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BRBIP32Sequence.c
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BRBIP32Sequence.c
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//
// BRBIP32Sequence.c
//
// Created by Aaron Voisine on 8/19/15.
// Copyright (c) 2015 breadwallet LLC
//
// Permission is hereby granted, free of charge, to any person obtaining a copy
// of this software and associated documentation files (the "Software"), to deal
// in the Software without restriction, including without limitation the rights
// to use, copy, modify, merge, publish, distribute, sublicense, and/or sell
// copies of the Software, and to permit persons to whom the Software is
// furnished to do so, subject to the following conditions:
//
// The above copyright notice and this permission notice shall be included in
// all copies or substantial portions of the Software.
//
// THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
// IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
// FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE
// AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
// LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM,
// OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN
// THE SOFTWARE.
#include "BRBIP32Sequence.h"
#include "BRCrypto.h"
#include <string.h>
#include <assert.h>
#define BIP32_SEED_KEY "Bitcoin seed"
#define BIP32_XPRV "\x04\x88\xAD\xE4"
#define BIP32_XPUB "\x04\x88\xB2\x1E"
// BIP32 is a scheme for deriving chains of addresses from a seed value
// https://github.com/bitcoin/bips/blob/master/bip-0032.mediawiki
// Private parent key -> private child key
//
// CKDpriv((kpar, cpar), i) -> (ki, ci) computes a child extended private key from the parent extended private key:
//
// - Check whether i >= 2^31 (whether the child is a hardened key).
// - If so (hardened child): let I = HMAC-SHA512(Key = cpar, Data = 0x00 || ser256(kpar) || ser32(i)).
// (Note: The 0x00 pads the private key to make it 33 bytes long.)
// - If not (normal child): let I = HMAC-SHA512(Key = cpar, Data = serP(point(kpar)) || ser32(i)).
// - Split I into two 32-byte sequences, IL and IR.
// - The returned child key ki is parse256(IL) + kpar (mod n).
// - The returned chain code ci is IR.
// - In case parse256(IL) >= n or ki = 0, the resulting key is invalid, and one should proceed with the next value for i
// (Note: this has probability lower than 1 in 2^127.)
//
static void _CKDpriv(UInt256 *k, UInt256 *c, uint32_t i) {
uint8_t buf[sizeof(BRECPoint) + sizeof(i)];
UInt512 I;
if (i & BIP32_HARD) {
buf[0] = 0;
UInt256Set(&buf[1], *k);
} else BRSecp256k1PointGen((BRECPoint *)buf, k);
UInt32SetBE(&buf[sizeof(BRECPoint)], i);
BRHMAC(&I, BRSHA512, sizeof(UInt512), c, sizeof(*c), buf, sizeof(buf)); // I = HMAC-SHA512(c, k|P(k) || i)
BRSecp256k1ModAdd(k, (UInt256 *)&I); // k = IL + k (mod n)
*c = *(UInt256 *)&I.u8[sizeof(UInt256)]; // c = IR
var_clean(&I);
mem_clean(buf, sizeof(buf));
}
// Public parent key -> public child key
//
// CKDpub((Kpar, cpar), i) -> (Ki, ci) computes a child extended public key from the parent extended public key.
// It is only defined for non-hardened child keys.
//
// - Check whether i >= 2^31 (whether the child is a hardened key).
// - If so (hardened child): return failure
// - If not (normal child): let I = HMAC-SHA512(Key = cpar, Data = serP(Kpar) || ser32(i)).
// - Split I into two 32-byte sequences, IL and IR.
// - The returned child key Ki is point(parse256(IL)) + Kpar.
// - The returned chain code ci is IR.
// - In case parse256(IL) >= n or Ki is the point at infinity, the resulting key is invalid, and one should proceed with
// the next value for i.
//
static void _CKDpub(BRECPoint *K, UInt256 *c, uint32_t i) {
uint8_t buf[sizeof(*K) + sizeof(i)];
UInt512 I;
if ((i & BIP32_HARD) != BIP32_HARD) { // can't derive private child key from public parent key
*(BRECPoint *)buf = *K;
UInt32SetBE(&buf[sizeof(*K)], i);
BRHMAC(&I, BRSHA512, sizeof(UInt512), c, sizeof(*c), buf, sizeof(buf)); // I = HMAC-SHA512(c, P(K) || i)
*c = *(UInt256 *)&I.u8[sizeof(UInt256)]; // c = IR
BRSecp256k1PointAdd(K, (UInt256 *)&I); // K = P(IL) + K
var_clean(&I);
mem_clean(buf, sizeof(buf));
}
}
// returns the master public key for the default BIP32 wallet layout - derivation path N(m/0H)
BRMasterPubKey BRBIP32MasterPubKey(const void *seed, size_t seedLen) {
BRMasterPubKey mpk = BR_MASTER_PUBKEY_NONE;
UInt512 I;
UInt256 secret, chain;
BRKey key;
assert(seed != NULL || seedLen == 0);
if (seed || seedLen == 0) {
BRHMAC(&I, BRSHA512, sizeof(UInt512), BIP32_SEED_KEY, strlen(BIP32_SEED_KEY), seed, seedLen);
secret = *(UInt256 *)&I;
chain = *(UInt256 *)&I.u8[sizeof(UInt256)];
var_clean(&I);
BRKeySetSecret(&key, &secret, 1);
mpk.fingerPrint = BRKeyHash160(&key).u32[0];
_CKDpriv(&secret, &chain, 0 | BIP32_HARD); // path m/0H
mpk.chainCode = chain;
BRKeySetSecret(&key, &secret, 1);
var_clean(&secret, &chain);
BRKeyPubKey(&key, &mpk.pubKey, sizeof(mpk.pubKey)); // path N(m/0H)
BRKeyClean(&key);
}
return mpk;
}
// writes the public key for path N(m/0H/chain/index) to pubKey
// returns number of bytes written, or pubKeyLen needed if pubKey is NULL
size_t BRBIP32PubKey(uint8_t *pubKey, size_t pubKeyLen, BRMasterPubKey mpk, uint32_t chain, uint32_t index) {
UInt256 chainCode = mpk.chainCode;
assert(memcmp(&mpk, &BR_MASTER_PUBKEY_NONE, sizeof(mpk)) != 0);
if (pubKey && sizeof(BRECPoint) <= pubKeyLen) {
*(BRECPoint *)pubKey = *(BRECPoint *)mpk.pubKey;
_CKDpub((BRECPoint *)pubKey, &chainCode, chain); // path N(m/0H/chain)
_CKDpub((BRECPoint *)pubKey, &chainCode, index); // index'th key in chain
var_clean(&chainCode);
}
return (! pubKey || sizeof(BRECPoint) <= pubKeyLen) ? sizeof(BRECPoint) : 0;
}
// sets the private key for path m/0H/chain/index to key
void BRBIP32PrivKey(BRKey *key, const void *seed, size_t seedLen, uint32_t chain, uint32_t index) {
BRBIP32PrivKeyPath(key, seed, seedLen, 3, 0 | BIP32_HARD, chain, index);
}
// sets the private key for path m/0H/chain/index to each element in keys
void BRBIP32PrivKeyList(BRKey keys[], size_t keysCount, const void *seed, size_t seedLen, uint32_t chain,
const uint32_t indexes[]) {
UInt512 I;
UInt256 secret, chainCode, s, c;
assert(keys != NULL || keysCount == 0);
assert(seed != NULL || seedLen == 0);
assert(indexes != NULL || keysCount == 0);
if (keys && keysCount > 0 && (seed || seedLen == 0) && indexes) {
BRHMAC(&I, BRSHA512, sizeof(UInt512), BIP32_SEED_KEY, strlen(BIP32_SEED_KEY), seed, seedLen);
secret = *(UInt256 *)&I;
chainCode = *(UInt256 *)&I.u8[sizeof(UInt256)];
var_clean(&I);
_CKDpriv(&secret, &chainCode, 0 | BIP32_HARD); // path m/0H
_CKDpriv(&secret, &chainCode, chain); // path m/0H/chain
for (size_t i = 0; i < keysCount; i++) {
s = secret;
c = chainCode;
_CKDpriv(&s, &c, indexes[i]); // index'th key in chain
BRKeySetSecret(&keys[i], &s, 1);
}
var_clean(&secret, &chainCode, &c, &s);
}
}
// sets the private key for the specified path to key
// depth is the number of arguments used to specify the path
void BRBIP32PrivKeyPath(BRKey *key, const void *seed, size_t seedLen, int depth, ...) {
va_list ap;
va_start(ap, depth);
BRBIP32vPrivKeyPath(key, seed, seedLen, depth, ap);
va_end(ap);
}
// sets the private key for the path specified by vlist to key
// depth is the number of arguments in vlist
void BRBIP32vPrivKeyPath(BRKey *key, const void *seed, size_t seedLen, int depth, va_list vlist) {
UInt512 I;
UInt256 secret, chainCode;
assert(key != NULL);
assert(seed != NULL || seedLen == 0);
assert(depth >= 0);
if (key && (seed || seedLen == 0)) {
BRHMAC(&I, BRSHA512, sizeof(UInt512), BIP32_SEED_KEY, strlen(BIP32_SEED_KEY), seed, seedLen);
secret = *(UInt256 *)&I;
chainCode = *(UInt256 *)&I.u8[sizeof(UInt256)];
var_clean(&I);
for (int i = 0; i < depth; i++) {
_CKDpriv(&secret, &chainCode, va_arg(vlist, uint32_t));
}
BRKeySetSecret(key, &secret, 1);
var_clean(&secret, &chainCode);
}
}
// writes the base58check encoded serialized master private key (xprv) to str
// returns number of bytes written including NULL terminator, or strLen needed if str is NULL
size_t BRBIP32SerializeMasterPrivKey(char *str, size_t strLen, const void *seed, size_t seedLen) {
// TODO: XXX implement
return 0;
}
// writes a master private key to seed given a base58check encoded serialized master private key (xprv)
// returns number of bytes written, or seedLen needed if seed is NULL
size_t BRBIP32ParseMasterPrivKey(void *seed, size_t seedLen, const char *str) {
// TODO: XXX implement
return 0;
}
// writes the base58check encoded serialized master public key (xpub) to str
// returns number of bytes written including NULL terminator, or strLen needed if str is NULL
size_t BRBIP32SerializeMasterPubKey(char *str, size_t strLen, BRMasterPubKey mpk) {
// TODO: XXX implement
return 0;
}
// returns a master public key give a base58check encoded serialized master public key (xpub)
BRMasterPubKey BRBIP32ParseMasterPubKey(const char *str) {
// TODO: XXX implement
return BR_MASTER_PUBKEY_NONE;
}
// key used for authenticated API calls, i.e. bitauth: https://github.com/bitpay/bitauth - path m/1H/0
void BRBIP32APIAuthKey(BRKey *key, const void *seed, size_t seedLen) {
BRBIP32PrivKeyPath(key, seed, seedLen, 2, 1 | BIP32_HARD, 0);
}
// key used for BitID: https://github.com/bitid/bitid/blob/master/BIP_draft.md
void BRBIP32BitIDKey(BRKey *key, const void *seed, size_t seedLen, uint32_t index, const char *uri) {
assert(key != NULL);
assert(seed != NULL || seedLen == 0);
assert(uri != NULL);
if (key && (seed || seedLen == 0) && uri) {
UInt256 hash;
size_t uriLen = strlen(uri);
uint8_t data[sizeof(index) + uriLen];
UInt32SetLE(data, index);
memcpy(&data[sizeof(index)], uri, uriLen);
BRSHA256(&hash, data, sizeof(data));
BRBIP32PrivKeyPath(key, seed, seedLen, 5, 13 | BIP32_HARD, UInt32GetLE(&hash.u32[0]) | BIP32_HARD,
UInt32GetLE(&hash.u32[1]) | BIP32_HARD, UInt32GetLE(&hash.u32[2]) | BIP32_HARD,
UInt32GetLE(&hash.u32[3]) | BIP32_HARD); // path m/13H/aH/bH/cH/dH
}
}