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181 lines
6.1 KiB
181 lines
6.1 KiB
// Copyright 2023 The Gitea Authors. All rights reserved.
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// SPDX-License-Identifier: MIT
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package hash
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import (
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"crypto/subtle"
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"encoding/hex"
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"fmt"
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"strings"
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"sync/atomic"
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"code.gitea.io/gitea/modules/log"
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)
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// This package takes care of hashing passwords, verifying passwords, defining
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// available password algorithms, defining recommended password algorithms and
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// choosing the default password algorithm.
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// PasswordSaltHasher will hash a provided password with the provided saltBytes
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type PasswordSaltHasher interface {
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HashWithSaltBytes(password string, saltBytes []byte) string
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}
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// PasswordHasher will hash a provided password with the salt
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type PasswordHasher interface {
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Hash(password, salt string) (string, error)
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}
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// PasswordVerifier will ensure that a providedPassword matches the hashPassword when hashed with the salt
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type PasswordVerifier interface {
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VerifyPassword(providedPassword, hashedPassword, salt string) bool
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}
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// PasswordHashAlgorithms are named PasswordSaltHashers with a default verifier and hash function
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type PasswordHashAlgorithm struct {
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PasswordSaltHasher
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Specification string // The specification that is used to create the internal PasswordSaltHasher
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}
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// Hash the provided password with the salt and return the hash
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func (algorithm *PasswordHashAlgorithm) Hash(password, salt string) (string, error) {
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var saltBytes []byte
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// There are two formats for the salt value:
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// * The new format is a (32+)-byte hex-encoded string
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// * The old format was a 10-byte binary format
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// We have to tolerate both here.
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if len(salt) == 10 {
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saltBytes = []byte(salt)
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} else {
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var err error
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saltBytes, err = hex.DecodeString(salt)
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if err != nil {
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return "", err
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}
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}
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return algorithm.HashWithSaltBytes(password, saltBytes), nil
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}
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// Verify the provided password matches the hashPassword when hashed with the salt
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func (algorithm *PasswordHashAlgorithm) VerifyPassword(providedPassword, hashedPassword, salt string) bool {
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// Some PasswordSaltHashers have their own specialised compare function that takes into
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// account the stored parameters within the hash. e.g. bcrypt
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if verifier, ok := algorithm.PasswordSaltHasher.(PasswordVerifier); ok {
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return verifier.VerifyPassword(providedPassword, hashedPassword, salt)
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}
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// Compute the hash of the password.
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providedPasswordHash, err := algorithm.Hash(providedPassword, salt)
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if err != nil {
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log.Error("passwordhash: %v.Hash(): %v", algorithm.Specification, err)
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return false
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}
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// Compare it against the hashed password in constant-time.
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return subtle.ConstantTimeCompare([]byte(hashedPassword), []byte(providedPasswordHash)) == 1
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}
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var (
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lastNonDefaultAlgorithm atomic.Value
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availableHasherFactories = map[string]func(string) PasswordSaltHasher{}
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)
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// Register registers a PasswordSaltHasher with the availableHasherFactories
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// Caution: This is not thread safe.
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func Register[T PasswordSaltHasher](name string, newFn func(config string) T) {
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if _, has := availableHasherFactories[name]; has {
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panic(fmt.Errorf("duplicate registration of password salt hasher: %s", name))
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}
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availableHasherFactories[name] = func(config string) PasswordSaltHasher {
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n := newFn(config)
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return n
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}
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}
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// In early versions of gitea the password hash algorithm field of a user could be
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// empty. At that point the default was `pbkdf2` without configuration values
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//
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// Please note this is not the same as the DefaultAlgorithm which is used
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// to determine what an empty PASSWORD_HASH_ALGO setting in the app.ini means.
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// These are not the same even if they have the same apparent value and they mean different things.
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//
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// DO NOT COALESCE THESE VALUES
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const defaultEmptyHashAlgorithmSpecification = "pbkdf2"
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// Parse will convert the provided algorithm specification in to a PasswordHashAlgorithm
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// If the provided specification matches the DefaultHashAlgorithm Specification it will be
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// used.
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// In addition the last non-default hasher will be cached to help reduce the load from
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// parsing specifications.
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//
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// NOTE: No de-aliasing is done in this function, thus any specification which does not
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// contain a configuration will use the default values for that hasher. These are not
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// necessarily the same values as those obtained by dealiasing. This allows for
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// seamless backwards compatibility with the original configuration.
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//
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// To further labour this point, running `Parse("pbkdf2")` does not obtain the
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// same algorithm as setting `PASSWORD_HASH_ALGO=pbkdf2` in app.ini, nor is it intended to.
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// A user that has `password_hash_algo='pbkdf2'` in the db means get the original, unconfigured algorithm
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// Users will be migrated automatically as they log-in to have the complete specification stored
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// in their `password_hash_algo` fields by other code.
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func Parse(algorithmSpec string) *PasswordHashAlgorithm {
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if algorithmSpec == "" {
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algorithmSpec = defaultEmptyHashAlgorithmSpecification
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}
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if DefaultHashAlgorithm != nil && algorithmSpec == DefaultHashAlgorithm.Specification {
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return DefaultHashAlgorithm
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}
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ptr := lastNonDefaultAlgorithm.Load()
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if ptr != nil {
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hashAlgorithm, ok := ptr.(*PasswordHashAlgorithm)
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if ok && hashAlgorithm.Specification == algorithmSpec {
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return hashAlgorithm
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}
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}
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// Now convert the provided specification in to a hasherType +/- some configuration parameters
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vals := strings.SplitN(algorithmSpec, "$", 2)
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var hasherType string
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var config string
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if len(vals) == 0 {
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// This should not happen as algorithmSpec should not be empty
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// due to it being assigned to defaultEmptyHashAlgorithmSpecification above
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// but we should be absolutely cautious here
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return nil
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}
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hasherType = vals[0]
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if len(vals) > 1 {
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config = vals[1]
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}
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newFn, has := availableHasherFactories[hasherType]
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if !has {
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// unknown hasher type
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return nil
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}
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ph := newFn(config)
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if ph == nil {
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// The provided configuration is likely invalid - it will have been logged already
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// but we cannot hash safely
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return nil
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}
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hashAlgorithm := &PasswordHashAlgorithm{
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PasswordSaltHasher: ph,
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Specification: algorithmSpec,
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}
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lastNonDefaultAlgorithm.Store(hashAlgorithm)
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return hashAlgorithm
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}
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