C++
C++
BIP39 Compute Binary Seed from Mnemonic
See more Encryption Examples
Creates a binary seed from a mnemonic. Uses the PBKDF2 function with a mnemonic sentence (in UTF-8 NFKD) used as the password and the string "mnemonic" + passphrase (again in UTF-8 NFKD) used as the salt. The iteration count is set to 2048 and HMAC-SHA512 is used as the pseudo-random function. The length of the derived key is 512 bits (= 64 bytes).Chilkat C++ Downloads
#include <CkCrypt2.h>
#include <CkBinData.h>
void ChilkatSample(void)
{
// This example assumes the Chilkat API to have been previously unlocked.
// See Global Unlock Sample for sample code.
CkCrypt2 crypt;
// Test with the test vectors at https://github.com/trezor/python-mnemonic/blob/master/vectors.json
// This is the 2nd test vector..
const char *mnemonic = "legal winner thank year wave sausage worth useful legal winner thank yellow";
const char *passphrase = "TREZOR";
const char *expectedSeed = "2e8905819b8723fe2c1d161860e5ee1830318dbf49a83bd451cfb8440c28bd6fa457fe1296106559a3c80937a1c1069be3a3a5bd381ee6260e8d9739fce1f607";
const char *expectedMasterKey = "xprv9s21ZrQH143K2gA81bYFHqU68xz1cX2APaSq5tt6MFSLeXnCKV1RVUJt9FWNTbrrryem4ZckN8k4Ls1H6nwdvDTvnV7zEXs2HgPezuVccsq";
// The mnemonic sentence (in UTF-8 NFKD) used as the password.
// The string "mnemonic" + passphrase (again in UTF-8 NFKD) used as the salt.
// The iteration count is set to 2048 and HMAC-SHA512 is used as the pseudo-random function.
// The length of the derived key is 512 bits (= 64 bytes).
// We want the computed seed to be lowercase hex, therefore our salt must also be hex.
// The seed is the keyword "mnemonic" + passphrase (in this case is "TREZOR") converted to hex.
CkBinData bdSalt;
bdSalt.AppendString("mnemonic","utf-8");
bdSalt.AppendString(passphrase,"utf-8");
const char *computedSeed = crypt.pbkdf2(mnemonic,"utf-8","sha512",bdSalt.getEncoded("hex_lower"),2048,512,"hex_lower");
std::cout << "Expected: " << expectedSeed << "\r\n";
std::cout << "Computed: " << computedSeed << "\r\n";
// To compute the hd_master_key, duplicate this Python code:
// def to_hd_master_key(seed: bytes, testnet: bool = False) -> str:
// if len(seed) != 64:
// raise ValueError("Provided seed should have length of 64")
//
// # Compute HMAC-SHA512 of seed
// seed = hmac.new(b"Bitcoin seed", seed, digestmod=hashlib.sha512).digest()
//
// # Serialization format can be found at: https://github.com/bitcoin/bips/blob/master/bip-0032.mediawiki#Serialization_format
// xprv = b"\x04\x88\xad\xe4" # Version for private mainnet
// if testnet:
// xprv = b"\x04\x35\x83\x94" # Version for private testnet
// xprv += b"\x00" * 9 # Depth, parent fingerprint, and child number
// xprv += seed[32:] # Chain code
// xprv += b"\x00" + seed[:32] # Master key
//
// # Double hash using SHA256
// hashed_xprv = hashlib.sha256(xprv).digest()
// hashed_xprv = hashlib.sha256(hashed_xprv).digest()
//
// # Append 4 bytes of checksum
// xprv += hashed_xprv[:4]
//
// # Return base58
// return b58encode(xprv)
// First compute the HMAC-SHA512 of the computedSeed
CkBinData bdSeed;
bdSeed.AppendEncoded(computedSeed,"hex_lower");
crypt.put_EncodingMode("hex_lower");
crypt.put_HashAlgorithm("sha512");
crypt.SetMacKeyString("Bitcoin seed");
const char *hmacSha512_hex = crypt.macBdENC(bdSeed);
CkBinData bdHmac;
bdHmac.AppendEncoded(hmacSha512_hex,"hex_lower");
CkBinData bdXprv;
bdXprv.AppendEncoded("0488ade4","hex_lower");
bdXprv.AppendEncoded("000000000000000000","hex_lower");
bdXprv.AppendEncoded(bdHmac.getEncodedChunk(32,32,"hex_lower"),"hex_lower");
bdXprv.AppendByte(0);
bdXprv.AppendEncoded(bdHmac.getEncodedChunk(0,32,"hex_lower"),"hex_lower");
// Double hash using SHA256
crypt.put_EncodingMode("hex_lower");
crypt.put_HashAlgorithm("sha256");
CkBinData bdHash;
bdHash.AppendEncoded(crypt.hashBdENC(bdXprv),"hex_lower");
const char *secondHash = crypt.hashBdENC(bdHash);
bdHash.Clear();
bdHash.AppendEncoded(secondHash,"hex_lower");
// Append the 1st 4 bytes of the bdHash to bdXprv.
bdXprv.AppendEncoded(bdHash.getEncodedChunk(0,4,"hex_lower"),"hex_lower");
// Base58 encode bdXprv
const char *computedMasterKey = bdXprv.getEncoded("base58");
std::cout << "Expected Master Key: " << expectedMasterKey << "\r\n";
std::cout << "Computed Master Key: " << computedMasterKey << "\r\n";
}