mirror of
https://github.com/cheat/cheat.git
synced 2024-11-24 06:51:36 +01:00
80c91cbdee
Integrate `go-git` into the application, and use it to `git clone` cheatsheets when the installer runs. Previously, the installer required that `git` be installed on the system `PATH`, so this change has to big advantages: 1. It removes that system dependency on `git` 2. It paves the way for implementing the `--update` command Additionally, `cheat` now performs a `--depth=1` clone when installing cheatsheets, which should at least somewhat improve installation times (especially on slow network connections).
172 lines
5.4 KiB
Go
172 lines
5.4 KiB
Go
// Package ecc implements a generic interface for ECDH, ECDSA, and EdDSA.
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package ecc
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import (
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"crypto/subtle"
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"io"
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"github.com/ProtonMail/go-crypto/openpgp/errors"
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x25519lib "github.com/cloudflare/circl/dh/x25519"
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)
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type curve25519 struct {}
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func NewCurve25519() *curve25519 {
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return &curve25519{}
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}
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func (c *curve25519) GetCurveName() string {
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return "curve25519"
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}
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// MarshalBytePoint encodes the public point from native format, adding the prefix.
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// See https://datatracker.ietf.org/doc/html/draft-ietf-openpgp-crypto-refresh-06#section-5.5.5.6
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func (c *curve25519) MarshalBytePoint(point [] byte) []byte {
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return append([]byte{0x40}, point...)
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}
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// UnmarshalBytePoint decodes the public point to native format, removing the prefix.
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// See https://datatracker.ietf.org/doc/html/draft-ietf-openpgp-crypto-refresh-06#section-5.5.5.6
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func (c *curve25519) UnmarshalBytePoint(point []byte) []byte {
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if len(point) != x25519lib.Size + 1 {
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return nil
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}
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// Remove prefix
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return point[1:]
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}
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// MarshalByteSecret encodes the secret scalar from native format.
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// Note that the EC secret scalar differs from the definition of public keys in
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// [Curve25519] in two ways: (1) the byte-ordering is big-endian, which is
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// more uniform with how big integers are represented in OpenPGP, and (2) the
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// leading zeros are truncated.
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// See https://datatracker.ietf.org/doc/html/draft-ietf-openpgp-crypto-refresh-06#section-5.5.5.6.1.1
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// Note that leading zero bytes are stripped later when encoding as an MPI.
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func (c *curve25519) MarshalByteSecret(secret []byte) []byte {
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d := make([]byte, x25519lib.Size)
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copyReversed(d, secret)
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// The following ensures that the private key is a number of the form
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// 2^{254} + 8 * [0, 2^{251}), in order to avoid the small subgroup of
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// the curve.
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//
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// This masking is done internally in the underlying lib and so is unnecessary
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// for security, but OpenPGP implementations require that private keys be
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// pre-masked.
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d[0] &= 127
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d[0] |= 64
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d[31] &= 248
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return d
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}
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// UnmarshalByteSecret decodes the secret scalar from native format.
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// Note that the EC secret scalar differs from the definition of public keys in
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// [Curve25519] in two ways: (1) the byte-ordering is big-endian, which is
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// more uniform with how big integers are represented in OpenPGP, and (2) the
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// leading zeros are truncated.
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// See https://datatracker.ietf.org/doc/html/draft-ietf-openpgp-crypto-refresh-06#section-5.5.5.6.1.1
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func (c *curve25519) UnmarshalByteSecret(d []byte) []byte {
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if len(d) > x25519lib.Size {
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return nil
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}
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// Ensure truncated leading bytes are re-added
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secret := make([]byte, x25519lib.Size)
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copyReversed(secret, d)
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return secret
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}
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// generateKeyPairBytes Generates a private-public key-pair.
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// 'priv' is a private key; a little-endian scalar belonging to the set
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// 2^{254} + 8 * [0, 2^{251}), in order to avoid the small subgroup of the
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// curve. 'pub' is simply 'priv' * G where G is the base point.
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// See https://cr.yp.to/ecdh.html and RFC7748, sec 5.
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func (c *curve25519) generateKeyPairBytes(rand io.Reader) (priv, pub x25519lib.Key, err error) {
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_, err = io.ReadFull(rand, priv[:])
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if err != nil {
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return
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}
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x25519lib.KeyGen(&pub, &priv)
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return
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}
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func (c *curve25519) GenerateECDH(rand io.Reader) (point []byte, secret []byte, err error) {
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priv, pub, err := c.generateKeyPairBytes(rand)
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if err != nil {
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return
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}
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return pub[:], priv[:], nil
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}
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func (c *genericCurve) MaskSecret(secret []byte) []byte {
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return secret
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}
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func (c *curve25519) Encaps(rand io.Reader, point []byte) (ephemeral, sharedSecret []byte, err error) {
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// RFC6637 §8: "Generate an ephemeral key pair {v, V=vG}"
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// ephemeralPrivate corresponds to `v`.
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// ephemeralPublic corresponds to `V`.
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ephemeralPrivate, ephemeralPublic, err := c.generateKeyPairBytes(rand)
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if err != nil {
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return nil, nil, err
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}
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// RFC6637 §8: "Obtain the authenticated recipient public key R"
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// pubKey corresponds to `R`.
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var pubKey x25519lib.Key
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copy(pubKey[:], point)
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// RFC6637 §8: "Compute the shared point S = vR"
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// "VB = convert point V to the octet string"
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// sharedPoint corresponds to `VB`.
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var sharedPoint x25519lib.Key
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x25519lib.Shared(&sharedPoint, &ephemeralPrivate, &pubKey)
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return ephemeralPublic[:], sharedPoint[:], nil
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}
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func (c *curve25519) Decaps(vsG, secret []byte) (sharedSecret []byte, err error) {
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var ephemeralPublic, decodedPrivate, sharedPoint x25519lib.Key
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// RFC6637 §8: "The decryption is the inverse of the method given."
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// All quoted descriptions in comments below describe encryption, and
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// the reverse is performed.
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// vsG corresponds to `VB` in RFC6637 §8 .
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// RFC6637 §8: "VB = convert point V to the octet string"
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copy(ephemeralPublic[:], vsG)
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// decodedPrivate corresponds to `r` in RFC6637 §8 .
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copy(decodedPrivate[:], secret)
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// RFC6637 §8: "Note that the recipient obtains the shared secret by calculating
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// S = rV = rvG, where (r,R) is the recipient's key pair."
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// sharedPoint corresponds to `S`.
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x25519lib.Shared(&sharedPoint, &decodedPrivate, &ephemeralPublic)
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return sharedPoint[:], nil
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}
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func (c *curve25519) ValidateECDH(point []byte, secret []byte) (err error) {
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var pk, sk x25519lib.Key
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copy(sk[:], secret)
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x25519lib.KeyGen(&pk, &sk)
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if subtle.ConstantTimeCompare(point, pk[:]) == 0 {
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return errors.KeyInvalidError("ecc: invalid curve25519 public point")
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}
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return nil
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}
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func copyReversed(out []byte, in []byte) {
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l := len(in)
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for i := 0; i < l; i++ {
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out[i] = in[l-i-1]
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}
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}
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