e098ec2460
Maintain a handshake buffer in prf.go to implement TLS 1.2 client auth. Also use it for SSL 3. This isn't strictly necessary as we know the hash functions, but Go's hash.Hash interface lacks a Copy method. Also fix the server-side tests which failed to test every TLS version. Change-Id: I98492c334fbb9f2f0f89ee9c5c8345cafc025600 Reviewed-on: https://boringssl-review.googlesource.com/1664 Reviewed-by: Adam Langley <agl@google.com>
707 lines
22 KiB
Go
707 lines
22 KiB
Go
// Copyright 2009 The Go Authors. All rights reserved.
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// Use of this source code is governed by a BSD-style
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// license that can be found in the LICENSE file.
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package main
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import (
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"container/list"
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"crypto"
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"crypto/ecdsa"
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"crypto/rand"
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"crypto/x509"
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"fmt"
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"io"
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"math/big"
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"strings"
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"sync"
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"time"
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)
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const (
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VersionSSL30 = 0x0300
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VersionTLS10 = 0x0301
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VersionTLS11 = 0x0302
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VersionTLS12 = 0x0303
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)
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const (
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maxPlaintext = 16384 // maximum plaintext payload length
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maxCiphertext = 16384 + 2048 // maximum ciphertext payload length
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tlsRecordHeaderLen = 5 // record header length
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dtlsRecordHeaderLen = 13
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maxHandshake = 65536 // maximum handshake we support (protocol max is 16 MB)
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minVersion = VersionSSL30
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maxVersion = VersionTLS12
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)
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// TLS record types.
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type recordType uint8
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const (
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recordTypeChangeCipherSpec recordType = 20
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recordTypeAlert recordType = 21
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recordTypeHandshake recordType = 22
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recordTypeApplicationData recordType = 23
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)
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// TLS handshake message types.
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const (
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typeClientHello uint8 = 1
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typeServerHello uint8 = 2
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typeHelloVerifyRequest uint8 = 3
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typeNewSessionTicket uint8 = 4
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typeCertificate uint8 = 11
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typeServerKeyExchange uint8 = 12
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typeCertificateRequest uint8 = 13
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typeServerHelloDone uint8 = 14
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typeCertificateVerify uint8 = 15
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typeClientKeyExchange uint8 = 16
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typeFinished uint8 = 20
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typeCertificateStatus uint8 = 22
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typeNextProtocol uint8 = 67 // Not IANA assigned
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typeEncryptedExtensions uint8 = 203 // Not IANA assigned
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)
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// TLS compression types.
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const (
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compressionNone uint8 = 0
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)
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// TLS extension numbers
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const (
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extensionServerName uint16 = 0
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extensionStatusRequest uint16 = 5
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extensionSupportedCurves uint16 = 10
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extensionSupportedPoints uint16 = 11
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extensionSignatureAlgorithms uint16 = 13
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extensionSessionTicket uint16 = 35
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extensionNextProtoNeg uint16 = 13172 // not IANA assigned
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extensionRenegotiationInfo uint16 = 0xff01
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extensionChannelID uint16 = 30032 // not IANA assigned
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)
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// TLS signaling cipher suite values
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const (
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scsvRenegotiation uint16 = 0x00ff
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)
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// CurveID is the type of a TLS identifier for an elliptic curve. See
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// http://www.iana.org/assignments/tls-parameters/tls-parameters.xml#tls-parameters-8
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type CurveID uint16
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const (
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CurveP256 CurveID = 23
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CurveP384 CurveID = 24
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CurveP521 CurveID = 25
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)
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// TLS Elliptic Curve Point Formats
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// http://www.iana.org/assignments/tls-parameters/tls-parameters.xml#tls-parameters-9
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const (
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pointFormatUncompressed uint8 = 0
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)
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// TLS CertificateStatusType (RFC 3546)
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const (
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statusTypeOCSP uint8 = 1
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)
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// Certificate types (for certificateRequestMsg)
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const (
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CertTypeRSASign = 1 // A certificate containing an RSA key
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CertTypeDSSSign = 2 // A certificate containing a DSA key
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CertTypeRSAFixedDH = 3 // A certificate containing a static DH key
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CertTypeDSSFixedDH = 4 // A certificate containing a static DH key
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// See RFC4492 sections 3 and 5.5.
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CertTypeECDSASign = 64 // A certificate containing an ECDSA-capable public key, signed with ECDSA.
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CertTypeRSAFixedECDH = 65 // A certificate containing an ECDH-capable public key, signed with RSA.
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CertTypeECDSAFixedECDH = 66 // A certificate containing an ECDH-capable public key, signed with ECDSA.
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// Rest of these are reserved by the TLS spec
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)
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// Hash functions for TLS 1.2 (See RFC 5246, section A.4.1)
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const (
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hashSHA1 uint8 = 2
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hashSHA256 uint8 = 4
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)
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// Signature algorithms for TLS 1.2 (See RFC 5246, section A.4.1)
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const (
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signatureRSA uint8 = 1
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signatureECDSA uint8 = 3
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)
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// signatureAndHash mirrors the TLS 1.2, SignatureAndHashAlgorithm struct. See
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// RFC 5246, section A.4.1.
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type signatureAndHash struct {
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signature, hash uint8
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}
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// supportedSKXSignatureAlgorithms contains the signature and hash algorithms
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// that the code advertises as supported in a TLS 1.2 ClientHello.
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var supportedSKXSignatureAlgorithms = []signatureAndHash{
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{signatureRSA, hashSHA256},
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{signatureECDSA, hashSHA256},
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{signatureRSA, hashSHA1},
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{signatureECDSA, hashSHA1},
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}
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// supportedClientCertSignatureAlgorithms contains the signature and hash
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// algorithms that the code advertises as supported in a TLS 1.2
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// CertificateRequest.
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var supportedClientCertSignatureAlgorithms = []signatureAndHash{
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{signatureRSA, hashSHA256},
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{signatureECDSA, hashSHA256},
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}
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// ConnectionState records basic TLS details about the connection.
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type ConnectionState struct {
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Version uint16 // TLS version used by the connection (e.g. VersionTLS12)
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HandshakeComplete bool // TLS handshake is complete
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DidResume bool // connection resumes a previous TLS connection
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CipherSuite uint16 // cipher suite in use (TLS_RSA_WITH_RC4_128_SHA, ...)
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NegotiatedProtocol string // negotiated next protocol (from Config.NextProtos)
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NegotiatedProtocolIsMutual bool // negotiated protocol was advertised by server
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ServerName string // server name requested by client, if any (server side only)
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PeerCertificates []*x509.Certificate // certificate chain presented by remote peer
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VerifiedChains [][]*x509.Certificate // verified chains built from PeerCertificates
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ChannelID *ecdsa.PublicKey // the channel ID for this connection
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}
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// ClientAuthType declares the policy the server will follow for
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// TLS Client Authentication.
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type ClientAuthType int
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const (
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NoClientCert ClientAuthType = iota
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RequestClientCert
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RequireAnyClientCert
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VerifyClientCertIfGiven
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RequireAndVerifyClientCert
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)
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// ClientSessionState contains the state needed by clients to resume TLS
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// sessions.
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type ClientSessionState struct {
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sessionTicket []uint8 // Encrypted ticket used for session resumption with server
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vers uint16 // SSL/TLS version negotiated for the session
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cipherSuite uint16 // Ciphersuite negotiated for the session
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masterSecret []byte // MasterSecret generated by client on a full handshake
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handshakeHash []byte // Handshake hash for Channel ID purposes.
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serverCertificates []*x509.Certificate // Certificate chain presented by the server
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}
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// ClientSessionCache is a cache of ClientSessionState objects that can be used
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// by a client to resume a TLS session with a given server. ClientSessionCache
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// implementations should expect to be called concurrently from different
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// goroutines.
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type ClientSessionCache interface {
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// Get searches for a ClientSessionState associated with the given key.
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// On return, ok is true if one was found.
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Get(sessionKey string) (session *ClientSessionState, ok bool)
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// Put adds the ClientSessionState to the cache with the given key.
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Put(sessionKey string, cs *ClientSessionState)
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}
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// A Config structure is used to configure a TLS client or server.
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// After one has been passed to a TLS function it must not be
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// modified. A Config may be reused; the tls package will also not
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// modify it.
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type Config struct {
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// Rand provides the source of entropy for nonces and RSA blinding.
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// If Rand is nil, TLS uses the cryptographic random reader in package
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// crypto/rand.
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// The Reader must be safe for use by multiple goroutines.
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Rand io.Reader
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// Time returns the current time as the number of seconds since the epoch.
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// If Time is nil, TLS uses time.Now.
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Time func() time.Time
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// Certificates contains one or more certificate chains
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// to present to the other side of the connection.
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// Server configurations must include at least one certificate.
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Certificates []Certificate
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// NameToCertificate maps from a certificate name to an element of
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// Certificates. Note that a certificate name can be of the form
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// '*.example.com' and so doesn't have to be a domain name as such.
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// See Config.BuildNameToCertificate
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// The nil value causes the first element of Certificates to be used
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// for all connections.
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NameToCertificate map[string]*Certificate
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// RootCAs defines the set of root certificate authorities
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// that clients use when verifying server certificates.
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// If RootCAs is nil, TLS uses the host's root CA set.
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RootCAs *x509.CertPool
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// NextProtos is a list of supported, application level protocols.
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NextProtos []string
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// ServerName is used to verify the hostname on the returned
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// certificates unless InsecureSkipVerify is given. It is also included
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// in the client's handshake to support virtual hosting.
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ServerName string
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// ClientAuth determines the server's policy for
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// TLS Client Authentication. The default is NoClientCert.
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ClientAuth ClientAuthType
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// ClientCAs defines the set of root certificate authorities
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// that servers use if required to verify a client certificate
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// by the policy in ClientAuth.
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ClientCAs *x509.CertPool
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// ClientCertificateTypes defines the set of allowed client certificate
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// types. The default is CertTypeRSASign and CertTypeECDSASign.
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ClientCertificateTypes []byte
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// InsecureSkipVerify controls whether a client verifies the
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// server's certificate chain and host name.
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// If InsecureSkipVerify is true, TLS accepts any certificate
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// presented by the server and any host name in that certificate.
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// In this mode, TLS is susceptible to man-in-the-middle attacks.
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// This should be used only for testing.
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InsecureSkipVerify bool
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// CipherSuites is a list of supported cipher suites. If CipherSuites
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// is nil, TLS uses a list of suites supported by the implementation.
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CipherSuites []uint16
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// PreferServerCipherSuites controls whether the server selects the
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// client's most preferred ciphersuite, or the server's most preferred
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// ciphersuite. If true then the server's preference, as expressed in
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// the order of elements in CipherSuites, is used.
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PreferServerCipherSuites bool
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// SessionTicketsDisabled may be set to true to disable session ticket
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// (resumption) support.
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SessionTicketsDisabled bool
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// SessionTicketKey is used by TLS servers to provide session
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// resumption. See RFC 5077. If zero, it will be filled with
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// random data before the first server handshake.
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//
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// If multiple servers are terminating connections for the same host
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// they should all have the same SessionTicketKey. If the
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// SessionTicketKey leaks, previously recorded and future TLS
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// connections using that key are compromised.
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SessionTicketKey [32]byte
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// SessionCache is a cache of ClientSessionState entries for TLS session
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// resumption.
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ClientSessionCache ClientSessionCache
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// MinVersion contains the minimum SSL/TLS version that is acceptable.
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// If zero, then SSLv3 is taken as the minimum.
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MinVersion uint16
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// MaxVersion contains the maximum SSL/TLS version that is acceptable.
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// If zero, then the maximum version supported by this package is used,
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// which is currently TLS 1.2.
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MaxVersion uint16
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// CurvePreferences contains the elliptic curves that will be used in
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// an ECDHE handshake, in preference order. If empty, the default will
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// be used.
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CurvePreferences []CurveID
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// ChannelID contains the ECDSA key for the client to use as
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// its TLS Channel ID.
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ChannelID *ecdsa.PrivateKey
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// RequestChannelID controls whether the server requests a TLS
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// Channel ID. If negotiated, the client's public key is
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// returned in the ConnectionState.
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RequestChannelID bool
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// Bugs specifies optional misbehaviour to be used for testing other
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// implementations.
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Bugs ProtocolBugs
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serverInitOnce sync.Once // guards calling (*Config).serverInit
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}
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type BadValue int
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const (
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BadValueNone BadValue = iota
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BadValueNegative
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BadValueZero
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BadValueLimit
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BadValueLarge
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NumBadValues
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)
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type ProtocolBugs struct {
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// InvalidSKXSignature specifies that the signature in a
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// ServerKeyExchange message should be invalid.
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InvalidSKXSignature bool
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// InvalidSKXCurve causes the curve ID in the ServerKeyExchange message
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// to be wrong.
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InvalidSKXCurve bool
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// BadECDSAR controls ways in which the 'r' value of an ECDSA signature
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// can be invalid.
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BadECDSAR BadValue
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BadECDSAS BadValue
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// MaxPadding causes CBC records to have the maximum possible padding.
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MaxPadding bool
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// PaddingFirstByteBad causes the first byte of the padding to be
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// incorrect.
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PaddingFirstByteBad bool
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// PaddingFirstByteBadIf255 causes the first byte of padding to be
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// incorrect if there's a maximum amount of padding (i.e. 255 bytes).
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PaddingFirstByteBadIf255 bool
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// FailIfNotFallbackSCSV causes a server handshake to fail if the
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// client doesn't send the fallback SCSV value.
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FailIfNotFallbackSCSV bool
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// DuplicateExtension causes an extra empty extension of bogus type to
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// be emitted in either the ClientHello or the ServerHello.
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DuplicateExtension bool
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// UnauthenticatedECDH causes the server to pretend ECDHE_RSA
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// and ECDHE_ECDSA cipher suites are actually ECDH_anon. No
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// Certificate message is sent and no signature is added to
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// ServerKeyExchange.
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UnauthenticatedECDH bool
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// SkipServerKeyExchange causes the server to skip sending
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// ServerKeyExchange messages.
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SkipServerKeyExchange bool
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// SkipChangeCipherSpec causes the implementation to skip
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// sending the ChangeCipherSpec message (and adjusting cipher
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// state accordingly for the Finished message).
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SkipChangeCipherSpec bool
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// EarlyChangeCipherSpec causes the client to send an early
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// ChangeCipherSpec message before the ClientKeyExchange. A value of
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// zero disables this behavior. One and two configure variants for 0.9.8
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// and 1.0.1 modes, respectively.
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EarlyChangeCipherSpec int
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// FragmentAcrossChangeCipherSpec causes the implementation to fragment
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// the Finished (or NextProto) message around the ChangeCipherSpec
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// messages.
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FragmentAcrossChangeCipherSpec bool
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// SkipNewSessionTicket causes the server to skip sending the
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// NewSessionTicket message despite promising to in ServerHello.
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SkipNewSessionTicket bool
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// SendV2ClientHello causes the client to send a V2ClientHello
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// instead of a normal ClientHello.
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SendV2ClientHello bool
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// SendFallbackSCSV causes the client to include
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// TLS_FALLBACK_SCSV in the ClientHello.
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SendFallbackSCSV bool
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// MaxHandshakeRecordLength, if non-zero, is the maximum size of a
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// handshake record. Handshake messages will be split into multiple
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// records at the specified size, except that the client_version will
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// never be fragmented.
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MaxHandshakeRecordLength int
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// FragmentClientVersion will allow MaxHandshakeRecordLength to apply to
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// the first 6 bytes of the ClientHello.
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FragmentClientVersion bool
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// RsaClientKeyExchangeVersion, if non-zero, causes the client to send a
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// ClientKeyExchange with the specified version rather than the
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// client_version when performing the RSA key exchange.
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RsaClientKeyExchangeVersion uint16
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// RenewTicketOnResume causes the server to renew the session ticket and
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// send a NewSessionTicket message during an abbreviated handshake.
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RenewTicketOnResume bool
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// SendClientVersion, if non-zero, causes the client to send a different
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// TLS version in the ClientHello than the maximum supported version.
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SendClientVersion uint16
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// SkipHelloVerifyRequest causes a DTLS server to skip the
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// HelloVerifyRequest message.
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SkipHelloVerifyRequest bool
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// ExpectFalseStart causes the server to, on full handshakes,
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// expect the peer to False Start; the server Finished message
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// isn't sent until we receive an application data record
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// from the peer.
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ExpectFalseStart bool
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}
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func (c *Config) serverInit() {
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if c.SessionTicketsDisabled {
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return
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}
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// If the key has already been set then we have nothing to do.
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for _, b := range c.SessionTicketKey {
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if b != 0 {
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return
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}
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}
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if _, err := io.ReadFull(c.rand(), c.SessionTicketKey[:]); err != nil {
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c.SessionTicketsDisabled = true
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}
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}
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func (c *Config) rand() io.Reader {
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r := c.Rand
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if r == nil {
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return rand.Reader
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}
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return r
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}
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func (c *Config) time() time.Time {
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t := c.Time
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if t == nil {
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t = time.Now
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}
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return t()
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}
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func (c *Config) cipherSuites() []uint16 {
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s := c.CipherSuites
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if s == nil {
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s = defaultCipherSuites()
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}
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return s
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}
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func (c *Config) minVersion() uint16 {
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if c == nil || c.MinVersion == 0 {
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return minVersion
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}
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return c.MinVersion
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}
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func (c *Config) maxVersion() uint16 {
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if c == nil || c.MaxVersion == 0 {
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return maxVersion
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}
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return c.MaxVersion
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}
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var defaultCurvePreferences = []CurveID{CurveP256, CurveP384, CurveP521}
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func (c *Config) curvePreferences() []CurveID {
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if c == nil || len(c.CurvePreferences) == 0 {
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return defaultCurvePreferences
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}
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return c.CurvePreferences
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}
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// mutualVersion returns the protocol version to use given the advertised
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// version of the peer.
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func (c *Config) mutualVersion(vers uint16) (uint16, bool) {
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minVersion := c.minVersion()
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maxVersion := c.maxVersion()
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if vers < minVersion {
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return 0, false
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}
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if vers > maxVersion {
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vers = maxVersion
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}
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return vers, true
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}
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// getCertificateForName returns the best certificate for the given name,
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// defaulting to the first element of c.Certificates if there are no good
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// options.
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func (c *Config) getCertificateForName(name string) *Certificate {
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if len(c.Certificates) == 1 || c.NameToCertificate == nil {
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// There's only one choice, so no point doing any work.
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return &c.Certificates[0]
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|
}
|
|
|
|
name = strings.ToLower(name)
|
|
for len(name) > 0 && name[len(name)-1] == '.' {
|
|
name = name[:len(name)-1]
|
|
}
|
|
|
|
if cert, ok := c.NameToCertificate[name]; ok {
|
|
return cert
|
|
}
|
|
|
|
// try replacing labels in the name with wildcards until we get a
|
|
// match.
|
|
labels := strings.Split(name, ".")
|
|
for i := range labels {
|
|
labels[i] = "*"
|
|
candidate := strings.Join(labels, ".")
|
|
if cert, ok := c.NameToCertificate[candidate]; ok {
|
|
return cert
|
|
}
|
|
}
|
|
|
|
// If nothing matches, return the first certificate.
|
|
return &c.Certificates[0]
|
|
}
|
|
|
|
// BuildNameToCertificate parses c.Certificates and builds c.NameToCertificate
|
|
// from the CommonName and SubjectAlternateName fields of each of the leaf
|
|
// certificates.
|
|
func (c *Config) BuildNameToCertificate() {
|
|
c.NameToCertificate = make(map[string]*Certificate)
|
|
for i := range c.Certificates {
|
|
cert := &c.Certificates[i]
|
|
x509Cert, err := x509.ParseCertificate(cert.Certificate[0])
|
|
if err != nil {
|
|
continue
|
|
}
|
|
if len(x509Cert.Subject.CommonName) > 0 {
|
|
c.NameToCertificate[x509Cert.Subject.CommonName] = cert
|
|
}
|
|
for _, san := range x509Cert.DNSNames {
|
|
c.NameToCertificate[san] = cert
|
|
}
|
|
}
|
|
}
|
|
|
|
// A Certificate is a chain of one or more certificates, leaf first.
|
|
type Certificate struct {
|
|
Certificate [][]byte
|
|
PrivateKey crypto.PrivateKey // supported types: *rsa.PrivateKey, *ecdsa.PrivateKey
|
|
// OCSPStaple contains an optional OCSP response which will be served
|
|
// to clients that request it.
|
|
OCSPStaple []byte
|
|
// Leaf is the parsed form of the leaf certificate, which may be
|
|
// initialized using x509.ParseCertificate to reduce per-handshake
|
|
// processing for TLS clients doing client authentication. If nil, the
|
|
// leaf certificate will be parsed as needed.
|
|
Leaf *x509.Certificate
|
|
}
|
|
|
|
// A TLS record.
|
|
type record struct {
|
|
contentType recordType
|
|
major, minor uint8
|
|
payload []byte
|
|
}
|
|
|
|
type handshakeMessage interface {
|
|
marshal() []byte
|
|
unmarshal([]byte) bool
|
|
}
|
|
|
|
// lruSessionCache is a ClientSessionCache implementation that uses an LRU
|
|
// caching strategy.
|
|
type lruSessionCache struct {
|
|
sync.Mutex
|
|
|
|
m map[string]*list.Element
|
|
q *list.List
|
|
capacity int
|
|
}
|
|
|
|
type lruSessionCacheEntry struct {
|
|
sessionKey string
|
|
state *ClientSessionState
|
|
}
|
|
|
|
// NewLRUClientSessionCache returns a ClientSessionCache with the given
|
|
// capacity that uses an LRU strategy. If capacity is < 1, a default capacity
|
|
// is used instead.
|
|
func NewLRUClientSessionCache(capacity int) ClientSessionCache {
|
|
const defaultSessionCacheCapacity = 64
|
|
|
|
if capacity < 1 {
|
|
capacity = defaultSessionCacheCapacity
|
|
}
|
|
return &lruSessionCache{
|
|
m: make(map[string]*list.Element),
|
|
q: list.New(),
|
|
capacity: capacity,
|
|
}
|
|
}
|
|
|
|
// Put adds the provided (sessionKey, cs) pair to the cache.
|
|
func (c *lruSessionCache) Put(sessionKey string, cs *ClientSessionState) {
|
|
c.Lock()
|
|
defer c.Unlock()
|
|
|
|
if elem, ok := c.m[sessionKey]; ok {
|
|
entry := elem.Value.(*lruSessionCacheEntry)
|
|
entry.state = cs
|
|
c.q.MoveToFront(elem)
|
|
return
|
|
}
|
|
|
|
if c.q.Len() < c.capacity {
|
|
entry := &lruSessionCacheEntry{sessionKey, cs}
|
|
c.m[sessionKey] = c.q.PushFront(entry)
|
|
return
|
|
}
|
|
|
|
elem := c.q.Back()
|
|
entry := elem.Value.(*lruSessionCacheEntry)
|
|
delete(c.m, entry.sessionKey)
|
|
entry.sessionKey = sessionKey
|
|
entry.state = cs
|
|
c.q.MoveToFront(elem)
|
|
c.m[sessionKey] = elem
|
|
}
|
|
|
|
// Get returns the ClientSessionState value associated with a given key. It
|
|
// returns (nil, false) if no value is found.
|
|
func (c *lruSessionCache) Get(sessionKey string) (*ClientSessionState, bool) {
|
|
c.Lock()
|
|
defer c.Unlock()
|
|
|
|
if elem, ok := c.m[sessionKey]; ok {
|
|
c.q.MoveToFront(elem)
|
|
return elem.Value.(*lruSessionCacheEntry).state, true
|
|
}
|
|
return nil, false
|
|
}
|
|
|
|
// TODO(jsing): Make these available to both crypto/x509 and crypto/tls.
|
|
type dsaSignature struct {
|
|
R, S *big.Int
|
|
}
|
|
|
|
type ecdsaSignature dsaSignature
|
|
|
|
var emptyConfig Config
|
|
|
|
func defaultConfig() *Config {
|
|
return &emptyConfig
|
|
}
|
|
|
|
var (
|
|
once sync.Once
|
|
varDefaultCipherSuites []uint16
|
|
)
|
|
|
|
func defaultCipherSuites() []uint16 {
|
|
once.Do(initDefaultCipherSuites)
|
|
return varDefaultCipherSuites
|
|
}
|
|
|
|
func initDefaultCipherSuites() {
|
|
varDefaultCipherSuites = make([]uint16, len(cipherSuites))
|
|
for i, suite := range cipherSuites {
|
|
varDefaultCipherSuites[i] = suite.id
|
|
}
|
|
}
|
|
|
|
func unexpectedMessageError(wanted, got interface{}) error {
|
|
return fmt.Errorf("tls: received unexpected handshake message of type %T when waiting for %T", got, wanted)
|
|
}
|