forked from jshiffer/matterbridge
374 lines
9.7 KiB
Go
374 lines
9.7 KiB
Go
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// Copyright 2011 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 ssh
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import (
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"crypto"
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"crypto/rand"
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"fmt"
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"io"
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"math"
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"sync"
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_ "crypto/sha1"
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_ "crypto/sha256"
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_ "crypto/sha512"
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)
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// These are string constants in the SSH protocol.
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const (
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compressionNone = "none"
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serviceUserAuth = "ssh-userauth"
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serviceSSH = "ssh-connection"
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)
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// supportedCiphers specifies the supported ciphers in preference order.
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var supportedCiphers = []string{
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"aes128-ctr", "aes192-ctr", "aes256-ctr",
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"aes128-gcm@openssh.com",
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"arcfour256", "arcfour128",
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}
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// supportedKexAlgos specifies the supported key-exchange algorithms in
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// preference order.
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var supportedKexAlgos = []string{
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kexAlgoCurve25519SHA256,
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// P384 and P521 are not constant-time yet, but since we don't
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// reuse ephemeral keys, using them for ECDH should be OK.
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kexAlgoECDH256, kexAlgoECDH384, kexAlgoECDH521,
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kexAlgoDH14SHA1, kexAlgoDH1SHA1,
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}
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// supportedHostKeyAlgos specifies the supported host-key algorithms (i.e. methods
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// of authenticating servers) in preference order.
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var supportedHostKeyAlgos = []string{
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CertAlgoRSAv01, CertAlgoDSAv01, CertAlgoECDSA256v01,
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CertAlgoECDSA384v01, CertAlgoECDSA521v01, CertAlgoED25519v01,
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KeyAlgoECDSA256, KeyAlgoECDSA384, KeyAlgoECDSA521,
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KeyAlgoRSA, KeyAlgoDSA,
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KeyAlgoED25519,
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}
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// supportedMACs specifies a default set of MAC algorithms in preference order.
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// This is based on RFC 4253, section 6.4, but with hmac-md5 variants removed
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// because they have reached the end of their useful life.
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var supportedMACs = []string{
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"hmac-sha2-256-etm@openssh.com", "hmac-sha2-256", "hmac-sha1", "hmac-sha1-96",
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}
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var supportedCompressions = []string{compressionNone}
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// hashFuncs keeps the mapping of supported algorithms to their respective
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// hashes needed for signature verification.
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var hashFuncs = map[string]crypto.Hash{
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KeyAlgoRSA: crypto.SHA1,
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KeyAlgoDSA: crypto.SHA1,
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KeyAlgoECDSA256: crypto.SHA256,
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KeyAlgoECDSA384: crypto.SHA384,
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KeyAlgoECDSA521: crypto.SHA512,
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CertAlgoRSAv01: crypto.SHA1,
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CertAlgoDSAv01: crypto.SHA1,
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CertAlgoECDSA256v01: crypto.SHA256,
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CertAlgoECDSA384v01: crypto.SHA384,
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CertAlgoECDSA521v01: crypto.SHA512,
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}
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// unexpectedMessageError results when the SSH message that we received didn't
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// match what we wanted.
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func unexpectedMessageError(expected, got uint8) error {
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return fmt.Errorf("ssh: unexpected message type %d (expected %d)", got, expected)
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}
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// parseError results from a malformed SSH message.
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func parseError(tag uint8) error {
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return fmt.Errorf("ssh: parse error in message type %d", tag)
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}
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func findCommon(what string, client []string, server []string) (common string, err error) {
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for _, c := range client {
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for _, s := range server {
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if c == s {
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return c, nil
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}
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}
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}
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return "", fmt.Errorf("ssh: no common algorithm for %s; client offered: %v, server offered: %v", what, client, server)
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}
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type directionAlgorithms struct {
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Cipher string
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MAC string
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Compression string
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}
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// rekeyBytes returns a rekeying intervals in bytes.
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func (a *directionAlgorithms) rekeyBytes() int64 {
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// According to RFC4344 block ciphers should rekey after
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// 2^(BLOCKSIZE/4) blocks. For all AES flavors BLOCKSIZE is
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// 128.
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switch a.Cipher {
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case "aes128-ctr", "aes192-ctr", "aes256-ctr", gcmCipherID, aes128cbcID:
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return 16 * (1 << 32)
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}
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// For others, stick with RFC4253 recommendation to rekey after 1 Gb of data.
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return 1 << 30
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}
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type algorithms struct {
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kex string
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hostKey string
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w directionAlgorithms
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r directionAlgorithms
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}
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func findAgreedAlgorithms(clientKexInit, serverKexInit *kexInitMsg) (algs *algorithms, err error) {
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result := &algorithms{}
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result.kex, err = findCommon("key exchange", clientKexInit.KexAlgos, serverKexInit.KexAlgos)
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if err != nil {
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return
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}
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result.hostKey, err = findCommon("host key", clientKexInit.ServerHostKeyAlgos, serverKexInit.ServerHostKeyAlgos)
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if err != nil {
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return
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}
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result.w.Cipher, err = findCommon("client to server cipher", clientKexInit.CiphersClientServer, serverKexInit.CiphersClientServer)
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if err != nil {
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return
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}
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result.r.Cipher, err = findCommon("server to client cipher", clientKexInit.CiphersServerClient, serverKexInit.CiphersServerClient)
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if err != nil {
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return
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}
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result.w.MAC, err = findCommon("client to server MAC", clientKexInit.MACsClientServer, serverKexInit.MACsClientServer)
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if err != nil {
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return
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}
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result.r.MAC, err = findCommon("server to client MAC", clientKexInit.MACsServerClient, serverKexInit.MACsServerClient)
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if err != nil {
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return
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}
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result.w.Compression, err = findCommon("client to server compression", clientKexInit.CompressionClientServer, serverKexInit.CompressionClientServer)
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if err != nil {
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return
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}
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result.r.Compression, err = findCommon("server to client compression", clientKexInit.CompressionServerClient, serverKexInit.CompressionServerClient)
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if err != nil {
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return
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}
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return result, nil
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}
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// If rekeythreshold is too small, we can't make any progress sending
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// stuff.
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const minRekeyThreshold uint64 = 256
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// Config contains configuration data common to both ServerConfig and
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// ClientConfig.
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type Config struct {
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// Rand provides the source of entropy for cryptographic
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// primitives. If Rand is nil, the cryptographic random reader
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// in package crypto/rand will be used.
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Rand io.Reader
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// The maximum number of bytes sent or received after which a
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// new key is negotiated. It must be at least 256. If
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// unspecified, a size suitable for the chosen cipher is used.
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RekeyThreshold uint64
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// The allowed key exchanges algorithms. If unspecified then a
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// default set of algorithms is used.
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KeyExchanges []string
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// The allowed cipher algorithms. If unspecified then a sensible
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// default is used.
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Ciphers []string
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// The allowed MAC algorithms. If unspecified then a sensible default
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// is used.
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MACs []string
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}
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// SetDefaults sets sensible values for unset fields in config. This is
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// exported for testing: Configs passed to SSH functions are copied and have
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// default values set automatically.
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func (c *Config) SetDefaults() {
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if c.Rand == nil {
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c.Rand = rand.Reader
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}
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if c.Ciphers == nil {
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c.Ciphers = supportedCiphers
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}
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var ciphers []string
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for _, c := range c.Ciphers {
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if cipherModes[c] != nil {
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// reject the cipher if we have no cipherModes definition
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ciphers = append(ciphers, c)
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}
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}
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c.Ciphers = ciphers
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if c.KeyExchanges == nil {
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c.KeyExchanges = supportedKexAlgos
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}
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if c.MACs == nil {
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c.MACs = supportedMACs
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}
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if c.RekeyThreshold == 0 {
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// cipher specific default
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} else if c.RekeyThreshold < minRekeyThreshold {
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c.RekeyThreshold = minRekeyThreshold
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} else if c.RekeyThreshold >= math.MaxInt64 {
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// Avoid weirdness if somebody uses -1 as a threshold.
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c.RekeyThreshold = math.MaxInt64
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}
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}
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// buildDataSignedForAuth returns the data that is signed in order to prove
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// possession of a private key. See RFC 4252, section 7.
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func buildDataSignedForAuth(sessionID []byte, req userAuthRequestMsg, algo, pubKey []byte) []byte {
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data := struct {
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Session []byte
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Type byte
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User string
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Service string
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Method string
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Sign bool
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Algo []byte
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PubKey []byte
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}{
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sessionID,
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msgUserAuthRequest,
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req.User,
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req.Service,
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req.Method,
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true,
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algo,
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pubKey,
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}
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return Marshal(data)
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}
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func appendU16(buf []byte, n uint16) []byte {
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return append(buf, byte(n>>8), byte(n))
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}
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func appendU32(buf []byte, n uint32) []byte {
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return append(buf, byte(n>>24), byte(n>>16), byte(n>>8), byte(n))
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}
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func appendU64(buf []byte, n uint64) []byte {
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return append(buf,
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byte(n>>56), byte(n>>48), byte(n>>40), byte(n>>32),
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byte(n>>24), byte(n>>16), byte(n>>8), byte(n))
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}
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func appendInt(buf []byte, n int) []byte {
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return appendU32(buf, uint32(n))
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}
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func appendString(buf []byte, s string) []byte {
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buf = appendU32(buf, uint32(len(s)))
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buf = append(buf, s...)
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return buf
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}
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func appendBool(buf []byte, b bool) []byte {
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if b {
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return append(buf, 1)
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}
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return append(buf, 0)
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}
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// newCond is a helper to hide the fact that there is no usable zero
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// value for sync.Cond.
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func newCond() *sync.Cond { return sync.NewCond(new(sync.Mutex)) }
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// window represents the buffer available to clients
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// wishing to write to a channel.
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type window struct {
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*sync.Cond
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win uint32 // RFC 4254 5.2 says the window size can grow to 2^32-1
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writeWaiters int
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closed bool
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}
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// add adds win to the amount of window available
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// for consumers.
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func (w *window) add(win uint32) bool {
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// a zero sized window adjust is a noop.
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if win == 0 {
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return true
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}
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w.L.Lock()
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if w.win+win < win {
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w.L.Unlock()
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return false
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}
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w.win += win
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// It is unusual that multiple goroutines would be attempting to reserve
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// window space, but not guaranteed. Use broadcast to notify all waiters
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// that additional window is available.
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w.Broadcast()
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w.L.Unlock()
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return true
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}
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// close sets the window to closed, so all reservations fail
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// immediately.
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func (w *window) close() {
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w.L.Lock()
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w.closed = true
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w.Broadcast()
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w.L.Unlock()
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}
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// reserve reserves win from the available window capacity.
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// If no capacity remains, reserve will block. reserve may
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// return less than requested.
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func (w *window) reserve(win uint32) (uint32, error) {
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var err error
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w.L.Lock()
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w.writeWaiters++
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w.Broadcast()
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for w.win == 0 && !w.closed {
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w.Wait()
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}
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w.writeWaiters--
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if w.win < win {
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win = w.win
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}
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w.win -= win
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if w.closed {
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err = io.EOF
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}
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w.L.Unlock()
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return win, err
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}
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// waitWriterBlocked waits until some goroutine is blocked for further
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// writes. It is used in tests only.
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func (w *window) waitWriterBlocked() {
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w.Cond.L.Lock()
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for w.writeWaiters == 0 {
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w.Cond.Wait()
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}
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w.Cond.L.Unlock()
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}
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