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caddy/vendor/github.com/jimstudt/http-authentication/basic/md5.go

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package basic
import (
"bytes"
"crypto/md5"
"fmt"
"strings"
)
type md5Password struct {
salt string
hashed string
}
// Accept valid MD5 encoded passwords
func AcceptMd5(src string) (EncodedPasswd, error) {
if !strings.HasPrefix(src, "$apr1$") {
return nil, nil
}
rest := strings.TrimPrefix(src, "$apr1$")
mparts := strings.SplitN(rest, "$", 2)
if len(mparts) != 2 {
return nil, fmt.Errorf("malformed md5 password: %s", src)
}
salt, hashed := mparts[0], mparts[1]
return &md5Password{salt, hashed}, nil
}
// Reject any MD5 encoded password
func RejectMd5(src string) (EncodedPasswd, error) {
if !strings.HasPrefix(src, "$apr1$") {
return nil, nil
}
return nil, fmt.Errorf("md5 password rejected: %s", src)
}
// This is the MD5 hashing function out of Apache's htpasswd program. The algorithm
// is insane, but we have to match it. Mercifully I found a PHP variant of it at
// http://stackoverflow.com/questions/2994637/how-to-edit-htpasswd-using-php
// in an answer. That reads better than the original C, and is easy to instrument.
// We will eventually go back to the original apr_md5.c for inspiration when the
// PHP gets too weird.
// The algorithm makes more sense if you imagine the original authors in a pub,
// drinking beer and rolling dice as the fundamental design process.
func apr1Md5(password string, salt string) string {
// start with a hash of password and salt
initBin := md5.Sum([]byte(password + salt + password))
// begin an initial string with hash and salt
initText := bytes.NewBufferString(password + "$apr1$" + salt)
// add crap to the string willy-nilly
for i := len(password); i > 0; i -= 16 {
lim := i
if lim > 16 {
lim = 16
}
initText.Write(initBin[0:lim])
}
// add more crap to the string willy-nilly
for i := len(password); i > 0; i >>= 1 {
if (i & 1) == 1 {
initText.WriteByte(byte(0))
} else {
initText.WriteByte(password[0])
}
}
// Begin our hashing in earnest using our initial string
bin := md5.Sum(initText.Bytes())
n := bytes.NewBuffer([]byte{})
for i := 0; i < 1000; i++ {
// prepare to make a new muddle
n.Reset()
// alternate password+crap+bin with bin+crap+password
if (i & 1) == 1 {
n.WriteString(password)
} else {
n.Write(bin[:])
}
// usually add the salt, but not always
if i%3 != 0 {
n.WriteString(salt)
}
// usually add the password but not always
if i%7 != 0 {
n.WriteString(password)
}
// the back half of that alternation
if (i & 1) == 1 {
n.Write(bin[:])
} else {
n.WriteString(password)
}
// replace bin with the md5 of this muddle
bin = md5.Sum(n.Bytes())
}
// At this point we stop transliterating the PHP code and flip back to
// reading the Apache source. The PHP uses their base64 library, but that
// uses the wrong character set so needs to be repaired afterwards and reversed
// and it is just really weird to read.
result := bytes.NewBuffer([]byte{})
// This is our own little similar-to-base64-but-not-quite filler
fill := func(a byte, b byte, c byte) {
v := (uint(a) << 16) + (uint(b) << 8) + uint(c) // take our 24 input bits
for i := 0; i < 4; i++ { // and pump out a character for each 6 bits
result.WriteByte("./0123456789ABCDEFGHIJKLMNOPQRSTUVWXYZabcdefghijklmnopqrstuvwxyz"[v&0x3f])
v >>= 6
}
}
// The order of these indices is strange, be careful
fill(bin[0], bin[6], bin[12])
fill(bin[1], bin[7], bin[13])
fill(bin[2], bin[8], bin[14])
fill(bin[3], bin[9], bin[15])
fill(bin[4], bin[10], bin[5]) // 5? Yes.
fill(0, 0, bin[11])
resultString := string(result.Bytes()[0:22]) // we wrote two extras since we only need 22.
return resultString
}
func (m *md5Password) MatchesPassword(pw string) bool {
hashed := apr1Md5(pw, m.salt)
return constantTimeEquals(hashed, m.hashed)
}