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restic/vendor/github.com/elithrar/simple-scrypt/README.md

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# simple-scrypt
[![GoDoc](https://godoc.org/github.com/elithrar/simple-scrypt?status.svg)](https://godoc.org/github.com/elithrar/simple-scrypt) [![Build Status](https://travis-ci.org/elithrar/simple-scrypt.svg?branch=master)](https://travis-ci.org/elithrar/simple-scrypt)
simple-scrypt provides a convenience wrapper around Go's existing
[scrypt](http://golang.org/x/crypto/scrypt) package that makes it easier to
securely derive strong keys ("hash user passwords"). This library allows you to:
* Generate a scrypt derived key with a crytographically secure salt and sane
default parameters for N, r and p.
* Upgrade the parameters used to generate keys as hardware improves by storing
them with the derived key (the scrypt spec. doesn't allow for this by
default).
* Provide your own parameters (if you wish to).
The API closely mirrors Go's [bcrypt](https://golang.org/x/crypto/bcrypt)
library in an effort to make it easy to migrate—and because it's an easy to grok
API.
## Example
simple-scrypt doesn't try to re-invent the wheel or do anything "special". It
wraps the `scrypt.Key` function as thinly as possible, generates a
crytographically secure salt for you using Go's `crypto/rand` package, and
returns the derived key with the parameters prepended:
```go
package main
import(
"fmt"
"log"
"github.com/elithrar/simple-scrypt"
)
func main() {
// e.g. r.PostFormValue("password")
passwordFromForm := "prew8fid9hick6c"
// Generates a derived key of the form "N$r$p$salt$dk" where N, r and p are defined as per
// Colin Percival's scrypt paper: http://www.tarsnap.com/scrypt/scrypt.pdf
// scrypt.Defaults (N=16384, r=8, p=1) makes it easy to provide these parameters, and
// (should you wish) provide your own values via the scrypt.Params type.
hash, err := scrypt.GenerateFromPassword([]byte(passwordFromForm), scrypt.DefaultParams)
if err != nil {
log.Fatal(err)
}
// Print the derived key with its parameters prepended.
fmt.Printf("%s\n", hash)
// Uses the parameters from the existing derived key. Return an error if they don't match.
err := scrypt.CompareHashAndPassword(hash, []byte(passwordFromForm))
if err != nil {
log.Fatal(err)
}
}
```
## Upgrading Parameters
Upgrading derived keys from a set of parameters to a "stronger" set of parameters
as hardware improves, or as you scale (and move your auth process to separate
hardware), can be pretty useful. Here's how to do it with simple-scrypt:
```go
func main() {
// SCENE: We've successfully authenticated a user, compared their submitted
// (cleartext) password against the derived key stored in our database, and
// now want to upgrade the parameters (more rounds, more parallelism) to
// reflect some shiny new hardware we just purchased. As the user is logging
// in, we can retrieve the parameters used to generate their key, and if
// they don't match our "new" parameters, we can re-generate the key while
// we still have the cleartext password in memory
// (e.g. before the HTTP request ends).
current, err := scrypt.Cost(hash)
if err != nil {
log.Fatal(err)
}
// Now to check them against our own Params struct (e.g. using reflect.DeepEquals)
// and determine whether we want to generate a new key with our "upgraded" parameters.
slower := scrypt.Params{
N: 32768,
R: 8,
P: 2,
SaltLen: 16,
DKLen: 32,
}
if !reflect.DeepEqual(current, slower) {
// Re-generate the key with the slower parameters
// here using scrypt.GenerateFromPassword
}
}
```
## TO-DO:
The following features are planned. PRs are welcome.
- [x] Tag a release build.
- [x] Automatically calculate "optimal" values for N, r, p similar [to the Ruby scrypt library](https://github.com/pbhogan/scrypt/blob/master/lib/scrypt.rb#L97-L146)
e.g. `func Calibrate(duration int, mem int, fallback Params) (Params, error)`
- contributed thanks to @tgulacsi.
## License
MIT Licensed. See LICENSE file for details.