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|
using System;
using System.IO;
using System.Net.Sockets;
using Org.BouncyCastle.Tls.Crypto;
using Org.BouncyCastle.Utilities;
using Org.BouncyCastle.Utilities.Date;
namespace Org.BouncyCastle.Tls
{
internal class DtlsRecordLayer
: DatagramTransport
{
private const int RECORD_HEADER_LENGTH = 13;
private const int MAX_FRAGMENT_LENGTH = 1 << 14;
private const long TCP_MSL = 1000L * 60 * 2;
private const long RETRANSMIT_TIMEOUT = TCP_MSL * 2;
/// <exception cref="IOException"/>
internal static byte[] ReceiveClientHelloRecord(byte[] data, int dataOff, int dataLen)
{
if (dataLen < RECORD_HEADER_LENGTH)
{
return null;
}
short contentType = TlsUtilities.ReadUint8(data, dataOff + 0);
if (ContentType.handshake != contentType)
return null;
ProtocolVersion version = TlsUtilities.ReadVersion(data, dataOff + 1);
if (!ProtocolVersion.DTLSv10.IsEqualOrEarlierVersionOf(version))
return null;
int epoch = TlsUtilities.ReadUint16(data, dataOff + 3);
if (0 != epoch)
return null;
//long sequenceNumber = TlsUtilities.ReadUint48(data, dataOff + 5);
int length = TlsUtilities.ReadUint16(data, dataOff + 11);
if (dataLen < RECORD_HEADER_LENGTH + length)
return null;
if (length > MAX_FRAGMENT_LENGTH)
return null;
// NOTE: We ignore/drop any data after the first record
return TlsUtilities.CopyOfRangeExact(data, dataOff + RECORD_HEADER_LENGTH,
dataOff + RECORD_HEADER_LENGTH + length);
}
/// <exception cref="IOException"/>
internal static void SendHelloVerifyRequestRecord(DatagramSender sender, long recordSeq, byte[] message)
{
TlsUtilities.CheckUint16(message.Length);
byte[] record = new byte[RECORD_HEADER_LENGTH + message.Length];
TlsUtilities.WriteUint8(ContentType.handshake, record, 0);
TlsUtilities.WriteVersion(ProtocolVersion.DTLSv10, record, 1);
TlsUtilities.WriteUint16(0, record, 3);
TlsUtilities.WriteUint48(recordSeq, record, 5);
TlsUtilities.WriteUint16(message.Length, record, 11);
Array.Copy(message, 0, record, RECORD_HEADER_LENGTH, message.Length);
SendDatagram(sender, record, 0, record.Length);
}
/// <exception cref="IOException"/>
private static void SendDatagram(DatagramSender sender, byte[] buf, int off, int len)
{
// TODO[tls-port] Can we support interrupted IO on .NET?
//try
//{
// sender.Send(buf, off, len);
//}
//catch (InterruptedIOException e)
//{
// e.bytesTransferred = 0;
// throw e;
//}
sender.Send(buf, off, len);
}
private readonly TlsContext m_context;
private readonly TlsPeer m_peer;
private readonly DatagramTransport m_transport;
private readonly ByteQueue m_recordQueue = new ByteQueue();
private readonly object m_writeLock = new object();
private volatile bool m_closed = false;
private volatile bool m_failed = false;
// TODO[dtls13] Review the draft/RFC (legacy_record_version) to see if readVersion can be removed
private volatile ProtocolVersion m_readVersion = null, m_writeVersion = null;
private volatile bool m_inConnection;
private volatile bool m_inHandshake;
private volatile int m_plaintextLimit;
private DtlsEpoch m_currentEpoch, m_pendingEpoch;
private DtlsEpoch m_readEpoch, m_writeEpoch;
private DtlsHandshakeRetransmit m_retransmit = null;
private DtlsEpoch m_retransmitEpoch = null;
private Timeout m_retransmitTimeout = null;
private TlsHeartbeat m_heartbeat = null; // If non-null, controls the sending of heartbeat requests
private bool m_heartBeatResponder = false; // Whether we should send heartbeat responses
private HeartbeatMessage m_heartbeatInFlight = null; // The current in-flight heartbeat request, if any
private Timeout m_heartbeatTimeout = null; // Idle timeout (if none in-flight), else expiry timeout for response
private int m_heartbeatResendMillis = -1; // Delay before retransmit of current in-flight heartbeat request
private Timeout m_heartbeatResendTimeout = null; // Timeout for next retransmit of the in-flight heartbeat request
internal DtlsRecordLayer(TlsContext context, TlsPeer peer, DatagramTransport transport)
{
this.m_context = context;
this.m_peer = peer;
this.m_transport = transport;
this.m_inHandshake = true;
this.m_currentEpoch = new DtlsEpoch(0, TlsNullNullCipher.Instance);
this.m_pendingEpoch = null;
this.m_readEpoch = m_currentEpoch;
this.m_writeEpoch = m_currentEpoch;
SetPlaintextLimit(MAX_FRAGMENT_LENGTH);
}
internal virtual bool IsClosed
{
get { return m_closed; }
}
internal virtual void ResetAfterHelloVerifyRequestServer(long recordSeq)
{
this.m_inConnection = true;
m_currentEpoch.SequenceNumber = recordSeq;
m_currentEpoch.ReplayWindow.Reset(recordSeq);
}
internal virtual void SetPlaintextLimit(int plaintextLimit)
{
this.m_plaintextLimit = plaintextLimit;
}
internal virtual int ReadEpoch
{
get { return m_readEpoch.Epoch; }
}
internal virtual ProtocolVersion ReadVersion
{
get { return m_readVersion; }
set { this.m_readVersion = value; }
}
internal virtual void SetWriteVersion(ProtocolVersion writeVersion)
{
this.m_writeVersion = writeVersion;
}
internal virtual void InitPendingEpoch(TlsCipher pendingCipher)
{
if (m_pendingEpoch != null)
throw new InvalidOperationException();
/*
* TODO "In order to ensure that any given sequence/epoch pair is unique, implementations
* MUST NOT allow the same epoch value to be reused within two times the TCP maximum segment
* lifetime."
*/
// TODO Check for overflow
this.m_pendingEpoch = new DtlsEpoch(m_writeEpoch.Epoch + 1, pendingCipher);
}
internal virtual void HandshakeSuccessful(DtlsHandshakeRetransmit retransmit)
{
if (m_readEpoch == m_currentEpoch || m_writeEpoch == m_currentEpoch)
{
// TODO
throw new InvalidOperationException();
}
if (null != retransmit)
{
this.m_retransmit = retransmit;
this.m_retransmitEpoch = m_currentEpoch;
this.m_retransmitTimeout = new Timeout(RETRANSMIT_TIMEOUT);
}
this.m_inHandshake = false;
this.m_currentEpoch = m_pendingEpoch;
this.m_pendingEpoch = null;
}
internal virtual void InitHeartbeat(TlsHeartbeat heartbeat, bool heartbeatResponder)
{
if (m_inHandshake)
throw new InvalidOperationException();
this.m_heartbeat = heartbeat;
this.m_heartBeatResponder = heartbeatResponder;
if (null != heartbeat)
{
ResetHeartbeat();
}
}
internal virtual void ResetWriteEpoch()
{
if (null != m_retransmitEpoch)
{
this.m_writeEpoch = m_retransmitEpoch;
}
else
{
this.m_writeEpoch = m_currentEpoch;
}
}
/// <exception cref="IOException"/>
public virtual int GetReceiveLimit()
{
return System.Math.Min(m_plaintextLimit,
m_readEpoch.Cipher.GetPlaintextLimit(m_transport.GetReceiveLimit() - RECORD_HEADER_LENGTH));
}
/// <exception cref="IOException"/>
public virtual int GetSendLimit()
{
return System.Math.Min(m_plaintextLimit,
m_writeEpoch.Cipher.GetPlaintextLimit(m_transport.GetSendLimit() - RECORD_HEADER_LENGTH));
}
/// <exception cref="IOException"/>
public virtual int Receive(byte[] buf, int off, int len, int waitMillis)
{
#if NETCOREAPP2_1_OR_GREATER || NETSTANDARD2_1_OR_GREATER
return Receive(buf.AsSpan(off, len), waitMillis);
#else
long currentTimeMillis = DateTimeUtilities.CurrentUnixMs();
Timeout timeout = Timeout.ForWaitMillis(waitMillis, currentTimeMillis);
byte[] record = null;
while (waitMillis >= 0)
{
if (null != m_retransmitTimeout && m_retransmitTimeout.RemainingMillis(currentTimeMillis) < 1)
{
m_retransmit = null;
m_retransmitEpoch = null;
m_retransmitTimeout = null;
}
if (Timeout.HasExpired(m_heartbeatTimeout, currentTimeMillis))
{
if (null != m_heartbeatInFlight)
throw new TlsTimeoutException("Heartbeat timed out");
this.m_heartbeatInFlight = HeartbeatMessage.Create(m_context,
HeartbeatMessageType.heartbeat_request, m_heartbeat.GeneratePayload());
this.m_heartbeatTimeout = new Timeout(m_heartbeat.TimeoutMillis, currentTimeMillis);
this.m_heartbeatResendMillis = DtlsReliableHandshake.INITIAL_RESEND_MILLIS;
this.m_heartbeatResendTimeout = new Timeout(m_heartbeatResendMillis, currentTimeMillis);
SendHeartbeatMessage(m_heartbeatInFlight);
}
else if (Timeout.HasExpired(m_heartbeatResendTimeout, currentTimeMillis))
{
this.m_heartbeatResendMillis = DtlsReliableHandshake.BackOff(m_heartbeatResendMillis);
this.m_heartbeatResendTimeout = new Timeout(m_heartbeatResendMillis, currentTimeMillis);
SendHeartbeatMessage(m_heartbeatInFlight);
}
waitMillis = Timeout.ConstrainWaitMillis(waitMillis, m_heartbeatTimeout, currentTimeMillis);
waitMillis = Timeout.ConstrainWaitMillis(waitMillis, m_heartbeatResendTimeout, currentTimeMillis);
// NOTE: Guard against bad logic giving a negative value
if (waitMillis < 0)
{
waitMillis = 1;
}
int receiveLimit = System.Math.Min(len, GetReceiveLimit()) + RECORD_HEADER_LENGTH;
if (null == record || record.Length < receiveLimit)
{
record = new byte[receiveLimit];
}
int received = ReceiveRecord(record, 0, receiveLimit, waitMillis);
int processed = ProcessRecord(received, record, buf, off);
if (processed >= 0)
{
return processed;
}
currentTimeMillis = DateTimeUtilities.CurrentUnixMs();
waitMillis = Timeout.GetWaitMillis(timeout, currentTimeMillis);
}
return -1;
#endif
}
#if NETCOREAPP2_1_OR_GREATER || NETSTANDARD2_1_OR_GREATER
/// <exception cref="IOException"/>
public virtual int Receive(Span<byte> buffer, int waitMillis)
{
long currentTimeMillis = DateTimeUtilities.CurrentUnixMs();
Timeout timeout = Timeout.ForWaitMillis(waitMillis, currentTimeMillis);
byte[] record = null;
while (waitMillis >= 0)
{
if (null != m_retransmitTimeout && m_retransmitTimeout.RemainingMillis(currentTimeMillis) < 1)
{
m_retransmit = null;
m_retransmitEpoch = null;
m_retransmitTimeout = null;
}
if (Timeout.HasExpired(m_heartbeatTimeout, currentTimeMillis))
{
if (null != m_heartbeatInFlight)
throw new TlsTimeoutException("Heartbeat timed out");
this.m_heartbeatInFlight = HeartbeatMessage.Create(m_context,
HeartbeatMessageType.heartbeat_request, m_heartbeat.GeneratePayload());
this.m_heartbeatTimeout = new Timeout(m_heartbeat.TimeoutMillis, currentTimeMillis);
this.m_heartbeatResendMillis = DtlsReliableHandshake.INITIAL_RESEND_MILLIS;
this.m_heartbeatResendTimeout = new Timeout(m_heartbeatResendMillis, currentTimeMillis);
SendHeartbeatMessage(m_heartbeatInFlight);
}
else if (Timeout.HasExpired(m_heartbeatResendTimeout, currentTimeMillis))
{
this.m_heartbeatResendMillis = DtlsReliableHandshake.BackOff(m_heartbeatResendMillis);
this.m_heartbeatResendTimeout = new Timeout(m_heartbeatResendMillis, currentTimeMillis);
SendHeartbeatMessage(m_heartbeatInFlight);
}
waitMillis = Timeout.ConstrainWaitMillis(waitMillis, m_heartbeatTimeout, currentTimeMillis);
waitMillis = Timeout.ConstrainWaitMillis(waitMillis, m_heartbeatResendTimeout, currentTimeMillis);
// NOTE: Guard against bad logic giving a negative value
if (waitMillis < 0)
{
waitMillis = 1;
}
int receiveLimit = System.Math.Min(buffer.Length, GetReceiveLimit()) + RECORD_HEADER_LENGTH;
if (null == record || record.Length < receiveLimit)
{
record = new byte[receiveLimit];
}
int received = ReceiveRecord(record, 0, receiveLimit, waitMillis);
int processed = ProcessRecord(received, record, buffer);
if (processed >= 0)
{
return processed;
}
currentTimeMillis = DateTimeUtilities.CurrentUnixMs();
waitMillis = Timeout.GetWaitMillis(timeout, currentTimeMillis);
}
return -1;
}
#endif
/// <exception cref="IOException"/>
public virtual void Send(byte[] buf, int off, int len)
{
#if NETCOREAPP2_1_OR_GREATER || NETSTANDARD2_1_OR_GREATER
Send(buf.AsSpan(off, len));
#else
short contentType = ContentType.application_data;
if (m_inHandshake || m_writeEpoch == m_retransmitEpoch)
{
contentType = ContentType.handshake;
short handshakeType = TlsUtilities.ReadUint8(buf, off);
if (handshakeType == HandshakeType.finished)
{
DtlsEpoch nextEpoch = null;
if (m_inHandshake)
{
nextEpoch = m_pendingEpoch;
}
else if (m_writeEpoch == m_retransmitEpoch)
{
nextEpoch = m_currentEpoch;
}
if (nextEpoch == null)
{
// TODO
throw new InvalidOperationException();
}
// Implicitly send change_cipher_spec and change to pending cipher state
// TODO Send change_cipher_spec and finished records in single datagram?
byte[] data = new byte[1]{ 1 };
SendRecord(ContentType.change_cipher_spec, data, 0, data.Length);
this.m_writeEpoch = nextEpoch;
}
}
SendRecord(contentType, buf, off, len);
#endif
}
#if NETCOREAPP2_1_OR_GREATER || NETSTANDARD2_1_OR_GREATER
/// <exception cref="IOException"/>
public virtual void Send(ReadOnlySpan<byte> buffer)
{
short contentType = ContentType.application_data;
if (m_inHandshake || m_writeEpoch == m_retransmitEpoch)
{
contentType = ContentType.handshake;
short handshakeType = TlsUtilities.ReadUint8(buffer);
if (handshakeType == HandshakeType.finished)
{
DtlsEpoch nextEpoch = null;
if (m_inHandshake)
{
nextEpoch = m_pendingEpoch;
}
else if (m_writeEpoch == m_retransmitEpoch)
{
nextEpoch = m_currentEpoch;
}
if (nextEpoch == null)
{
// TODO
throw new InvalidOperationException();
}
// Implicitly send change_cipher_spec and change to pending cipher state
// TODO Send change_cipher_spec and finished records in single datagram?
ReadOnlySpan<byte> data = stackalloc byte[1]{ 1 };
SendRecord(ContentType.change_cipher_spec, data);
this.m_writeEpoch = nextEpoch;
}
}
SendRecord(contentType, buffer);
}
#endif
/// <exception cref="IOException"/>
public virtual void Close()
{
if (!m_closed)
{
if (m_inHandshake && m_inConnection)
{
Warn(AlertDescription.user_canceled, "User canceled handshake");
}
CloseTransport();
}
}
internal virtual void Fail(short alertDescription)
{
if (!m_closed)
{
if (m_inConnection)
{
try
{
RaiseAlert(AlertLevel.fatal, alertDescription, null, null);
}
catch (Exception)
{
// Ignore
}
}
this.m_failed = true;
CloseTransport();
}
}
internal virtual void Failed()
{
if (!m_closed)
{
this.m_failed = true;
CloseTransport();
}
}
/// <exception cref="IOException"/>
internal virtual void Warn(short alertDescription, string message)
{
RaiseAlert(AlertLevel.warning, alertDescription, message, null);
}
private void CloseTransport()
{
if (!m_closed)
{
/*
* RFC 5246 7.2.1. Unless some other fatal alert has been transmitted, each party is
* required to send a close_notify alert before closing the write side of the
* connection. The other party MUST respond with a close_notify alert of its own and
* close down the connection immediately, discarding any pending writes.
*/
try
{
if (!m_failed)
{
Warn(AlertDescription.close_notify, null);
}
m_transport.Close();
}
catch (Exception)
{
// Ignore
}
this.m_closed = true;
}
}
/// <exception cref="IOException"/>
private void RaiseAlert(short alertLevel, short alertDescription, string message, Exception cause)
{
m_peer.NotifyAlertRaised(alertLevel, alertDescription, message, cause);
#if NETCOREAPP2_1_OR_GREATER || NETSTANDARD2_1_OR_GREATER
ReadOnlySpan<byte> error = stackalloc byte[2]{ (byte)alertLevel, (byte)alertDescription };
SendRecord(ContentType.alert, error);
#else
byte[] error = new byte[2]{ (byte)alertLevel, (byte)alertDescription };
SendRecord(ContentType.alert, error, 0, 2);
#endif
}
/// <exception cref="IOException"/>
private int ReceiveDatagram(byte[] buf, int off, int len, int waitMillis)
{
try
{
return m_transport.Receive(buf, off, len, waitMillis);
}
catch (TlsTimeoutException)
{
return -1;
}
catch (SocketException e)
{
if (TlsUtilities.IsTimeout(e))
return -1;
throw e;
}
// TODO[tls-port] Can we support interrupted IO on .NET?
//catch (InterruptedIOException e)
//{
// e.bytesTransferred = 0;
// throw e;
//}
}
// TODO Include 'currentTimeMillis' as an argument, use with Timeout, resetHeartbeat
/// <exception cref="IOException"/>
#if NETCOREAPP2_1_OR_GREATER || NETSTANDARD2_1_OR_GREATER
private int ProcessRecord(int received, byte[] record, Span<byte> buffer)
#else
private int ProcessRecord(int received, byte[] record, byte[] buf, int off)
#endif
{
// NOTE: received < 0 (timeout) is covered by this first case
if (received < RECORD_HEADER_LENGTH)
return -1;
int length = TlsUtilities.ReadUint16(record, 11);
if (received != (length + RECORD_HEADER_LENGTH))
return -1;
// TODO[dtls13] Deal with opaque record type for 1.3 AEAD ciphers
short recordType = TlsUtilities.ReadUint8(record, 0);
switch (recordType)
{
case ContentType.alert:
case ContentType.application_data:
case ContentType.change_cipher_spec:
case ContentType.handshake:
case ContentType.heartbeat:
break;
default:
return -1;
}
int epoch = TlsUtilities.ReadUint16(record, 3);
DtlsEpoch recordEpoch = null;
if (epoch == m_readEpoch.Epoch)
{
recordEpoch = m_readEpoch;
}
else if (recordType == ContentType.handshake && null != m_retransmitEpoch
&& epoch == m_retransmitEpoch.Epoch)
{
recordEpoch = m_retransmitEpoch;
}
if (null == recordEpoch)
return -1;
long seq = TlsUtilities.ReadUint48(record, 5);
if (recordEpoch.ReplayWindow.ShouldDiscard(seq))
return -1;
ProtocolVersion recordVersion = TlsUtilities.ReadVersion(record, 1);
if (!recordVersion.IsDtls)
return -1;
if (null != m_readVersion && !m_readVersion.Equals(recordVersion))
{
/*
* Special-case handling for retransmitted ClientHello records.
*
* TODO Revisit how 'readVersion' works, since this is quite awkward.
*/
bool isClientHelloFragment =
ReadEpoch == 0
&& length > 0
&& ContentType.handshake == recordType
&& HandshakeType.client_hello == TlsUtilities.ReadUint8(record, RECORD_HEADER_LENGTH);
if (!isClientHelloFragment)
return -1;
}
long macSeqNo = GetMacSequenceNumber(recordEpoch.Epoch, seq);
TlsDecodeResult decoded = recordEpoch.Cipher.DecodeCiphertext(macSeqNo, recordType, recordVersion, record,
RECORD_HEADER_LENGTH, length);
recordEpoch.ReplayWindow.ReportAuthenticated(seq);
if (decoded.len > m_plaintextLimit)
return -1;
if (decoded.len < 1 && decoded.contentType != ContentType.application_data)
return -1;
if (null == m_readVersion)
{
bool isHelloVerifyRequest =
ReadEpoch == 0
&& length > 0
&& ContentType.handshake == recordType
&& HandshakeType.hello_verify_request == TlsUtilities.ReadUint8(record, RECORD_HEADER_LENGTH);
if (isHelloVerifyRequest)
{
/*
* RFC 6347 4.2.1 DTLS 1.2 server implementations SHOULD use DTLS version 1.0
* regardless of the version of TLS that is expected to be negotiated. DTLS 1.2 and
* 1.0 clients MUST use the version solely to indicate packet formatting (which is
* the same in both DTLS 1.2 and 1.0) and not as part of version negotiation.
*/
if (!ProtocolVersion.DTLSv12.IsEqualOrLaterVersionOf(recordVersion))
return -1;
}
else
{
this.m_readVersion = recordVersion;
}
}
switch (decoded.contentType)
{
case ContentType.alert:
{
if (decoded.len == 2)
{
short alertLevel = TlsUtilities.ReadUint8(decoded.buf, decoded.off);
short alertDescription = TlsUtilities.ReadUint8(decoded.buf, decoded.off + 1);
m_peer.NotifyAlertReceived(alertLevel, alertDescription);
if (alertLevel == AlertLevel.fatal)
{
Failed();
throw new TlsFatalAlert(alertDescription);
}
// TODO Can close_notify be a fatal alert?
if (alertDescription == AlertDescription.close_notify)
{
CloseTransport();
}
}
return -1;
}
case ContentType.application_data:
{
if (m_inHandshake)
{
// TODO Consider buffering application data for new epoch that arrives
// out-of-order with the Finished message
return -1;
}
break;
}
case ContentType.change_cipher_spec:
{
// Implicitly receive change_cipher_spec and change to pending cipher state
for (int i = 0; i < decoded.len; ++i)
{
short message = TlsUtilities.ReadUint8(decoded.buf, decoded.off + i);
if (message != ChangeCipherSpec.change_cipher_spec)
continue;
if (m_pendingEpoch != null)
{
m_readEpoch = m_pendingEpoch;
}
}
return -1;
}
case ContentType.handshake:
{
if (!m_inHandshake)
{
if (null != m_retransmit)
{
m_retransmit.ReceivedHandshakeRecord(epoch, decoded.buf, decoded.off, decoded.len);
}
// TODO Consider support for HelloRequest
return -1;
}
break;
}
case ContentType.heartbeat:
{
if (null != m_heartbeatInFlight || m_heartBeatResponder)
{
try
{
MemoryStream input = new MemoryStream(decoded.buf, decoded.off, decoded.len, false);
HeartbeatMessage heartbeatMessage = HeartbeatMessage.Parse(input);
if (null != heartbeatMessage)
{
switch (heartbeatMessage.Type)
{
case HeartbeatMessageType.heartbeat_request:
{
if (m_heartBeatResponder)
{
HeartbeatMessage response = HeartbeatMessage.Create(m_context,
HeartbeatMessageType.heartbeat_response, heartbeatMessage.Payload);
SendHeartbeatMessage(response);
}
break;
}
case HeartbeatMessageType.heartbeat_response:
{
if (null != m_heartbeatInFlight
&& Arrays.AreEqual(heartbeatMessage.Payload, m_heartbeatInFlight.Payload))
{
ResetHeartbeat();
}
break;
}
default:
break;
}
}
}
catch (Exception)
{
// Ignore
}
}
return -1;
}
default:
return -1;
}
/*
* NOTE: If we receive any non-handshake data in the new epoch implies the peer has
* received our final flight.
*/
if (!m_inHandshake && null != m_retransmit)
{
this.m_retransmit = null;
this.m_retransmitEpoch = null;
this.m_retransmitTimeout = null;
}
#if NETCOREAPP2_1_OR_GREATER || NETSTANDARD2_1_OR_GREATER
decoded.buf.AsSpan(decoded.off, decoded.len).CopyTo(buffer);
#else
Array.Copy(decoded.buf, decoded.off, buf, off, decoded.len);
#endif
return decoded.len;
}
/// <exception cref="IOException"/>
private int ReceiveRecord(byte[] buf, int off, int len, int waitMillis)
{
if (m_recordQueue.Available > 0)
{
int length = 0;
if (m_recordQueue.Available >= RECORD_HEADER_LENGTH)
{
length = m_recordQueue.ReadUint16(11);
}
int received = System.Math.Min(m_recordQueue.Available, RECORD_HEADER_LENGTH + length);
m_recordQueue.RemoveData(buf, off, received, 0);
return received;
}
{
int received = ReceiveDatagram(buf, off, len, waitMillis);
if (received >= RECORD_HEADER_LENGTH)
{
this.m_inConnection = true;
int fragmentLength = TlsUtilities.ReadUint16(buf, off + 11);
int recordLength = RECORD_HEADER_LENGTH + fragmentLength;
if (received > recordLength)
{
m_recordQueue.AddData(buf, off + recordLength, received - recordLength);
received = recordLength;
}
}
return received;
}
}
private void ResetHeartbeat()
{
this.m_heartbeatInFlight = null;
this.m_heartbeatResendMillis = -1;
this.m_heartbeatResendTimeout = null;
this.m_heartbeatTimeout = new Timeout(m_heartbeat.IdleMillis);
}
/// <exception cref="IOException"/>
private void SendHeartbeatMessage(HeartbeatMessage heartbeatMessage)
{
MemoryStream output = new MemoryStream();
heartbeatMessage.Encode(output);
#if NETCOREAPP2_1_OR_GREATER || NETSTANDARD2_1_OR_GREATER
if (!output.TryGetBuffer(out var buffer))
throw new InvalidOperationException();
SendRecord(ContentType.heartbeat, buffer);
#else
byte[] buf = output.ToArray();
SendRecord(ContentType.heartbeat, buf, 0, buf.Length);
#endif
}
/*
* Currently uses synchronization to ensure heartbeat sends and application data sends don't
* interfere with each other. It may be overly cautious; the sequence number allocation is
* atomic, and if we synchronize only on the datagram send instead, then the only effect should
* be possible reordering of records (which might surprise a reliable transport implementation).
*/
/// <exception cref="IOException"/>
#if NETCOREAPP2_1_OR_GREATER || NETSTANDARD2_1_OR_GREATER
private void SendRecord(short contentType, ReadOnlySpan<byte> buffer)
#else
private void SendRecord(short contentType, byte[] buf, int off, int len)
#endif
{
// Never send anything until a valid ClientHello has been received
if (m_writeVersion == null)
return;
#if NETCOREAPP2_1_OR_GREATER || NETSTANDARD2_1_OR_GREATER
int len = buffer.Length;
#endif
if (len > m_plaintextLimit)
throw new TlsFatalAlert(AlertDescription.internal_error);
/*
* RFC 5246 6.2.1 Implementations MUST NOT send zero-length fragments of Handshake, Alert,
* or ChangeCipherSpec content types.
*/
if (len < 1 && contentType != ContentType.application_data)
throw new TlsFatalAlert(AlertDescription.internal_error);
lock (m_writeLock)
{
int recordEpoch = m_writeEpoch.Epoch;
long recordSequenceNumber = m_writeEpoch.AllocateSequenceNumber();
long macSequenceNumber = GetMacSequenceNumber(recordEpoch, recordSequenceNumber);
ProtocolVersion recordVersion = m_writeVersion;
#if NETCOREAPP2_1_OR_GREATER || NETSTANDARD2_1_OR_GREATER
TlsEncodeResult encoded = m_writeEpoch.Cipher.EncodePlaintext(macSequenceNumber, contentType,
recordVersion, RECORD_HEADER_LENGTH, buffer);
#else
TlsEncodeResult encoded = m_writeEpoch.Cipher.EncodePlaintext(macSequenceNumber, contentType,
recordVersion, RECORD_HEADER_LENGTH, buf, off, len);
#endif
int ciphertextLength = encoded.len - RECORD_HEADER_LENGTH;
TlsUtilities.CheckUint16(ciphertextLength);
TlsUtilities.WriteUint8(encoded.recordType, encoded.buf, encoded.off + 0);
TlsUtilities.WriteVersion(recordVersion, encoded.buf, encoded.off + 1);
TlsUtilities.WriteUint16(recordEpoch, encoded.buf, encoded.off + 3);
TlsUtilities.WriteUint48(recordSequenceNumber, encoded.buf, encoded.off + 5);
TlsUtilities.WriteUint16(ciphertextLength, encoded.buf, encoded.off + 11);
SendDatagram(m_transport, encoded.buf, encoded.off, encoded.len);
}
}
private static long GetMacSequenceNumber(int epoch, long sequence_number)
{
return ((epoch & 0xFFFFFFFFL) << 48) | sequence_number;
}
}
}
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