mirror of
https://github.com/autc04/Retro68.git
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438 lines
13 KiB
Go
438 lines
13 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 tls
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import (
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"crypto"
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"crypto/rand"
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"crypto/x509"
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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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recordHeaderLen = 5 // record header length
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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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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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)
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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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var (
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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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)
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// TLS Elliptic Curves
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// http://www.iana.org/assignments/tls-parameters/tls-parameters.xml#tls-parameters-8
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var (
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curveP256 uint16 = 23
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curveP384 uint16 = 24
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curveP521 uint16 = 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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var (
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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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hash, signature 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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{hashSHA256, signatureRSA},
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{hashSHA256, signatureECDSA},
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{hashSHA1, signatureRSA},
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{hashSHA1, signatureECDSA},
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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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{hashSHA256, signatureRSA},
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{hashSHA256, signatureECDSA},
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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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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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}
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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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// A Config structure is used to configure a TLS client or server. After one
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// has been passed to a TLS function it must not be modified.
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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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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 included in the client's handshake to support virtual
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// 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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// 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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// 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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serverInitOnce sync.Once // guards calling (*Config).serverInit
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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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// 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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}
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name = strings.ToLower(name)
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for len(name) > 0 && name[len(name)-1] == '.' {
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name = name[:len(name)-1]
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}
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if cert, ok := c.NameToCertificate[name]; ok {
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return cert
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}
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// try replacing labels in the name with wildcards until we get a
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// match.
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labels := strings.Split(name, ".")
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for i := range labels {
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labels[i] = "*"
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candidate := strings.Join(labels, ".")
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if cert, ok := c.NameToCertificate[candidate]; ok {
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return cert
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}
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}
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// If nothing matches, return the first certificate.
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return &c.Certificates[0]
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}
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// BuildNameToCertificate parses c.Certificates and builds c.NameToCertificate
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// from the CommonName and SubjectAlternateName fields of each of the leaf
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// certificates.
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func (c *Config) BuildNameToCertificate() {
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c.NameToCertificate = make(map[string]*Certificate)
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for i := range c.Certificates {
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cert := &c.Certificates[i]
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x509Cert, err := x509.ParseCertificate(cert.Certificate[0])
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if err != nil {
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continue
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}
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if len(x509Cert.Subject.CommonName) > 0 {
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c.NameToCertificate[x509Cert.Subject.CommonName] = cert
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}
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for _, san := range x509Cert.DNSNames {
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c.NameToCertificate[san] = cert
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}
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}
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}
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// A Certificate is a chain of one or more certificates, leaf first.
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type Certificate struct {
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Certificate [][]byte
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PrivateKey crypto.PrivateKey // supported types: *rsa.PrivateKey, *ecdsa.PrivateKey
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// OCSPStaple contains an optional OCSP response which will be served
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// to clients that request it.
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OCSPStaple []byte
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// Leaf is the parsed form of the leaf certificate, which may be
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// initialized using x509.ParseCertificate to reduce per-handshake
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// processing for TLS clients doing client authentication. If nil, the
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// leaf certificate will be parsed as needed.
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Leaf *x509.Certificate
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}
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// A TLS record.
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type record struct {
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contentType recordType
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major, minor uint8
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payload []byte
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}
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type handshakeMessage interface {
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marshal() []byte
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unmarshal([]byte) bool
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}
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// TODO(jsing): Make these available to both crypto/x509 and crypto/tls.
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type dsaSignature struct {
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R, S *big.Int
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}
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type ecdsaSignature dsaSignature
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var emptyConfig Config
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func defaultConfig() *Config {
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return &emptyConfig
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}
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var (
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once sync.Once
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varDefaultCipherSuites []uint16
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)
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func defaultCipherSuites() []uint16 {
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once.Do(initDefaultCipherSuites)
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return varDefaultCipherSuites
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}
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func initDefaultCipherSuites() {
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varDefaultCipherSuites = make([]uint16, len(cipherSuites))
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for i, suite := range cipherSuites {
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varDefaultCipherSuites[i] = suite.id
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}
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}
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