacketSequenceNumber sequence_number, 1044 QuicSequenceNumberLength sequence_number_length); 1045 1046 // Constructs a Transmission with the specified |all_tranmissions| set 1047 // and inserts |sequence_number| into it. 1048 TransmissionInfo(RetransmittableFrames* retransmittable_frames, 1049 QuicPacketSequenceNumber sequence_number, 1050 QuicSequenceNumberLength sequence_number_length, 1051 TransmissionType transmission_type, 1052 SequenceNumberSet* all_transmissions); 1053 1054 RetransmittableFrames* retransmittable_frames; 1055 QuicSequenceNumberLength sequence_number_length; 1056 // Zero when the packet is serialized, non-zero once it's sent. 1057 QuicTime sent_time; 1058 // Zero when the packet is serialized, non-zero once it's sent. 1059 QuicByteCount bytes_sent; 1060 size_t nack_count; 1061 // Reason why this packet was transmitted. 1062 TransmissionType transmission_type; 1063 // Stores the sequence numbers of all transmissions of this packet. 1064 // Can never be null. 1065 SequenceNumberSet* all_transmissions; 1066 // In flight packets have not been abandoned or lost. 1067 bool in_flight; 1068 }; 1069 1070 } // namespace net 1071 1072 #endif // NET_QUIC_QUIC_PROTOCOL_H_ 1073