//==============================================================================
// This file is part of Master Password.
// Copyright (c) 2011-2017, Maarten Billemont.
//
// Master Password is free software: you can redistribute it and/or modify
// it under the terms of the GNU General Public License as published by
// the Free Software Foundation, either version 3 of the License, or
// (at your option) any later version.
//
// Master Password is distributed in the hope that it will be useful,
// but WITHOUT ANY WARRANTY; without even the implied warranty of
// MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
// GNU General Public License for more details.
//
// You can find a copy of the GNU General Public License in the
// LICENSE file. Alternatively, see .
//==============================================================================
#include
#include
#include
#include "mpw-types.h"
#include "mpw-util.h"
#define MP_N 32768
#define MP_r 8
#define MP_p 2
static MPMasterKey mpw_masterKeyForUser_v1(const char *fullName, const char *masterPassword) {
const char *mpKeyScope = mpw_scopeForPurpose( MPKeyPurposeAuthentication );
trc( "algorithm: v%d\n", 1 );
trc( "fullName: %s (%zu)\n", fullName, mpw_utf8_strlen( fullName ) );
trc( "masterPassword: %s\n", masterPassword );
trc( "key scope: %s\n", mpKeyScope );
// Calculate the master key salt.
// masterKeySalt = mpKeyScope . #fullName . fullName
size_t masterKeySaltSize = 0;
uint8_t *masterKeySalt = NULL;
mpw_push_string( &masterKeySalt, &masterKeySaltSize, mpKeyScope );
mpw_push_int( &masterKeySalt, &masterKeySaltSize, htonl( mpw_utf8_strlen( fullName ) ) );
mpw_push_string( &masterKeySalt, &masterKeySaltSize, fullName );
if (!masterKeySalt) {
err( "Could not allocate master key salt: %s\n", strerror( errno ) );
return NULL;
}
trc( "masterKeySalt ID: %s\n", mpw_id_buf( masterKeySalt, masterKeySaltSize ) );
// Calculate the master key.
// masterKey = scrypt( masterPassword, masterKeySalt )
MPMasterKey masterKey = mpw_scrypt( MPMasterKeySize, masterPassword, masterKeySalt, masterKeySaltSize, MP_N, MP_r, MP_p );
mpw_free( masterKeySalt, masterKeySaltSize );
if (!masterKey) {
err( "Could not allocate master key: %s\n", strerror( errno ) );
return NULL;
}
trc( "masterKey ID: %s\n", mpw_id_buf( masterKey, MPMasterKeySize ) );
return masterKey;
}
static MPSiteKey mpw_siteKey_v1(
MPMasterKey masterKey, const char *siteName, const uint32_t siteCounter,
const MPKeyPurpose keyPurpose, const char *keyContext) {
const char *keyScope = mpw_scopeForPurpose( keyPurpose );
trc( "-- mpw_siteKey_v1\n" );
trc( "siteName: %s\n", siteName );
trc( "siteCounter: %d\n", siteCounter );
trc( "keyPurpose: %d\n", keyPurpose );
trc( "keyScope: %s, keyContext: %s\n", keyScope, keyContext? "": keyContext );
trc( "siteKey: hmac-sha256(masterKey, %s | %s | %s | %s | %s | %s)\n",
keyScope, mpw_hex_l( htonl( strlen( siteName ) ) ), siteName,
mpw_hex_l( htonl( siteCounter ) ),
mpw_hex_l( htonl( keyContext? strlen( keyContext ): 0 ) ), keyContext? "(null)": keyContext );
// Calculate the site seed.
// siteKey = hmac-sha256( masterKey, keyScope . #siteName . siteName . siteCounter . #keyContext . keyContext )
size_t siteSaltSize = 0;
uint8_t *siteSalt = NULL;
mpw_push_string( &siteSalt, &siteSaltSize, keyScope );
mpw_push_int( &siteSalt, &siteSaltSize, htonl( mpw_utf8_strlen( siteName ) ) );
mpw_push_string( &siteSalt, &siteSaltSize, siteName );
mpw_push_int( &siteSalt, &siteSaltSize, htonl( siteCounter ) );
if (keyContext) {
mpw_push_int( &siteSalt, &siteSaltSize, htonl( mpw_utf8_strlen( keyContext ) ) );
mpw_push_string( &siteSalt, &siteSaltSize, keyContext );
}
if (!siteSalt || !siteSaltSize) {
err( "Could not allocate site salt: %s\n", strerror( errno ) );
mpw_free( siteSalt, siteSaltSize );
return NULL;
}
trc( "siteSalt ID: %s\n", mpw_id_buf( siteSalt, siteSaltSize ) );
MPSiteKey siteKey = mpw_hmac_sha256( masterKey, MPMasterKeySize, siteSalt, siteSaltSize );
mpw_free( siteSalt, siteSaltSize );
if (!siteKey) {
err( "Could not allocate site key: %s\n", strerror( errno ) );
return NULL;
}
trc( "siteKey ID: %s\n", mpw_id_buf( siteKey, MPSiteKeySize ) );
return siteKey;
}
static const char *mpw_sitePassword_v1(
MPSiteKey siteKey, const MPPasswordType passwordType) {
trc( "-- mpw_sitePassword_v1\n" );
trc( "passwordType: %d\n", passwordType );
// Determine the template.
const char *template = mpw_templateForType( passwordType, siteKey[0] );
trc( "type %d, template: %s\n", passwordType, template );
if (!template)
return NULL;
if (strlen( template ) > MPSiteKeySize) {
err( "Template too long for password seed: %lu\n", strlen( template ) );
return NULL;
}
// Encode the password from the seed using the template.
char *const sitePassword = calloc( strlen( template ) + 1, sizeof( char ) );
for (size_t c = 0; c < strlen( template ); ++c) {
sitePassword[c] = mpw_characterFromClass( template[c], siteKey[c + 1] );
trc( "class %c, index %u (0x%02X) -> character: %c\n", template[c], siteKey[c + 1], siteKey[c + 1],
sitePassword[c] );
}
return sitePassword;
}
const char *mpw_encrypt_v1(
MPMasterKey masterKey, const char *plainText) {
return mpw_encrypt_v0( masterKey, plainText );
}
const char *mpw_decrypt_v1(
MPMasterKey masterKey, const char *cipherText) {
return mpw_decrypt_v0( masterKey, cipherText );
}