/*
This file is part of Pretty Curved Privacy (pcp1).
Copyright (C) 2013-2014 T.v.Dein.
This program 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.
This program 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 should have received a copy of the GNU General Public License
along with this program. If not, see .
You can contact me by mail: .
*/
#include "key.h"
#include "keyhash.h"
/*
* AS of 16/01/2014 I'm using scrypt() instead of my crafted key
* derivation function. However, I create a hash from the pcp_scrypt()
* result anyway because I need a cure25519 secret.
*/
byte *pcp_derivekey(char *passphrase, byte *nonce) {
byte *key = ucmalloc(crypto_secretbox_KEYBYTES);
size_t plen = strnlen(passphrase, 255);
/* create the scrypt hash */
byte *scrypted = pcp_scrypt(passphrase, plen, nonce, crypto_secretbox_NONCEBYTES);
/* make a hash from the scrypt() result */
crypto_hash_sha256(key, (byte*)scrypted, 64);
/* turn the 32byte hash into a secret key */
key[0] &= 248;
key[31] &= 127;
key[31] |= 64;
/* disabled, must be done outside
memset(passphrase, 0, plen); */
return key;
}
char *pcp_getkeyid(pcp_key_t *k) {
uint32_t s, p;
p = jen_hash(k->pub, 32, JEN_PSALT);
s = jen_hash(k->edpub, 32, JEN_SSALT);
char *id = ucmalloc(17);
snprintf(id, 17, "%08X%08X", p, s);
return id;
}
/* same as above but for imported pbp keys */
char *pcp_getpubkeyid(pcp_pubkey_t *k) {
uint32_t s, p;
p = jen_hash(k->pub, 32, JEN_PSALT);
s = jen_hash(k->edpub, 32, JEN_SSALT);
char *id = ucmalloc(17);
snprintf(id, 17, "%08X%08X", p, s);
return id;
}
void pcp_keypairs(byte *msk, byte *mpk, byte *csk, byte *cpk, byte *esk, byte *epk) {
/* generate keypairs from random seed */
byte *ms = urmalloc(32);
byte *ss = urmalloc(32);
byte *cs = urmalloc(32);
/* ed25519 master key */
crypto_sign_seed_keypair(mpk, msk, ms);
/* ed25519 signing key */
crypto_sign_seed_keypair(epk, esk, ss);
/* curve25519 secret key */
memcpy(csk, cs, 32);
csk[0] &= 248;
csk[31] &= 63;
csk[31] |= 64;
/* curve25519 public key */
crypto_scalarmult_curve25519_base(cpk, csk);
ucfree(ms, 32);
ucfree(ss, 32);
ucfree(cs, 32);
}
pcp_key_t * pcpkey_new () {
byte *mp = ucmalloc(32);
byte *ms = ucmalloc(64);
byte *sp = ucmalloc(32);
byte *ss = ucmalloc(64);
byte *cp = ucmalloc(32);
byte *cs = ucmalloc(32);
/* generate key material */
pcp_keypairs(ms, mp, cs, cp, ss, sp);
/* fill in our struct */
pcp_key_t *key = urmalloc(sizeof(pcp_key_t));
memcpy (key->masterpub, mp, 32);
memcpy (key->mastersecret, ms, 64);
memcpy (key->pub, cp, 32);
memcpy (key->secret, cs, 32);
memcpy (key->edpub, sp, 32);
memcpy (key->edsecret, ss, 64);
memcpy (key->id, pcp_getkeyid(key), 17);
key->ctime = (long)time(0);
key->version = PCP_KEY_VERSION;
key->serial = arc4random();
key->type = PCP_KEY_TYPE_SECRET;
key->owner[0] = '\0';
key->mail[0] = '\0';
/* clean up */
ucfree(ms, 64);
ucfree(ss, 64);
ucfree(mp, 32);
ucfree(sp, 32);
ucfree(cs, 32);
ucfree(cp, 32);
return key;
}
byte * pcp_gennonce() {
byte *nonce = ucmalloc(crypto_secretbox_NONCEBYTES);
arc4random_buf(nonce, crypto_secretbox_NONCEBYTES);
return nonce;
}
pcp_key_t *pcpkey_encrypt(pcp_key_t *key, char *passphrase) {
if(key->nonce[0] == 0) {
byte *nonce = pcp_gennonce();
memcpy (key->nonce, nonce, crypto_secretbox_NONCEBYTES);
}
byte *encryptkey = pcp_derivekey(passphrase, key->nonce);
byte *encrypted;
size_t es;
Buffer *both = buffer_new(128, "keypack");
buffer_add(both, key->mastersecret, 64);
buffer_add(both, key->edsecret, 64);
buffer_add(both, key->secret, 32);
es = pcp_sodium_mac(&encrypted, buffer_get(both), buffer_size(both), key->nonce, encryptkey);
memset(encryptkey, 0, 32);
buffer_free(both);
free(encryptkey);
if(es == 176) {
/* success */
memcpy(key->encrypted, encrypted, 176);
arc4random_buf(key->secret, 32);
arc4random_buf(key->edsecret, 64);
arc4random_buf(key->mastersecret, 64);
key->secret[0] = 0;
key->edsecret[0] = 0;
key->mastersecret[0] = 0;
}
else {
fatal("failed to encrypt the secret key!\n");
free(key);
return NULL;
}
return key;
}
pcp_key_t *pcpkey_decrypt(pcp_key_t *key, char *passphrase) {
byte *encryptkey = pcp_derivekey(passphrase, key->nonce);
byte *decrypted;
size_t es;
es = pcp_sodium_verify_mac(&decrypted, key->encrypted, 176, key->nonce, encryptkey);
memset(encryptkey, 0, 32);
free(encryptkey);
if(es == 0) {
/* success */
memcpy(key->mastersecret, decrypted, 64);
memcpy(key->edsecret, decrypted + 64, 64);
memcpy(key->secret, decrypted +128, 32);
}
else {
fatal("failed to decrypt the secret key (got %d, expected 32)!\n", es);
free(key);
return NULL;
}
return key;
}
pcp_pubkey_t *pcpkey_pub_from_secret(pcp_key_t *key) {
/* pcp_dumpkey(key); */
pcp_pubkey_t *pub = urmalloc(sizeof (pcp_pubkey_t));
memcpy(pub->masterpub, key->masterpub, 32);
memcpy(pub->pub, key->pub, 32);
memcpy(pub->edpub, key->edpub, 32);
memcpy(pub->owner, key->owner, 255);
memcpy(pub->mail, key->mail, 255);
memcpy(pub->id, key->id, 17);
pub->version = key->version;
pub->type = PCP_KEY_TYPE_PUBLIC;
pub->ctime = key->ctime;
pub->serial = key->serial;
return pub;
}
char *pcppubkey_get_art(pcp_pubkey_t *k) {
char *r = key_fingerprint_randomart(k->pub, sizeof(k));
return r;
}
char *pcpkey_get_art(pcp_key_t *k) {
char *r = key_fingerprint_randomart(k->pub, sizeof(k));
return r;
}
byte *pcppubkey_getchecksum(pcp_pubkey_t *k) {
byte *hash = ucmalloc(32);
crypto_hash_sha256(hash, k->pub, 32);
return hash;
}
byte *pcpkey_getchecksum(pcp_key_t *k) {
byte *hash = ucmalloc(32);
crypto_hash_sha256(hash, k->pub, 32);
return hash;
}
pcp_key_t * key2be(pcp_key_t *k) {
#ifdef __CPU_IS_BIG_ENDIAN
return k;
#else
uint32_t version = k->version;
byte* p = (byte*)&version;
if(p[0] != 0) {
k->version = htobe32(k->version);
k->serial = htobe32(k->serial);
k->ctime = htobe64(k->ctime);
}
return k;
#endif
}
pcp_key_t *key2native(pcp_key_t *k) {
#ifdef __CPU_IS_BIG_ENDIAN
return k;
#else
k->version = be32toh(k->version);
k->serial = be32toh(k->serial);
k->ctime = be64toh(k->ctime);
return k;
#endif
}
pcp_pubkey_t * pubkey2be(pcp_pubkey_t *k) {
#ifdef __CPU_IS_BIG_ENDIAN
return k;
#else
uint32_t version = k->version;
byte* p = (byte*)&version;
if(p[0] != 0) {
k->version = htobe32(k->version);
k->serial = htobe32(k->serial);
k->ctime = htobe64(k->ctime);
}
return k;
#endif
}
pcp_pubkey_t *pubkey2native(pcp_pubkey_t *k) {
#ifdef __CPU_IS_BIG_ENDIAN
return k;
#else
k->version = be32toh(k->version);
k->serial = be32toh(k->serial);
k->ctime = be64toh(k->ctime);
return k;
#endif
}
void pcp_seckeyblob(void *blob, pcp_key_t *k) {
memcpy(blob, k, PCP_RAW_KEYSIZE);
}
void pcp_pubkeyblob(void *blob, pcp_pubkey_t *k) {
memcpy(blob, k, PCP_RAW_PUBKEYSIZE);
}
void *pcp_keyblob(void *k, int type) {
void *blob;
if(type == PCP_KEY_TYPE_PUBLIC) {
blob = ucmalloc(PCP_RAW_PUBKEYSIZE);
pcp_pubkeyblob(blob, (pcp_pubkey_t *)k);
}
else {
blob = ucmalloc(PCP_RAW_KEYSIZE);
pcp_seckeyblob(blob, (pcp_key_t *)k);
}
return blob;
}
int pcp_sanitycheck_pub(pcp_pubkey_t *key) {
if(key->pub[0] == 0) {
fatal("Pubkey sanity check: public key contained in key seems to be empty!\n");
return 1;
}
if(key->type != PCP_KEY_TYPE_PUBLIC) {
fatal("Pubkey sanity check: key type is not PUBLIC (expected: %02x, got: %02x)!\n",
PCP_KEY_TYPE_PUBLIC, key->type);
return 1;
}
if(key->version != PCP_KEY_VERSION) {
fatal("Pubkey sanity check: unknown key version (expected: %08X, got: %08X)!\n",
PCP_KEY_VERSION, key->version);
return 1;
}
if(key->serial <= 0) {
fatal("Pubkey sanity check: invalid serial number: %08X!\n", key->serial);
return 1;
}
if(key->id[16] != '\0') {
char *got = ucmalloc(17);
memcpy(got, key->id, 17);
got[16] = '\0';
fatal("Pubkey sanity check: invalid key id (expected 16 bytes, got: %s)!\n", got);
free(got);
return 1;
}
struct tm *c;
time_t t = (time_t)key->ctime;
c = localtime(&t);
if(c->tm_year <= 0 || c->tm_year > 1100) {
/* well, I'm perhaps overacting here :) */
fatal("Pubkey sanity check: invalid creation timestamp (got year %04d)!\n", c->tm_year + 1900);
return 1;
}
pcp_pubkey_t *maybe = pcphash_pubkeyexists(key->id);
if(maybe != NULL) {
fatal("Pubkey sanity check: there already exists a key with the id 0x%s\n", key->id);
return 1;
}
return 0;
}
int pcp_sanitycheck_key(pcp_key_t *key) {
if(key->encrypted[0] == 0) {
fatal("Secretkey sanity check: secret key contained in key seems to be empty!\n");
return 1;
}
if(key->type != PCP_KEY_TYPE_SECRET && key->type != PCP_KEY_TYPE_MAINSECRET) {
fatal("Secretkey sanity check: key type is not SECRET (expected: %02x, got: %02x)!\n",
PCP_KEY_TYPE_SECRET, key->type);
return 1;
}
if(key->version != PCP_KEY_VERSION) {
fatal("Secretkey sanity check: unknown key version (expected: %08X, got: %08X)!\n",
PCP_KEY_VERSION, key->version);
return 1;
}
if(key->serial <= 0) {
fatal("Secretkey sanity check: invalid serial number: %08X!\n", key->serial);
return 1;
}
if(key->id[16] != '\0') {
char *got = ucmalloc(17);
memcpy(got, key->id, 17);
got[16] = '\0';
fatal("Secretkey sanity check: invalid key id (expected 16 bytes, got: %s)!\n", got);
free(got);
return 1;
}
struct tm *c;
time_t t = (time_t)key->ctime;
c = localtime(&t);
if(c->tm_year <= 0 || c->tm_year > 1100) {
/* well, I'm perhaps overacting here :) */
fatal("Secretkey sanity check: invalid creation timestamp (got year %04d)!\n", c->tm_year + 1900);
return 1;
}
pcp_key_t *maybe = pcphash_keyexists(key->id);
if(maybe != NULL) {
fatal("Secretkey sanity check: there already exists a key with the id 0x%s\n", key->id);
return 1;
}
return 0;
}
void pcp_dumpkey(pcp_key_t *k) {
int i;
printf("Dumping pcp_key_t raw values:\n");
printf("masterpub: ");
for ( i = 0;i < 32;++i) printf("%02x",(unsigned int) k->masterpub[i]);
printf("\n");
printf(" public: ");
for ( i = 0;i < 32;++i) printf("%02x",(unsigned int) k->pub[i]);
printf("\n");
printf(" edpub: ");
for ( i = 0;i < 32;++i) printf("%02x",(unsigned int) k->edpub[i]);
printf("\n");
printf("mastersec: ");
for ( i = 0;i < 32;++i) printf("%02x",(unsigned int) k->mastersecret[i]);
printf("\n");
printf(" secret: ");
for ( i = 0;i < 32;++i) printf("%02x",(unsigned int) k->secret[i]);
printf("\n");
printf(" edsecret: ");
for ( i = 0;i < 64;++i) printf("%02x",(unsigned int) k->edsecret[i]);
printf("\n");
printf(" nonce: ");
for ( i = 0;i < 24;++i) printf("%02x",(unsigned int) k->nonce[i]);
printf("\n");
printf("encrypted: ");
for ( i = 0;i < 80;++i) printf("%02x",(unsigned int) k->encrypted[i]);
printf("\n");
printf(" owner: %s\n", k->owner);
printf(" mail: %s\n", k->mail);
printf(" id: %s\n", k->id);
printf(" ctime: %ld\n", (long int)k->ctime);
printf(" version: 0x%08X\n", k->version);
printf(" serial: 0x%08X\n", k->serial);
printf(" type: 0x%02X\n", k->type);
}
void pcp_dumppubkey(pcp_pubkey_t *k) {
int i;
printf("Dumping pcp_pubkey_t raw values:\n");
printf("masterpub: ");
for ( i = 0;i < 32;++i) printf("%02x",(unsigned int) k->masterpub[i]);
printf("\n");
printf(" public: ");
for ( i = 0;i < 32;++i) printf("%02x",(unsigned int) k->pub[i]);
printf("\n");
printf(" edpub: ");
for ( i = 0;i < 32;++i) printf("%02x",(unsigned int) k->edpub[i]);
printf("\n");
printf(" owner: %s\n", k->owner);
printf(" mail: %s\n", k->mail);
printf(" id: %s\n", k->id);
printf(" ctime: %ld\n", (long int)k->ctime);
printf(" version: 0x%08X\n", k->version);
printf(" serial: 0x%08X\n", k->serial);
printf(" type: 0x%02X\n", k->type);
}