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// 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_QUIC_CONSTANTS_H_
#define QUICHE_QUIC_CORE_QUIC_CONSTANTS_H_
#include <stddef.h>
#include <cstdint>
#include <limits>
#include "quic/core/quic_types.h"
#include "quic/platform/api/quic_export.h"
// Definitions of constant values used throughout the QUIC code.
namespace quic {
// Simple time constants.
const uint64_t kNumSecondsPerMinute = 60;
const uint64_t kNumSecondsPerHour = kNumSecondsPerMinute * 60;
const uint64_t kNumSecondsPerWeek = kNumSecondsPerHour * 24 * 7;
const uint64_t kNumMillisPerSecond = 1000;
const uint64_t kNumMicrosPerMilli = 1000;
const uint64_t kNumMicrosPerSecond = kNumMicrosPerMilli * kNumMillisPerSecond;
// Default number of connections for N-connection emulation.
const uint32_t kDefaultNumConnections = 2;
// Default initial maximum size in bytes of a QUIC packet.
const QuicByteCount kDefaultMaxPacketSize = 1350;
// Default initial maximum size in bytes of a QUIC packet for servers.
const QuicByteCount kDefaultServerMaxPacketSize = 1000;
// Maximum transmission unit on Ethernet.
const QuicByteCount kEthernetMTU = 1500;
// The maximum packet size of any QUIC packet over IPv6, based on ethernet's max
// size, minus the IP and UDP headers. IPv6 has a 40 byte header, UDP adds an
// additional 8 bytes. This is a total overhead of 48 bytes. Ethernet's
// max packet size is 1500 bytes, 1500 - 48 = 1452.
const QuicByteCount kMaxV6PacketSize = 1452;
// The maximum packet size of any QUIC packet over IPv4.
// 1500(Ethernet) - 20(IPv4 header) - 8(UDP header) = 1472.
const QuicByteCount kMaxV4PacketSize = 1472;
// The maximum incoming packet size allowed.
const QuicByteCount kMaxIncomingPacketSize = kMaxV4PacketSize;
// The maximum outgoing packet size allowed.
const QuicByteCount kMaxOutgoingPacketSize = kMaxV6PacketSize;
// ETH_MAX_MTU - MAX(sizeof(iphdr), sizeof(ip6_hdr)) - sizeof(udphdr).
const QuicByteCount kMaxGsoPacketSize = 65535 - 40 - 8;
// The maximal IETF DATAGRAM frame size we'll accept. Choosing 2^16 ensures
// that it is greater than the biggest frame we could ever fit in a QUIC packet.
const QuicByteCount kMaxAcceptedDatagramFrameSize = 65536;
// Default value of the max_packet_size transport parameter if it is not
// transmitted.
const QuicByteCount kDefaultMaxPacketSizeTransportParam = 65527;
// Default maximum packet size used in the Linux TCP implementation.
// Used in QUIC for congestion window computations in bytes.
const QuicByteCount kDefaultTCPMSS = 1460;
const QuicByteCount kMaxSegmentSize = kDefaultTCPMSS;
// The minimum size of a packet which can elicit a version negotiation packet,
// as per section 8.1 of the QUIC spec.
const QuicByteCount kMinPacketSizeForVersionNegotiation = 1200;
// We match SPDY's use of 32 (since we'd compete with SPDY).
const QuicPacketCount kInitialCongestionWindow = 32;
// Do not allow initial congestion window to be greater than 200 packets.
const QuicPacketCount kMaxInitialCongestionWindow = 200;
// Do not allow initial congestion window to be smaller than 10 packets.
const QuicPacketCount kMinInitialCongestionWindow = 10;
// Minimum size of initial flow control window, for both stream and session.
// This is only enforced when version.AllowsLowFlowControlLimits() is false.
const QuicByteCount kMinimumFlowControlSendWindow = 16 * 1024; // 16 KB
// Default size of initial flow control window, for both stream and session.
const QuicByteCount kDefaultFlowControlSendWindow = 16 * 1024; // 16 KB
// Maximum flow control receive window limits for connection and stream.
const QuicByteCount kStreamReceiveWindowLimit = 16 * 1024 * 1024; // 16 MB
const QuicByteCount kSessionReceiveWindowLimit = 24 * 1024 * 1024; // 24 MB
// Minimum size of the CWND, in packets, when doing bandwidth resumption.
const QuicPacketCount kMinCongestionWindowForBandwidthResumption = 10;
// Default size of the socket receive buffer in bytes.
const QuicByteCount kDefaultSocketReceiveBuffer = 1024 * 1024;
// Don't allow a client to suggest an RTT shorter than 10ms.
const uint32_t kMinInitialRoundTripTimeUs = 10 * kNumMicrosPerMilli;
// Don't allow a client to suggest an RTT longer than 1 second.
const uint32_t kMaxInitialRoundTripTimeUs = kNumMicrosPerSecond;
// Maximum number of open streams per connection.
const size_t kDefaultMaxStreamsPerConnection = 100;
// Number of bytes reserved for public flags in the packet header.
const size_t kPublicFlagsSize = 1;
// Number of bytes reserved for version number in the packet header.
const size_t kQuicVersionSize = 4;
// Minimum number of active connection IDs that an end point can maintain.
const uint32_t kMinNumOfActiveConnectionIds = 2;
// Length of the retry integrity tag in bytes.
// https://tools.ietf.org/html/draft-ietf-quic-transport-25#section-17.2.5
const size_t kRetryIntegrityTagLength = 16;
// By default, UnackedPacketsMap allocates buffer of 64 after the first packet
// is added.
const int kDefaultUnackedPacketsInitialCapacity = 64;
// Signifies that the QuicPacket will contain version of the protocol.
const bool kIncludeVersion = true;
// Signifies that the QuicPacket will include a diversification nonce.
const bool kIncludeDiversificationNonce = true;
// Header key used to identify final offset on data stream when sending HTTP/2
// trailing headers over QUIC.
QUIC_EXPORT_PRIVATE extern const char* const kFinalOffsetHeaderKey;
// Default maximum delayed ack time, in ms.
// Uses a 25ms delayed ack timer. Helps with better signaling
// in low-bandwidth (< ~384 kbps), where an ack is sent per packet.
const int64_t kDefaultDelayedAckTimeMs = 25;
// Default minimum delayed ack time, in ms (used only for sender control of ack
// frequency).
const uint32_t kDefaultMinAckDelayTimeMs = 5;
// Default shift of the ACK delay in the IETF QUIC ACK frame.
const uint32_t kDefaultAckDelayExponent = 3;
// Minimum tail loss probe time in ms.
static const int64_t kMinTailLossProbeTimeoutMs = 10;
// The timeout before the handshake succeeds.
const int64_t kInitialIdleTimeoutSecs = 5;
// The maximum idle timeout that can be negotiated.
const int64_t kMaximumIdleTimeoutSecs = 60 * 10; // 10 minutes.
// The default timeout for a connection until the crypto handshake succeeds.
const int64_t kMaxTimeForCryptoHandshakeSecs = 10; // 10 secs.
// Default limit on the number of undecryptable packets the connection buffers
// before the CHLO/SHLO arrive.
const size_t kDefaultMaxUndecryptablePackets = 10;
// Default ping timeout.
const int64_t kPingTimeoutSecs = 15; // 15 secs.
// Minimum number of RTTs between Server Config Updates (SCUP) sent to client.
const int kMinIntervalBetweenServerConfigUpdatesRTTs = 10;
// Minimum time between Server Config Updates (SCUP) sent to client.
const int kMinIntervalBetweenServerConfigUpdatesMs = 1000;
// Minimum number of packets between Server Config Updates (SCUP).
const int kMinPacketsBetweenServerConfigUpdates = 100;
// The number of open streams that a server will accept is set to be slightly
// larger than the negotiated limit. Immediately closing the connection if the
// client opens slightly too many streams is not ideal: the client may have sent
// a FIN that was lost, and simultaneously opened a new stream. The number of
// streams a server accepts is a fixed increment over the negotiated limit, or a
// percentage increase, whichever is larger.
const float kMaxStreamsMultiplier = 1.1f;
const int kMaxStreamsMinimumIncrement = 10;
// Available streams are ones with IDs less than the highest stream that has
// been opened which have neither been opened or reset. The limit on the number
// of available streams is 10 times the limit on the number of open streams.
const int kMaxAvailableStreamsMultiplier = 10;
// Track the number of promises that are not yet claimed by a
// corresponding get. This must be smaller than
// kMaxAvailableStreamsMultiplier, because RST on a promised stream my
// create available streams entries.
const int kMaxPromisedStreamsMultiplier = kMaxAvailableStreamsMultiplier - 1;
// TCP RFC calls for 1 second RTO however Linux differs from this default and
// define the minimum RTO to 200ms, we will use the same until we have data to
// support a higher or lower value.
static const int64_t kMinRetransmissionTimeMs = 200;
// The delayed ack time must not be greater than half the min RTO.
static_assert(kDefaultDelayedAckTimeMs <= kMinRetransmissionTimeMs / 2,
"Delayed ack time must be less than or equal half the MinRTO");
// We define an unsigned 16-bit floating point value, inspired by IEEE floats
// (http://en.wikipedia.org/wiki/Half_precision_floating-point_format),
// with 5-bit exponent (bias 1), 11-bit mantissa (effective 12 with hidden
// bit) and denormals, but without signs, transfinites or fractions. Wire format
// 16 bits (little-endian byte order) are split into exponent (high 5) and
// mantissa (low 11) and decoded as:
// uint64_t value;
// if (exponent == 0) value = mantissa;
// else value = (mantissa | 1 << 11) << (exponent - 1)
const int kUFloat16ExponentBits = 5;
const int kUFloat16MaxExponent = (1 << kUFloat16ExponentBits) - 2; // 30
const int kUFloat16MantissaBits = 16 - kUFloat16ExponentBits; // 11
const int kUFloat16MantissaEffectiveBits = kUFloat16MantissaBits + 1; // 12
const uint64_t kUFloat16MaxValue = // 0x3FFC0000000
((UINT64_C(1) << kUFloat16MantissaEffectiveBits) - 1)
<< kUFloat16MaxExponent;
// kDiversificationNonceSize is the size, in bytes, of the nonce that a server
// may set in the packet header to ensure that its INITIAL keys are not
// duplicated.
const size_t kDiversificationNonceSize = 32;
// The largest gap in packets we'll accept without closing the connection.
// This will likely have to be tuned.
const QuicPacketCount kMaxPacketGap = 5000;
// The max number of sequence number intervals that
// QuicPeerIssuedConnetionIdManager can maintain.
const size_t kMaxNumConnectionIdSequenceNumberIntervals = 20;
// The maximum number of random padding bytes to add.
const QuicByteCount kMaxNumRandomPaddingBytes = 256;
// The size of stream send buffer data slice size in bytes. A data slice is
// piece of stream data stored in contiguous memory, and a stream frame can
// contain data from multiple data slices.
const QuicByteCount kQuicStreamSendBufferSliceSize = 4 * 1024;
// For When using Random Initial Packet Numbers, they can start
// anyplace in the range 1...((2^31)-1) or 0x7fffffff
QUIC_EXPORT_PRIVATE QuicPacketNumber MaxRandomInitialPacketNumber();
// Used to represent an invalid or no control frame id.
const QuicControlFrameId kInvalidControlFrameId = 0;
// The max length a stream can have.
const QuicByteCount kMaxStreamLength = (UINT64_C(1) << 62) - 1;
// The max value that can be encoded using IETF Var Ints.
const uint64_t kMaxIetfVarInt = UINT64_C(0x3fffffffffffffff);
// The maximum stream id value that is supported - (2^32)-1
const QuicStreamId kMaxQuicStreamId = 0xffffffff;
// The maximum value that can be stored in a 32-bit QuicStreamCount.
const QuicStreamCount kMaxQuicStreamCount = 0xffffffff;
// Number of bytes reserved for packet header type.
const size_t kPacketHeaderTypeSize = 1;
// Number of bytes reserved for connection ID length.
const size_t kConnectionIdLengthSize = 1;
// Minimum length of random bytes in IETF stateless reset packet.
const size_t kMinRandomBytesLengthInStatelessReset = 24;
// Maximum length allowed for the token in a NEW_TOKEN frame.
const size_t kMaxNewTokenTokenLength = 0xffff;
// Default initial rtt used before any samples are received.
const int kInitialRttMs = 100;
// Default threshold of packet reordering before a packet is declared lost.
static const QuicPacketCount kDefaultPacketReorderingThreshold = 3;
// Default fraction (1/4) of an RTT the algorithm waits before determining a
// packet is lost due to early retransmission by time based loss detection.
static const int kDefaultLossDelayShift = 2;
// Default fraction (1/8) of an RTT when doing IETF loss detection.
static const int kDefaultIetfLossDelayShift = 3;
// Maximum number of retransmittable packets received before sending an ack.
const QuicPacketCount kDefaultRetransmittablePacketsBeforeAck = 2;
// Wait for up to 10 retransmittable packets before sending an ack.
const QuicPacketCount kMaxRetransmittablePacketsBeforeAck = 10;
// Minimum number of packets received before ack decimation is enabled.
// This intends to avoid the beginning of slow start, when CWNDs may be
// rapidly increasing.
const QuicPacketCount kMinReceivedBeforeAckDecimation = 100;
// One quarter RTT delay when doing ack decimation.
const float kAckDecimationDelay = 0.25;
// The default alarm granularity assumed by QUIC code.
const QuicTime::Delta kAlarmGranularity = QuicTime::Delta::FromMilliseconds(1);
// Maximum number of unretired connection IDs a connection can have.
const size_t kMaxNumConnectonIdsInUse = 10u;
// Packet number of first sending packet of a connection. Please note, this
// cannot be used as first received packet because peer can choose its starting
// packet number.
QUIC_EXPORT_PRIVATE QuicPacketNumber FirstSendingPacketNumber();
// Used by clients to tell if a public reset is sent from a Google frontend.
QUIC_EXPORT_PRIVATE extern const char* const kEPIDGoogleFrontEnd;
QUIC_EXPORT_PRIVATE extern const char* const kEPIDGoogleFrontEnd0;
// HTTP/3 Datagrams.
enum : QuicDatagramContextId {
kFirstDatagramContextIdClient = 0,
kFirstDatagramContextIdServer = 1,
kDatagramContextIdIncrement = 2,
};
enum : uint64_t {
kHttpDatagramStreamIdDivisor = 4,
};
} // namespace quic
#endif // QUICHE_QUIC_CORE_QUIC_CONSTANTS_H_