| // 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. |
| |
| #ifndef QUICHE_QUIC_CORE_CRYPTO_CRYPTO_PROTOCOL_H_ |
| #define QUICHE_QUIC_CORE_CRYPTO_CRYPTO_PROTOCOL_H_ |
| |
| #include <cstddef> |
| #include <string> |
| |
| #include "quic/core/quic_tag.h" |
| |
| // Version and Crypto tags are written to the wire with a big-endian |
| // representation of the name of the tag. For example |
| // the client hello tag (CHLO) will be written as the |
| // following 4 bytes: 'C' 'H' 'L' 'O'. Since it is |
| // stored in memory as a little endian uint32_t, we need |
| // to reverse the order of the bytes. |
| // |
| // We use a macro to ensure that no static initialisers are created. Use the |
| // MakeQuicTag function in normal code. |
| #define TAG(a, b, c, d) \ |
| static_cast<QuicTag>((d << 24) + (c << 16) + (b << 8) + a) |
| |
| namespace quic { |
| |
| using ServerConfigID = std::string; |
| |
| // The following tags have been deprecated and should not be reused: |
| // "1CON", "BBQ4", "NCON", "RCID", "SREJ", "TBKP", "TB10", "SCLS", "SMHL", |
| // "QNZR", "B2HI", "H2PR", "FIFO", "LIFO", "RRWS", "QNSP", "B2CL", "CHSP", |
| // "BPTE", "ACKD", "AKD2", "AKD4", "MAD1", "MAD4", "MAD5", "ACD0", "ACKQ" |
| |
| // clang-format off |
| const QuicTag kCHLO = TAG('C', 'H', 'L', 'O'); // Client hello |
| const QuicTag kSHLO = TAG('S', 'H', 'L', 'O'); // Server hello |
| const QuicTag kSCFG = TAG('S', 'C', 'F', 'G'); // Server config |
| const QuicTag kREJ = TAG('R', 'E', 'J', '\0'); // Reject |
| const QuicTag kCETV = TAG('C', 'E', 'T', 'V'); // Client encrypted tag-value |
| // pairs |
| const QuicTag kPRST = TAG('P', 'R', 'S', 'T'); // Public reset |
| const QuicTag kSCUP = TAG('S', 'C', 'U', 'P'); // Server config update |
| const QuicTag kALPN = TAG('A', 'L', 'P', 'N'); // Application-layer protocol |
| |
| // Key exchange methods |
| const QuicTag kP256 = TAG('P', '2', '5', '6'); // ECDH, Curve P-256 |
| const QuicTag kC255 = TAG('C', '2', '5', '5'); // ECDH, Curve25519 |
| |
| // AEAD algorithms |
| const QuicTag kAESG = TAG('A', 'E', 'S', 'G'); // AES128 + GCM-12 |
| const QuicTag kCC20 = TAG('C', 'C', '2', '0'); // ChaCha20 + Poly1305 RFC7539 |
| |
| // Congestion control feedback types |
| const QuicTag kQBIC = TAG('Q', 'B', 'I', 'C'); // TCP cubic |
| |
| // Connection options (COPT) values |
| const QuicTag kAFCW = TAG('A', 'F', 'C', 'W'); // Auto-tune flow control |
| // receive windows. |
| const QuicTag kIFW5 = TAG('I', 'F', 'W', '5'); // Set initial size |
| // of stream flow control |
| // receive window to |
| // 32KB. (2^5 KB). |
| const QuicTag kIFW6 = TAG('I', 'F', 'W', '6'); // Set initial size |
| // of stream flow control |
| // receive window to |
| // 64KB. (2^6 KB). |
| const QuicTag kIFW7 = TAG('I', 'F', 'W', '7'); // Set initial size |
| // of stream flow control |
| // receive window to |
| // 128KB. (2^7 KB). |
| const QuicTag kIFW8 = TAG('I', 'F', 'W', '8'); // Set initial size |
| // of stream flow control |
| // receive window to |
| // 256KB. (2^8 KB). |
| const QuicTag kIFW9 = TAG('I', 'F', 'W', '9'); // Set initial size |
| // of stream flow control |
| // receive window to |
| // 512KB. (2^9 KB). |
| const QuicTag kIFWA = TAG('I', 'F', 'W', 'a'); // Set initial size |
| // of stream flow control |
| // receive window to |
| // 1MB. (2^0xa KB). |
| const QuicTag kTBBR = TAG('T', 'B', 'B', 'R'); // Reduced Buffer Bloat TCP |
| const QuicTag k1RTT = TAG('1', 'R', 'T', 'T'); // STARTUP in BBR for 1 RTT |
| const QuicTag k2RTT = TAG('2', 'R', 'T', 'T'); // STARTUP in BBR for 2 RTTs |
| const QuicTag kLRTT = TAG('L', 'R', 'T', 'T'); // Exit STARTUP in BBR on loss |
| const QuicTag kBBS1 = TAG('B', 'B', 'S', '1'); // DEPRECATED |
| const QuicTag kBBS2 = TAG('B', 'B', 'S', '2'); // More aggressive packet |
| // conservation in BBR STARTUP |
| const QuicTag kBBS3 = TAG('B', 'B', 'S', '3'); // Slowstart packet |
| // conservation in BBR STARTUP |
| const QuicTag kBBS4 = TAG('B', 'B', 'S', '4'); // DEPRECATED |
| const QuicTag kBBS5 = TAG('B', 'B', 'S', '5'); // DEPRECATED |
| const QuicTag kBBRR = TAG('B', 'B', 'R', 'R'); // Rate-based recovery in BBR |
| const QuicTag kBBR1 = TAG('B', 'B', 'R', '1'); // DEPRECATED |
| const QuicTag kBBR2 = TAG('B', 'B', 'R', '2'); // DEPRECATED |
| const QuicTag kBBR3 = TAG('B', 'B', 'R', '3'); // Fully drain the queue once |
| // per cycle |
| const QuicTag kBBR4 = TAG('B', 'B', 'R', '4'); // 20 RTT ack aggregation |
| const QuicTag kBBR5 = TAG('B', 'B', 'R', '5'); // 40 RTT ack aggregation |
| const QuicTag kBBR9 = TAG('B', 'B', 'R', '9'); // DEPRECATED |
| const QuicTag kBBRA = TAG('B', 'B', 'R', 'A'); // Starts a new ack aggregation |
| // epoch if a full round has |
| // passed |
| const QuicTag kBBRB = TAG('B', 'B', 'R', 'B'); // Use send rate in BBR's |
| // MaxAckHeightTracker |
| const QuicTag kBBRS = TAG('B', 'B', 'R', 'S'); // DEPRECATED |
| const QuicTag kBBQ1 = TAG('B', 'B', 'Q', '1'); // BBR with lower 2.77 STARTUP |
| // pacing and CWND gain. |
| const QuicTag kBBQ2 = TAG('B', 'B', 'Q', '2'); // BBRv2 with 2.885 STARTUP and |
| // DRAIN CWND gain. |
| const QuicTag kBBQ3 = TAG('B', 'B', 'Q', '3'); // BBR with ack aggregation |
| // compensation in STARTUP. |
| const QuicTag kBBQ5 = TAG('B', 'B', 'Q', '5'); // Expire ack aggregation upon |
| // bandwidth increase in |
| // STARTUP. |
| const QuicTag kBBQ6 = TAG('B', 'B', 'Q', '6'); // Reduce STARTUP gain to 25% |
| // more than BW increase. |
| const QuicTag kBBQ7 = TAG('B', 'B', 'Q', '7'); // Reduce bw_lo by |
| // bytes_lost/min_rtt. |
| const QuicTag kBBQ8 = TAG('B', 'B', 'Q', '8'); // Reduce bw_lo by |
| // bw_lo * bytes_lost/inflight |
| const QuicTag kBBQ9 = TAG('B', 'B', 'Q', '9'); // Reduce bw_lo by |
| const QuicTag kBBQ0 = TAG('B', 'B', 'Q', '0'); // Increase bytes_acked in |
| // PROBE_UP when app limited. |
| // bw_lo * bytes_lost/cwnd |
| const QuicTag kRENO = TAG('R', 'E', 'N', 'O'); // Reno Congestion Control |
| const QuicTag kTPCC = TAG('P', 'C', 'C', '\0'); // Performance-Oriented |
| // Congestion Control |
| const QuicTag kBYTE = TAG('B', 'Y', 'T', 'E'); // TCP cubic or reno in bytes |
| const QuicTag kIW03 = TAG('I', 'W', '0', '3'); // Force ICWND to 3 |
| const QuicTag kIW10 = TAG('I', 'W', '1', '0'); // Force ICWND to 10 |
| const QuicTag kIW20 = TAG('I', 'W', '2', '0'); // Force ICWND to 20 |
| const QuicTag kIW50 = TAG('I', 'W', '5', '0'); // Force ICWND to 50 |
| const QuicTag kB2ON = TAG('B', '2', 'O', 'N'); // Enable BBRv2 |
| const QuicTag kB2NA = TAG('B', '2', 'N', 'A'); // For BBRv2, do not add ack |
| // height to queueing threshold |
| const QuicTag kB2NE = TAG('B', '2', 'N', 'E'); // For BBRv2, always exit |
| // STARTUP on loss, even if |
| // bandwidth growth exceeds |
| // threshold. |
| const QuicTag kB2RP = TAG('B', '2', 'R', 'P'); // For BBRv2, run PROBE_RTT on |
| // the regular schedule |
| const QuicTag kB2LO = TAG('B', '2', 'L', 'O'); // Ignore inflight_lo in BBR2 |
| const QuicTag kB2HR = TAG('B', '2', 'H', 'R'); // 15% inflight_hi headroom. |
| const QuicTag kB2SL = TAG('B', '2', 'S', 'L'); // When exiting STARTUP due to |
| // loss, set inflight_hi to the |
| // max of bdp and max bytes |
| // delivered in round. |
| const QuicTag kB2H2 = TAG('B', '2', 'H', '2'); // When exiting PROBE_UP due to |
| // loss, set inflight_hi to the |
| // max of inflight@send and max |
| // bytes delivered in round. |
| const QuicTag kB2RC = TAG('B', '2', 'R', 'C'); // Disable Reno-coexistence for |
| // BBR2. |
| const QuicTag kBSAO = TAG('B', 'S', 'A', 'O'); // Avoid Overestimation in |
| // Bandwidth Sampler with ack |
| // aggregation |
| const QuicTag kB2DL = TAG('B', '2', 'D', 'L'); // Increase inflight_hi based |
| // on delievered, not inflight. |
| const QuicTag kB201 = TAG('B', '2', '0', '1'); // In PROBE_UP, check if cwnd |
| // limited before aggregation |
| // epoch, instead of ack event. |
| const QuicTag kB202 = TAG('B', '2', '0', '2'); // Do not exit PROBE_UP if |
| // inflight dips below 1.25*BW. |
| const QuicTag kB203 = TAG('B', '2', '0', '3'); // Ignore inflight_hi until |
| // PROBE_UP is exited. |
| const QuicTag kB204 = TAG('B', '2', '0', '4'); // Reduce extra acked when |
| // MaxBW incrases. |
| const QuicTag kB205 = TAG('B', '2', '0', '5'); // Add extra acked to CWND in |
| // STARTUP. |
| const QuicTag kB206 = TAG('B', '2', '0', '6'); // Exit STARTUP after 2 losses. |
| const QuicTag kB207 = TAG('B', '2', '0', '7'); // Exit STARTUP on persistent |
| // queue |
| const QuicTag kNTLP = TAG('N', 'T', 'L', 'P'); // No tail loss probe |
| const QuicTag k1TLP = TAG('1', 'T', 'L', 'P'); // 1 tail loss probe |
| const QuicTag k1RTO = TAG('1', 'R', 'T', 'O'); // Send 1 packet upon RTO |
| const QuicTag kNRTO = TAG('N', 'R', 'T', 'O'); // CWND reduction on loss |
| const QuicTag kTIME = TAG('T', 'I', 'M', 'E'); // Time based loss detection |
| const QuicTag kATIM = TAG('A', 'T', 'I', 'M'); // Adaptive time loss detection |
| const QuicTag kMIN1 = TAG('M', 'I', 'N', '1'); // Min CWND of 1 packet |
| const QuicTag kMIN4 = TAG('M', 'I', 'N', '4'); // Min CWND of 4 packets, |
| // with a min rate of 1 BDP. |
| const QuicTag kTLPR = TAG('T', 'L', 'P', 'R'); // Tail loss probe delay of |
| // 0.5RTT. |
| const QuicTag kMAD0 = TAG('M', 'A', 'D', '0'); // Ignore ack delay |
| const QuicTag kMAD2 = TAG('M', 'A', 'D', '2'); // No min TLP |
| const QuicTag kMAD3 = TAG('M', 'A', 'D', '3'); // No min RTO |
| const QuicTag k1ACK = TAG('1', 'A', 'C', 'K'); // 1 fast ack for reordering |
| const QuicTag kAKD3 = TAG('A', 'K', 'D', '3'); // Ack decimation style acking |
| // with 1/8 RTT acks. |
| const QuicTag kAKDU = TAG('A', 'K', 'D', 'U'); // Unlimited number of packets |
| // received before acking |
| const QuicTag kAFFE = TAG('A', 'F', 'F', 'E'); // Enable client receiving |
| // AckFrequencyFrame. |
| const QuicTag kAFF1 = TAG('A', 'F', 'F', '1'); // Use SRTT in building |
| // AckFrequencyFrame. |
| const QuicTag kAFF2 = TAG('A', 'F', 'F', '2'); // Send AckFrequencyFrame upon |
| // handshake completion. |
| const QuicTag kSSLR = TAG('S', 'S', 'L', 'R'); // Slow Start Large Reduction. |
| const QuicTag kNPRR = TAG('N', 'P', 'R', 'R'); // Pace at unity instead of PRR |
| const QuicTag k2RTO = TAG('2', 'R', 'T', 'O'); // Close connection on 2 RTOs |
| const QuicTag k3RTO = TAG('3', 'R', 'T', 'O'); // Close connection on 3 RTOs |
| const QuicTag k4RTO = TAG('4', 'R', 'T', 'O'); // Close connection on 4 RTOs |
| const QuicTag k5RTO = TAG('5', 'R', 'T', 'O'); // Close connection on 5 RTOs |
| const QuicTag k6RTO = TAG('6', 'R', 'T', 'O'); // Close connection on 6 RTOs |
| const QuicTag kCBHD = TAG('C', 'B', 'H', 'D'); // Client only blackhole |
| // detection. |
| const QuicTag kNBHD = TAG('N', 'B', 'H', 'D'); // No blackhole detection. |
| const QuicTag kCONH = TAG('C', 'O', 'N', 'H'); // Conservative Handshake |
| // Retransmissions. |
| const QuicTag kLFAK = TAG('L', 'F', 'A', 'K'); // Don't invoke FACK on the |
| // first ack. |
| const QuicTag kSTMP = TAG('S', 'T', 'M', 'P'); // DEPRECATED |
| const QuicTag kEACK = TAG('E', 'A', 'C', 'K'); // Bundle ack-eliciting frame |
| // with an ACK after PTO/RTO |
| |
| const QuicTag kILD0 = TAG('I', 'L', 'D', '0'); // IETF style loss detection |
| // (default with 1/8 RTT time |
| // threshold) |
| const QuicTag kILD1 = TAG('I', 'L', 'D', '1'); // IETF style loss detection |
| // with 1/4 RTT time threshold |
| const QuicTag kILD2 = TAG('I', 'L', 'D', '2'); // IETF style loss detection |
| // with adaptive packet |
| // threshold |
| const QuicTag kILD3 = TAG('I', 'L', 'D', '3'); // IETF style loss detection |
| // with 1/4 RTT time threshold |
| // and adaptive packet |
| // threshold |
| const QuicTag kILD4 = TAG('I', 'L', 'D', '4'); // IETF style loss detection |
| // with both adaptive time |
| // threshold (default 1/4 RTT) |
| // and adaptive packet |
| // threshold |
| const QuicTag kRUNT = TAG('R', 'U', 'N', 'T'); // No packet threshold loss |
| // detection for "runt" packet. |
| const QuicTag kNSTP = TAG('N', 'S', 'T', 'P'); // No stop waiting frames. |
| const QuicTag kNRTT = TAG('N', 'R', 'T', 'T'); // Ignore initial RTT |
| |
| const QuicTag k1PTO = TAG('1', 'P', 'T', 'O'); // Send 1 packet upon PTO. |
| const QuicTag k2PTO = TAG('2', 'P', 'T', 'O'); // Send 2 packets upon PTO. |
| |
| const QuicTag k6PTO = TAG('6', 'P', 'T', 'O'); // Closes connection on 6 |
| // consecutive PTOs. |
| const QuicTag k7PTO = TAG('7', 'P', 'T', 'O'); // Closes connection on 7 |
| // consecutive PTOs. |
| const QuicTag k8PTO = TAG('8', 'P', 'T', 'O'); // Closes connection on 8 |
| // consecutive PTOs. |
| const QuicTag kPTOS = TAG('P', 'T', 'O', 'S'); // Skip packet number before |
| // sending the last PTO. |
| const QuicTag kPTOA = TAG('P', 'T', 'O', 'A'); // Do not add max ack delay |
| // when computing PTO timeout |
| // if an immediate ACK is |
| // expected. |
| const QuicTag kPEB1 = TAG('P', 'E', 'B', '1'); // Start exponential backoff |
| // since 1st PTO. |
| const QuicTag kPEB2 = TAG('P', 'E', 'B', '2'); // Start exponential backoff |
| // since 2nd PTO. |
| const QuicTag kPVS1 = TAG('P', 'V', 'S', '1'); // Use 2 * rttvar when |
| // calculating PTO timeout. |
| const QuicTag kPAG1 = TAG('P', 'A', 'G', '1'); // Make 1st PTO more aggressive |
| const QuicTag kPAG2 = TAG('P', 'A', 'G', '2'); // Make first 2 PTOs more |
| // aggressive |
| const QuicTag kPSDA = TAG('P', 'S', 'D', 'A'); // Use standard deviation when |
| // calculating PTO timeout. |
| const QuicTag kPLE1 = TAG('P', 'L', 'E', '1'); // Arm the 1st PTO with |
| // earliest in flight sent time |
| // and at least 0.5*srtt from |
| // last sent packet. |
| const QuicTag kPLE2 = TAG('P', 'L', 'E', '2'); // Arm the 1st PTO with |
| // earliest in flight sent time |
| // and at least 1.5*srtt from |
| // last sent packet. |
| const QuicTag kAPTO = TAG('A', 'P', 'T', 'O'); // Use 1.5 * initial RTT before |
| // any RTT sample is available. |
| |
| const QuicTag kELDT = TAG('E', 'L', 'D', 'T'); // Enable Loss Detection Tuning |
| |
| // TODO(haoyuewang) Remove RVCM option once |
| // --quic_remove_connection_migration_connection_option is deprecated. |
| const QuicTag kRVCM = TAG('R', 'V', 'C', 'M'); // Validate the new address |
| // upon client address change. |
| |
| // Optional support of truncated Connection IDs. If sent by a peer, the value |
| // is the minimum number of bytes allowed for the connection ID sent to the |
| // peer. |
| const QuicTag kTCID = TAG('T', 'C', 'I', 'D'); // Connection ID truncation. |
| |
| // Multipath option. |
| const QuicTag kMPTH = TAG('M', 'P', 'T', 'H'); // Enable multipath. |
| |
| const QuicTag kNCMR = TAG('N', 'C', 'M', 'R'); // Do not attempt connection |
| // migration. |
| |
| // Allows disabling defer_send_in_response_to_packets in QuicConnection. |
| const QuicTag kDFER = TAG('D', 'F', 'E', 'R'); // Do not defer sending. |
| |
| // Disable Pacing offload option. |
| const QuicTag kNPCO = TAG('N', 'P', 'C', 'O'); // No pacing offload. |
| |
| // Enable bandwidth resumption experiment. |
| const QuicTag kBWRE = TAG('B', 'W', 'R', 'E'); // Bandwidth resumption. |
| const QuicTag kBWMX = TAG('B', 'W', 'M', 'X'); // Max bandwidth resumption. |
| const QuicTag kBWRS = TAG('B', 'W', 'R', 'S'); // Server bandwidth resumption. |
| const QuicTag kBWS2 = TAG('B', 'W', 'S', '2'); // Server bw resumption v2. |
| const QuicTag kBWS3 = TAG('B', 'W', 'S', '3'); // QUIC Initial CWND - Control. |
| const QuicTag kBWS4 = TAG('B', 'W', 'S', '4'); // QUIC Initial CWND - Enabled. |
| const QuicTag kBWS5 = TAG('B', 'W', 'S', '5'); // QUIC Initial CWND up and down |
| const QuicTag kBWS6 = TAG('B', 'W', 'S', '6'); // QUIC Initial CWND - Enabled |
| // with 0.5 * default |
| // multiplier. |
| const QuicTag kBWP0 = TAG('B', 'W', 'P', '0'); // QUIC Initial CWND - SPDY |
| // priority 0. |
| const QuicTag kBWP1 = TAG('B', 'W', 'P', '1'); // QUIC Initial CWND - SPDY |
| // priorities 0 and 1. |
| const QuicTag kBWP2 = TAG('B', 'W', 'P', '2'); // QUIC Initial CWND - SPDY |
| // priorities 0, 1 and 2. |
| const QuicTag kBWP3 = TAG('B', 'W', 'P', '3'); // QUIC Initial CWND - SPDY |
| // priorities 0, 1, 2 and 3. |
| const QuicTag kBWP4 = TAG('B', 'W', 'P', '4'); // QUIC Initial CWND - SPDY |
| // priorities >= 0, 1, 2, 3 and |
| // 4. |
| const QuicTag kBWG4 = TAG('B', 'W', 'G', '4'); // QUIC Initial CWND - |
| // Bandwidth model 1. |
| const QuicTag kBWG7 = TAG('B', 'W', 'G', '7'); // QUIC Initial CWND - |
| // Bandwidth model 2. |
| const QuicTag kBWG8 = TAG('B', 'W', 'G', '8'); // QUIC Initial CWND - |
| // Bandwidth model 3. |
| const QuicTag kBWS7 = TAG('B', 'W', 'S', '7'); // QUIC Initial CWND - Enabled |
| // with 0.75 * default |
| // multiplier. |
| const QuicTag kBWM3 = TAG('B', 'W', 'M', '3'); // Consider overshooting if |
| // bytes lost after bandwidth |
| // resumption * 3 > IW. |
| const QuicTag kBWM4 = TAG('B', 'W', 'M', '4'); // Consider overshooting if |
| // bytes lost after bandwidth |
| // resumption * 4 > IW. |
| const QuicTag kICW1 = TAG('I', 'C', 'W', '1'); // Max initial congestion window |
| // 100. |
| const QuicTag kDTOS = TAG('D', 'T', 'O', 'S'); // Enable overshooting |
| // detection. |
| |
| const QuicTag kFIDT = TAG('F', 'I', 'D', 'T'); // Extend idle timer by PTO |
| // instead of the whole idle |
| // timeout. |
| |
| const QuicTag k3AFF = TAG('3', 'A', 'F', 'F'); // 3 anti amplification factor. |
| const QuicTag k10AF = TAG('1', '0', 'A', 'F'); // 10 anti amplification factor. |
| |
| // Enable path MTU discovery experiment. |
| const QuicTag kMTUH = TAG('M', 'T', 'U', 'H'); // High-target MTU discovery. |
| const QuicTag kMTUL = TAG('M', 'T', 'U', 'L'); // Low-target MTU discovery. |
| |
| const QuicTag kNSLC = TAG('N', 'S', 'L', 'C'); // Always send connection close |
| // for idle timeout. |
| const QuicTag kNCHP = TAG('N', 'C', 'H', 'P'); // No chaos protection. |
| const QuicTag kNBPE = TAG('N', 'B', 'P', 'E'); // No BoringSSL Permutes |
| // TLS Extensions. |
| |
| // Proof types (i.e. certificate types) |
| // NOTE: although it would be silly to do so, specifying both kX509 and kX59R |
| // is allowed and is equivalent to specifying only kX509. |
| const QuicTag kX509 = TAG('X', '5', '0', '9'); // X.509 certificate, all key |
| // types |
| const QuicTag kX59R = TAG('X', '5', '9', 'R'); // X.509 certificate, RSA keys |
| // only |
| const QuicTag kCHID = TAG('C', 'H', 'I', 'D'); // Channel ID. |
| |
| // Client hello tags |
| const QuicTag kVER = TAG('V', 'E', 'R', '\0'); // Version |
| const QuicTag kNONC = TAG('N', 'O', 'N', 'C'); // The client's nonce |
| const QuicTag kNONP = TAG('N', 'O', 'N', 'P'); // The client's proof nonce |
| const QuicTag kKEXS = TAG('K', 'E', 'X', 'S'); // Key exchange methods |
| const QuicTag kAEAD = TAG('A', 'E', 'A', 'D'); // Authenticated |
| // encryption algorithms |
| const QuicTag kCOPT = TAG('C', 'O', 'P', 'T'); // Connection options |
| const QuicTag kCLOP = TAG('C', 'L', 'O', 'P'); // Client connection options |
| const QuicTag kICSL = TAG('I', 'C', 'S', 'L'); // Idle network timeout |
| const QuicTag kMIBS = TAG('M', 'I', 'D', 'S'); // Max incoming bidi streams |
| const QuicTag kMIUS = TAG('M', 'I', 'U', 'S'); // Max incoming unidi streams |
| const QuicTag kADE = TAG('A', 'D', 'E', 0); // Ack Delay Exponent (IETF |
| // QUIC ACK Frame Only). |
| const QuicTag kIRTT = TAG('I', 'R', 'T', 'T'); // Estimated initial RTT in us. |
| const QuicTag kTRTT = TAG('T', 'R', 'T', 'T'); // If server receives an rtt |
| // from an address token, set |
| // it as the initial rtt. |
| const QuicTag kSNI = TAG('S', 'N', 'I', '\0'); // Server name |
| // indication |
| const QuicTag kPUBS = TAG('P', 'U', 'B', 'S'); // Public key values |
| const QuicTag kSCID = TAG('S', 'C', 'I', 'D'); // Server config id |
| const QuicTag kORBT = TAG('O', 'B', 'I', 'T'); // Server orbit. |
| const QuicTag kPDMD = TAG('P', 'D', 'M', 'D'); // Proof demand. |
| const QuicTag kPROF = TAG('P', 'R', 'O', 'F'); // Proof (signature). |
| const QuicTag kCCS = TAG('C', 'C', 'S', 0); // Common certificate set |
| const QuicTag kCCRT = TAG('C', 'C', 'R', 'T'); // Cached certificate |
| const QuicTag kEXPY = TAG('E', 'X', 'P', 'Y'); // Expiry |
| const QuicTag kSTTL = TAG('S', 'T', 'T', 'L'); // Server Config TTL |
| const QuicTag kSFCW = TAG('S', 'F', 'C', 'W'); // Initial stream flow control |
| // receive window. |
| const QuicTag kCFCW = TAG('C', 'F', 'C', 'W'); // Initial session/connection |
| // flow control receive window. |
| const QuicTag kUAID = TAG('U', 'A', 'I', 'D'); // Client's User Agent ID. |
| const QuicTag kXLCT = TAG('X', 'L', 'C', 'T'); // Expected leaf certificate. |
| const QuicTag kQLVE = TAG('Q', 'L', 'V', 'E'); // Legacy Version |
| // Encapsulation. |
| |
| const QuicTag kPDP1 = TAG('P', 'D', 'P', '1'); // Path degrading triggered |
| // at 1PTO. |
| |
| const QuicTag kPDP2 = TAG('P', 'D', 'P', '2'); // Path degrading triggered |
| // at 2PTO. |
| |
| const QuicTag kPDP3 = TAG('P', 'D', 'P', '3'); // Path degrading triggered |
| // at 3PTO. |
| |
| const QuicTag kPDP4 = TAG('P', 'D', 'P', '4'); // Path degrading triggered |
| // at 4PTO. |
| |
| const QuicTag kPDP5 = TAG('P', 'D', 'P', '5'); // Path degrading triggered |
| // at 5PTO. |
| |
| const QuicTag kQNZ2 = TAG('Q', 'N', 'Z', '2'); // Turn off QUIC crypto 0-RTT. |
| |
| const QuicTag kMAD = TAG('M', 'A', 'D', 0); // Max Ack Delay (IETF QUIC) |
| |
| const QuicTag kIGNP = TAG('I', 'G', 'N', 'P'); // Do not use PING only packet |
| // for RTT measure or |
| // congestion control. |
| |
| const QuicTag kSRWP = TAG('S', 'R', 'W', 'P'); // Enable retransmittable on |
| // wire PING (ROWP) on the |
| // server side. |
| |
| // Client Hints triggers. |
| const QuicTag kGWCH = TAG('G', 'W', 'C', 'H'); |
| const QuicTag kYTCH = TAG('Y', 'T', 'C', 'H'); |
| |
| // Rejection tags |
| const QuicTag kRREJ = TAG('R', 'R', 'E', 'J'); // Reasons for server sending |
| |
| // Server hello tags |
| const QuicTag kCADR = TAG('C', 'A', 'D', 'R'); // Client IP address and port |
| const QuicTag kASAD = TAG('A', 'S', 'A', 'D'); // Alternate Server IP address |
| // and port. |
| const QuicTag kSRST = TAG('S', 'R', 'S', 'T'); // Stateless reset token used |
| // in IETF public reset packet |
| |
| // CETV tags |
| const QuicTag kCIDK = TAG('C', 'I', 'D', 'K'); // ChannelID key |
| const QuicTag kCIDS = TAG('C', 'I', 'D', 'S'); // ChannelID signature |
| |
| // Public reset tags |
| const QuicTag kRNON = TAG('R', 'N', 'O', 'N'); // Public reset nonce proof |
| const QuicTag kRSEQ = TAG('R', 'S', 'E', 'Q'); // Rejected packet number |
| |
| // Universal tags |
| const QuicTag kPAD = TAG('P', 'A', 'D', '\0'); // Padding |
| |
| // Stats collection tags |
| const QuicTag kEPID = TAG('E', 'P', 'I', 'D'); // Endpoint identifier. |
| |
| // clang-format on |
| |
| // These tags have a special form so that they appear either at the beginning |
| // or the end of a handshake message. Since handshake messages are sorted by |
| // tag value, the tags with 0 at the end will sort first and those with 255 at |
| // the end will sort last. |
| // |
| // The certificate chain should have a tag that will cause it to be sorted at |
| // the end of any handshake messages because it's likely to be large and the |
| // client might be able to get everything that it needs from the small values at |
| // the beginning. |
| // |
| // Likewise tags with random values should be towards the beginning of the |
| // message because the server mightn't hold state for a rejected client hello |
| // and therefore the client may have issues reassembling the rejection message |
| // in the event that it sent two client hellos. |
| const QuicTag kServerNonceTag = TAG('S', 'N', 'O', 0); // The server's nonce |
| const QuicTag kSourceAddressTokenTag = |
| TAG('S', 'T', 'K', 0); // Source-address token |
| const QuicTag kCertificateTag = TAG('C', 'R', 'T', 255); // Certificate chain |
| const QuicTag kCertificateSCTTag = |
| TAG('C', 'S', 'C', 'T'); // Signed cert timestamp (RFC6962) of leaf cert. |
| |
| #undef TAG |
| |
| const size_t kMaxEntries = 128; // Max number of entries in a message. |
| |
| const size_t kNonceSize = 32; // Size in bytes of the connection nonce. |
| |
| const size_t kOrbitSize = 8; // Number of bytes in an orbit value. |
| |
| // kProofSignatureLabel is prepended to the CHLO hash and server configs before |
| // signing to avoid any cross-protocol attacks on the signature. |
| const char kProofSignatureLabel[] = "QUIC CHLO and server config signature"; |
| |
| // kClientHelloMinimumSize is the minimum size of a client hello. Client hellos |
| // will have PAD tags added in order to ensure this minimum is met and client |
| // hellos smaller than this will be an error. This minimum size reduces the |
| // amplification factor of any mirror DoS attack. |
| // |
| // A client may pad an inchoate client hello to a size larger than |
| // kClientHelloMinimumSize to make it more likely to receive a complete |
| // rejection message. |
| const size_t kClientHelloMinimumSize = 1024; |
| |
| } // namespace quic |
| |
| #endif // QUICHE_QUIC_CORE_CRYPTO_CRYPTO_PROTOCOL_H_ |
