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c57aeac7f0
an é (e with accent) can also be written as e+\u0301. the first form is NFC, the second NFD. when logging in, we transform usernames (email addresses) to NFC. so both forms will be accepted. if a client is using NFD, they can log in too. for passwords, we apply the PRECIS "opaquestring", which (despite the name) transforms the value too: unicode spaces are replaced with ascii spaces. the string is also normalized to NFC. PRECIS may reject confusing passwords when you set a password.
511 lines
18 KiB
Go
511 lines
18 KiB
Go
// Package scram implements the SCRAM-SHA-* SASL authentication mechanism, RFC 7677 and RFC 5802.
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//
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// SCRAM-SHA-256 and SCRAM-SHA-1 allow a client to authenticate to a server using a
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// password without handing plaintext password over to the server. The client also
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// verifies the server knows (a derivative of) the password. Both the client and
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// server side are implemented.
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package scram
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// todo: test with messages that contains extensions
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// todo: some tests for the parser
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// todo: figure out how invalid parameters etc should be handled. just abort? perhaps mostly a problem for imap.
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import (
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"bytes"
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"crypto/hmac"
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cryptorand "crypto/rand"
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"crypto/tls"
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"encoding/base64"
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"errors"
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"fmt"
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"hash"
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"strings"
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"golang.org/x/crypto/pbkdf2"
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"golang.org/x/text/secure/precis"
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"golang.org/x/text/unicode/norm"
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)
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// Errors at scram protocol level. Can be exchanged between client and server.
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var (
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ErrInvalidEncoding Error = "invalid-encoding"
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ErrExtensionsNotSupported Error = "extensions-not-supported"
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ErrInvalidProof Error = "invalid-proof"
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ErrChannelBindingsDontMatch Error = "channel-bindings-dont-match"
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ErrServerDoesSupportChannelBinding Error = "server-does-support-channel-binding"
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ErrChannelBindingNotSupported Error = "channel-binding-not-supported"
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ErrUnsupportedChannelBindingType Error = "unsupported-channel-binding-type"
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ErrUnknownUser Error = "unknown-user"
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ErrNoResources Error = "no-resources"
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ErrOtherError Error = "other-error"
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)
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var scramErrors = makeErrors()
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func makeErrors() map[string]Error {
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l := []Error{
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ErrInvalidEncoding,
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ErrExtensionsNotSupported,
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ErrInvalidProof,
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ErrChannelBindingsDontMatch,
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ErrServerDoesSupportChannelBinding,
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ErrChannelBindingNotSupported,
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ErrUnsupportedChannelBindingType,
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ErrUnknownUser,
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ErrNoResources,
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ErrOtherError,
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}
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m := map[string]Error{}
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for _, e := range l {
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m[string(e)] = e
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}
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return m
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}
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var (
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ErrNorm = errors.New("parameter not unicode normalized") // E.g. if client sends non-normalized username or authzid.
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ErrUnsafe = errors.New("unsafe parameter") // E.g. salt, nonce too short, or too few iterations.
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ErrProtocol = errors.New("protocol error") // E.g. server responded with a nonce not prefixed by the client nonce.
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)
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type Error string
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func (e Error) Error() string {
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return string(e)
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}
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// MakeRandom returns a cryptographically random buffer for use as salt or as
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// nonce.
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func MakeRandom() []byte {
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buf := make([]byte, 12)
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_, err := cryptorand.Read(buf)
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if err != nil {
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panic("generate random")
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}
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return buf
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}
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// Cleanup password with precis, like remote should have done. If the password
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// appears invalid, we'll return the original, there is a chance the server also
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// doesn't enforce requirements and accepts it. ../rfc/8265:679
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func precisPassword(password string) string {
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pw, err := precis.OpaqueString.String(password)
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if err != nil {
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return password
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}
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return pw
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}
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// SaltPassword returns a salted password.
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func SaltPassword(h func() hash.Hash, password string, salt []byte, iterations int) []byte {
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password = precisPassword(password)
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return pbkdf2.Key([]byte(password), salt, iterations, h().Size(), h)
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}
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// hmac0 returns the hmac with key over msg.
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func hmac0(h func() hash.Hash, key []byte, msg string) []byte {
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mac := hmac.New(h, key)
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mac.Write([]byte(msg))
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return mac.Sum(nil)
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}
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func xor(a, b []byte) {
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for i := range a {
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a[i] ^= b[i]
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}
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}
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func channelBindData(cs *tls.ConnectionState) ([]byte, error) {
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if cs.Version <= tls.VersionTLS12 {
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if cs.TLSUnique == nil {
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return nil, fmt.Errorf("no channel binding data available")
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}
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return cs.TLSUnique, nil
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}
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// "tls-exporter", ../rfc/9266:95
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// Since TLS 1.3, a zero-length and absent context have the same behaviour. ../rfc/8446:5385 ../rfc/8446:5405
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// This is different from TLS 1.2 and earlier. ../rfc/5705:206 ../rfc/5705:245
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return cs.ExportKeyingMaterial("EXPORTER-Channel-Binding", []byte{}, 32)
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}
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// Server represents the server-side of a SCRAM-SHA-* authentication.
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type Server struct {
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Authentication string // Username for authentication, "authc". Always set and non-empty.
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Authorization string // If set, role of user to assume after authentication, "authz".
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h func() hash.Hash // sha1.New or sha256.New
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// Messages used in hash calculations.
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clientFirstBare string
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serverFirst string
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clientFinalWithoutProof string
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gs2header string
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clientNonce string // Client-part of the nonce.
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serverNonceOverride string // If set, server does not generate random nonce, but uses this. For tests with the test vector.
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nonce string // Full client + server nonce.
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channelBinding []byte
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}
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// NewServer returns a server given the first SCRAM message from a client.
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//
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// If cs is set, the PLUS variant can be negotiated, binding the authentication
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// exchange to the TLS channel (preventing MitM attempts). If a client
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// indicates it supports the PLUS variant, but thinks the server does not, the
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// authentication attempt will fail.
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//
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// If channelBindingRequired is set, the client has indicated it will do channel
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// binding and not doing so will cause the authentication to fail.
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//
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// The sequence for data and calls on a server:
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//
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// - Read initial data from client, call NewServer (this call), then ServerFirst and write to the client.
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// - Read response from client, call Finish or FinishFinal and write the resulting string.
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func NewServer(h func() hash.Hash, clientFirst []byte, cs *tls.ConnectionState, channelBindingRequired bool) (server *Server, rerr error) {
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p := newParser(clientFirst)
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defer p.recover(&rerr)
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server = &Server{h: h}
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// ../rfc/5802:949 ../rfc/5802:910
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gs2cbindFlag := p.xbyte()
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switch gs2cbindFlag {
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case 'n':
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// Client does not support channel binding.
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if channelBindingRequired {
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p.xerrorf("channel binding is required when specifying scram plus: %w", ErrChannelBindingsDontMatch)
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}
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case 'y':
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// Client supports channel binding but thinks we as server do not.
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p.xerrorf("gs2 channel bind flag is y, client believes server does not support channel binding: %w", ErrServerDoesSupportChannelBinding)
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case 'p':
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// Use channel binding.
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// It seems a cyrus-sasl client tells a server it is using the bare (non-PLUS)
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// scram authentication mechanism, but then does use channel binding. It seems to
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// use the server announcement of the plus variant only to learn the server
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// supports channel binding.
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p.xtake("=")
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cbname := p.xcbname()
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// Assume the channel binding name is case-sensitive, and lower-case as used in
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// examples. The ABNF rule accepts both lower and upper case. But the ABNF for
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// attribute names also allows that, while the text claims they are case
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// sensitive... ../rfc/5802:547
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switch cbname {
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case "tls-unique":
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if cs == nil {
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p.xerrorf("no tls connection: %w", ErrChannelBindingsDontMatch)
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} else if cs.Version >= tls.VersionTLS13 {
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// ../rfc/9266:122
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p.xerrorf("tls-unique not defined for tls 1.3 and later, use tls-exporter: %w", ErrChannelBindingsDontMatch)
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} else if cs.TLSUnique == nil {
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// As noted in the crypto/tls documentation.
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p.xerrorf("no tls-unique channel binding value for this tls connection, possibly due to missing extended master key support and/or resumed connection: %w", ErrChannelBindingsDontMatch)
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}
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case "tls-exporter":
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if cs == nil {
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p.xerrorf("no tls connection: %w", ErrChannelBindingsDontMatch)
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} else if cs.Version < tls.VersionTLS13 {
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// Using tls-exporter with pre-1.3 TLS would require more precautions. Perhaps later.
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// ../rfc/9266:201
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p.xerrorf("tls-exporter with tls before 1.3 not implemented, use tls-unique: %w", ErrChannelBindingsDontMatch)
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}
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default:
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p.xerrorf("unknown parameter p %s: %w", cbname, ErrUnsupportedChannelBindingType)
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}
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cb, err := channelBindData(cs)
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if err != nil {
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// We can pass back the error, it should never contain sensitive data, and only
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// happen due to incorrect calling or a TLS config that is currently impossible
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// (renegotiation enabled).
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p.xerrorf("error fetching channel binding data: %v: %w", err, ErrOtherError)
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}
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server.channelBinding = cb
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default:
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p.xerrorf("unrecognized gs2 channel bind flag")
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}
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p.xtake(",")
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if !p.take(",") {
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server.Authorization = p.xauthzid()
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if norm.NFC.String(server.Authorization) != server.Authorization {
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return nil, fmt.Errorf("%w: authzid", ErrNorm)
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}
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p.xtake(",")
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}
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server.gs2header = p.s[:p.o]
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server.clientFirstBare = p.s[p.o:]
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// ../rfc/5802:632
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// ../rfc/5802:946
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if p.take("m=") {
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p.xerrorf("unexpected mandatory extension: %w", ErrExtensionsNotSupported) // ../rfc/5802:973
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}
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server.Authentication = p.xusername()
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if norm.NFC.String(server.Authentication) != server.Authentication {
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return nil, fmt.Errorf("%w: username", ErrNorm)
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}
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p.xtake(",")
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server.clientNonce = p.xnonce()
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if len(server.clientNonce) < 8 {
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return nil, fmt.Errorf("%w: client nonce too short", ErrUnsafe)
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}
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// Extensions, we don't recognize them.
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for p.take(",") {
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p.xattrval()
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}
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p.xempty()
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return server, nil
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}
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// ServerFirst returns the string to send back to the client. To be called after NewServer.
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func (s *Server) ServerFirst(iterations int, salt []byte) (string, error) {
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// ../rfc/5802:959
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serverNonce := s.serverNonceOverride
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if serverNonce == "" {
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serverNonce = base64.StdEncoding.EncodeToString(MakeRandom())
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}
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s.nonce = s.clientNonce + serverNonce
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s.serverFirst = fmt.Sprintf("r=%s,s=%s,i=%d", s.nonce, base64.StdEncoding.EncodeToString(salt), iterations)
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return s.serverFirst, nil
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}
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// Finish takes the final client message, and the salted password (probably
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// from server storage), verifies the client, and returns a message to return
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// to the client. If err is nil, authentication was successful. If the
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// authorization requested is not acceptable, the server should call
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// FinishError instead.
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func (s *Server) Finish(clientFinal []byte, saltedPassword []byte) (serverFinal string, rerr error) {
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p := newParser(clientFinal)
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defer p.recover(&rerr)
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// If there is any channel binding, and it doesn't match, this may be a
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// MitM-attack. If the MitM would replace the channel binding, the signature
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// calculated below would not match.
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cbind := p.xchannelBinding()
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cbindExp := append([]byte(s.gs2header), s.channelBinding...)
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if !bytes.Equal(cbind, cbindExp) {
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return "e=" + string(ErrChannelBindingsDontMatch), ErrChannelBindingsDontMatch
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}
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p.xtake(",")
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nonce := p.xnonce()
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if nonce != s.nonce {
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return "e=" + string(ErrInvalidProof), ErrInvalidProof
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}
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for !p.peek(",p=") {
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p.xtake(",")
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p.xattrval() // Ignored.
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}
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s.clientFinalWithoutProof = p.s[:p.o]
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p.xtake(",")
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proof := p.xproof()
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p.xempty()
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authMsg := s.clientFirstBare + "," + s.serverFirst + "," + s.clientFinalWithoutProof
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clientKey := hmac0(s.h, saltedPassword, "Client Key")
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h := s.h()
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h.Write(clientKey)
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storedKey := h.Sum(nil)
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clientSig := hmac0(s.h, storedKey, authMsg)
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xor(clientSig, clientKey) // Now clientProof.
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if !bytes.Equal(clientSig, proof) {
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return "e=" + string(ErrInvalidProof), ErrInvalidProof
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}
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serverKey := hmac0(s.h, saltedPassword, "Server Key")
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serverSig := hmac0(s.h, serverKey, authMsg)
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return fmt.Sprintf("v=%s", base64.StdEncoding.EncodeToString(serverSig)), nil
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}
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// FinishError returns an error message to write to the client for the final
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// server message.
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func (s *Server) FinishError(err Error) string {
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return "e=" + string(err)
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}
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// Client represents the client-side of a SCRAM-SHA-* authentication.
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type Client struct {
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authc string
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authz string
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h func() hash.Hash // sha1.New or sha256.New
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noServerPlus bool // Server did not announce support for PLUS-variant.
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cs *tls.ConnectionState // If set, use PLUS-variant.
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// Messages used in hash calculations.
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clientFirstBare string
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serverFirst string
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clientFinalWithoutProof string
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authMessage string
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gs2header string
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clientNonce string
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nonce string // Full client + server nonce.
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saltedPassword []byte
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channelBindData []byte // For PLUS-variant.
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}
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// NewClient returns a client for authentication authc, optionally for
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// authorization with role authz, for the hash (sha1.New or sha256.New).
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//
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// If noServerPlus is true, the client would like to have used the PLUS-variant,
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// that binds the authentication attempt to the TLS connection, but the client did
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// not see support for the PLUS variant announced by the server. Used during
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// negotiation to detect possible MitM attempt.
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//
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// If cs is not nil, the SCRAM PLUS-variant is negotiated, with channel binding to
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// the unique TLS connection, either using "tls-exporter" for TLS 1.3 and later, or
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// "tls-unique" otherwise.
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//
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// If cs is nil, no channel binding is done. If noServerPlus is also false, the
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// client is configured to not attempt/"support" the PLUS-variant, ensuring servers
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// that do support the PLUS-variant do not abort the connection.
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//
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// The sequence for data and calls on a client:
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//
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// - ClientFirst, write result to server.
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// - Read response from server, feed to ServerFirst, write response to server.
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// - Read response from server, feed to ServerFinal.
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func NewClient(h func() hash.Hash, authc, authz string, noServerPlus bool, cs *tls.ConnectionState) *Client {
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authc = norm.NFC.String(authc)
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authz = norm.NFC.String(authz)
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return &Client{authc: authc, authz: authz, h: h, noServerPlus: noServerPlus, cs: cs}
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}
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// ClientFirst returns the first client message to write to the server.
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// No channel binding is done/supported.
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// A random nonce is generated.
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func (c *Client) ClientFirst() (clientFirst string, rerr error) {
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if c.noServerPlus && c.cs != nil {
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return "", fmt.Errorf("cannot set both claim channel binding is not supported, and use channel binding")
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}
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// The first byte of the gs2header indicates if/how channel binding should be used.
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// ../rfc/5802:903
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if c.cs != nil {
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if c.cs.Version >= tls.VersionTLS13 {
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c.gs2header = "p=tls-exporter"
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} else {
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c.gs2header = "p=tls-unique"
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}
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cbdata, err := channelBindData(c.cs)
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if err != nil {
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return "", fmt.Errorf("get channel binding data: %v", err)
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}
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c.channelBindData = cbdata
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} else if c.noServerPlus {
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// We support it, but we think server does not. If server does support it, we may
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// have been downgraded, and the server will tell us.
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c.gs2header = "y"
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} else {
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// We don't want to do channel binding.
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c.gs2header = "n"
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}
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c.gs2header += fmt.Sprintf(",%s,", saslname(c.authz))
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if c.clientNonce == "" {
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c.clientNonce = base64.StdEncoding.EncodeToString(MakeRandom())
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}
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c.clientFirstBare = fmt.Sprintf("n=%s,r=%s", saslname(c.authc), c.clientNonce)
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return c.gs2header + c.clientFirstBare, nil
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}
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// ServerFirst processes the first response message from the server. The
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// provided nonce, salt and iterations are checked. If valid, a final client
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// message is calculated and returned. This message must be written to the
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// server. It includes proof that the client knows the password.
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func (c *Client) ServerFirst(serverFirst []byte, password string) (clientFinal string, rerr error) {
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c.serverFirst = string(serverFirst)
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p := newParser(serverFirst)
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defer p.recover(&rerr)
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// ../rfc/5802:632
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// ../rfc/5802:959
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if p.take("m=") {
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p.xerrorf("unsupported mandatory extension: %w", ErrExtensionsNotSupported) // ../rfc/5802:973
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}
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c.nonce = p.xnonce()
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p.xtake(",")
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salt := p.xsalt()
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p.xtake(",")
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iterations := p.xiterations()
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// We ignore extensions that we don't know about.
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for p.take(",") {
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p.xattrval()
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}
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p.xempty()
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if !strings.HasPrefix(c.nonce, c.clientNonce) {
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return "", fmt.Errorf("%w: server dropped our nonce", ErrProtocol)
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}
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if len(c.nonce)-len(c.clientNonce) < 8 {
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return "", fmt.Errorf("%w: server nonce too short", ErrUnsafe)
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}
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if len(salt) < 8 {
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return "", fmt.Errorf("%w: salt too short", ErrUnsafe)
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}
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if iterations < 2048 {
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return "", fmt.Errorf("%w: too few iterations", ErrUnsafe)
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}
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// We send our channel binding data if present. If the server has different values,
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// we'll get an error. If any MitM would try to modify the channel binding data,
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// the server cannot verify our signature and will fail the attempt.
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// ../rfc/5802:925 ../rfc/5802:1015
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cbindInput := append([]byte(c.gs2header), c.channelBindData...)
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|
c.clientFinalWithoutProof = fmt.Sprintf("c=%s,r=%s", base64.StdEncoding.EncodeToString(cbindInput), c.nonce)
|
|
|
|
c.authMessage = c.clientFirstBare + "," + c.serverFirst + "," + c.clientFinalWithoutProof
|
|
|
|
c.saltedPassword = SaltPassword(c.h, password, salt, iterations)
|
|
clientKey := hmac0(c.h, c.saltedPassword, "Client Key")
|
|
h := c.h()
|
|
h.Write(clientKey)
|
|
storedKey := h.Sum(nil)
|
|
clientSig := hmac0(c.h, storedKey, c.authMessage)
|
|
xor(clientSig, clientKey) // Now clientProof.
|
|
clientProof := clientSig
|
|
|
|
r := c.clientFinalWithoutProof + ",p=" + base64.StdEncoding.EncodeToString(clientProof)
|
|
return r, nil
|
|
}
|
|
|
|
// ServerFinal processes the final message from the server, verifying that the
|
|
// server knows the password.
|
|
func (c *Client) ServerFinal(serverFinal []byte) (rerr error) {
|
|
p := newParser(serverFinal)
|
|
defer p.recover(&rerr)
|
|
|
|
if p.take("e=") {
|
|
errstr := p.xvalue()
|
|
var err error = scramErrors[errstr]
|
|
if err == Error("") {
|
|
err = errors.New(errstr)
|
|
}
|
|
return fmt.Errorf("error from server: %w", err)
|
|
}
|
|
p.xtake("v=")
|
|
verifier := p.xbase64()
|
|
|
|
serverKey := hmac0(c.h, c.saltedPassword, "Server Key")
|
|
serverSig := hmac0(c.h, serverKey, c.authMessage)
|
|
if !bytes.Equal(verifier, serverSig) {
|
|
return fmt.Errorf("incorrect server signature")
|
|
}
|
|
return nil
|
|
}
|
|
|
|
// Convert "," to =2C and "=" to =3D.
|
|
func saslname(s string) string {
|
|
var r string
|
|
for _, c := range s {
|
|
if c == ',' {
|
|
r += "=2C"
|
|
} else if c == '=' {
|
|
r += "=3D"
|
|
} else {
|
|
r += string(c)
|
|
}
|
|
}
|
|
return r
|
|
}
|