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92f516b1d4
For details see #1697
310 lines
9.1 KiB
Go
310 lines
9.1 KiB
Go
// Package scrypt provides a convenience wrapper around Go's existing scrypt package
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// that makes it easier to securely derive strong keys from weak
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// inputs (i.e. user passwords).
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// The package provides password generation, constant-time comparison and
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// parameter upgrading for scrypt derived keys.
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package scrypt
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import (
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"crypto/rand"
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"crypto/subtle"
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"encoding/hex"
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"errors"
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"fmt"
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"strconv"
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"strings"
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"time"
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"golang.org/x/crypto/scrypt"
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)
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// Constants
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const (
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maxInt = 1<<31 - 1
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minDKLen = 16 // the minimum derived key length in bytes.
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minSaltLen = 8 // the minimum allowed salt length in bytes.
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)
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// Params describes the input parameters to the scrypt
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// key derivation function as per Colin Percival's scrypt
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// paper: http://www.tarsnap.com/scrypt/scrypt.pdf
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type Params struct {
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N int // CPU/memory cost parameter (logN)
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R int // block size parameter (octets)
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P int // parallelisation parameter (positive int)
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SaltLen int // bytes to use as salt (octets)
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DKLen int // length of the derived key (octets)
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}
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// DefaultParams provides sensible default inputs into the scrypt function
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// for interactive use (i.e. web applications).
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// These defaults will consume approxmiately 16MB of memory (128 * r * N).
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// The default key length is 256 bits.
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var DefaultParams = Params{N: 16384, R: 8, P: 1, SaltLen: 16, DKLen: 32}
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// ErrInvalidHash is returned when failing to parse a provided scrypt
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// hash and/or parameters.
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var ErrInvalidHash = errors.New("scrypt: the provided hash is not in the correct format")
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// ErrInvalidParams is returned when the cost parameters (N, r, p), salt length
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// or derived key length are invalid.
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var ErrInvalidParams = errors.New("scrypt: the parameters provided are invalid")
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// ErrMismatchedHashAndPassword is returned when a password (hashed) and
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// given hash do not match.
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var ErrMismatchedHashAndPassword = errors.New("scrypt: the hashed password does not match the hash of the given password")
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// GenerateRandomBytes returns securely generated random bytes.
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// It will return an error if the system's secure random
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// number generator fails to function correctly, in which
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// case the caller should not continue.
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func GenerateRandomBytes(n int) ([]byte, error) {
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b := make([]byte, n)
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_, err := rand.Read(b)
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// err == nil only if len(b) == n
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if err != nil {
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return nil, err
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}
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return b, nil
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}
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// GenerateFromPassword returns the derived key of the password using the
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// parameters provided. The parameters are prepended to the derived key and
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// separated by the "$" character (0x24).
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// If the parameters provided are less than the minimum acceptable values,
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// an error will be returned.
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func GenerateFromPassword(password []byte, params Params) ([]byte, error) {
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salt, err := GenerateRandomBytes(params.SaltLen)
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if err != nil {
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return nil, err
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}
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if err := params.Check(); err != nil {
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return nil, err
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}
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// scrypt.Key returns the raw scrypt derived key.
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dk, err := scrypt.Key(password, salt, params.N, params.R, params.P, params.DKLen)
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if err != nil {
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return nil, err
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}
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// Prepend the params and the salt to the derived key, each separated
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// by a "$" character. The salt and the derived key are hex encoded.
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return []byte(fmt.Sprintf("%d$%d$%d$%x$%x", params.N, params.R, params.P, salt, dk)), nil
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}
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// CompareHashAndPassword compares a derived key with the possible cleartext
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// equivalent. The parameters used in the provided derived key are used.
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// The comparison performed by this function is constant-time. It returns nil
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// on success, and an error if the derived keys do not match.
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func CompareHashAndPassword(hash []byte, password []byte) error {
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// Decode existing hash, retrieve params and salt.
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params, salt, dk, err := decodeHash(hash)
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if err != nil {
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return err
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}
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// scrypt the cleartext password with the same parameters and salt
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other, err := scrypt.Key(password, salt, params.N, params.R, params.P, params.DKLen)
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if err != nil {
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return err
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}
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// Constant time comparison
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if subtle.ConstantTimeCompare(dk, other) == 1 {
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return nil
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}
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return ErrMismatchedHashAndPassword
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}
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// Check checks that the parameters are valid for input into the
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// scrypt key derivation function.
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func (p *Params) Check() error {
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// Validate N
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if p.N > maxInt || p.N <= 1 || p.N%2 != 0 {
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return ErrInvalidParams
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}
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// Validate r
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if p.R < 1 || p.R > maxInt {
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return ErrInvalidParams
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}
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// Validate p
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if p.P < 1 || p.P > maxInt {
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return ErrInvalidParams
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}
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// Validate that r & p don't exceed 2^30 and that N, r, p values don't
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// exceed the limits defined by the scrypt algorithm.
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if uint64(p.R)*uint64(p.P) >= 1<<30 || p.R > maxInt/128/p.P || p.R > maxInt/256 || p.N > maxInt/128/p.R {
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return ErrInvalidParams
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}
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// Validate the salt length
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if p.SaltLen < minSaltLen || p.SaltLen > maxInt {
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return ErrInvalidParams
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}
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// Validate the derived key length
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if p.DKLen < minDKLen || p.DKLen > maxInt {
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return ErrInvalidParams
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}
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return nil
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}
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// decodeHash extracts the parameters, salt and derived key from the
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// provided hash. It returns an error if the hash format is invalid and/or
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// the parameters are invalid.
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func decodeHash(hash []byte) (Params, []byte, []byte, error) {
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vals := strings.Split(string(hash), "$")
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// P, N, R, salt, scrypt derived key
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if len(vals) != 5 {
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return Params{}, nil, nil, ErrInvalidHash
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}
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var params Params
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var err error
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params.N, err = strconv.Atoi(vals[0])
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if err != nil {
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return params, nil, nil, ErrInvalidHash
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}
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params.R, err = strconv.Atoi(vals[1])
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if err != nil {
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return params, nil, nil, ErrInvalidHash
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}
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params.P, err = strconv.Atoi(vals[2])
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if err != nil {
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return params, nil, nil, ErrInvalidHash
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}
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salt, err := hex.DecodeString(vals[3])
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if err != nil {
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return params, nil, nil, ErrInvalidHash
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}
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params.SaltLen = len(salt)
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dk, err := hex.DecodeString(vals[4])
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if err != nil {
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return params, nil, nil, ErrInvalidHash
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}
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params.DKLen = len(dk)
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if err := params.Check(); err != nil {
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return params, nil, nil, err
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}
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return params, salt, dk, nil
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}
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// Cost returns the scrypt parameters used to generate the derived key. This
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// allows a package user to increase the cost (in time & resources) used as
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// computational performance increases over time.
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func Cost(hash []byte) (Params, error) {
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params, _, _, err := decodeHash(hash)
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return params, err
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}
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// Calibrate returns the hardest parameters, allowed by the given limits.
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// The returned params will not use more memory than the given (MiB);
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// will not take more time than the given timeout, but more than timeout/2.
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//
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//
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// The default timeout (when the timeout arg is zero) is 200ms.
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// The default memMiBytes (when memMiBytes is zero) is 16MiB.
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// The default parameters (when params == Params{}) is DefaultParams.
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func Calibrate(timeout time.Duration, memMiBytes int, params Params) (Params, error) {
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p := params
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if p.N == 0 || p.R == 0 || p.P == 0 || p.SaltLen == 0 || p.DKLen == 0 {
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p = DefaultParams
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} else if err := p.Check(); err != nil {
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return p, err
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}
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if timeout == 0 {
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timeout = 200 * time.Millisecond
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}
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if memMiBytes == 0 {
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memMiBytes = 16
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}
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salt, err := GenerateRandomBytes(p.SaltLen)
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if err != nil {
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return p, err
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}
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password := []byte("weakpassword")
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// r is fixed to 8 and should not be used to tune the memory usage
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// if the cache lines of future processors are bigger, then r should be increased
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// see: https://blog.filippo.io/the-scrypt-parameters/
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p.R = 8
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// Scrypt runs p independent mixing functions with a memory requirement of roughly
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// 128 * r * N. Depending on the implementation these can be run sequentially or parallel.
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// The go implementation runs them sequentially, therefore p can be used to adjust the execution time of scrypt.
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// we start with p=1 and only increase it if we have to
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p.P = 1
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// Memory usage is at least 128 * r * N, see
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// http://blog.ircmaxell.com/2014/03/why-i-dont-recommend-scrypt.html
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// or https://drupal.org/comment/4675994#comment-4675994
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// calculate N based on the desired memory usage
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memBytes := memMiBytes << 20
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p.N = 1
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for 128*int64(p.R)*int64(p.N) < int64(memBytes) {
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p.N <<= 1
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}
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p.N >>= 1
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// calculate the current execution time
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start := time.Now()
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if _, err := scrypt.Key(password, salt, p.N, p.R, p.P, p.DKLen); err != nil {
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return p, err
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}
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dur := time.Since(start)
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// reduce N if scrypt takes to long
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for dur > timeout {
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p.N >>= 1
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start = time.Now()
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if _, err := scrypt.Key(password, salt, p.N, p.R, p.P, p.DKLen); err != nil {
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return p, err
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}
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dur = time.Since(start)
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}
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// try to reach desired timeout by increasing p
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// the further away we are from timeout the bigger the steps should be
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for dur < timeout {
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// the theoretical optimal p; can not be used because of inaccurate measuring
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optimalP := int(int64(timeout) / (int64(dur) / int64(p.P)))
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if optimalP > p.P+1 {
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// use average between optimal p and current p
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p.P = (p.P + optimalP) / 2
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} else {
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p.P++
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}
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start = time.Now()
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if _, err := scrypt.Key(password, salt, p.N, p.R, p.P, p.DKLen); err != nil {
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return p, err
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}
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dur = time.Since(start)
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}
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// lower by one to get shorter duration than timeout
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p.P--
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return p, p.Check()
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}
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