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/**
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* Copyright ( c ) 2013 - 2014 Tomas Dzetkulic
* Copyright ( c ) 2013 - 2014 Pavol Rusnak
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*
* 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 <stdint.h>
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# include <stdio.h>
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# include <stdlib.h>
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# include <string.h>
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# include <time.h>
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# include <check.h>
# include "check_mem.h"
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# include "options.h"
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# include "aes.h"
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# include "bignum.h"
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# include "base58.h"
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# include "bip32.h"
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# include "bip39.h"
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# include "ecdsa.h"
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# include "pbkdf2.h"
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# include "rand.h"
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# include "sha2.h"
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# include "sha3.h"
# include "blake2s.h"
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# include "curves.h"
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# include "secp256k1.h"
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# include "nist256p1.h"
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# include "ed25519.h"
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# include "script.h"
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# define FROMHEX_MAXLEN 256
const uint8_t * fromhex ( const char * str )
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{
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static uint8_t buf [ FROMHEX_MAXLEN ] ;
size_t len = strlen ( str ) / 2 ;
if ( len > FROMHEX_MAXLEN ) len = FROMHEX_MAXLEN ;
for ( size_t i = 0 ; i < len ; i + + ) {
uint8_t c = 0 ;
if ( str [ i * 2 ] > = ' 0 ' & & str [ i * 2 ] < = ' 9 ' ) c + = ( str [ i * 2 ] - ' 0 ' ) < < 4 ;
if ( ( str [ i * 2 ] & ~ 0x20 ) > = ' A ' & & ( str [ i * 2 ] & ~ 0x20 ) < = ' F ' ) c + = ( 10 + ( str [ i * 2 ] & ~ 0x20 ) - ' A ' ) < < 4 ;
if ( str [ i * 2 + 1 ] > = ' 0 ' & & str [ i * 2 + 1 ] < = ' 9 ' ) c + = ( str [ i * 2 + 1 ] - ' 0 ' ) ;
if ( ( str [ i * 2 + 1 ] & ~ 0x20 ) > = ' A ' & & ( str [ i * 2 + 1 ] & ~ 0x20 ) < = ' F ' ) c + = ( 10 + ( str [ i * 2 + 1 ] & ~ 0x20 ) - ' A ' ) ;
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buf [ i ] = c ;
}
return buf ;
}
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START_TEST ( test_bignum_read_be )
{
bignum256 a ;
uint8_t input [ 32 ] ;
memcpy ( input , fromhex ( " c55ece858b0ddd5263f96810fe14437cd3b5e1fbd7c6a2ec1e031f05e86d8bd5 " ) , 32 ) ;
bn_read_be ( input , & a ) ;
bignum256 b = { { 0x286d8bd5 , 0x380c7c17 , 0x3c6a2ec1 , 0x2d787ef5 , 0x14437cd3 , 0x25a043f8 , 0x1dd5263f , 0x33a162c3 , 0x0000c55e } } ;
for ( int i = 0 ; i < 9 ; i + + ) {
ck_assert_int_eq ( a . val [ i ] , b . val [ i ] ) ;
}
}
END_TEST
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START_TEST ( test_bignum_write_be )
{
bignum256 a = { { 0x286d8bd5 , 0x380c7c17 , 0x3c6a2ec1 , 0x2d787ef5 , 0x14437cd3 , 0x25a043f8 , 0x1dd5263f , 0x33a162c3 , 0x0000c55e } } ;
uint8_t tmp [ 32 ] ;
bn_write_be ( & a , tmp ) ;
ck_assert_mem_eq ( tmp , fromhex ( " c55ece858b0ddd5263f96810fe14437cd3b5e1fbd7c6a2ec1e031f05e86d8bd5 " ) , 32 ) ;
}
END_TEST
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START_TEST ( test_bignum_is_equal )
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{
bignum256 a = { { 0x286d8bd5 , 0x380c7c17 , 0x3c6a2ec1 , 0x2d787ef5 , 0x14437cd3 , 0x25a043f8 , 0x1dd5263f , 0x33a162c3 , 0x0000c55e } } ;
bignum256 b = { { 0x286d8bd5 , 0x380c7c17 , 0x3c6a2ec1 , 0x2d787ef5 , 0x14437cd3 , 0x25a043f8 , 0x1dd5263f , 0x33a162c3 , 0x0000c55e } } ;
bignum256 c = { { 0 , } } ;
ck_assert_int_eq ( bn_is_equal ( & a , & b ) , 1 ) ;
ck_assert_int_eq ( bn_is_equal ( & c , & c ) , 1 ) ;
ck_assert_int_eq ( bn_is_equal ( & a , & c ) , 0 ) ;
}
END_TEST
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START_TEST ( test_bignum_zero )
{
bignum256 a ;
bignum256 b ;
bn_read_be ( fromhex ( " 0000000000000000000000000000000000000000000000000000000000000000 " ) , & a ) ;
bn_zero ( & b ) ;
ck_assert_int_eq ( bn_is_equal ( & a , & b ) , 1 ) ;
}
END_TEST
START_TEST ( test_bignum_is_zero )
{
bignum256 a ;
bn_read_be ( fromhex ( " 0000000000000000000000000000000000000000000000000000000000000000 " ) , & a ) ;
ck_assert_int_eq ( bn_is_zero ( & a ) , 1 ) ;
bn_read_be ( fromhex ( " 0000000000000000000000000000000000000000000000000000000000000001 " ) , & a ) ;
ck_assert_int_eq ( bn_is_zero ( & a ) , 0 ) ;
bn_read_be ( fromhex ( " 1000000000000000000000000000000000000000000000000000000000000000 " ) , & a ) ;
ck_assert_int_eq ( bn_is_zero ( & a ) , 0 ) ;
bn_read_be ( fromhex ( " f000000000000000000000000000000000000000000000000000000000000000 " ) , & a ) ;
ck_assert_int_eq ( bn_is_zero ( & a ) , 0 ) ;
}
END_TEST
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START_TEST ( test_bignum_one )
{
bignum256 a ;
bignum256 b ;
bn_read_be ( fromhex ( " 0000000000000000000000000000000000000000000000000000000000000001 " ) , & a ) ;
bn_one ( & b ) ;
ck_assert_int_eq ( bn_is_equal ( & a , & b ) , 1 ) ;
}
END_TEST
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START_TEST ( test_bignum_read_le )
{
bignum256 a ;
bignum256 b ;
bn_read_be ( fromhex ( " c55ece858b0ddd5263f96810fe14437cd3b5e1fbd7c6a2ec1e031f05e86d8bd5 " ) , & a ) ;
bn_read_le ( fromhex ( " d58b6de8051f031eeca2c6d7fbe1b5d37c4314fe1068f96352dd0d8b85ce5ec5 " ) , & b ) ;
ck_assert_int_eq ( bn_is_equal ( & a , & b ) , 1 ) ;
}
END_TEST
START_TEST ( test_bignum_write_le )
{
bignum256 a ;
bignum256 b ;
uint8_t tmp [ 32 ] ;
bn_read_be ( fromhex ( " c55ece858b0ddd5263f96810fe14437cd3b5e1fbd7c6a2ec1e031f05e86d8bd5 " ) , & a ) ;
bn_write_le ( & a , tmp ) ;
bn_read_le ( tmp , & b ) ;
ck_assert_int_eq ( bn_is_equal ( & a , & b ) , 1 ) ;
bn_read_be ( fromhex ( " d58b6de8051f031eeca2c6d7fbe1b5d37c4314fe1068f96352dd0d8b85ce5ec5 " ) , & a ) ;
bn_read_be ( tmp , & b ) ;
ck_assert_int_eq ( bn_is_equal ( & a , & b ) , 1 ) ;
}
END_TEST
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START_TEST ( test_bignum_read_uint32 )
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{
bignum256 a ;
bignum256 b ;
// lowest 30 bits set
bn_read_be ( fromhex ( " 000000000000000000000000000000000000000000000000000000003fffffff " ) , & a ) ;
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bn_read_uint32 ( 0x3fffffff , & b ) ;
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ck_assert_int_eq ( bn_is_equal ( & a , & b ) , 1 ) ;
// bit 31 set
bn_read_be ( fromhex ( " 0000000000000000000000000000000000000000000000000000000040000000 " ) , & a ) ;
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bn_read_uint32 ( 0x40000000 , & b ) ;
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ck_assert_int_eq ( bn_is_equal ( & a , & b ) , 1 ) ;
}
END_TEST
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START_TEST ( test_bignum_read_uint64 )
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{
bignum256 a ;
bignum256 b ;
// lowest 30 bits set
bn_read_be ( fromhex ( " 000000000000000000000000000000000000000000000000000000003fffffff " ) , & a ) ;
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bn_read_uint64 ( 0x3fffffff , & b ) ;
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ck_assert_int_eq ( bn_is_equal ( & a , & b ) , 1 ) ;
// bit 31 set
bn_read_be ( fromhex ( " 0000000000000000000000000000000000000000000000000000000040000000 " ) , & a ) ;
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bn_read_uint64 ( 0x40000000 , & b ) ;
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ck_assert_int_eq ( bn_is_equal ( & a , & b ) , 1 ) ;
// bit 33 set
bn_read_be ( fromhex ( " 0000000000000000000000000000000000000000000000000000000100000000 " ) , & a ) ;
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bn_read_uint64 ( 0x100000000LL , & b ) ;
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ck_assert_int_eq ( bn_is_equal ( & a , & b ) , 1 ) ;
// bit 61 set
bn_read_be ( fromhex ( " 0000000000000000000000000000000000000000000000002000000000000000 " ) , & a ) ;
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bn_read_uint64 ( 0x2000000000000000LL , & b ) ;
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ck_assert_int_eq ( bn_is_equal ( & a , & b ) , 1 ) ;
// all 64 bits set
bn_read_be ( fromhex ( " 000000000000000000000000000000000000000000000000ffffffffffffffff " ) , & a ) ;
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bn_read_uint64 ( 0xffffffffffffffffLL , & b ) ;
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ck_assert_int_eq ( bn_is_equal ( & a , & b ) , 1 ) ;
}
END_TEST
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START_TEST ( test_bignum_write_uint32 )
{
bignum256 a ;
// lowest 30 bits set
bn_read_be ( fromhex ( " 000000000000000000000000000000000000000000000000000000003fffffff " ) , & a ) ;
ck_assert_int_eq ( bn_write_uint32 ( & a ) , 0x3fffffff ) ;
// bit 31 set
bn_read_be ( fromhex ( " 0000000000000000000000000000000000000000000000000000000040000000 " ) , & a ) ;
ck_assert_int_eq ( bn_write_uint32 ( & a ) , 0x40000000 ) ;
}
END_TEST
START_TEST ( test_bignum_write_uint64 )
{
bignum256 a ;
// lowest 30 bits set
bn_read_be ( fromhex ( " 000000000000000000000000000000000000000000000000000000003fffffff " ) , & a ) ;
ck_assert_int_eq ( bn_write_uint64 ( & a ) , 0x3fffffff ) ;
// bit 31 set
bn_read_be ( fromhex ( " 0000000000000000000000000000000000000000000000000000000040000000 " ) , & a ) ;
ck_assert_int_eq ( bn_write_uint64 ( & a ) , 0x40000000 ) ;
// bit 33 set
bn_read_be ( fromhex ( " 0000000000000000000000000000000000000000000000000000000100000000 " ) , & a ) ;
ck_assert_int_eq ( bn_write_uint64 ( & a ) , 0x100000000LL ) ;
// bit 61 set
bn_read_be ( fromhex ( " 0000000000000000000000000000000000000000000000002000000000000000 " ) , & a ) ;
ck_assert_int_eq ( bn_write_uint64 ( & a ) , 0x2000000000000000LL ) ;
// all 64 bits set
bn_read_be ( fromhex ( " 000000000000000000000000000000000000000000000000ffffffffffffffff " ) , & a ) ;
ck_assert_int_eq ( bn_write_uint64 ( & a ) , 0xffffffffffffffffLL ) ;
}
END_TEST
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START_TEST ( test_bignum_copy )
{
bignum256 a ;
bignum256 b ;
bn_read_be ( fromhex ( " c55ece858b0ddd5263f96810fe14437cd3b5e1fbd7c6a2ec1e031f05e86d8bd5 " ) , & a ) ;
bn_copy ( & a , & b ) ;
ck_assert_int_eq ( bn_is_equal ( & a , & b ) , 1 ) ;
}
END_TEST
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START_TEST ( test_bignum_is_even )
{
bignum256 a ;
bn_read_be ( fromhex ( " c55ece858b0ddd5263f96810fe14437cd3b5e1fbd7c6a2ec1e031f05e86d8bd5 " ) , & a ) ;
ck_assert_int_eq ( bn_is_even ( & a ) , 0 ) ;
bn_read_be ( fromhex ( " c55ece858b0ddd5263f96810fe14437cd3b5e1fbd7c6a2ec1e031f05e86d8bd2 " ) , & a ) ;
ck_assert_int_eq ( bn_is_even ( & a ) , 1 ) ;
bn_read_be ( fromhex ( " c55ece858b0ddd5263f96810fe14437cd3b5e1fbd7c6a2ec1e031f05e86d8bd0 " ) , & a ) ;
ck_assert_int_eq ( bn_is_even ( & a ) , 1 ) ;
}
END_TEST
START_TEST ( test_bignum_is_odd )
{
bignum256 a ;
bn_read_be ( fromhex ( " c55ece858b0ddd5263f96810fe14437cd3b5e1fbd7c6a2ec1e031f05e86d8bd5 " ) , & a ) ;
ck_assert_int_eq ( bn_is_odd ( & a ) , 1 ) ;
bn_read_be ( fromhex ( " c55ece858b0ddd5263f96810fe14437cd3b5e1fbd7c6a2ec1e031f05e86d8bd2 " ) , & a ) ;
ck_assert_int_eq ( bn_is_odd ( & a ) , 0 ) ;
bn_read_be ( fromhex ( " c55ece858b0ddd5263f96810fe14437cd3b5e1fbd7c6a2ec1e031f05e86d8bd0 " ) , & a ) ;
ck_assert_int_eq ( bn_is_odd ( & a ) , 0 ) ;
}
END_TEST
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START_TEST ( test_bignum_bitcount )
{
bignum256 a ;
bn_zero ( & a ) ;
ck_assert_int_eq ( bn_bitcount ( & a ) , 0 ) ;
bn_read_uint32 ( 0x3fffffff , & a ) ;
ck_assert_int_eq ( bn_bitcount ( & a ) , 30 ) ;
bn_read_uint32 ( 0xffffffff , & a ) ;
ck_assert_int_eq ( bn_bitcount ( & a ) , 32 ) ;
bn_read_be ( fromhex ( " ffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffff " ) , & a ) ;
ck_assert_int_eq ( bn_bitcount ( & a ) , 256 ) ;
}
END_TEST
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START_TEST ( test_bignum_is_less )
{
bignum256 a ;
bignum256 b ;
bn_read_uint32 ( 0x1234 , & a ) ;
bn_read_uint32 ( 0x8765 , & b ) ;
ck_assert_int_eq ( bn_is_less ( & a , & b ) , 1 ) ;
ck_assert_int_eq ( bn_is_less ( & b , & a ) , 0 ) ;
bn_zero ( & a ) ;
bn_read_be ( fromhex ( " ffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffff " ) , & b ) ;
ck_assert_int_eq ( bn_is_less ( & a , & b ) , 1 ) ;
ck_assert_int_eq ( bn_is_less ( & b , & a ) , 0 ) ;
}
END_TEST
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// from https://github.com/bitcoin/bitcoin/blob/master/src/test/data/base58_keys_valid.json
START_TEST ( test_base58 )
{
static const char * base58_vector [ ] = {
" 0065a16059864a2fdbc7c99a4723a8395bc6f188eb " , " 1AGNa15ZQXAZUgFiqJ2i7Z2DPU2J6hW62i " ,
" 0574f209f6ea907e2ea48f74fae05782ae8a665257 " , " 3CMNFxN1oHBc4R1EpboAL5yzHGgE611Xou " ,
" 6f53c0307d6851aa0ce7825ba883c6bd9ad242b486 " , " mo9ncXisMeAoXwqcV5EWuyncbmCcQN4rVs " ,
" c46349a418fc4578d10a372b54b45c280cc8c4382f " , " 2N2JD6wb56AfK4tfmM6PwdVmoYk2dCKf4Br " ,
" 80eddbdc1168f1daeadbd3e44c1e3f8f5a284c2029f78ad26af98583a499de5b19 " , " 5Kd3NBUAdUnhyzenEwVLy9pBKxSwXvE9FMPyR4UKZvpe6E3AgLr " ,
" 8055c9bccb9ed68446d1b75273bbce89d7fe013a8acd1625514420fb2aca1a21c401 " , " Kz6UJmQACJmLtaQj5A3JAge4kVTNQ8gbvXuwbmCj7bsaabudb3RD " ,
" ef36cb93b9ab1bdabf7fb9f2c04f1b9cc879933530ae7842398eef5a63a56800c2 " , " 9213qJab2HNEpMpYNBa7wHGFKKbkDn24jpANDs2huN3yi4J11ko " ,
" efb9f4892c9e8282028fea1d2667c4dc5213564d41fc5783896a0d843fc15089f301 " , " cTpB4YiyKiBcPxnefsDpbnDxFDffjqJob8wGCEDXxgQ7zQoMXJdH " ,
" 006d23156cbbdcc82a5a47eee4c2c7c583c18b6bf4 " , " 1Ax4gZtb7gAit2TivwejZHYtNNLT18PUXJ " ,
" 05fcc5460dd6e2487c7d75b1963625da0e8f4c5975 " , " 3QjYXhTkvuj8qPaXHTTWb5wjXhdsLAAWVy " ,
" 6ff1d470f9b02370fdec2e6b708b08ac431bf7a5f7 " , " n3ZddxzLvAY9o7184TB4c6FJasAybsw4HZ " ,
" c4c579342c2c4c9220205e2cdc285617040c924a0a " , " 2NBFNJTktNa7GZusGbDbGKRZTxdK9VVez3n " ,
" 80a326b95ebae30164217d7a7f57d72ab2b54e3be64928a19da0210b9568d4015e " , " 5K494XZwps2bGyeL71pWid4noiSNA2cfCibrvRWqcHSptoFn7rc " ,
" 807d998b45c219a1e38e99e7cbd312ef67f77a455a9b50c730c27f02c6f730dfb401 " , " L1RrrnXkcKut5DEMwtDthjwRcTTwED36thyL1DebVrKuwvohjMNi " ,
" efd6bca256b5abc5602ec2e1c121a08b0da2556587430bcf7e1898af2224885203 " , " 93DVKyFYwSN6wEo3E2fCrFPUp17FtrtNi2Lf7n4G3garFb16CRj " ,
" efa81ca4e8f90181ec4b61b6a7eb998af17b2cb04de8a03b504b9e34c4c61db7d901 " , " cTDVKtMGVYWTHCb1AFjmVbEbWjvKpKqKgMaR3QJxToMSQAhmCeTN " ,
" 007987ccaa53d02c8873487ef919677cd3db7a6912 " , " 1C5bSj1iEGUgSTbziymG7Cn18ENQuT36vv " ,
" 0563bcc565f9e68ee0189dd5cc67f1b0e5f02f45cb " , " 3AnNxabYGoTxYiTEZwFEnerUoeFXK2Zoks " ,
" 6fef66444b5b17f14e8fae6e7e19b045a78c54fd79 " , " n3LnJXCqbPjghuVs8ph9CYsAe4Sh4j97wk " ,
" c4c3e55fceceaa4391ed2a9677f4a4d34eacd021a0 " , " 2NB72XtkjpnATMggui83aEtPawyyKvnbX2o " ,
" 80e75d936d56377f432f404aabb406601f892fd49da90eb6ac558a733c93b47252 " , " 5KaBW9vNtWNhc3ZEDyNCiXLPdVPHCikRxSBWwV9NrpLLa4LsXi9 " ,
" 808248bd0375f2f75d7e274ae544fb920f51784480866b102384190b1addfbaa5c01 " , " L1axzbSyynNYA8mCAhzxkipKkfHtAXYF4YQnhSKcLV8YXA874fgT " ,
" ef44c4f6a096eac5238291a94cc24c01e3b19b8d8cef72874a079e00a242237a52 " , " 927CnUkUbasYtDwYwVn2j8GdTuACNnKkjZ1rpZd2yBB1CLcnXpo " ,
" efd1de707020a9059d6d3abaf85e17967c6555151143db13dbb06db78df0f15c6901 " , " cUcfCMRjiQf85YMzzQEk9d1s5A4K7xL5SmBCLrezqXFuTVefyhY7 " ,
" 00adc1cc2081a27206fae25792f28bbc55b831549d " , " 1Gqk4Tv79P91Cc1STQtU3s1W6277M2CVWu " ,
" 05188f91a931947eddd7432d6e614387e32b244709 " , " 33vt8ViH5jsr115AGkW6cEmEz9MpvJSwDk " ,
" 6f1694f5bc1a7295b600f40018a618a6ea48eeb498 " , " mhaMcBxNh5cqXm4aTQ6EcVbKtfL6LGyK2H " ,
" c43b9b3fd7a50d4f08d1a5b0f62f644fa7115ae2f3 " , " 2MxgPqX1iThW3oZVk9KoFcE5M4JpiETssVN " ,
" 80091035445ef105fa1bb125eccfb1882f3fe69592265956ade751fd095033d8d0 " , " 5HtH6GdcwCJA4ggWEL1B3jzBBUB8HPiBi9SBc5h9i4Wk4PSeApR " ,
" 80ab2b4bcdfc91d34dee0ae2a8c6b6668dadaeb3a88b9859743156f462325187af01 " , " L2xSYmMeVo3Zek3ZTsv9xUrXVAmrWxJ8Ua4cw8pkfbQhcEFhkXT8 " ,
" efb4204389cef18bbe2b353623cbf93e8678fbc92a475b664ae98ed594e6cf0856 " , " 92xFEve1Z9N8Z641KQQS7ByCSb8kGjsDzw6fAmjHN1LZGKQXyMq " ,
" efe7b230133f1b5489843260236b06edca25f66adb1be455fbd38d4010d48faeef01 " , " cVM65tdYu1YK37tNoAyGoJTR13VBYFva1vg9FLuPAsJijGvG6NEA " ,
" 00c4c1b72491ede1eedaca00618407ee0b772cad0d " , " 1JwMWBVLtiqtscbaRHai4pqHokhFCbtoB4 " ,
" 05f6fe69bcb548a829cce4c57bf6fff8af3a5981f9 " , " 3QCzvfL4ZRvmJFiWWBVwxfdaNBT8EtxB5y " ,
" 6f261f83568a098a8638844bd7aeca039d5f2352c0 " , " mizXiucXRCsEriQCHUkCqef9ph9qtPbZZ6 " ,
" c4e930e1834a4d234702773951d627cce82fbb5d2e " , " 2NEWDzHWwY5ZZp8CQWbB7ouNMLqCia6YRda " ,
" 80d1fab7ab7385ad26872237f1eb9789aa25cc986bacc695e07ac571d6cdac8bc0 " , " 5KQmDryMNDcisTzRp3zEq9e4awRmJrEVU1j5vFRTKpRNYPqYrMg " ,
" 80b0bbede33ef254e8376aceb1510253fc3550efd0fcf84dcd0c9998b288f166b301 " , " L39Fy7AC2Hhj95gh3Yb2AU5YHh1mQSAHgpNixvm27poizcJyLtUi " ,
" ef037f4192c630f399d9271e26c575269b1d15be553ea1a7217f0cb8513cef41cb " , " 91cTVUcgydqyZLgaANpf1fvL55FH53QMm4BsnCADVNYuWuqdVys " ,
" ef6251e205e8ad508bab5596bee086ef16cd4b239e0cc0c5d7c4e6035441e7d5de01 " , " cQspfSzsgLeiJGB2u8vrAiWpCU4MxUT6JseWo2SjXy4Qbzn2fwDw " ,
" 005eadaf9bb7121f0f192561a5a62f5e5f54210292 " , " 19dcawoKcZdQz365WpXWMhX6QCUpR9SY4r " ,
" 053f210e7277c899c3a155cc1c90f4106cbddeec6e " , " 37Sp6Rv3y4kVd1nQ1JV5pfqXccHNyZm1x3 " ,
" 6fc8a3c2a09a298592c3e180f02487cd91ba3400b5 " , " myoqcgYiehufrsnnkqdqbp69dddVDMopJu " ,
" c499b31df7c9068d1481b596578ddbb4d3bd90baeb " , " 2N7FuwuUuoTBrDFdrAZ9KxBmtqMLxce9i1C " ,
" 80c7666842503db6dc6ea061f092cfb9c388448629a6fe868d068c42a488b478ae " , " 5KL6zEaMtPRXZKo1bbMq7JDjjo1bJuQcsgL33je3oY8uSJCR5b4 " ,
" 8007f0803fc5399e773555ab1e8939907e9badacc17ca129e67a2f5f2ff84351dd01 " , " KwV9KAfwbwt51veZWNscRTeZs9CKpojyu1MsPnaKTF5kz69H1UN2 " ,
" efea577acfb5d1d14d3b7b195c321566f12f87d2b77ea3a53f68df7ebf8604a801 " , " 93N87D6uxSBzwXvpokpzg8FFmfQPmvX4xHoWQe3pLdYpbiwT5YV " ,
" ef0b3b34f0958d8a268193a9814da92c3e8b58b4a4378a542863e34ac289cd830c01 " , " cMxXusSihaX58wpJ3tNuuUcZEQGt6DKJ1wEpxys88FFaQCYjku9h " ,
" 001ed467017f043e91ed4c44b4e8dd674db211c4e6 " , " 13p1ijLwsnrcuyqcTvJXkq2ASdXqcnEBLE " ,
" 055ece0cadddc415b1980f001785947120acdb36fc " , " 3ALJH9Y951VCGcVZYAdpA3KchoP9McEj1G " ,
0 , 0 ,
} ;
const char * * raw = base58_vector ;
const char * * str = base58_vector + 1 ;
uint8_t rawn [ 34 ] ;
char strn [ 53 ] ;
int r ;
while ( * raw & & * str ) {
int len = strlen ( * raw ) / 2 ;
memcpy ( rawn , fromhex ( * raw ) , len ) ;
r = base58_encode_check ( rawn , len , strn , sizeof ( strn ) ) ;
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ck_assert_int_eq ( ( size_t ) r , strlen ( * str ) + 1 ) ;
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ck_assert_str_eq ( strn , * str ) ;
r = base58_decode_check ( strn , rawn , len ) ;
ck_assert_int_eq ( r , len ) ;
ck_assert_mem_eq ( rawn , fromhex ( * raw ) , len ) ;
raw + = 2 ; str + = 2 ;
}
}
END_TEST
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# if USE_GRAPHENE
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// Graphene Base85CheckEncoding
START_TEST ( test_base58gph )
{
static const char * base58_vector [ ] = {
" 02e649f63f8e8121345fd7f47d0d185a3ccaa843115cd2e9392dcd9b82263bc680 " , " 6dumtt9swxCqwdPZBGXh9YmHoEjFFnNfwHaTqRbQTghGAY2gRz " ,
" 021c7359cd885c0e319924d97e3980206ad64387aff54908241125b3a88b55ca16 " , " 5725vivYpuFWbeyTifZ5KevnHyqXCi5hwHbNU9cYz1FHbFXCxX " ,
" 02f561e0b57a552df3fa1df2d87a906b7a9fc33a83d5d15fa68a644ecb0806b49a " , " 6kZKHSuxqAwdCYsMvwTcipoTsNE2jmEUNBQufGYywpniBKXWZK " ,
" 03e7595c3e6b58f907bee951dc29796f3757307e700ecf3d09307a0cc4a564eba3 " , " 8b82mpnH8YX1E9RHnU2a2YgLTZ8ooevEGP9N15c1yFqhoBvJur " ,
0 , 0 ,
} ;
const char * * raw = base58_vector ;
const char * * str = base58_vector + 1 ;
uint8_t rawn [ 34 ] ;
char strn [ 53 ] ;
int r ;
while ( * raw & & * str ) {
int len = strlen ( * raw ) / 2 ;
memcpy ( rawn , fromhex ( * raw ) , len ) ;
r = base58gph_encode_check ( rawn , len , strn , sizeof ( strn ) ) ;
ck_assert_int_eq ( ( size_t ) r , strlen ( * str ) + 1 ) ;
ck_assert_str_eq ( strn , * str ) ;
r = base58gph_decode_check ( strn , rawn , len ) ;
ck_assert_int_eq ( r , len ) ;
ck_assert_mem_eq ( rawn , fromhex ( * raw ) , len ) ;
raw + = 2 ; str + = 2 ;
}
}
END_TEST
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# endif
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START_TEST ( test_bignum_divmod )
{
uint32_t r ;
int i ;
bignum256 a = { { 0x3fffffff , 0x3fffffff , 0x3fffffff , 0x3fffffff , 0x3fffffff , 0x3fffffff , 0x3fffffff , 0x3fffffff , 0xffff } } ;
uint32_t ar [ ] = { 15 , 14 , 55 , 29 , 44 , 24 , 53 , 49 , 18 , 55 , 2 , 28 , 5 , 4 , 12 , 43 , 18 , 37 , 28 , 14 , 30 , 46 , 12 , 11 , 17 , 10 , 10 , 13 , 24 , 45 , 4 , 33 , 44 , 42 , 2 , 46 , 34 , 43 , 45 , 28 , 21 , 18 , 13 , 17 } ;
i = 0 ;
while ( ! bn_is_zero ( & a ) & & i < 44 ) {
bn_divmod58 ( & a , & r ) ;
ck_assert_int_eq ( r , ar [ i ] ) ;
i + + ;
}
ck_assert_int_eq ( i , 44 ) ;
bignum256 b = { { 0x3fffffff , 0x3fffffff , 0x3fffffff , 0x3fffffff , 0x3fffffff , 0x3fffffff , 0x3fffffff , 0x3fffffff , 0xffff } } ;
uint32_t br [ ] = { 935 , 639 , 129 , 913 , 7 , 584 , 457 , 39 , 564 , 640 , 665 , 984 , 269 , 853 , 907 , 687 , 8 , 985 , 570 , 423 , 195 , 316 , 237 , 89 , 792 , 115 } ;
i = 0 ;
while ( ! bn_is_zero ( & b ) & & i < 26 ) {
bn_divmod1000 ( & b , & r ) ;
ck_assert_int_eq ( r , br [ i ] ) ;
i + + ;
}
ck_assert_int_eq ( i , 26 ) ;
}
END_TEST
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// test vector 1 from https://en.bitcoin.it/wiki/BIP_0032_TestVectors
START_TEST ( test_bip32_vector_1 )
{
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HDNode node , node2 , node3 ;
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uint32_t fingerprint ;
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char str [ 112 ] ;
int r ;
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// init m
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hdnode_from_seed ( fromhex ( " 000102030405060708090a0b0c0d0e0f " ) , 16 , SECP256K1_NAME , & node ) ;
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// [Chain m]
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fingerprint = 0 ;
ck_assert_int_eq ( fingerprint , 0x00000000 ) ;
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ck_assert_mem_eq ( node . chain_code , fromhex ( " 873dff81c02f525623fd1fe5167eac3a55a049de3d314bb42ee227ffed37d508 " ) , 32 ) ;
ck_assert_mem_eq ( node . private_key , fromhex ( " e8f32e723decf4051aefac8e2c93c9c5b214313817cdb01a1494b917c8436b35 " ) , 32 ) ;
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hdnode_fill_public_key ( & node ) ;
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ck_assert_mem_eq ( node . public_key , fromhex ( " 0339a36013301597daef41fbe593a02cc513d0b55527ec2df1050e2e8ff49c85c2 " ) , 33 ) ;
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hdnode_serialize_private ( & node , fingerprint , str , sizeof ( str ) ) ;
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ck_assert_str_eq ( str , " xprv9s21ZrQH143K3QTDL4LXw2F7HEK3wJUD2nW2nRk4stbPy6cq3jPPqjiChkVvvNKmPGJxWUtg6LnF5kejMRNNU3TGtRBeJgk33yuGBxrMPHi " ) ;
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r = hdnode_deserialize ( str , & node2 , NULL ) ; ck_assert_int_eq ( r , 0 ) ; ck_assert_int_eq ( r , 0 ) ;
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hdnode_fill_public_key ( & node2 ) ;
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ck_assert_mem_eq ( & node , & node2 , sizeof ( HDNode ) ) ;
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hdnode_serialize_public ( & node , fingerprint , str , sizeof ( str ) ) ;
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ck_assert_str_eq ( str , " xpub661MyMwAqRbcFtXgS5sYJABqqG9YLmC4Q1Rdap9gSE8NqtwybGhePY2gZ29ESFjqJoCu1Rupje8YtGqsefD265TMg7usUDFdp6W1EGMcet8 " ) ;
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r = hdnode_deserialize ( str , & node2 , NULL ) ; ck_assert_int_eq ( r , 0 ) ;
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memcpy ( & node3 , & node , sizeof ( HDNode ) ) ;
memset ( & node3 . private_key , 0 , 32 ) ;
ck_assert_mem_eq ( & node2 , & node3 , sizeof ( HDNode ) ) ;
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// [Chain m/0']
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fingerprint = hdnode_fingerprint ( & node ) ;
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hdnode_private_ckd_prime ( & node , 0 ) ;
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ck_assert_int_eq ( fingerprint , 0x3442193e ) ;
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ck_assert_mem_eq ( node . chain_code , fromhex ( " 47fdacbd0f1097043b78c63c20c34ef4ed9a111d980047ad16282c7ae6236141 " ) , 32 ) ;
ck_assert_mem_eq ( node . private_key , fromhex ( " edb2e14f9ee77d26dd93b4ecede8d16ed408ce149b6cd80b0715a2d911a0afea " ) , 32 ) ;
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hdnode_fill_public_key ( & node ) ;
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ck_assert_mem_eq ( node . public_key , fromhex ( " 035a784662a4a20a65bf6aab9ae98a6c068a81c52e4b032c0fb5400c706cfccc56 " ) , 33 ) ;
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hdnode_serialize_private ( & node , fingerprint , str , sizeof ( str ) ) ;
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ck_assert_str_eq ( str , " xprv9uHRZZhk6KAJC1avXpDAp4MDc3sQKNxDiPvvkX8Br5ngLNv1TxvUxt4cV1rGL5hj6KCesnDYUhd7oWgT11eZG7XnxHrnYeSvkzY7d2bhkJ7 " ) ;
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r = hdnode_deserialize ( str , & node2 , NULL ) ; ck_assert_int_eq ( r , 0 ) ;
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hdnode_fill_public_key ( & node2 ) ;
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ck_assert_mem_eq ( & node , & node2 , sizeof ( HDNode ) ) ;
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hdnode_serialize_public ( & node , fingerprint , str , sizeof ( str ) ) ;
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ck_assert_str_eq ( str , " xpub68Gmy5EdvgibQVfPdqkBBCHxA5htiqg55crXYuXoQRKfDBFA1WEjWgP6LHhwBZeNK1VTsfTFUHCdrfp1bgwQ9xv5ski8PX9rL2dZXvgGDnw " ) ;
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r = hdnode_deserialize ( str , & node2 , NULL ) ; ck_assert_int_eq ( r , 0 ) ;
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memcpy ( & node3 , & node , sizeof ( HDNode ) ) ;
memset ( & node3 . private_key , 0 , 32 ) ;
ck_assert_mem_eq ( & node2 , & node3 , sizeof ( HDNode ) ) ;
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// [Chain m/0'/1]
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fingerprint = hdnode_fingerprint ( & node ) ;
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hdnode_private_ckd ( & node , 1 ) ;
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ck_assert_int_eq ( fingerprint , 0x5c1bd648 ) ;
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ck_assert_mem_eq ( node . chain_code , fromhex ( " 2a7857631386ba23dacac34180dd1983734e444fdbf774041578e9b6adb37c19 " ) , 32 ) ;
ck_assert_mem_eq ( node . private_key , fromhex ( " 3c6cb8d0f6a264c91ea8b5030fadaa8e538b020f0a387421a12de9319dc93368 " ) , 32 ) ;
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hdnode_fill_public_key ( & node ) ;
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ck_assert_mem_eq ( node . public_key , fromhex ( " 03501e454bf00751f24b1b489aa925215d66af2234e3891c3b21a52bedb3cd711c " ) , 33 ) ;
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hdnode_serialize_private ( & node , fingerprint , str , sizeof ( str ) ) ;
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ck_assert_str_eq ( str , " xprv9wTYmMFdV23N2TdNG573QoEsfRrWKQgWeibmLntzniatZvR9BmLnvSxqu53Kw1UmYPxLgboyZQaXwTCg8MSY3H2EU4pWcQDnRnrVA1xe8fs " ) ;
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r = hdnode_deserialize ( str , & node2 , NULL ) ; ck_assert_int_eq ( r , 0 ) ;
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hdnode_fill_public_key ( & node2 ) ;
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ck_assert_mem_eq ( & node , & node2 , sizeof ( HDNode ) ) ;
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hdnode_serialize_public ( & node , fingerprint , str , sizeof ( str ) ) ;
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ck_assert_str_eq ( str , " xpub6ASuArnXKPbfEwhqN6e3mwBcDTgzisQN1wXN9BJcM47sSikHjJf3UFHKkNAWbWMiGj7Wf5uMash7SyYq527Hqck2AxYysAA7xmALppuCkwQ " ) ;
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r = hdnode_deserialize ( str , & node2 , NULL ) ; ck_assert_int_eq ( r , 0 ) ;
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memcpy ( & node3 , & node , sizeof ( HDNode ) ) ;
memset ( & node3 . private_key , 0 , 32 ) ;
ck_assert_mem_eq ( & node2 , & node3 , sizeof ( HDNode ) ) ;
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// [Chain m/0'/1/2']
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fingerprint = hdnode_fingerprint ( & node ) ;
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hdnode_private_ckd_prime ( & node , 2 ) ;
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ck_assert_int_eq ( fingerprint , 0xbef5a2f9 ) ;
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ck_assert_mem_eq ( node . chain_code , fromhex ( " 04466b9cc8e161e966409ca52986c584f07e9dc81f735db683c3ff6ec7b1503f " ) , 32 ) ;
ck_assert_mem_eq ( node . private_key , fromhex ( " cbce0d719ecf7431d88e6a89fa1483e02e35092af60c042b1df2ff59fa424dca " ) , 32 ) ;
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hdnode_fill_public_key ( & node ) ;
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ck_assert_mem_eq ( node . public_key , fromhex ( " 0357bfe1e341d01c69fe5654309956cbea516822fba8a601743a012a7896ee8dc2 " ) , 33 ) ;
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hdnode_serialize_private ( & node , fingerprint , str , sizeof ( str ) ) ;
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ck_assert_str_eq ( str , " xprv9z4pot5VBttmtdRTWfWQmoH1taj2axGVzFqSb8C9xaxKymcFzXBDptWmT7FwuEzG3ryjH4ktypQSAewRiNMjANTtpgP4mLTj34bhnZX7UiM " ) ;
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r = hdnode_deserialize ( str , & node2 , NULL ) ; ck_assert_int_eq ( r , 0 ) ;
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hdnode_fill_public_key ( & node2 ) ;
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ck_assert_mem_eq ( & node , & node2 , sizeof ( HDNode ) ) ;
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hdnode_serialize_public ( & node , fingerprint , str , sizeof ( str ) ) ;
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ck_assert_str_eq ( str , " xpub6D4BDPcP2GT577Vvch3R8wDkScZWzQzMMUm3PWbmWvVJrZwQY4VUNgqFJPMM3No2dFDFGTsxxpG5uJh7n7epu4trkrX7x7DogT5Uv6fcLW5 " ) ;
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r = hdnode_deserialize ( str , & node2 , NULL ) ; ck_assert_int_eq ( r , 0 ) ;
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memcpy ( & node3 , & node , sizeof ( HDNode ) ) ;
memset ( & node3 . private_key , 0 , 32 ) ;
ck_assert_mem_eq ( & node2 , & node3 , sizeof ( HDNode ) ) ;
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// [Chain m/0'/1/2'/2]
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fingerprint = hdnode_fingerprint ( & node ) ;
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hdnode_private_ckd ( & node , 2 ) ;
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ck_assert_int_eq ( fingerprint , 0xee7ab90c ) ;
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ck_assert_mem_eq ( node . chain_code , fromhex ( " cfb71883f01676f587d023cc53a35bc7f88f724b1f8c2892ac1275ac822a3edd " ) , 32 ) ;
ck_assert_mem_eq ( node . private_key , fromhex ( " 0f479245fb19a38a1954c5c7c0ebab2f9bdfd96a17563ef28a6a4b1a2a764ef4 " ) , 32 ) ;
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hdnode_fill_public_key ( & node ) ;
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ck_assert_mem_eq ( node . public_key , fromhex ( " 02e8445082a72f29b75ca48748a914df60622a609cacfce8ed0e35804560741d29 " ) , 33 ) ;
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hdnode_serialize_private ( & node , fingerprint , str , sizeof ( str ) ) ;
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ck_assert_str_eq ( str , " xprvA2JDeKCSNNZky6uBCviVfJSKyQ1mDYahRjijr5idH2WwLsEd4Hsb2Tyh8RfQMuPh7f7RtyzTtdrbdqqsunu5Mm3wDvUAKRHSC34sJ7in334 " ) ;
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r = hdnode_deserialize ( str , & node2 , NULL ) ; ck_assert_int_eq ( r , 0 ) ;
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hdnode_fill_public_key ( & node2 ) ;
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ck_assert_mem_eq ( & node , & node2 , sizeof ( HDNode ) ) ;
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hdnode_serialize_public ( & node , fingerprint , str , sizeof ( str ) ) ;
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ck_assert_str_eq ( str , " xpub6FHa3pjLCk84BayeJxFW2SP4XRrFd1JYnxeLeU8EqN3vDfZmbqBqaGJAyiLjTAwm6ZLRQUMv1ZACTj37sR62cfN7fe5JnJ7dh8zL4fiyLHV " ) ;
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r = hdnode_deserialize ( str , & node2 , NULL ) ; ck_assert_int_eq ( r , 0 ) ;
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memcpy ( & node3 , & node , sizeof ( HDNode ) ) ;
memset ( & node3 . private_key , 0 , 32 ) ;
ck_assert_mem_eq ( & node2 , & node3 , sizeof ( HDNode ) ) ;
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// [Chain m/0'/1/2'/2/1000000000]
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fingerprint = hdnode_fingerprint ( & node ) ;
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hdnode_private_ckd ( & node , 1000000000 ) ;
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ck_assert_int_eq ( fingerprint , 0xd880d7d8 ) ;
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ck_assert_mem_eq ( node . chain_code , fromhex ( " c783e67b921d2beb8f6b389cc646d7263b4145701dadd2161548a8b078e65e9e " ) , 32 ) ;
ck_assert_mem_eq ( node . private_key , fromhex ( " 471b76e389e528d6de6d816857e012c5455051cad6660850e58372a6c3e6e7c8 " ) , 32 ) ;
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hdnode_fill_public_key ( & node ) ;
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ck_assert_mem_eq ( node . public_key , fromhex ( " 022a471424da5e657499d1ff51cb43c47481a03b1e77f951fe64cec9f5a48f7011 " ) , 33 ) ;
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hdnode_serialize_private ( & node , fingerprint , str , sizeof ( str ) ) ;
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ck_assert_str_eq ( str , " xprvA41z7zogVVwxVSgdKUHDy1SKmdb533PjDz7J6N6mV6uS3ze1ai8FHa8kmHScGpWmj4WggLyQjgPie1rFSruoUihUZREPSL39UNdE3BBDu76 " ) ;
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r = hdnode_deserialize ( str , & node2 , NULL ) ; ck_assert_int_eq ( r , 0 ) ;
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hdnode_fill_public_key ( & node2 ) ;
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ck_assert_mem_eq ( & node , & node2 , sizeof ( HDNode ) ) ;
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hdnode_serialize_public ( & node , fingerprint , str , sizeof ( str ) ) ;
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ck_assert_str_eq ( str , " xpub6H1LXWLaKsWFhvm6RVpEL9P4KfRZSW7abD2ttkWP3SSQvnyA8FSVqNTEcYFgJS2UaFcxupHiYkro49S8yGasTvXEYBVPamhGW6cFJodrTHy " ) ;
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r = hdnode_deserialize ( str , & node2 , NULL ) ; ck_assert_int_eq ( r , 0 ) ;
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memcpy ( & node3 , & node , sizeof ( HDNode ) ) ;
memset ( & node3 . private_key , 0 , 32 ) ;
ck_assert_mem_eq ( & node2 , & node3 , sizeof ( HDNode ) ) ;
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}
END_TEST
// test vector 2 from https://en.bitcoin.it/wiki/BIP_0032_TestVectors
START_TEST ( test_bip32_vector_2 )
{
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HDNode node , node2 , node3 ;
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uint32_t fingerprint ;
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char str [ 112 ] ;
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int r ;
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// init m
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hdnode_from_seed ( fromhex ( " fffcf9f6f3f0edeae7e4e1dedbd8d5d2cfccc9c6c3c0bdbab7b4b1aeaba8a5a29f9c999693908d8a8784817e7b7875726f6c696663605d5a5754514e4b484542 " ) , 64 , SECP256K1_NAME , & node ) ;
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// [Chain m]
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fingerprint = 0 ;
ck_assert_int_eq ( fingerprint , 0x00000000 ) ;
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ck_assert_mem_eq ( node . chain_code , fromhex ( " 60499f801b896d83179a4374aeb7822aaeaceaa0db1f85ee3e904c4defbd9689 " ) , 32 ) ;
ck_assert_mem_eq ( node . private_key , fromhex ( " 4b03d6fc340455b363f51020ad3ecca4f0850280cf436c70c727923f6db46c3e " ) , 32 ) ;
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hdnode_fill_public_key ( & node ) ;
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ck_assert_mem_eq ( node . public_key , fromhex ( " 03cbcaa9c98c877a26977d00825c956a238e8dddfbd322cce4f74b0b5bd6ace4a7 " ) , 33 ) ;
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hdnode_serialize_private ( & node , fingerprint , str , sizeof ( str ) ) ;
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ck_assert_str_eq ( str , " xprv9s21ZrQH143K31xYSDQpPDxsXRTUcvj2iNHm5NUtrGiGG5e2DtALGdso3pGz6ssrdK4PFmM8NSpSBHNqPqm55Qn3LqFtT2emdEXVYsCzC2U " ) ;
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r = hdnode_deserialize ( str , & node2 , NULL ) ; ck_assert_int_eq ( r , 0 ) ;
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hdnode_fill_public_key ( & node2 ) ;
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ck_assert_mem_eq ( & node , & node2 , sizeof ( HDNode ) ) ;
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hdnode_serialize_public ( & node , fingerprint , str , sizeof ( str ) ) ;
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ck_assert_str_eq ( str , " xpub661MyMwAqRbcFW31YEwpkMuc5THy2PSt5bDMsktWQcFF8syAmRUapSCGu8ED9W6oDMSgv6Zz8idoc4a6mr8BDzTJY47LJhkJ8UB7WEGuduB " ) ;
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r = hdnode_deserialize ( str , & node2 , NULL ) ; ck_assert_int_eq ( r , 0 ) ;
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memcpy ( & node3 , & node , sizeof ( HDNode ) ) ;
memset ( & node3 . private_key , 0 , 32 ) ;
ck_assert_mem_eq ( & node2 , & node3 , sizeof ( HDNode ) ) ;
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// [Chain m/0]
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fingerprint = hdnode_fingerprint ( & node ) ;
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r = hdnode_private_ckd ( & node , 0 ) ;
ck_assert_int_eq ( r , 1 ) ;
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ck_assert_int_eq ( fingerprint , 0xbd16bee5 ) ;
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ck_assert_mem_eq ( node . chain_code , fromhex ( " f0909affaa7ee7abe5dd4e100598d4dc53cd709d5a5c2cac40e7412f232f7c9c " ) , 32 ) ;
ck_assert_mem_eq ( node . private_key , fromhex ( " abe74a98f6c7eabee0428f53798f0ab8aa1bd37873999041703c742f15ac7e1e " ) , 32 ) ;
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hdnode_fill_public_key ( & node ) ;
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ck_assert_mem_eq ( node . public_key , fromhex ( " 02fc9e5af0ac8d9b3cecfe2a888e2117ba3d089d8585886c9c826b6b22a98d12ea " ) , 33 ) ;
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hdnode_serialize_private ( & node , fingerprint , str , sizeof ( str ) ) ;
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ck_assert_str_eq ( str , " xprv9vHkqa6EV4sPZHYqZznhT2NPtPCjKuDKGY38FBWLvgaDx45zo9WQRUT3dKYnjwih2yJD9mkrocEZXo1ex8G81dwSM1fwqWpWkeS3v86pgKt " ) ;
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r = hdnode_deserialize ( str , & node2 , NULL ) ; ck_assert_int_eq ( r , 0 ) ;
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hdnode_fill_public_key ( & node2 ) ;
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ck_assert_mem_eq ( & node , & node2 , sizeof ( HDNode ) ) ;
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hdnode_serialize_public ( & node , fingerprint , str , sizeof ( str ) ) ;
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ck_assert_str_eq ( str , " xpub69H7F5d8KSRgmmdJg2KhpAK8SR3DjMwAdkxj3ZuxV27CprR9LgpeyGmXUbC6wb7ERfvrnKZjXoUmmDznezpbZb7ap6r1D3tgFxHmwMkQTPH " ) ;
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r = hdnode_deserialize ( str , & node2 , NULL ) ; ck_assert_int_eq ( r , 0 ) ;
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memcpy ( & node3 , & node , sizeof ( HDNode ) ) ;
memset ( & node3 . private_key , 0 , 32 ) ;
ck_assert_mem_eq ( & node2 , & node3 , sizeof ( HDNode ) ) ;
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// [Chain m/0/2147483647']
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fingerprint = hdnode_fingerprint ( & node ) ;
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r = hdnode_private_ckd_prime ( & node , 2147483647 ) ;
ck_assert_int_eq ( r , 1 ) ;
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ck_assert_int_eq ( fingerprint , 0x5a61ff8e ) ;
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ck_assert_mem_eq ( node . chain_code , fromhex ( " be17a268474a6bb9c61e1d720cf6215e2a88c5406c4aee7b38547f585c9a37d9 " ) , 32 ) ;
ck_assert_mem_eq ( node . private_key , fromhex ( " 877c779ad9687164e9c2f4f0f4ff0340814392330693ce95a58fe18fd52e6e93 " ) , 32 ) ;
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hdnode_fill_public_key ( & node ) ;
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ck_assert_mem_eq ( node . public_key , fromhex ( " 03c01e7425647bdefa82b12d9bad5e3e6865bee0502694b94ca58b666abc0a5c3b " ) , 33 ) ;
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hdnode_serialize_private ( & node , fingerprint , str , sizeof ( str ) ) ;
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ck_assert_str_eq ( str , " xprv9wSp6B7kry3Vj9m1zSnLvN3xH8RdsPP1Mh7fAaR7aRLcQMKTR2vidYEeEg2mUCTAwCd6vnxVrcjfy2kRgVsFawNzmjuHc2YmYRmagcEPdU9 " ) ;
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r = hdnode_deserialize ( str , & node2 , NULL ) ; ck_assert_int_eq ( r , 0 ) ;
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hdnode_fill_public_key ( & node2 ) ;
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ck_assert_mem_eq ( & node , & node2 , sizeof ( HDNode ) ) ;
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hdnode_serialize_public ( & node , fingerprint , str , sizeof ( str ) ) ;
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ck_assert_str_eq ( str , " xpub6ASAVgeehLbnwdqV6UKMHVzgqAG8Gr6riv3Fxxpj8ksbH9ebxaEyBLZ85ySDhKiLDBrQSARLq1uNRts8RuJiHjaDMBU4Zn9h8LZNnBC5y4a " ) ;
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r = hdnode_deserialize ( str , & node2 , NULL ) ; ck_assert_int_eq ( r , 0 ) ;
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memcpy ( & node3 , & node , sizeof ( HDNode ) ) ;
memset ( & node3 . private_key , 0 , 32 ) ;
ck_assert_mem_eq ( & node2 , & node3 , sizeof ( HDNode ) ) ;
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// [Chain m/0/2147483647'/1]
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fingerprint = hdnode_fingerprint ( & node ) ;
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r = hdnode_private_ckd ( & node , 1 ) ;
ck_assert_int_eq ( r , 1 ) ;
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ck_assert_int_eq ( fingerprint , 0xd8ab4937 ) ;
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ck_assert_mem_eq ( node . chain_code , fromhex ( " f366f48f1ea9f2d1d3fe958c95ca84ea18e4c4ddb9366c336c927eb246fb38cb " ) , 32 ) ;
ck_assert_mem_eq ( node . private_key , fromhex ( " 704addf544a06e5ee4bea37098463c23613da32020d604506da8c0518e1da4b7 " ) , 32 ) ;
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hdnode_fill_public_key ( & node ) ;
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ck_assert_mem_eq ( node . public_key , fromhex ( " 03a7d1d856deb74c508e05031f9895dab54626251b3806e16b4bd12e781a7df5b9 " ) , 33 ) ;
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hdnode_serialize_private ( & node , fingerprint , str , sizeof ( str ) ) ;
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ck_assert_str_eq ( str , " xprv9zFnWC6h2cLgpmSA46vutJzBcfJ8yaJGg8cX1e5StJh45BBciYTRXSd25UEPVuesF9yog62tGAQtHjXajPPdbRCHuWS6T8XA2ECKADdw4Ef " ) ;
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r = hdnode_deserialize ( str , & node2 , NULL ) ; ck_assert_int_eq ( r , 0 ) ;
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hdnode_fill_public_key ( & node2 ) ;
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ck_assert_mem_eq ( & node , & node2 , sizeof ( HDNode ) ) ;
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hdnode_serialize_public ( & node , fingerprint , str , sizeof ( str ) ) ;
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ck_assert_str_eq ( str , " xpub6DF8uhdarytz3FWdA8TvFSvvAh8dP3283MY7p2V4SeE2wyWmG5mg5EwVvmdMVCQcoNJxGoWaU9DCWh89LojfZ537wTfunKau47EL2dhHKon " ) ;
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r = hdnode_deserialize ( str , & node2 , NULL ) ; ck_assert_int_eq ( r , 0 ) ;
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memcpy ( & node3 , & node , sizeof ( HDNode ) ) ;
memset ( & node3 . private_key , 0 , 32 ) ;
ck_assert_mem_eq ( & node2 , & node3 , sizeof ( HDNode ) ) ;
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// [Chain m/0/2147483647'/1/2147483646']
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fingerprint = hdnode_fingerprint ( & node ) ;
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r = hdnode_private_ckd_prime ( & node , 2147483646 ) ;
ck_assert_int_eq ( r , 1 ) ;
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ck_assert_int_eq ( fingerprint , 0x78412e3a ) ;
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ck_assert_mem_eq ( node . chain_code , fromhex ( " 637807030d55d01f9a0cb3a7839515d796bd07706386a6eddf06cc29a65a0e29 " ) , 32 ) ;
ck_assert_mem_eq ( node . private_key , fromhex ( " f1c7c871a54a804afe328b4c83a1c33b8e5ff48f5087273f04efa83b247d6a2d " ) , 32 ) ;
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hdnode_fill_public_key ( & node ) ;
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ck_assert_mem_eq ( node . public_key , fromhex ( " 02d2b36900396c9282fa14628566582f206a5dd0bcc8d5e892611806cafb0301f0 " ) , 33 ) ;
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hdnode_serialize_private ( & node , fingerprint , str , sizeof ( str ) ) ;
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ck_assert_str_eq ( str , " xprvA1RpRA33e1JQ7ifknakTFpgNXPmW2YvmhqLQYMmrj4xJXXWYpDPS3xz7iAxn8L39njGVyuoseXzU6rcxFLJ8HFsTjSyQbLYnMpCqE2VbFWc " ) ;
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r = hdnode_deserialize ( str , & node2 , NULL ) ; ck_assert_int_eq ( r , 0 ) ;
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hdnode_fill_public_key ( & node2 ) ;
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ck_assert_mem_eq ( & node , & node2 , sizeof ( HDNode ) ) ;
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hdnode_serialize_public ( & node , fingerprint , str , sizeof ( str ) ) ;
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ck_assert_str_eq ( str , " xpub6ERApfZwUNrhLCkDtcHTcxd75RbzS1ed54G1LkBUHQVHQKqhMkhgbmJbZRkrgZw4koxb5JaHWkY4ALHY2grBGRjaDMzQLcgJvLJuZZvRcEL " ) ;
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r = hdnode_deserialize ( str , & node2 , NULL ) ; ck_assert_int_eq ( r , 0 ) ;
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memcpy ( & node3 , & node , sizeof ( HDNode ) ) ;
memset ( & node3 . private_key , 0 , 32 ) ;
ck_assert_mem_eq ( & node2 , & node3 , sizeof ( HDNode ) ) ;
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// [Chain m/0/2147483647'/1/2147483646'/2]
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fingerprint = hdnode_fingerprint ( & node ) ;
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r = hdnode_private_ckd ( & node , 2 ) ;
ck_assert_int_eq ( r , 1 ) ;
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ck_assert_int_eq ( fingerprint , 0x31a507b8 ) ;
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ck_assert_mem_eq ( node . chain_code , fromhex ( " 9452b549be8cea3ecb7a84bec10dcfd94afe4d129ebfd3b3cb58eedf394ed271 " ) , 32 ) ;
ck_assert_mem_eq ( node . private_key , fromhex ( " bb7d39bdb83ecf58f2fd82b6d918341cbef428661ef01ab97c28a4842125ac23 " ) , 32 ) ;
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hdnode_fill_public_key ( & node ) ;
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ck_assert_mem_eq ( node . public_key , fromhex ( " 024d902e1a2fc7a8755ab5b694c575fce742c48d9ff192e63df5193e4c7afe1f9c " ) , 33 ) ;
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hdnode_serialize_private ( & node , fingerprint , str , sizeof ( str ) ) ;
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ck_assert_str_eq ( str , " xprvA2nrNbFZABcdryreWet9Ea4LvTJcGsqrMzxHx98MMrotbir7yrKCEXw7nadnHM8Dq38EGfSh6dqA9QWTyefMLEcBYJUuekgW4BYPJcr9E7j " ) ;
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r = hdnode_deserialize ( str , & node2 , NULL ) ; ck_assert_int_eq ( r , 0 ) ;
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hdnode_fill_public_key ( & node2 ) ;
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ck_assert_mem_eq ( & node , & node2 , sizeof ( HDNode ) ) ;
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hdnode_serialize_public ( & node , fingerprint , str , sizeof ( str ) ) ;
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ck_assert_str_eq ( str , " xpub6FnCn6nSzZAw5Tw7cgR9bi15UV96gLZhjDstkXXxvCLsUXBGXPdSnLFbdpq8p9HmGsApME5hQTZ3emM2rnY5agb9rXpVGyy3bdW6EEgAtqt " ) ;
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r = hdnode_deserialize ( str , & node2 , NULL ) ; ck_assert_int_eq ( r , 0 ) ;
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memcpy ( & node3 , & node , sizeof ( HDNode ) ) ;
memset ( & node3 . private_key , 0 , 32 ) ;
ck_assert_mem_eq ( & node2 , & node3 , sizeof ( HDNode ) ) ;
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// init m
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hdnode_from_seed ( fromhex ( " fffcf9f6f3f0edeae7e4e1dedbd8d5d2cfccc9c6c3c0bdbab7b4b1aeaba8a5a29f9c999693908d8a8784817e7b7875726f6c696663605d5a5754514e4b484542 " ) , 64 , SECP256K1_NAME , & node ) ;
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// test public derivation
// [Chain m/0]
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fingerprint = hdnode_fingerprint ( & node ) ;
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r = hdnode_public_ckd ( & node , 0 ) ;
ck_assert_int_eq ( r , 1 ) ;
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ck_assert_int_eq ( fingerprint , 0xbd16bee5 ) ;
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ck_assert_mem_eq ( node . chain_code , fromhex ( " f0909affaa7ee7abe5dd4e100598d4dc53cd709d5a5c2cac40e7412f232f7c9c " ) , 32 ) ;
ck_assert_mem_eq ( node . private_key , fromhex ( " 0000000000000000000000000000000000000000000000000000000000000000 " ) , 32 ) ;
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hdnode_fill_public_key ( & node ) ;
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ck_assert_mem_eq ( node . public_key , fromhex ( " 02fc9e5af0ac8d9b3cecfe2a888e2117ba3d089d8585886c9c826b6b22a98d12ea " ) , 33 ) ;
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}
END_TEST
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START_TEST ( test_bip32_compare )
{
HDNode node1 , node2 , node3 ;
int i , r ;
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hdnode_from_seed ( fromhex ( " 301133282ad079cbeb59bc446ad39d333928f74c46997d3609cd3e2801ca69d62788f9f174429946ff4e9be89f67c22fae28cb296a9b37734f75e73d1477af19 " ) , 64 , SECP256K1_NAME , & node1 ) ;
hdnode_from_seed ( fromhex ( " 301133282ad079cbeb59bc446ad39d333928f74c46997d3609cd3e2801ca69d62788f9f174429946ff4e9be89f67c22fae28cb296a9b37734f75e73d1477af19 " ) , 64 , SECP256K1_NAME , & node2 ) ;
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hdnode_fill_public_key ( & node2 ) ;
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for ( i = 0 ; i < 100 ; i + + ) {
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memcpy ( & node3 , & node1 , sizeof ( HDNode ) ) ;
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hdnode_fill_public_key ( & node3 ) ;
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r = hdnode_private_ckd ( & node1 , i ) ; ck_assert_int_eq ( r , 1 ) ;
r = hdnode_public_ckd ( & node2 , i ) ; ck_assert_int_eq ( r , 1 ) ;
r = hdnode_public_ckd ( & node3 , i ) ; ck_assert_int_eq ( r , 1 ) ;
ck_assert_int_eq ( node1 . depth , node2 . depth ) ;
ck_assert_int_eq ( node1 . depth , node3 . depth ) ;
ck_assert_int_eq ( node1 . child_num , node2 . child_num ) ;
ck_assert_int_eq ( node1 . child_num , node3 . child_num ) ;
ck_assert_mem_eq ( node1 . chain_code , node2 . chain_code , 32 ) ;
ck_assert_mem_eq ( node1 . chain_code , node3 . chain_code , 32 ) ;
ck_assert_mem_eq ( node2 . private_key , fromhex ( " 0000000000000000000000000000000000000000000000000000000000000000 " ) , 32 ) ;
ck_assert_mem_eq ( node3 . private_key , fromhex ( " 0000000000000000000000000000000000000000000000000000000000000000 " ) , 32 ) ;
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hdnode_fill_public_key ( & node1 ) ;
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ck_assert_mem_eq ( node1 . public_key , node2 . public_key , 33 ) ;
ck_assert_mem_eq ( node1 . public_key , node3 . public_key , 33 ) ;
}
}
END_TEST
2015-03-04 14:43:14 +00:00
START_TEST ( test_bip32_cache_1 )
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{
HDNode node1 , node2 ;
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int i , r ;
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// test 1 .. 8
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hdnode_from_seed ( fromhex ( " 301133282ad079cbeb59bc446ad39d333928f74c46997d3609cd3e2801ca69d62788f9f174429946ff4e9be89f67c22fae28cb296a9b37734f75e73d1477af19 " ) , 64 , SECP256K1_NAME , & node1 ) ;
hdnode_from_seed ( fromhex ( " 301133282ad079cbeb59bc446ad39d333928f74c46997d3609cd3e2801ca69d62788f9f174429946ff4e9be89f67c22fae28cb296a9b37734f75e73d1477af19 " ) , 64 , SECP256K1_NAME , & node2 ) ;
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uint32_t ii [ ] = { 0x80000001 , 0x80000002 , 0x80000003 , 0x80000004 , 0x80000005 , 0x80000006 , 0x80000007 , 0x80000008 } ;
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for ( i = 0 ; i < 8 ; i + + ) {
r = hdnode_private_ckd ( & node1 , ii [ i ] ) ; ck_assert_int_eq ( r , 1 ) ;
}
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r = hdnode_private_ckd_cached ( & node2 , ii , 8 ) ; ck_assert_int_eq ( r , 1 ) ;
ck_assert_mem_eq ( & node1 , & node2 , sizeof ( HDNode ) ) ;
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hdnode_from_seed ( fromhex ( " 301133282ad079cbeb59bc446ad39d333928f74c46997d3609cd3e2801ca69d62788f9f174429946ff4e9be89f67c22fae28cb296a9b37734f75e73d1477af19 " ) , 64 , SECP256K1_NAME , & node1 ) ;
hdnode_from_seed ( fromhex ( " 301133282ad079cbeb59bc446ad39d333928f74c46997d3609cd3e2801ca69d62788f9f174429946ff4e9be89f67c22fae28cb296a9b37734f75e73d1477af19 " ) , 64 , SECP256K1_NAME , & node2 ) ;
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// test 1 .. 7, 20
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ii [ 7 ] = 20 ;
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for ( i = 0 ; i < 8 ; i + + ) {
r = hdnode_private_ckd ( & node1 , ii [ i ] ) ; ck_assert_int_eq ( r , 1 ) ;
}
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r = hdnode_private_ckd_cached ( & node2 , ii , 8 ) ; ck_assert_int_eq ( r , 1 ) ;
ck_assert_mem_eq ( & node1 , & node2 , sizeof ( HDNode ) ) ;
// test different root node
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hdnode_from_seed ( fromhex ( " 000000002ad079cbeb59bc446ad39d333928f74c46997d3609cd3e2801ca69d62788f9f174429946ff4e9be89f67c22fae28cb296a9b37734f75e73d1477af19 " ) , 64 , SECP256K1_NAME , & node1 ) ;
hdnode_from_seed ( fromhex ( " 000000002ad079cbeb59bc446ad39d333928f74c46997d3609cd3e2801ca69d62788f9f174429946ff4e9be89f67c22fae28cb296a9b37734f75e73d1477af19 " ) , 64 , SECP256K1_NAME , & node2 ) ;
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for ( i = 0 ; i < 8 ; i + + ) {
r = hdnode_private_ckd ( & node1 , ii [ i ] ) ; ck_assert_int_eq ( r , 1 ) ;
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}
r = hdnode_private_ckd_cached ( & node2 , ii , 8 ) ; ck_assert_int_eq ( r , 1 ) ;
ck_assert_mem_eq ( & node1 , & node2 , sizeof ( HDNode ) ) ;
}
END_TEST
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START_TEST ( test_bip32_cache_2 )
{
HDNode nodea [ 9 ] , nodeb [ 9 ] ;
int i , j , r ;
for ( j = 0 ; j < 9 ; j + + ) {
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hdnode_from_seed ( fromhex ( " 301133282ad079cbeb59bc446ad39d333928f74c46997d3609cd3e2801ca69d62788f9f174429946ff4e9be89f67c22fae28cb296a9b37734f75e73d1477af19 " ) , 64 , SECP256K1_NAME , & ( nodea [ j ] ) ) ;
hdnode_from_seed ( fromhex ( " 301133282ad079cbeb59bc446ad39d333928f74c46997d3609cd3e2801ca69d62788f9f174429946ff4e9be89f67c22fae28cb296a9b37734f75e73d1477af19 " ) , 64 , SECP256K1_NAME , & ( nodeb [ j ] ) ) ;
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}
uint32_t ii [ ] = { 0x80000001 , 0x80000002 , 0x80000003 , 0x80000004 , 0x80000005 , 0x80000006 , 0x80000007 , 0x80000008 } ;
for ( j = 0 ; j < 9 ; j + + ) {
// non cached
for ( i = 1 ; i < = j ; i + + ) {
r = hdnode_private_ckd ( & ( nodea [ j ] ) , ii [ i - 1 ] ) ; ck_assert_int_eq ( r , 1 ) ;
}
// cached
r = hdnode_private_ckd_cached ( & ( nodeb [ j ] ) , ii , j ) ; ck_assert_int_eq ( r , 1 ) ;
}
ck_assert_mem_eq ( & ( nodea [ 0 ] ) , & ( nodeb [ 0 ] ) , sizeof ( HDNode ) ) ;
ck_assert_mem_eq ( & ( nodea [ 1 ] ) , & ( nodeb [ 1 ] ) , sizeof ( HDNode ) ) ;
ck_assert_mem_eq ( & ( nodea [ 2 ] ) , & ( nodeb [ 2 ] ) , sizeof ( HDNode ) ) ;
ck_assert_mem_eq ( & ( nodea [ 3 ] ) , & ( nodeb [ 3 ] ) , sizeof ( HDNode ) ) ;
ck_assert_mem_eq ( & ( nodea [ 4 ] ) , & ( nodeb [ 4 ] ) , sizeof ( HDNode ) ) ;
ck_assert_mem_eq ( & ( nodea [ 5 ] ) , & ( nodeb [ 5 ] ) , sizeof ( HDNode ) ) ;
ck_assert_mem_eq ( & ( nodea [ 6 ] ) , & ( nodeb [ 6 ] ) , sizeof ( HDNode ) ) ;
ck_assert_mem_eq ( & ( nodea [ 7 ] ) , & ( nodeb [ 7 ] ) , sizeof ( HDNode ) ) ;
ck_assert_mem_eq ( & ( nodea [ 8 ] ) , & ( nodeb [ 8 ] ) , sizeof ( HDNode ) ) ;
}
END_TEST
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START_TEST ( test_bip32_nist_seed )
{
HDNode node ;
// init m
hdnode_from_seed ( fromhex ( " a7305bc8df8d0951f0cb224c0e95d7707cbdf2c6ce7e8d481fec69c7ff5e9446 " ) , 32 , NIST256P1_NAME , & node ) ;
// [Chain m]
ck_assert_mem_eq ( node . private_key , fromhex ( " 3b8c18469a4634517d6d0b65448f8e6c62091b45540a1743c5846be55d47d88f " ) , 32 ) ;
ck_assert_mem_eq ( node . chain_code , fromhex ( " 7762f9729fed06121fd13f326884c82f59aa95c57ac492ce8c9654e60efd130c " ) , 32 ) ;
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hdnode_fill_public_key ( & node ) ;
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ck_assert_mem_eq ( node . public_key , fromhex ( " 0383619fadcde31063d8c5cb00dbfe1713f3e6fa169d8541a798752a1c1ca0cb20 " ) , 33 ) ;
// init m
hdnode_from_seed ( fromhex ( " aa305bc8df8d0951f0cb29ad4568d7707cbdf2c6ce7e8d481fec69c7ff5e9446 " ) , 32 , NIST256P1_NAME , & node ) ;
// [Chain m]
ck_assert_mem_eq ( node . chain_code , fromhex ( " a81d21f36f987fa0be3b065301bfb6aa9deefbf3dfef6744c37b9a4abc3c68f1 " ) , 32 ) ;
ck_assert_mem_eq ( node . private_key , fromhex ( " 0e49dc46ce1d8c29d9b80a05e40f5d0cd68cbf02ae98572186f5343be18084bf " ) , 32 ) ;
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hdnode_fill_public_key ( & node ) ;
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ck_assert_mem_eq ( node . public_key , fromhex ( " 03aaa4c89acd9a98935330773d3dae55122f3591bac4a40942681768de8df6ba63 " ) , 33 ) ;
}
END_TEST
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START_TEST ( test_bip32_nist_vector_1 )
{
HDNode node ;
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uint32_t fingerprint ;
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// init m
hdnode_from_seed ( fromhex ( " 000102030405060708090a0b0c0d0e0f " ) , 16 , NIST256P1_NAME , & node ) ;
// [Chain m]
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fingerprint = 0 ;
ck_assert_int_eq ( fingerprint , 0x00000000 ) ;
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ck_assert_mem_eq ( node . chain_code , fromhex ( " beeb672fe4621673f722f38529c07392fecaa61015c80c34f29ce8b41b3cb6ea " ) , 32 ) ;
ck_assert_mem_eq ( node . private_key , fromhex ( " 612091aaa12e22dd2abef664f8a01a82cae99ad7441b7ef8110424915c268bc2 " ) , 32 ) ;
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hdnode_fill_public_key ( & node ) ;
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ck_assert_mem_eq ( node . public_key , fromhex ( " 0266874dc6ade47b3ecd096745ca09bcd29638dd52c2c12117b11ed3e458cfa9e8 " ) , 33 ) ;
// [Chain m/0']
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fingerprint = hdnode_fingerprint ( & node ) ;
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hdnode_private_ckd_prime ( & node , 0 ) ;
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ck_assert_int_eq ( fingerprint , 0xbe6105b5 ) ;
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ck_assert_mem_eq ( node . chain_code , fromhex ( " 3460cea53e6a6bb5fb391eeef3237ffd8724bf0a40e94943c98b83825342ee11 " ) , 32 ) ;
ck_assert_mem_eq ( node . private_key , fromhex ( " 6939694369114c67917a182c59ddb8cafc3004e63ca5d3b84403ba8613debc0c " ) , 32 ) ;
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hdnode_fill_public_key ( & node ) ;
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ck_assert_mem_eq ( node . public_key , fromhex ( " 0384610f5ecffe8fda089363a41f56a5c7ffc1d81b59a612d0d649b2d22355590c " ) , 33 ) ;
// [Chain m/0'/1]
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fingerprint = hdnode_fingerprint ( & node ) ;
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hdnode_private_ckd ( & node , 1 ) ;
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ck_assert_int_eq ( fingerprint , 0x9b02312f ) ;
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ck_assert_mem_eq ( node . chain_code , fromhex ( " 4187afff1aafa8445010097fb99d23aee9f599450c7bd140b6826ac22ba21d0c " ) , 32 ) ;
ck_assert_mem_eq ( node . private_key , fromhex ( " 284e9d38d07d21e4e281b645089a94f4cf5a5a81369acf151a1c3a57f18b2129 " ) , 32 ) ;
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hdnode_fill_public_key ( & node ) ;
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ck_assert_mem_eq ( node . public_key , fromhex ( " 03526c63f8d0b4bbbf9c80df553fe66742df4676b241dabefdef67733e070f6844 " ) , 33 ) ;
// [Chain m/0'/1/2']
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fingerprint = hdnode_fingerprint ( & node ) ;
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hdnode_private_ckd_prime ( & node , 2 ) ;
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ck_assert_int_eq ( fingerprint , 0xb98005c1 ) ;
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ck_assert_mem_eq ( node . chain_code , fromhex ( " 98c7514f562e64e74170cc3cf304ee1ce54d6b6da4f880f313e8204c2a185318 " ) , 32 ) ;
ck_assert_mem_eq ( node . private_key , fromhex ( " 694596e8a54f252c960eb771a3c41e7e32496d03b954aeb90f61635b8e092aa7 " ) , 32 ) ;
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hdnode_fill_public_key ( & node ) ;
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ck_assert_mem_eq ( node . public_key , fromhex ( " 0359cf160040778a4b14c5f4d7b76e327ccc8c4a6086dd9451b7482b5a4972dda0 " ) , 33 ) ;
// [Chain m/0'/1/2'/2]
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fingerprint = hdnode_fingerprint ( & node ) ;
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hdnode_private_ckd ( & node , 2 ) ;
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ck_assert_int_eq ( fingerprint , 0x0e9f3274 ) ;
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ck_assert_mem_eq ( node . chain_code , fromhex ( " ba96f776a5c3907d7fd48bde5620ee374d4acfd540378476019eab70790c63a0 " ) , 32 ) ;
ck_assert_mem_eq ( node . private_key , fromhex ( " 5996c37fd3dd2679039b23ed6f70b506c6b56b3cb5e424681fb0fa64caf82aaa " ) , 32 ) ;
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hdnode_fill_public_key ( & node ) ;
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ck_assert_mem_eq ( node . public_key , fromhex ( " 029f871f4cb9e1c97f9f4de9ccd0d4a2f2a171110c61178f84430062230833ff20 " ) , 33 ) ;
// [Chain m/0'/1/2'/2/1000000000]
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fingerprint = hdnode_fingerprint ( & node ) ;
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hdnode_private_ckd ( & node , 1000000000 ) ;
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ck_assert_int_eq ( fingerprint , 0x8b2b5c4b ) ;
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ck_assert_mem_eq ( node . chain_code , fromhex ( " b9b7b82d326bb9cb5b5b121066feea4eb93d5241103c9e7a18aad40f1dde8059 " ) , 32 ) ;
ck_assert_mem_eq ( node . private_key , fromhex ( " 21c4f269ef0a5fd1badf47eeacebeeaa3de22eb8e5b0adcd0f27dd99d34d0119 " ) , 32 ) ;
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hdnode_fill_public_key ( & node ) ;
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ck_assert_mem_eq ( node . public_key , fromhex ( " 02216cd26d31147f72427a453c443ed2cde8a1e53c9cc44e5ddf739725413fe3f4 " ) , 33 ) ;
}
END_TEST
START_TEST ( test_bip32_nist_vector_2 )
{
HDNode node ;
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uint32_t fingerprint ;
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int r ;
// init m
hdnode_from_seed ( fromhex ( " fffcf9f6f3f0edeae7e4e1dedbd8d5d2cfccc9c6c3c0bdbab7b4b1aeaba8a5a29f9c999693908d8a8784817e7b7875726f6c696663605d5a5754514e4b484542 " ) , 64 , NIST256P1_NAME , & node ) ;
// [Chain m]
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fingerprint = 0 ;
ck_assert_int_eq ( fingerprint , 0x00000000 ) ;
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ck_assert_mem_eq ( node . chain_code , fromhex ( " 96cd4465a9644e31528eda3592aa35eb39a9527769ce1855beafc1b81055e75d " ) , 32 ) ;
ck_assert_mem_eq ( node . private_key , fromhex ( " eaa31c2e46ca2962227cf21d73a7ef0ce8b31c756897521eb6c7b39796633357 " ) , 32 ) ;
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hdnode_fill_public_key ( & node ) ;
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ck_assert_mem_eq ( node . public_key , fromhex ( " 02c9e16154474b3ed5b38218bb0463e008f89ee03e62d22fdcc8014beab25b48fa " ) , 33 ) ;
// [Chain m/0]
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fingerprint = hdnode_fingerprint ( & node ) ;
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r = hdnode_private_ckd ( & node , 0 ) ;
ck_assert_int_eq ( r , 1 ) ;
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ck_assert_int_eq ( fingerprint , 0x607f628f ) ;
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ck_assert_mem_eq ( node . chain_code , fromhex ( " 84e9c258bb8557a40e0d041115b376dd55eda99c0042ce29e81ebe4efed9b86a " ) , 32 ) ;
ck_assert_mem_eq ( node . private_key , fromhex ( " d7d065f63a62624888500cdb4f88b6d59c2927fee9e6d0cdff9cad555884df6e " ) , 32 ) ;
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hdnode_fill_public_key ( & node ) ;
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ck_assert_mem_eq ( node . public_key , fromhex ( " 039b6df4bece7b6c81e2adfeea4bcf5c8c8a6e40ea7ffa3cf6e8494c61a1fc82cc " ) , 33 ) ;
// [Chain m/0/2147483647']
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fingerprint = hdnode_fingerprint ( & node ) ;
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r = hdnode_private_ckd_prime ( & node , 2147483647 ) ;
ck_assert_int_eq ( r , 1 ) ;
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ck_assert_int_eq ( fingerprint , 0x946d2a54 ) ;
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ck_assert_mem_eq ( node . chain_code , fromhex ( " f235b2bc5c04606ca9c30027a84f353acf4e4683edbd11f635d0dcc1cd106ea6 " ) , 32 ) ;
ck_assert_mem_eq ( node . private_key , fromhex ( " 96d2ec9316746a75e7793684ed01e3d51194d81a42a3276858a5b7376d4b94b9 " ) , 32 ) ;
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hdnode_fill_public_key ( & node ) ;
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ck_assert_mem_eq ( node . public_key , fromhex ( " 02f89c5deb1cae4fedc9905f98ae6cbf6cbab120d8cb85d5bd9a91a72f4c068c76 " ) , 33 ) ;
// [Chain m/0/2147483647'/1]
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fingerprint = hdnode_fingerprint ( & node ) ;
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r = hdnode_private_ckd ( & node , 1 ) ;
ck_assert_int_eq ( r , 1 ) ;
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ck_assert_int_eq ( fingerprint , 0x218182d8 ) ;
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ck_assert_mem_eq ( node . chain_code , fromhex ( " 7c0b833106235e452eba79d2bdd58d4086e663bc8cc55e9773d2b5eeda313f3b " ) , 32 ) ;
ck_assert_mem_eq ( node . private_key , fromhex ( " 974f9096ea6873a915910e82b29d7c338542ccde39d2064d1cc228f371542bbc " ) , 32 ) ;
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hdnode_fill_public_key ( & node ) ;
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ck_assert_mem_eq ( node . public_key , fromhex ( " 03abe0ad54c97c1d654c1852dfdc32d6d3e487e75fa16f0fd6304b9ceae4220c64 " ) , 33 ) ;
// [Chain m/0/2147483647'/1/2147483646']
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fingerprint = hdnode_fingerprint ( & node ) ;
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r = hdnode_private_ckd_prime ( & node , 2147483646 ) ;
ck_assert_int_eq ( r , 1 ) ;
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ck_assert_int_eq ( fingerprint , 0x931223e4 ) ;
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ck_assert_mem_eq ( node . chain_code , fromhex ( " 5794e616eadaf33413aa309318a26ee0fd5163b70466de7a4512fd4b1a5c9e6a " ) , 32 ) ;
ck_assert_mem_eq ( node . private_key , fromhex ( " da29649bbfaff095cd43819eda9a7be74236539a29094cd8336b07ed8d4eff63 " ) , 32 ) ;
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hdnode_fill_public_key ( & node ) ;
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ck_assert_mem_eq ( node . public_key , fromhex ( " 03cb8cb067d248691808cd6b5a5a06b48e34ebac4d965cba33e6dc46fe13d9b933 " ) , 33 ) ;
// [Chain m/0/2147483647'/1/2147483646'/2]
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fingerprint = hdnode_fingerprint ( & node ) ;
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r = hdnode_private_ckd ( & node , 2 ) ;
ck_assert_int_eq ( r , 1 ) ;
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ck_assert_int_eq ( fingerprint , 0x956c4629 ) ;
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ck_assert_mem_eq ( node . chain_code , fromhex ( " 3bfb29ee8ac4484f09db09c2079b520ea5616df7820f071a20320366fbe226a7 " ) , 32 ) ;
ck_assert_mem_eq ( node . private_key , fromhex ( " bb0a77ba01cc31d77205d51d08bd313b979a71ef4de9b062f8958297e746bd67 " ) , 32 ) ;
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hdnode_fill_public_key ( & node ) ;
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ck_assert_mem_eq ( node . public_key , fromhex ( " 020ee02e18967237cf62672983b253ee62fa4dd431f8243bfeccdf39dbe181387f " ) , 33 ) ;
// init m
hdnode_from_seed ( fromhex ( " fffcf9f6f3f0edeae7e4e1dedbd8d5d2cfccc9c6c3c0bdbab7b4b1aeaba8a5a29f9c999693908d8a8784817e7b7875726f6c696663605d5a5754514e4b484542 " ) , 64 , NIST256P1_NAME , & node ) ;
// test public derivation
// [Chain m/0]
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fingerprint = hdnode_fingerprint ( & node ) ;
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r = hdnode_public_ckd ( & node , 0 ) ;
ck_assert_int_eq ( r , 1 ) ;
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ck_assert_int_eq ( fingerprint , 0x607f628f ) ;
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ck_assert_mem_eq ( node . chain_code , fromhex ( " 84e9c258bb8557a40e0d041115b376dd55eda99c0042ce29e81ebe4efed9b86a " ) , 32 ) ;
ck_assert_mem_eq ( node . private_key , fromhex ( " 0000000000000000000000000000000000000000000000000000000000000000 " ) , 32 ) ;
ck_assert_mem_eq ( node . public_key , fromhex ( " 039b6df4bece7b6c81e2adfeea4bcf5c8c8a6e40ea7ffa3cf6e8494c61a1fc82cc " ) , 33 ) ;
}
END_TEST
START_TEST ( test_bip32_nist_compare )
{
HDNode node1 , node2 , node3 ;
int i , r ;
hdnode_from_seed ( fromhex ( " 301133282ad079cbeb59bc446ad39d333928f74c46997d3609cd3e2801ca69d62788f9f174429946ff4e9be89f67c22fae28cb296a9b37734f75e73d1477af19 " ) , 64 , NIST256P1_NAME , & node1 ) ;
hdnode_from_seed ( fromhex ( " 301133282ad079cbeb59bc446ad39d333928f74c46997d3609cd3e2801ca69d62788f9f174429946ff4e9be89f67c22fae28cb296a9b37734f75e73d1477af19 " ) , 64 , NIST256P1_NAME , & node2 ) ;
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hdnode_fill_public_key ( & node2 ) ;
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for ( i = 0 ; i < 100 ; i + + ) {
memcpy ( & node3 , & node1 , sizeof ( HDNode ) ) ;
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hdnode_fill_public_key ( & node3 ) ;
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r = hdnode_private_ckd ( & node1 , i ) ; ck_assert_int_eq ( r , 1 ) ;
r = hdnode_public_ckd ( & node2 , i ) ; ck_assert_int_eq ( r , 1 ) ;
r = hdnode_public_ckd ( & node3 , i ) ; ck_assert_int_eq ( r , 1 ) ;
ck_assert_int_eq ( node1 . depth , node2 . depth ) ;
ck_assert_int_eq ( node1 . depth , node3 . depth ) ;
ck_assert_int_eq ( node1 . child_num , node2 . child_num ) ;
ck_assert_int_eq ( node1 . child_num , node3 . child_num ) ;
ck_assert_mem_eq ( node1 . chain_code , node2 . chain_code , 32 ) ;
ck_assert_mem_eq ( node1 . chain_code , node3 . chain_code , 32 ) ;
ck_assert_mem_eq ( node2 . private_key , fromhex ( " 0000000000000000000000000000000000000000000000000000000000000000 " ) , 32 ) ;
ck_assert_mem_eq ( node3 . private_key , fromhex ( " 0000000000000000000000000000000000000000000000000000000000000000 " ) , 32 ) ;
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hdnode_fill_public_key ( & node1 ) ;
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ck_assert_mem_eq ( node1 . public_key , node2 . public_key , 33 ) ;
ck_assert_mem_eq ( node1 . public_key , node3 . public_key , 33 ) ;
}
}
END_TEST
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START_TEST ( test_bip32_nist_repeat )
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{
HDNode node , node2 ;
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uint32_t fingerprint ;
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int r ;
// init m
hdnode_from_seed ( fromhex ( " 000102030405060708090a0b0c0d0e0f " ) , 16 , NIST256P1_NAME , & node ) ;
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// [Chain m/28578']
fingerprint = hdnode_fingerprint ( & node ) ;
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r = hdnode_private_ckd_prime ( & node , 28578 ) ;
ck_assert_int_eq ( r , 1 ) ;
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ck_assert_int_eq ( fingerprint , 0xbe6105b5 ) ;
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ck_assert_mem_eq ( node . chain_code , fromhex ( " e94c8ebe30c2250a14713212f6449b20f3329105ea15b652ca5bdfc68f6c65c2 " ) , 32 ) ;
ck_assert_mem_eq ( node . private_key , fromhex ( " 06f0db126f023755d0b8d86d4591718a5210dd8d024e3e14b6159d63f53aa669 " ) , 32 ) ;
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hdnode_fill_public_key ( & node ) ;
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ck_assert_mem_eq ( node . public_key , fromhex ( " 02519b5554a4872e8c9c1c847115363051ec43e93400e030ba3c36b52a3e70a5b7 " ) , 33 ) ;
memcpy ( & node2 , & node , sizeof ( HDNode ) ) ;
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fingerprint = hdnode_fingerprint ( & node ) ;
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r = hdnode_private_ckd ( & node2 , 33941 ) ;
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ck_assert_int_eq ( r , 1 ) ;
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ck_assert_int_eq ( fingerprint , 0x3e2b7bc6 ) ;
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ck_assert_mem_eq ( node2 . chain_code , fromhex ( " 9e87fe95031f14736774cd82f25fd885065cb7c358c1edf813c72af535e83071 " ) , 32 ) ;
ck_assert_mem_eq ( node2 . private_key , fromhex ( " 092154eed4af83e078ff9b84322015aefe5769e31270f62c3f66c33888335f3a " ) , 32 ) ;
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hdnode_fill_public_key ( & node2 ) ;
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ck_assert_mem_eq ( node2 . public_key , fromhex ( " 0235bfee614c0d5b2cae260000bb1d0d84b270099ad790022c1ae0b2e782efe120 " ) , 33 ) ;
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memcpy ( & node2 , & node , sizeof ( HDNode ) ) ;
memset ( & node2 . private_key , 0 , 32 ) ;
r = hdnode_public_ckd ( & node2 , 33941 ) ;
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ck_assert_int_eq ( r , 1 ) ;
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ck_assert_int_eq ( fingerprint , 0x3e2b7bc6 ) ;
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ck_assert_mem_eq ( node2 . chain_code , fromhex ( " 9e87fe95031f14736774cd82f25fd885065cb7c358c1edf813c72af535e83071 " ) , 32 ) ;
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hdnode_fill_public_key ( & node2 ) ;
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ck_assert_mem_eq ( node2 . public_key , fromhex ( " 0235bfee614c0d5b2cae260000bb1d0d84b270099ad790022c1ae0b2e782efe120 " ) , 33 ) ;
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}
END_TEST
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// test vector 1 from https://en.bitcoin.it/wiki/BIP_0032_TestVectors
START_TEST ( test_bip32_ed25519_vector_1 )
{
HDNode node ;
// init m
hdnode_from_seed ( fromhex ( " 000102030405060708090a0b0c0d0e0f " ) , 16 , ED25519_NAME , & node ) ;
// [Chain m]
ck_assert_mem_eq ( node . chain_code , fromhex ( " 90046a93de5380a72b5e45010748567d5ea02bbf6522f979e05c0d8d8ca9fffb " ) , 32 ) ;
ck_assert_mem_eq ( node . private_key , fromhex ( " 2b4be7f19ee27bbf30c667b642d5f4aa69fd169872f8fc3059c08ebae2eb19e7 " ) , 32 ) ;
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hdnode_fill_public_key ( & node ) ;
ck_assert_mem_eq ( node . public_key , fromhex ( " 01a4b2856bfec510abab89753fac1ac0e1112364e7d250545963f135f2a33188ed " ) , 33 ) ;
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// [Chain m/0']
hdnode_private_ckd_prime ( & node , 0 ) ;
ck_assert_mem_eq ( node . chain_code , fromhex ( " 8b59aa11380b624e81507a27fedda59fea6d0b779a778918a2fd3590e16e9c69 " ) , 32 ) ;
ck_assert_mem_eq ( node . private_key , fromhex ( " 68e0fe46dfb67e368c75379acec591dad19df3cde26e63b93a8e704f1dade7a3 " ) , 32 ) ;
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hdnode_fill_public_key ( & node ) ;
ck_assert_mem_eq ( node . public_key , fromhex ( " 018c8a13df77a28f3445213a0f432fde644acaa215fc72dcdf300d5efaa85d350c " ) , 33 ) ;
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// [Chain m/0'/1']
hdnode_private_ckd_prime ( & node , 1 ) ;
ck_assert_mem_eq ( node . chain_code , fromhex ( " a320425f77d1b5c2505a6b1b27382b37368ee640e3557c315416801243552f14 " ) , 32 ) ;
ck_assert_mem_eq ( node . private_key , fromhex ( " b1d0bad404bf35da785a64ca1ac54b2617211d2777696fbffaf208f746ae84f2 " ) , 32 ) ;
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hdnode_fill_public_key ( & node ) ;
ck_assert_mem_eq ( node . public_key , fromhex ( " 011932a5270f335bed617d5b935c80aedb1a35bd9fc1e31acafd5372c30f5c1187 " ) , 33 ) ;
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// [Chain m/0'/1'/2']
hdnode_private_ckd_prime ( & node , 2 ) ;
ck_assert_mem_eq ( node . chain_code , fromhex ( " 2e69929e00b5ab250f49c3fb1c12f252de4fed2c1db88387094a0f8c4c9ccd6c " ) , 32 ) ;
ck_assert_mem_eq ( node . private_key , fromhex ( " 92a5b23c0b8a99e37d07df3fb9966917f5d06e02ddbd909c7e184371463e9fc9 " ) , 32 ) ;
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hdnode_fill_public_key ( & node ) ;
ck_assert_mem_eq ( node . public_key , fromhex ( " 01ae98736566d30ed0e9d2f4486a64bc95740d89c7db33f52121f8ea8f76ff0fc1 " ) , 33 ) ;
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// [Chain m/0'/1'/2'/2']
hdnode_private_ckd_prime ( & node , 2 ) ;
ck_assert_mem_eq ( node . chain_code , fromhex ( " 8f6d87f93d750e0efccda017d662a1b31a266e4a6f5993b15f5c1f07f74dd5cc " ) , 32 ) ;
ck_assert_mem_eq ( node . private_key , fromhex ( " 30d1dc7e5fc04c31219ab25a27ae00b50f6fd66622f6e9c913253d6511d1e662 " ) , 32 ) ;
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hdnode_fill_public_key ( & node ) ;
ck_assert_mem_eq ( node . public_key , fromhex ( " 018abae2d66361c879b900d204ad2cc4984fa2aa344dd7ddc46007329ac76c429c " ) , 33 ) ;
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// [Chain m/0'/1'/2'/2'/1000000000']
hdnode_private_ckd_prime ( & node , 1000000000 ) ;
ck_assert_mem_eq ( node . chain_code , fromhex ( " 68789923a0cac2cd5a29172a475fe9e0fb14cd6adb5ad98a3fa70333e7afa230 " ) , 32 ) ;
ck_assert_mem_eq ( node . private_key , fromhex ( " 8f94d394a8e8fd6b1bc2f3f49f5c47e385281d5c17e65324b0f62483e37e8793 " ) , 32 ) ;
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hdnode_fill_public_key ( & node ) ;
ck_assert_mem_eq ( node . public_key , fromhex ( " 013c24da049451555d51a7014a37337aa4e12d41e485abccfa46b47dfb2af54b7a " ) , 33 ) ;
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}
END_TEST
// test vector 2 from https://en.bitcoin.it/wiki/BIP_0032_TestVectors
START_TEST ( test_bip32_ed25519_vector_2 )
{
HDNode node ;
int r ;
// init m
hdnode_from_seed ( fromhex ( " fffcf9f6f3f0edeae7e4e1dedbd8d5d2cfccc9c6c3c0bdbab7b4b1aeaba8a5a29f9c999693908d8a8784817e7b7875726f6c696663605d5a5754514e4b484542 " ) , 64 , ED25519_NAME , & node ) ;
// [Chain m]
ck_assert_mem_eq ( node . chain_code , fromhex ( " ef70a74db9c3a5af931b5fe73ed8e1a53464133654fd55e7a66f8570b8e33c3b " ) , 32 ) ;
ck_assert_mem_eq ( node . private_key , fromhex ( " 171cb88b1b3c1db25add599712e36245d75bc65a1a5c9e18d76f9f2b1eab4012 " ) , 32 ) ;
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hdnode_fill_public_key ( & node ) ;
ck_assert_mem_eq ( node . public_key , fromhex ( " 018fe9693f8fa62a4305a140b9764c5ee01e455963744fe18204b4fb948249308a " ) , 33 ) ;
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// [Chain m/0']
r = hdnode_private_ckd_prime ( & node , 0 ) ;
ck_assert_int_eq ( r , 1 ) ;
ck_assert_mem_eq ( node . chain_code , fromhex ( " 0b78a3226f915c082bf118f83618a618ab6dec793752624cbeb622acb562862d " ) , 32 ) ;
ck_assert_mem_eq ( node . private_key , fromhex ( " 1559eb2bbec5790b0c65d8693e4d0875b1747f4970ae8b650486ed7470845635 " ) , 32 ) ;
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hdnode_fill_public_key ( & node ) ;
ck_assert_mem_eq ( node . public_key , fromhex ( " 0186fab68dcb57aa196c77c5f264f215a112c22a912c10d123b0d03c3c28ef1037 " ) , 33 ) ;
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// [Chain m/0'/2147483647']
r = hdnode_private_ckd_prime ( & node , 2147483647 ) ;
ck_assert_int_eq ( r , 1 ) ;
ck_assert_mem_eq ( node . chain_code , fromhex ( " 138f0b2551bcafeca6ff2aa88ba8ed0ed8de070841f0c4ef0165df8181eaad7f " ) , 32 ) ;
ck_assert_mem_eq ( node . private_key , fromhex ( " ea4f5bfe8694d8bb74b7b59404632fd5968b774ed545e810de9c32a4fb4192f4 " ) , 32 ) ;
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hdnode_fill_public_key ( & node ) ;
ck_assert_mem_eq ( node . public_key , fromhex ( " 015ba3b9ac6e90e83effcd25ac4e58a1365a9e35a3d3ae5eb07b9e4d90bcf7506d " ) , 33 ) ;
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// [Chain m/0'/2147483647'/1']
r = hdnode_private_ckd_prime ( & node , 1 ) ;
ck_assert_int_eq ( r , 1 ) ;
ck_assert_mem_eq ( node . chain_code , fromhex ( " 73bd9fff1cfbde33a1b846c27085f711c0fe2d66fd32e139d3ebc28e5a4a6b90 " ) , 32 ) ;
ck_assert_mem_eq ( node . private_key , fromhex ( " 3757c7577170179c7868353ada796c839135b3d30554bbb74a4b1e4a5a58505c " ) , 32 ) ;
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hdnode_fill_public_key ( & node ) ;
ck_assert_mem_eq ( node . public_key , fromhex ( " 012e66aa57069c86cc18249aecf5cb5a9cebbfd6fadeab056254763874a9352b45 " ) , 33 ) ;
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// [Chain m/0'/2147483647'/1'/2147483646']
r = hdnode_private_ckd_prime ( & node , 2147483646 ) ;
ck_assert_int_eq ( r , 1 ) ;
ck_assert_mem_eq ( node . chain_code , fromhex ( " 0902fe8a29f9140480a00ef244bd183e8a13288e4412d8389d140aac1794825a " ) , 32 ) ;
ck_assert_mem_eq ( node . private_key , fromhex ( " 5837736c89570de861ebc173b1086da4f505d4adb387c6a1b1342d5e4ac9ec72 " ) , 32 ) ;
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hdnode_fill_public_key ( & node ) ;
ck_assert_mem_eq ( node . public_key , fromhex ( " 01e33c0f7d81d843c572275f287498e8d408654fdf0d1e065b84e2e6f157aab09b " ) , 33 ) ;
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// [Chain m/0'/2147483647'/1'/2147483646'/2']
r = hdnode_private_ckd_prime ( & node , 2 ) ;
ck_assert_int_eq ( r , 1 ) ;
ck_assert_mem_eq ( node . chain_code , fromhex ( " 5d70af781f3a37b829f0d060924d5e960bdc02e85423494afc0b1a41bbe196d4 " ) , 32 ) ;
ck_assert_mem_eq ( node . private_key , fromhex ( " 551d333177df541ad876a60ea71f00447931c0a9da16f227c11ea080d7391b8d " ) , 32 ) ;
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hdnode_fill_public_key ( & node ) ;
ck_assert_mem_eq ( node . public_key , fromhex ( " 0147150c75db263559a70d5778bf36abbab30fb061ad69f69ece61a72b0cfa4fc0 " ) , 33 ) ;
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}
END_TEST
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START_TEST ( test_ecdsa_signature )
{
int res ;
uint8_t digest [ 32 ] ;
uint8_t pubkey [ 65 ] ;
const ecdsa_curve * curve = & secp256k1 ;
// sha2(sha2("\x18Bitcoin Signed Message:\n\x0cHello World!"))
memcpy ( digest , fromhex ( " de4e9524586d6fce45667f9ff12f661e79870c4105fa0fb58af976619bb11432 " ) , 32 ) ;
// r = 2: Four points should exist
res = ecdsa_verify_digest_recover ( curve , pubkey , fromhex ( " 00000000000000000000000000000000000000000000000000000000000000020123456789abcdef0123456789abcdef0123456789abcdef0123456789abcdef " ) , digest , 0 ) ;
ck_assert_int_eq ( res , 0 ) ;
ck_assert_mem_eq ( pubkey , fromhex ( " 043fc5bf5fec35b6ffe6fd246226d312742a8c296bfa57dd22da509a2e348529b7ddb9faf8afe1ecda3c05e7b2bda47ee1f5a87e952742b22afca560b29d972fcf " ) , 65 ) ;
res = ecdsa_verify_digest_recover ( curve , pubkey , fromhex ( " 00000000000000000000000000000000000000000000000000000000000000020123456789abcdef0123456789abcdef0123456789abcdef0123456789abcdef " ) , digest , 1 ) ;
ck_assert_int_eq ( res , 0 ) ;
ck_assert_mem_eq ( pubkey , fromhex ( " 0456d8089137b1fd0d890f8c7d4a04d0fd4520a30b19518ee87bd168ea12ed8090329274c4c6c0d9df04515776f2741eeffc30235d596065d718c3973e19711ad0 " ) , 65 ) ;
res = ecdsa_verify_digest_recover ( curve , pubkey , fromhex ( " 00000000000000000000000000000000000000000000000000000000000000020123456789abcdef0123456789abcdef0123456789abcdef0123456789abcdef " ) , digest , 2 ) ;
ck_assert_int_eq ( res , 0 ) ;
ck_assert_mem_eq ( pubkey , fromhex ( " 04cee0e740f41aab39156844afef0182dea2a8026885b10454a2d539df6f6df9023abfcb0f01c50bef3c0fa8e59a998d07441e18b1c60583ef75cc8b912fb21a15 " ) , 65 ) ;
res = ecdsa_verify_digest_recover ( curve , pubkey , fromhex ( " 00000000000000000000000000000000000000000000000000000000000000020123456789abcdef0123456789abcdef0123456789abcdef0123456789abcdef " ) , digest , 3 ) ;
ck_assert_int_eq ( res , 0 ) ;
ck_assert_mem_eq ( pubkey , fromhex ( " 0490d2bd2e9a564d6e1d8324fc6ad00aa4ae597684ecf4abea58bdfe7287ea4fa72968c2e5b0b40999ede3d7898d94e82c3f8dc4536a567a4bd45998c826a4c4b2 " ) , 65 ) ;
memcpy ( digest , fromhex ( " 0000000000000000000000000000000000000000000000000000000000000000 " ) , 32 ) ;
// r = 7: No point P with P.x = 7, but P.x = (order + 7) exists
res = ecdsa_verify_digest_recover ( curve , pubkey , fromhex ( " 00000000000000000000000000000000000000000000000000000000000000070123456789abcdef0123456789abcdef0123456789abcdef0123456789abcdef " ) , digest , 2 ) ;
ck_assert_int_eq ( res , 0 ) ;
ck_assert_mem_eq ( pubkey , fromhex ( " 044d81bb47a31ffc6cf1f780ecb1e201ec47214b651650867c07f13ad06e12a1b040de78f8dbda700f4d3cd7ee21b3651a74c7661809699d2be7ea0992b0d39797 " ) , 65 ) ;
res = ecdsa_verify_digest_recover ( curve , pubkey , fromhex ( " 00000000000000000000000000000000000000000000000000000000000000070123456789abcdef0123456789abcdef0123456789abcdef0123456789abcdef " ) , digest , 3 ) ;
ck_assert_int_eq ( res , 0 ) ;
ck_assert_mem_eq ( pubkey , fromhex ( " 044d81bb47a31ffc6cf1f780ecb1e201ec47214b651650867c07f13ad06e12a1b0bf21870724258ff0b2c32811de4c9ae58b3899e7f69662d41815f66c4f2c6498 " ) , 65 ) ;
res = ecdsa_verify_digest_recover ( curve , pubkey , fromhex ( " 00000000000000000000000000000000000000000000000000000000000000070123456789abcdef0123456789abcdef0123456789abcdef0123456789abcdef " ) , digest , 0 ) ;
ck_assert_int_eq ( res , 1 ) ;
memcpy ( digest , fromhex ( " ffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffff " ) , 32 ) ;
// r = 1: Two points P with P.x = 1, but P.x = (order + 7) doesn't exist
res = ecdsa_verify_digest_recover ( curve , pubkey , fromhex ( " 00000000000000000000000000000000000000000000000000000000000000010123456789abcdef0123456789abcdef0123456789abcdef0123456789abcdef " ) , digest , 0 ) ;
ck_assert_int_eq ( res , 0 ) ;
ck_assert_mem_eq ( pubkey , fromhex ( " 045d330b2f89dbfca149828277bae852dd4aebfe136982cb531a88e9e7a89463fe71519f34ea8feb9490c707f14bc38c9ece51762bfd034ea014719b7c85d2871b " ) , 65 ) ;
res = ecdsa_verify_digest_recover ( curve , pubkey , fromhex ( " 00000000000000000000000000000000000000000000000000000000000000010123456789abcdef0123456789abcdef0123456789abcdef0123456789abcdef " ) , digest , 1 ) ;
ck_assert_int_eq ( res , 0 ) ;
ck_assert_mem_eq ( pubkey , fromhex ( " 049e609c3950e70d6f3e3f3c81a473b1d5ca72739d51debdd80230ae80cab05134a94285375c834a417e8115c546c41da83a263087b79ef1cae25c7b3c738daa2b " ) , 65 ) ;
// r = 0 is always invalid
res = ecdsa_verify_digest_recover ( curve , pubkey , fromhex ( " 00000000000000000000000000000000000000000000000000000000000000010123456789abcdef0123456789abcdef0123456789abcdef0123456789abcdef " ) , digest , 2 ) ;
ck_assert_int_eq ( res , 1 ) ;
res = ecdsa_verify_digest_recover ( curve , pubkey , fromhex ( " 00000000000000000000000000000000000000000000000000000000000000000123456789abcdef0123456789abcdef0123456789abcdef0123456789abcdef " ) , digest , 0 ) ;
ck_assert_int_eq ( res , 1 ) ;
// r >= order is always invalid
res = ecdsa_verify_digest_recover ( curve , pubkey , fromhex ( " fffffffffffffffffffffffffffffffebaaedce6af48a03bbfd25e8cd03641410123456789abcdef0123456789abcdef0123456789abcdef0123456789abcdef " ) , digest , 0 ) ;
ck_assert_int_eq ( res , 1 ) ;
// check that overflow of r is handled
res = ecdsa_verify_digest_recover ( curve , pubkey , fromhex ( " 000000000000000000000000000000014551231950B75FC4402DA1722FC9BAEE0123456789abcdef0123456789abcdef0123456789abcdef0123456789abcdef " ) , digest , 2 ) ;
ck_assert_int_eq ( res , 1 ) ;
// s = 0 is always invalid
res = ecdsa_verify_digest_recover ( curve , pubkey , fromhex ( " 00000000000000000000000000000000000000000000000000000000000000020000000000000000000000000000000000000000000000000000000000000000 " ) , digest , 0 ) ;
ck_assert_int_eq ( res , 1 ) ;
// s >= order is always invalid
res = ecdsa_verify_digest_recover ( curve , pubkey , fromhex ( " 0000000000000000000000000000000000000000000000000000000000000002fffffffffffffffffffffffffffffffebaaedce6af48a03bbfd25e8cd0364141 " ) , digest , 0 ) ;
ck_assert_int_eq ( res , 1 ) ;
}
END_TEST
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# define test_deterministic(KEY, MSG, K) do { \
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sha256_Raw ( ( uint8_t * ) MSG , strlen ( MSG ) , buf ) ; \
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init_k_rfc6979 ( fromhex ( KEY ) , buf , & rng ) ; \
generate_k_rfc6979 ( & k , & rng ) ; \
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bn_write_be ( & k , buf ) ; \
ck_assert_mem_eq ( buf , fromhex ( K ) , 32 ) ; \
} while ( 0 )
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START_TEST ( test_rfc6979 )
{
bignum256 k ;
uint8_t buf [ 32 ] ;
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rfc6979_state rng ;
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test_deterministic ( " cca9fbcc1b41e5a95d369eaa6ddcff73b61a4efaa279cfc6567e8daa39cbaf50 " , " sample " , " 2df40ca70e639d89528a6b670d9d48d9165fdc0febc0974056bdce192b8e16a3 " ) ;
test_deterministic ( " 0000000000000000000000000000000000000000000000000000000000000001 " , " Satoshi Nakamoto " , " 8f8a276c19f4149656b280621e358cce24f5f52542772691ee69063b74f15d15 " ) ;
test_deterministic ( " fffffffffffffffffffffffffffffffebaaedce6af48a03bbfd25e8cd0364140 " , " Satoshi Nakamoto " , " 33a19b60e25fb6f4435af53a3d42d493644827367e6453928554f43e49aa6f90 " ) ;
test_deterministic ( " f8b8af8ce3c7cca5e300d33939540c10d45ce001b8f252bfbc57ba0342904181 " , " Alan Turing " , " 525a82b70e67874398067543fd84c83d30c175fdc45fdeee082fe13b1d7cfdf1 " ) ;
test_deterministic ( " 0000000000000000000000000000000000000000000000000000000000000001 " , " All those moments will be lost in time, like tears in rain. Time to die... " , " 38aa22d72376b4dbc472e06c3ba403ee0a394da63fc58d88686c611aba98d6b3 " ) ;
test_deterministic ( " e91671c46231f833a6406ccbea0e3e392c76c167bac1cb013f6f1013980455c2 " , " There is a computer disease that anybody who works with computers knows about. It's a very serious disease and it interferes completely with the work. The trouble with computers is that you 'play' with them! " , " 1f4b84c23a86a221d233f2521be018d9318639d5b8bbd6374a8a59232d16ad3d " ) ;
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}
END_TEST
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START_TEST ( test_sign_speed )
{
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uint8_t sig [ 64 ] , priv_key [ 32 ] , msg [ 256 ] ;
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size_t i ;
int res ;
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for ( i = 0 ; i < sizeof ( msg ) ; i + + ) {
msg [ i ] = i * 1103515245 ;
}
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const ecdsa_curve * curve = & secp256k1 ;
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clock_t t = clock ( ) ;
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memcpy ( priv_key , fromhex ( " c55ece858b0ddd5263f96810fe14437cd3b5e1fbd7c6a2ec1e031f05e86d8bd5 " ) , 32 ) ;
for ( i = 0 ; i < 250 ; i + + ) {
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res = ecdsa_sign ( curve , priv_key , msg , sizeof ( msg ) , sig , NULL , NULL ) ;
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ck_assert_int_eq ( res , 0 ) ;
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}
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memcpy ( priv_key , fromhex ( " 509a0382ff5da48e402967a671bdcde70046d07f0df52cff12e8e3883b426a0a " ) , 32 ) ;
for ( i = 0 ; i < 250 ; i + + ) {
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res = ecdsa_sign ( curve , priv_key , msg , sizeof ( msg ) , sig , NULL , NULL ) ;
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ck_assert_int_eq ( res , 0 ) ;
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}
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printf ( " SECP256k1 signing speed: %0.2f sig/s \n " , 500.0f / ( ( float ) ( clock ( ) - t ) / CLOCKS_PER_SEC ) ) ;
curve = & nist256p1 ;
t = clock ( ) ;
memcpy ( priv_key , fromhex ( " c55ece858b0ddd5263f96810fe14437cd3b5e1fbd7c6a2ec1e031f05e86d8bd5 " ) , 32 ) ;
for ( i = 0 ; i < 250 ; i + + ) {
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res = ecdsa_sign ( curve , priv_key , msg , sizeof ( msg ) , sig , NULL , NULL ) ;
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ck_assert_int_eq ( res , 0 ) ;
}
memcpy ( priv_key , fromhex ( " 509a0382ff5da48e402967a671bdcde70046d07f0df52cff12e8e3883b426a0a " ) , 32 ) ;
for ( i = 0 ; i < 250 ; i + + ) {
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res = ecdsa_sign ( curve , priv_key , msg , sizeof ( msg ) , sig , NULL , NULL ) ;
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ck_assert_int_eq ( res , 0 ) ;
}
printf ( " NIST256p1 signing speed: %0.2f sig/s \n " , 500.0f / ( ( float ) ( clock ( ) - t ) / CLOCKS_PER_SEC ) ) ;
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}
END_TEST
START_TEST ( test_verify_speed )
{
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uint8_t sig [ 64 ] , pub_key33 [ 33 ] , pub_key65 [ 65 ] , msg [ 256 ] ;
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size_t i ;
int res ;
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for ( i = 0 ; i < sizeof ( msg ) ; i + + ) {
msg [ i ] = i * 1103515245 ;
}
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const ecdsa_curve * curve = & secp256k1 ;
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clock_t t = clock ( ) ;
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memcpy ( sig , fromhex ( " 88dc0db6bc5efa762e75fbcc802af69b9f1fcdbdffce748d403f687f855556e610ee8035414099ac7d89cff88a3fa246d332dfa3c78d82c801394112dda039c2 " ) , 64 ) ;
memcpy ( pub_key33 , fromhex ( " 024054fd18aeb277aeedea01d3f3986ff4e5be18092a04339dcf4e524e2c0a0974 " ) , 33 ) ;
memcpy ( pub_key65 , fromhex ( " 044054fd18aeb277aeedea01d3f3986ff4e5be18092a04339dcf4e524e2c0a09746c7083ed2097011b1223a17a644e81f59aa3de22dac119fd980b36a8ff29a244 " ) , 65 ) ;
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for ( i = 0 ; i < 25 ; i + + ) {
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res = ecdsa_verify ( curve , pub_key65 , sig , msg , sizeof ( msg ) ) ;
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ck_assert_int_eq ( res , 0 ) ;
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res = ecdsa_verify ( curve , pub_key33 , sig , msg , sizeof ( msg ) ) ;
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ck_assert_int_eq ( res , 0 ) ;
}
memcpy ( sig , fromhex ( " 067040a2adb3d9deefeef95dae86f69671968a0b90ee72c2eab54369612fd524eb6756c5a1bb662f1175a5fa888763cddc3a07b8a045ef6ab358d8d5d1a9a745 " ) , 64 ) ;
memcpy ( pub_key33 , fromhex ( " 03ff45a5561a76be930358457d113f25fac790794ec70317eff3b97d7080d45719 " ) , 33 ) ;
memcpy ( pub_key65 , fromhex ( " 04ff45a5561a76be930358457d113f25fac790794ec70317eff3b97d7080d457196235193a15778062ddaa44aef7e6901b781763e52147f2504e268b2d572bf197 " ) , 65 ) ;
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for ( i = 0 ; i < 25 ; i + + ) {
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res = ecdsa_verify ( curve , pub_key65 , sig , msg , sizeof ( msg ) ) ;
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ck_assert_int_eq ( res , 0 ) ;
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res = ecdsa_verify ( curve , pub_key33 , sig , msg , sizeof ( msg ) ) ;
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ck_assert_int_eq ( res , 0 ) ;
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}
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printf ( " SECP256k1 verifying speed: %0.2f sig/s \n " , 100.0f / ( ( float ) ( clock ( ) - t ) / CLOCKS_PER_SEC ) ) ;
curve = & nist256p1 ;
t = clock ( ) ;
memcpy ( sig , fromhex ( " 7ed26b02c7e9664baaaa1e6ab64b3350c65ff685a7502863f357029c21c92a0dd7f2ae56d229262a8c7e97a0bfe1e7f9fd80c29df97355afa52ca07b507cecb9 " ) , 64 ) ;
memcpy ( pub_key33 , fromhex ( " 035662d692de519699000c7f5f04b2714e6a7f358c567fbcc001107ab86e4a7dea " ) , 33 ) ;
memcpy ( pub_key65 , fromhex ( " 045662d692de519699000c7f5f04b2714e6a7f358c567fbcc001107ab86e4a7dea40523030e793724473d3cd60e436cbfc0a6e4ac5a5d0b340c5d637c6c870c00f " ) , 65 ) ;
for ( i = 0 ; i < 25 ; i + + ) {
res = ecdsa_verify ( curve , pub_key65 , sig , msg , sizeof ( msg ) ) ;
//ck_assert_int_eq(res, 0);
res = ecdsa_verify ( curve , pub_key33 , sig , msg , sizeof ( msg ) ) ;
//ck_assert_int_eq(res, 0);
}
memcpy ( sig , fromhex ( " 6e13956f4227e66264dfcd92cf40b3b253622e96b1e1030392c0b06d9570f725dd1542164a481c0342ceb0b575f3516df536b7b90da57c381dfbd1aac6138c0b " ) , 64 ) ;
memcpy ( pub_key33 , fromhex ( " 034b17f6b5c42b1be32c09f49056ee793e67f3ff42058123ce72fffc61d7236bc2 " ) , 33 ) ;
memcpy ( pub_key65 , fromhex ( " 044b17f6b5c42b1be32c09f49056ee793e67f3ff42058123ce72fffc61d7236bc29b6c29cbbbb2681d2b2e9c699cde8e591650d02bf4bb577ec53fd229442882e5 " ) , 65 ) ;
for ( i = 0 ; i < 25 ; i + + ) {
res = ecdsa_verify ( curve , pub_key65 , sig , msg , sizeof ( msg ) ) ;
//ck_assert_int_eq(res, 0);
res = ecdsa_verify ( curve , pub_key33 , sig , msg , sizeof ( msg ) ) ;
//ck_assert_int_eq(res, 0);
}
printf ( " NIST256p1 verifying speed: %0.2f sig/s \n " , 100.0f / ( ( float ) ( clock ( ) - t ) / CLOCKS_PER_SEC ) ) ;
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}
END_TEST
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// test vectors from http://www.inconteam.com/software-development/41-encryption/55-aes-test-vectors
START_TEST ( test_aes )
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{
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aes_encrypt_ctx ctxe ;
aes_decrypt_ctx ctxd ;
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uint8_t ibuf [ 16 ] , obuf [ 16 ] , iv [ 16 ] , cbuf [ 16 ] ;
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const char * * ivp , * * plainp , * * cipherp ;
// ECB
static const char * ecb_vector [ ] = {
// plain cipher
" 6bc1bee22e409f96e93d7e117393172a " , " f3eed1bdb5d2a03c064b5a7e3db181f8 " ,
" ae2d8a571e03ac9c9eb76fac45af8e51 " , " 591ccb10d410ed26dc5ba74a31362870 " ,
" 30c81c46a35ce411e5fbc1191a0a52ef " , " b6ed21b99ca6f4f9f153e7b1beafed1d " ,
" f69f2445df4f9b17ad2b417be66c3710 " , " 23304b7a39f9f3ff067d8d8f9e24ecc7 " ,
0 , 0 ,
} ;
plainp = ecb_vector ;
cipherp = ecb_vector + 1 ;
while ( * plainp & & * cipherp ) {
// encrypt
aes_encrypt_key256 ( fromhex ( " 603deb1015ca71be2b73aef0857d77811f352c073b6108d72d9810a30914dff4 " ) , & ctxe ) ;
memcpy ( ibuf , fromhex ( * plainp ) , 16 ) ;
aes_ecb_encrypt ( ibuf , obuf , 16 , & ctxe ) ;
ck_assert_mem_eq ( obuf , fromhex ( * cipherp ) , 16 ) ;
// decrypt
aes_decrypt_key256 ( fromhex ( " 603deb1015ca71be2b73aef0857d77811f352c073b6108d72d9810a30914dff4 " ) , & ctxd ) ;
memcpy ( ibuf , fromhex ( * cipherp ) , 16 ) ;
aes_ecb_decrypt ( ibuf , obuf , 16 , & ctxd ) ;
ck_assert_mem_eq ( obuf , fromhex ( * plainp ) , 16 ) ;
plainp + = 2 ; cipherp + = 2 ;
}
// CBC
static const char * cbc_vector [ ] = {
// iv plain cipher
" 000102030405060708090A0B0C0D0E0F " , " 6bc1bee22e409f96e93d7e117393172a " , " f58c4c04d6e5f1ba779eabfb5f7bfbd6 " ,
" F58C4C04D6E5F1BA779EABFB5F7BFBD6 " , " ae2d8a571e03ac9c9eb76fac45af8e51 " , " 9cfc4e967edb808d679f777bc6702c7d " ,
" 9CFC4E967EDB808D679F777BC6702C7D " , " 30c81c46a35ce411e5fbc1191a0a52ef " , " 39f23369a9d9bacfa530e26304231461 " ,
" 39F23369A9D9BACFA530E26304231461 " , " f69f2445df4f9b17ad2b417be66c3710 " , " b2eb05e2c39be9fcda6c19078c6a9d1b " ,
0 , 0 , 0 ,
} ;
ivp = cbc_vector ;
plainp = cbc_vector + 1 ;
cipherp = cbc_vector + 2 ;
while ( * plainp & & * cipherp ) {
// encrypt
aes_encrypt_key256 ( fromhex ( " 603deb1015ca71be2b73aef0857d77811f352c073b6108d72d9810a30914dff4 " ) , & ctxe ) ;
memcpy ( iv , fromhex ( * ivp ) , 16 ) ;
memcpy ( ibuf , fromhex ( * plainp ) , 16 ) ;
aes_cbc_encrypt ( ibuf , obuf , 16 , iv , & ctxe ) ;
ck_assert_mem_eq ( obuf , fromhex ( * cipherp ) , 16 ) ;
// decrypt
aes_decrypt_key256 ( fromhex ( " 603deb1015ca71be2b73aef0857d77811f352c073b6108d72d9810a30914dff4 " ) , & ctxd ) ;
memcpy ( iv , fromhex ( * ivp ) , 16 ) ;
memcpy ( ibuf , fromhex ( * cipherp ) , 16 ) ;
aes_cbc_decrypt ( ibuf , obuf , 16 , iv , & ctxd ) ;
ck_assert_mem_eq ( obuf , fromhex ( * plainp ) , 16 ) ;
ivp + = 3 ; plainp + = 3 ; cipherp + = 3 ;
}
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// CFB
static const char * cfb_vector [ ] = {
" 000102030405060708090A0B0C0D0E0F " , " 6bc1bee22e409f96e93d7e117393172a " , " DC7E84BFDA79164B7ECD8486985D3860 " ,
" DC7E84BFDA79164B7ECD8486985D3860 " , " ae2d8a571e03ac9c9eb76fac45af8e51 " , " 39ffed143b28b1c832113c6331e5407b " ,
" 39FFED143B28B1C832113C6331E5407B " , " 30c81c46a35ce411e5fbc1191a0a52ef " , " df10132415e54b92a13ed0a8267ae2f9 " ,
" DF10132415E54B92A13ED0A8267AE2F9 " , " f69f2445df4f9b17ad2b417be66c3710 " , " 75a385741ab9cef82031623d55b1e471 " ,
0 , 0 , 0 ,
} ;
ivp = cfb_vector ;
plainp = cfb_vector + 1 ;
cipherp = cfb_vector + 2 ;
while ( * plainp & & * cipherp ) {
// encrypt
aes_encrypt_key256 ( fromhex ( " 603deb1015ca71be2b73aef0857d77811f352c073b6108d72d9810a30914dff4 " ) , & ctxe ) ;
memcpy ( iv , fromhex ( * ivp ) , 16 ) ;
memcpy ( ibuf , fromhex ( * plainp ) , 16 ) ;
aes_cfb_encrypt ( ibuf , obuf , 16 , iv , & ctxe ) ;
ck_assert_mem_eq ( obuf , fromhex ( * cipherp ) , 16 ) ;
// decrypt (uses encryption)
aes_encrypt_key256 ( fromhex ( " 603deb1015ca71be2b73aef0857d77811f352c073b6108d72d9810a30914dff4 " ) , & ctxe ) ;
memcpy ( iv , fromhex ( * ivp ) , 16 ) ;
memcpy ( ibuf , fromhex ( * cipherp ) , 16 ) ;
aes_cfb_decrypt ( ibuf , obuf , 16 , iv , & ctxe ) ;
ck_assert_mem_eq ( obuf , fromhex ( * plainp ) , 16 ) ;
ivp + = 3 ; plainp + = 3 ; cipherp + = 3 ;
}
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// OFB
static const char * ofb_vector [ ] = {
" 000102030405060708090A0B0C0D0E0F " , " 6bc1bee22e409f96e93d7e117393172a " , " dc7e84bfda79164b7ecd8486985d3860 " ,
" B7BF3A5DF43989DD97F0FA97EBCE2F4A " , " ae2d8a571e03ac9c9eb76fac45af8e51 " , " 4febdc6740d20b3ac88f6ad82a4fb08d " ,
" E1C656305ED1A7A6563805746FE03EDC " , " 30c81c46a35ce411e5fbc1191a0a52ef " , " 71ab47a086e86eedf39d1c5bba97c408 " ,
" 41635BE625B48AFC1666DD42A09D96E7 " , " f69f2445df4f9b17ad2b417be66c3710 " , " 0126141d67f37be8538f5a8be740e484 " ,
0 , 0 , 0 ,
} ;
ivp = ofb_vector ;
plainp = ofb_vector + 1 ;
cipherp = ofb_vector + 2 ;
while ( * plainp & & * cipherp ) {
// encrypt
aes_encrypt_key256 ( fromhex ( " 603deb1015ca71be2b73aef0857d77811f352c073b6108d72d9810a30914dff4 " ) , & ctxe ) ;
memcpy ( iv , fromhex ( * ivp ) , 16 ) ;
memcpy ( ibuf , fromhex ( * plainp ) , 16 ) ;
aes_ofb_encrypt ( ibuf , obuf , 16 , iv , & ctxe ) ;
ck_assert_mem_eq ( obuf , fromhex ( * cipherp ) , 16 ) ;
// decrypt (uses encryption)
aes_encrypt_key256 ( fromhex ( " 603deb1015ca71be2b73aef0857d77811f352c073b6108d72d9810a30914dff4 " ) , & ctxe ) ;
memcpy ( iv , fromhex ( * ivp ) , 16 ) ;
memcpy ( ibuf , fromhex ( * cipherp ) , 16 ) ;
aes_ofb_decrypt ( ibuf , obuf , 16 , iv , & ctxe ) ;
ck_assert_mem_eq ( obuf , fromhex ( * plainp ) , 16 ) ;
ivp + = 3 ; plainp + = 3 ; cipherp + = 3 ;
}
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// CTR
static const char * ctr_vector [ ] = {
// plain cipher
" 6bc1bee22e409f96e93d7e117393172a " , " 601ec313775789a5b7a7f504bbf3d228 " ,
" ae2d8a571e03ac9c9eb76fac45af8e51 " , " f443e3ca4d62b59aca84e990cacaf5c5 " ,
" 30c81c46a35ce411e5fbc1191a0a52ef " , " 2b0930daa23de94ce87017ba2d84988d " ,
" f69f2445df4f9b17ad2b417be66c3710 " , " dfc9c58db67aada613c2dd08457941a6 " ,
0 , 0 ,
} ;
// encrypt
plainp = ctr_vector ;
cipherp = ctr_vector + 1 ;
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memcpy ( cbuf , fromhex ( " f0f1f2f3f4f5f6f7f8f9fafbfcfdfeff " ) , 16 ) ;
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aes_encrypt_key256 ( fromhex ( " 603deb1015ca71be2b73aef0857d77811f352c073b6108d72d9810a30914dff4 " ) , & ctxe ) ;
while ( * plainp & & * cipherp ) {
memcpy ( ibuf , fromhex ( * plainp ) , 16 ) ;
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aes_ctr_encrypt ( ibuf , obuf , 16 , cbuf , aes_ctr_cbuf_inc , & ctxe ) ;
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ck_assert_mem_eq ( obuf , fromhex ( * cipherp ) , 16 ) ;
plainp + = 2 ; cipherp + = 2 ;
}
// decrypt (uses encryption)
plainp = ctr_vector ;
cipherp = ctr_vector + 1 ;
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memcpy ( cbuf , fromhex ( " f0f1f2f3f4f5f6f7f8f9fafbfcfdfeff " ) , 16 ) ;
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aes_encrypt_key256 ( fromhex ( " 603deb1015ca71be2b73aef0857d77811f352c073b6108d72d9810a30914dff4 " ) , & ctxe ) ;
while ( * plainp & & * cipherp ) {
memcpy ( ibuf , fromhex ( * cipherp ) , 16 ) ;
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aes_ctr_decrypt ( ibuf , obuf , 16 , cbuf , aes_ctr_cbuf_inc , & ctxe ) ;
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ck_assert_mem_eq ( obuf , fromhex ( * plainp ) , 16 ) ;
plainp + = 2 ; cipherp + = 2 ;
}
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}
END_TEST
2016-07-13 18:40:15 +00:00
# define TEST1 "abc"
# define TEST2_1 \
" abcdbcdecdefdefgefghfghighijhijkijkljklmklmnlmnomnopnopq "
# define TEST2_2a \
" abcdefghbcdefghicdefghijdefghijkefghijklfghijklmghijklmn "
# define TEST2_2b \
" hijklmnoijklmnopjklmnopqklmnopqrlmnopqrsmnopqrstnopqrstu "
# define TEST2_2 TEST2_2a TEST2_2b
# define TEST3 "a" /* times 1000000 */
# define TEST4a "01234567012345670123456701234567"
# define TEST4b "01234567012345670123456701234567"
/* an exact multiple of 512 bits */
# define TEST4 TEST4a TEST4b /* times 10 */
# define TEST7_1 \
" \x49 \xb2 \xae \xc2 \x59 \x4b \xbe \x3a \x3b \x11 \x75 \x42 \xd9 \x4a \xc8 "
# define TEST8_1 \
" \x9a \x7d \xfd \xf1 \xec \xea \xd0 \x6e \xd6 \x46 \xaa \x55 \xfe \x75 \x71 \x46 "
# define TEST9_1 \
" \x65 \xf9 \x32 \x99 \x5b \xa4 \xce \x2c \xb1 \xb4 \xa2 \xe7 \x1a \xe7 \x02 \x20 " \
" \xaa \xce \xc8 \x96 \x2d \xd4 \x49 \x9c \xbd \x7c \x88 \x7a \x94 \xea \xaa \x10 " \
" \x1e \xa5 \xaa \xbc \x52 \x9b \x4e \x7e \x43 \x66 \x5a \x5a \xf2 \xcd \x03 \xfe " \
" \x67 \x8e \xa6 \xa5 \x00 \x5b \xba \x3b \x08 \x22 \x04 \xc2 \x8b \x91 \x09 \xf4 " \
" \x69 \xda \xc9 \x2a \xaa \xb3 \xaa \x7c \x11 \xa1 \xb3 \x2a "
# define TEST10_1 \
" \xf7 \x8f \x92 \x14 \x1b \xcd \x17 \x0a \xe8 \x9b \x4f \xba \x15 \xa1 \xd5 \x9f " \
" \x3f \xd8 \x4d \x22 \x3c \x92 \x51 \xbd \xac \xbb \xae \x61 \xd0 \x5e \xd1 \x15 " \
" \xa0 \x6a \x7c \xe1 \x17 \xb7 \xbe \xea \xd2 \x44 \x21 \xde \xd9 \xc3 \x25 \x92 " \
" \xbd \x57 \xed \xea \xe3 \x9c \x39 \xfa \x1f \xe8 \x94 \x6a \x84 \xd0 \xcf \x1f " \
" \x7b \xee \xad \x17 \x13 \xe2 \xe0 \x95 \x98 \x97 \x34 \x7f \x67 \xc8 \x0b \x04 " \
" \x00 \xc2 \x09 \x81 \x5d \x6b \x10 \xa6 \x83 \x83 \x6f \xd5 \x56 \x2a \x56 \xca " \
" \xb1 \xa2 \x8e \x81 \xb6 \x57 \x66 \x54 \x63 \x1c \xf1 \x65 \x66 \xb8 \x6e \x3b " \
" \x33 \xa1 \x08 \xb0 \x53 \x07 \xc0 \x0a \xff \x14 \xa7 \x68 \xed \x73 \x50 \x60 " \
" \x6a \x0f \x85 \xe6 \xa9 \x1d \x39 \x6f \x5b \x5c \xbe \x57 \x7f \x9b \x38 \x80 " \
" \x7c \x7d \x52 \x3d \x6d \x79 \x2f \x6e \xbc \x24 \xa4 \xec \xf2 \xb3 \xa4 \x27 " \
" \xcd \xbb \xfb "
2016-09-29 16:13:25 +00:00
# define length(x) (sizeof(x)-1)
// test vectors from rfc-4634
START_TEST ( test_sha1 )
{
struct {
const char * test ;
int length ;
int repeatcount ;
int extrabits ;
int numberExtrabits ;
const char * result ;
} tests [ ] = {
/* 1 */ { TEST1 , length ( TEST1 ) , 1 , 0 , 0 ,
" A9993E364706816ABA3E25717850C26C9CD0D89D " } ,
/* 2 */ { TEST2_1 , length ( TEST2_1 ) , 1 , 0 , 0 ,
" 84983E441C3BD26EBAAE4AA1F95129E5E54670F1 " } ,
/* 3 */ { TEST3 , length ( TEST3 ) , 1000000 , 0 , 0 ,
" 34AA973CD4C4DAA4F61EEB2BDBAD27316534016F " } ,
/* 4 */ { TEST4 , length ( TEST4 ) , 10 , 0 , 0 ,
" DEA356A2CDDD90C7A7ECEDC5EBB563934F460452 " } ,
/* 5 */ { " " , 0 , 0 , 0x98 , 5 ,
" 29826B003B906E660EFF4027CE98AF3531AC75BA " } ,
/* 6 */ { " \x5e " , 1 , 1 , 0 , 0 ,
" 5E6F80A34A9798CAFC6A5DB96CC57BA4C4DB59C2 " } ,
/* 7 */ { TEST7_1 , length ( TEST7_1 ) , 1 , 0x80 , 3 ,
" 6239781E03729919C01955B3FFA8ACB60B988340 " } ,
/* 8 */ { TEST8_1 , length ( TEST8_1 ) , 1 , 0 , 0 ,
" 82ABFF6605DBE1C17DEF12A394FA22A82B544A35 " } ,
/* 9 */ { TEST9_1 , length ( TEST9_1 ) , 1 , 0xE0 , 3 ,
" 8C5B2A5DDAE5A97FC7F9D85661C672ADBF7933D4 " } ,
/* 10 */ { TEST10_1 , length ( TEST10_1 ) , 1 , 0 , 0 ,
" CB0082C8F197D260991BA6A460E76E202BAD27B3 " }
} ;
for ( int i = 0 ; i < 10 ; i + + ) {
SHA1_CTX ctx ;
uint8_t digest [ SHA1_DIGEST_LENGTH ] ;
sha1_Init ( & ctx ) ;
/* extra bits are not supported */
if ( tests [ i ] . numberExtrabits )
continue ;
for ( int j = 0 ; j < tests [ i ] . repeatcount ; j + + ) {
sha1_Update ( & ctx , ( const uint8_t * ) tests [ i ] . test , tests [ i ] . length ) ;
}
sha1_Final ( & ctx , digest ) ;
ck_assert_mem_eq ( digest , fromhex ( tests [ i ] . result ) , SHA1_DIGEST_LENGTH ) ;
}
}
END_TEST
2016-07-13 18:40:15 +00:00
# define TEST7_256 \
" \xbe \x27 \x46 \xc6 \xdb \x52 \x76 \x5f \xdb \x2f \x88 \x70 \x0f \x9a \x73 "
# define TEST8_256 \
" \xe3 \xd7 \x25 \x70 \xdc \xdd \x78 \x7c \xe3 \x88 \x7a \xb2 \xcd \x68 \x46 \x52 "
# define TEST9_256 \
" \x3e \x74 \x03 \x71 \xc8 \x10 \xc2 \xb9 \x9f \xc0 \x4e \x80 \x49 \x07 \xef \x7c " \
" \xf2 \x6b \xe2 \x8b \x57 \xcb \x58 \xa3 \xe2 \xf3 \xc0 \x07 \x16 \x6e \x49 \xc1 " \
" \x2e \x9b \xa3 \x4c \x01 \x04 \x06 \x91 \x29 \xea \x76 \x15 \x64 \x25 \x45 \x70 " \
" \x3a \x2b \xd9 \x01 \xe1 \x6e \xb0 \xe0 \x5d \xeb \xa0 \x14 \xeb \xff \x64 \x06 " \
" \xa0 \x7d \x54 \x36 \x4e \xff \x74 \x2d \xa7 \x79 \xb0 \xb3 "
# define TEST10_256 \
" \x83 \x26 \x75 \x4e \x22 \x77 \x37 \x2f \x4f \xc1 \x2b \x20 \x52 \x7a \xfe \xf0 " \
" \x4d \x8a \x05 \x69 \x71 \xb1 \x1a \xd5 \x71 \x23 \xa7 \xc1 \x37 \x76 \x00 \x00 " \
" \xd7 \xbe \xf6 \xf3 \xc1 \xf7 \xa9 \x08 \x3a \xa3 \x9d \x81 \x0d \xb3 \x10 \x77 " \
" \x7d \xab \x8b \x1e \x7f \x02 \xb8 \x4a \x26 \xc7 \x73 \x32 \x5f \x8b \x23 \x74 " \
" \xde \x7a \x4b \x5a \x58 \xcb \x5c \x5c \xf3 \x5b \xce \xe6 \xfb \x94 \x6e \x5b " \
" \xd6 \x94 \xfa \x59 \x3a \x8b \xeb \x3f \x9d \x65 \x92 \xec \xed \xaa \x66 \xca " \
" \x82 \xa2 \x9d \x0c \x51 \xbc \xf9 \x33 \x62 \x30 \xe5 \xd7 \x84 \xe4 \xc0 \xa4 " \
" \x3f \x8d \x79 \xa3 \x0a \x16 \x5c \xba \xbe \x45 \x2b \x77 \x4b \x9c \x71 \x09 " \
" \xa9 \x7d \x13 \x8f \x12 \x92 \x28 \x96 \x6f \x6c \x0a \xdc \x10 \x6a \xad \x5a " \
" \x9f \xdd \x30 \x82 \x57 \x69 \xb2 \xc6 \x71 \xaf \x67 \x59 \xdf \x28 \xeb \x39 " \
" \x3d \x54 \xd6 "
// test vectors from rfc-4634
START_TEST ( test_sha256 )
{
struct {
const char * test ;
int length ;
int repeatcount ;
int extrabits ;
int numberExtrabits ;
const char * result ;
} tests [ ] = {
/* 1 */ { TEST1 , length ( TEST1 ) , 1 , 0 , 0 , " BA7816BF8F01CFEA4141 "
" 40DE5DAE2223B00361A396177A9CB410FF61F20015AD " } ,
/* 2 */ { TEST2_1 , length ( TEST2_1 ) , 1 , 0 , 0 , " 248D6A61D20638B8 "
" E5C026930C3E6039A33CE45964FF2167F6ECEDD419DB06C1 " } ,
/* 3 */ { TEST3 , length ( TEST3 ) , 1000000 , 0 , 0 , " CDC76E5C9914FB92 "
" 81A1C7E284D73E67F1809A48A497200E046D39CCC7112CD0 " } ,
/* 4 */ { TEST4 , length ( TEST4 ) , 10 , 0 , 0 , " 594847328451BDFA "
" 85056225462CC1D867D877FB388DF0CE35F25AB5562BFBB5 " } ,
/* 5 */ { " " , 0 , 0 , 0x68 , 5 , " D6D3E02A31A84A8CAA9718ED6C2057BE "
" 09DB45E7823EB5079CE7A573A3760F95 " } ,
/* 6 */ { " \x19 " , 1 , 1 , 0 , 0 , " 68AA2E2EE5DFF96E3355E6C7EE373E3D "
" 6A4E17F75F9518D843709C0C9BC3E3D4 " } ,
/* 7 */ { TEST7_256 , length ( TEST7_256 ) , 1 , 0x60 , 3 , " 77EC1DC8 "
" 9C821FF2A1279089FA091B35B8CD960BCAF7DE01C6A7680756BEB972 " } ,
/* 8 */ { TEST8_256 , length ( TEST8_256 ) , 1 , 0 , 0 , " 175EE69B02BA "
" 9B58E2B0A5FD13819CEA573F3940A94F825128CF4209BEABB4E8 " } ,
/* 9 */ { TEST9_256 , length ( TEST9_256 ) , 1 , 0xA0 , 3 , " 3E9AD646 "
" 8BBBAD2AC3C2CDC292E018BA5FD70B960CF1679777FCE708FDB066E9 " } ,
/* 10 */ { TEST10_256 , length ( TEST10_256 ) , 1 , 0 , 0 , " 97DBCA7D "
" F46D62C8A422C941DD7E835B8AD3361763F7E9B2D95F4F0DA6E1CCBC " } ,
} ;
for ( int i = 0 ; i < 10 ; i + + ) {
SHA256_CTX ctx ;
uint8_t digest [ SHA256_DIGEST_LENGTH ] ;
sha256_Init ( & ctx ) ;
/* extra bits are not supported */
if ( tests [ i ] . numberExtrabits )
continue ;
for ( int j = 0 ; j < tests [ i ] . repeatcount ; j + + ) {
sha256_Update ( & ctx , ( const uint8_t * ) tests [ i ] . test , tests [ i ] . length ) ;
}
sha256_Final ( & ctx , digest ) ;
ck_assert_mem_eq ( digest , fromhex ( tests [ i ] . result ) , SHA256_DIGEST_LENGTH ) ;
}
}
END_TEST
# define TEST7_512 \
" \x08 \xec \xb5 \x2e \xba \xe1 \xf7 \x42 \x2d \xb6 \x2b \xcd \x54 \x26 \x70 "
# define TEST8_512 \
" \x8d \x4e \x3c \x0e \x38 \x89 \x19 \x14 \x91 \x81 \x6e \x9d \x98 \xbf \xf0 \xa0 "
# define TEST9_512 \
" \x3a \xdd \xec \x85 \x59 \x32 \x16 \xd1 \x61 \x9a \xa0 \x2d \x97 \x56 \x97 \x0b " \
" \xfc \x70 \xac \xe2 \x74 \x4f \x7c \x6b \x27 \x88 \x15 \x10 \x28 \xf7 \xb6 \xa2 " \
" \x55 \x0f \xd7 \x4a \x7e \x6e \x69 \xc2 \xc9 \xb4 \x5f \xc4 \x54 \x96 \x6d \xc3 " \
" \x1d \x2e \x10 \xda \x1f \x95 \xce \x02 \xbe \xb4 \xbf \x87 \x65 \x57 \x4c \xbd " \
" \x6e \x83 \x37 \xef \x42 \x0a \xdc \x98 \xc1 \x5c \xb6 \xd5 \xe4 \xa0 \x24 \x1b " \
" \xa0 \x04 \x6d \x25 \x0e \x51 \x02 \x31 \xca \xc2 \x04 \x6c \x99 \x16 \x06 \xab " \
" \x4e \xe4 \x14 \x5b \xee \x2f \xf4 \xbb \x12 \x3a \xab \x49 \x8d \x9d \x44 \x79 " \
" \x4f \x99 \xcc \xad \x89 \xa9 \xa1 \x62 \x12 \x59 \xed \xa7 \x0a \x5b \x6d \xd4 " \
" \xbd \xd8 \x77 \x78 \xc9 \x04 \x3b \x93 \x84 \xf5 \x49 \x06 "
# define TEST10_512 \
" \xa5 \x5f \x20 \xc4 \x11 \xaa \xd1 \x32 \x80 \x7a \x50 \x2d \x65 \x82 \x4e \x31 " \
" \xa2 \x30 \x54 \x32 \xaa \x3d \x06 \xd3 \xe2 \x82 \xa8 \xd8 \x4e \x0d \xe1 \xde " \
" \x69 \x74 \xbf \x49 \x54 \x69 \xfc \x7f \x33 \x8f \x80 \x54 \xd5 \x8c \x26 \xc4 " \
" \x93 \x60 \xc3 \xe8 \x7a \xf5 \x65 \x23 \xac \xf6 \xd8 \x9d \x03 \xe5 \x6f \xf2 " \
" \xf8 \x68 \x00 \x2b \xc3 \xe4 \x31 \xed \xc4 \x4d \xf2 \xf0 \x22 \x3d \x4b \xb3 " \
" \xb2 \x43 \x58 \x6e \x1a \x7d \x92 \x49 \x36 \x69 \x4f \xcb \xba \xf8 \x8d \x95 " \
" \x19 \xe4 \xeb \x50 \xa6 \x44 \xf8 \xe4 \xf9 \x5e \xb0 \xea \x95 \xbc \x44 \x65 " \
" \xc8 \x82 \x1a \xac \xd2 \xfe \x15 \xab \x49 \x81 \x16 \x4b \xbb \x6d \xc3 \x2f " \
" \x96 \x90 \x87 \xa1 \x45 \xb0 \xd9 \xcc \x9c \x67 \xc2 \x2b \x76 \x32 \x99 \x41 " \
" \x9c \xc4 \x12 \x8b \xe9 \xa0 \x77 \xb3 \xac \xe6 \x34 \x06 \x4e \x6d \x99 \x28 " \
" \x35 \x13 \xdc \x06 \xe7 \x51 \x5d \x0d \x73 \x13 \x2e \x9a \x0d \xc6 \xd3 \xb1 " \
" \xf8 \xb2 \x46 \xf1 \xa9 \x8a \x3f \xc7 \x29 \x41 \xb1 \xe3 \xbb \x20 \x98 \xe8 " \
" \xbf \x16 \xf2 \x68 \xd6 \x4f \x0b \x0f \x47 \x07 \xfe \x1e \xa1 \xa1 \x79 \x1b " \
" \xa2 \xf3 \xc0 \xc7 \x58 \xe5 \xf5 \x51 \x86 \x3a \x96 \xc9 \x49 \xad \x47 \xd7 " \
" \xfb \x40 \xd2 "
// test vectors from rfc-4634
START_TEST ( test_sha512 )
{
struct {
const char * test ;
int length ;
int repeatcount ;
int extrabits ;
int numberExtrabits ;
const char * result ;
} tests [ ] = {
/* 1 */ { TEST1 , length ( TEST1 ) , 1 , 0 , 0 ,
" DDAF35A193617ABACC417349AE20413112E6FA4E89A97EA2 "
" 0A9EEEE64B55D39A2192992A274FC1A836BA3C23A3FEEBBD "
" 454D4423643CE80E2A9AC94FA54CA49F " } ,
/* 2 */ { TEST2_2 , length ( TEST2_2 ) , 1 , 0 , 0 ,
" 8E959B75DAE313DA8CF4F72814FC143F8F7779C6EB9F7FA1 "
" 7299AEADB6889018501D289E4900F7E4331B99DEC4B5433A "
" C7D329EEB6DD26545E96E55B874BE909 " } ,
/* 3 */ { TEST3 , length ( TEST3 ) , 1000000 , 0 , 0 ,
" E718483D0CE769644E2E42C7BC15B4638E1F98B13B204428 "
" 5632A803AFA973EBDE0FF244877EA60A4CB0432CE577C31B "
" EB009C5C2C49AA2E4EADB217AD8CC09B " } ,
/* 4 */ { TEST4 , length ( TEST4 ) , 10 , 0 , 0 ,
" 89D05BA632C699C31231DED4FFC127D5A894DAD412C0E024 "
" DB872D1ABD2BA8141A0F85072A9BE1E2AA04CF33C765CB51 "
" 0813A39CD5A84C4ACAA64D3F3FB7BAE9 " } ,
/* 5 */ { " " , 0 , 0 , 0xB0 , 5 ,
" D4EE29A9E90985446B913CF1D1376C836F4BE2C1CF3CADA0 "
" 720A6BF4857D886A7ECB3C4E4C0FA8C7F95214E41DC1B0D2 "
" 1B22A84CC03BF8CE4845F34DD5BDBAD4 " } ,
/* 6 */ { " \xD0 " , 1 , 1 , 0 , 0 ,
" 9992202938E882E73E20F6B69E68A0A7149090423D93C81B "
" AB3F21678D4ACEEEE50E4E8CAFADA4C85A54EA8306826C4A "
" D6E74CECE9631BFA8A549B4AB3FBBA15 " } ,
/* 7 */ { TEST7_512 , length ( TEST7_512 ) , 1 , 0x80 , 3 ,
" ED8DC78E8B01B69750053DBB7A0A9EDA0FB9E9D292B1ED71 "
" 5E80A7FE290A4E16664FD913E85854400C5AF05E6DAD316B "
" 7359B43E64F8BEC3C1F237119986BBB6 " } ,
/* 8 */ { TEST8_512 , length ( TEST8_512 ) , 1 , 0 , 0 ,
" CB0B67A4B8712CD73C9AABC0B199E9269B20844AFB75ACBD "
" D1C153C9828924C3DDEDAAFE669C5FDD0BC66F630F677398 "
" 8213EB1B16F517AD0DE4B2F0C95C90F8 " } ,
/* 9 */ { TEST9_512 , length ( TEST9_512 ) , 1 , 0x80 , 3 ,
" 32BA76FC30EAA0208AEB50FFB5AF1864FDBF17902A4DC0A6 "
" 82C61FCEA6D92B783267B21080301837F59DE79C6B337DB2 "
" 526F8A0A510E5E53CAFED4355FE7C2F1 " } ,
/* 10 */ { TEST10_512 , length ( TEST10_512 ) , 1 , 0 , 0 ,
" C665BEFB36DA189D78822D10528CBF3B12B3EEF726039909 "
" C1A16A270D48719377966B957A878E720584779A62825C18 "
" DA26415E49A7176A894E7510FD1451F5 " }
} ;
for ( int i = 0 ; i < 10 ; i + + ) {
SHA512_CTX ctx ;
uint8_t digest [ SHA512_DIGEST_LENGTH ] ;
sha512_Init ( & ctx ) ;
/* extra bits are not supported */
if ( tests [ i ] . numberExtrabits )
continue ;
for ( int j = 0 ; j < tests [ i ] . repeatcount ; j + + ) {
sha512_Update ( & ctx , ( const uint8_t * ) tests [ i ] . test , tests [ i ] . length ) ;
}
sha512_Final ( & ctx , digest ) ;
ck_assert_mem_eq ( digest , fromhex ( tests [ i ] . result ) , SHA512_DIGEST_LENGTH ) ;
}
}
END_TEST
2016-11-01 15:22:20 +00:00
// test vectors from http://www.di-mgt.com.au/sha_testvectors.html
START_TEST ( test_sha3_256 )
{
uint8_t digest [ sha3_256_hash_size ] ;
sha3_256 ( ( uint8_t * ) " " , 0 , digest ) ;
ck_assert_mem_eq ( digest , fromhex ( " a7ffc6f8bf1ed76651c14756a061d662f580ff4de43b49fa82d80a4b80f8434a " ) , sha3_256_hash_size ) ;
sha3_256 ( ( uint8_t * ) " abc " , 3 , digest ) ;
ck_assert_mem_eq ( digest , fromhex ( " 3a985da74fe225b2045c172d6bd390bd855f086e3e9d525b46bfe24511431532 " ) , sha3_256_hash_size ) ;
sha3_256 ( ( uint8_t * ) " abcdbcdecdefdefgefghfghighijhijkijkljklmklmnlmnomnopnopq " , 56 , digest ) ;
ck_assert_mem_eq ( digest , fromhex ( " 41c0dba2a9d6240849100376a8235e2c82e1b9998a999e21db32dd97496d3376 " ) , sha3_256_hash_size ) ;
sha3_256 ( ( uint8_t * ) " abcdefghbcdefghicdefghijdefghijkefghijklfghijklmghijklmnhijklmnoijklmnopjklmnopqklmnopqrlmnopqrsmnopqrstnopqrstu " , 112 , digest ) ;
ck_assert_mem_eq ( digest , fromhex ( " 916f6061fe879741ca6469b43971dfdb28b1a32dc36cb3254e812be27aad1d18 " ) , sha3_256_hash_size ) ;
}
END_TEST
// test vectors from http://www.di-mgt.com.au/sha_testvectors.html
START_TEST ( test_sha3_512 )
{
uint8_t digest [ sha3_512_hash_size ] ;
sha3_512 ( ( uint8_t * ) " " , 0 , digest ) ;
ck_assert_mem_eq ( digest , fromhex ( " a69f73cca23a9ac5c8b567dc185a756e97c982164fe25859e0d1dcc1475c80a615b2123af1f5f94c11e3e9402c3ac558f500199d95b6d3e301758586281dcd26 " ) , sha3_512_hash_size ) ;
sha3_512 ( ( uint8_t * ) " abc " , 3 , digest ) ;
ck_assert_mem_eq ( digest , fromhex ( " b751850b1a57168a5693cd924b6b096e08f621827444f70d884f5d0240d2712e10e116e9192af3c91a7ec57647e3934057340b4cf408d5a56592f8274eec53f0 " ) , sha3_512_hash_size ) ;
sha3_512 ( ( uint8_t * ) " abcdbcdecdefdefgefghfghighijhijkijkljklmklmnlmnomnopnopq " , 56 , digest ) ;
ck_assert_mem_eq ( digest , fromhex ( " 04a371e84ecfb5b8b77cb48610fca8182dd457ce6f326a0fd3d7ec2f1e91636dee691fbe0c985302ba1b0d8dc78c086346b533b49c030d99a27daf1139d6e75e " ) , sha3_512_hash_size ) ;
sha3_512 ( ( uint8_t * ) " abcdefghbcdefghicdefghijdefghijkefghijklfghijklmghijklmnhijklmnoijklmnopjklmnopqklmnopqrlmnopqrsmnopqrstnopqrstu " , 112 , digest ) ;
ck_assert_mem_eq ( digest , fromhex ( " afebb2ef542e6579c50cad06d2e578f9f8dd6881d7dc824d26360feebf18a4fa73e3261122948efcfd492e74e82e2189ed0fb440d187f382270cb455f21dd185 " ) , sha3_512_hash_size ) ;
}
END_TEST
// test vectors from https://raw.githubusercontent.com/BLAKE2/BLAKE2/master/testvectors/blake2s-kat.txt
START_TEST ( test_blake2s )
{
uint8_t key [ BLAKE2S_KEYBYTES ] ;
memcpy ( key , fromhex ( " 000102030405060708090a0b0c0d0e0f101112131415161718191a1b1c1d1e1f " ) , BLAKE2S_KEYBYTES ) ;
uint8_t digest [ BLAKE2S_OUTBYTES ] ;
blake2s_Key ( ( uint8_t * ) " " , 0 , key , BLAKE2S_KEYBYTES , digest , BLAKE2S_OUTBYTES ) ;
ck_assert_mem_eq ( digest , fromhex ( " 48a8997da407876b3d79c0d92325ad3b89cbb754d86ab71aee047ad345fd2c49 " ) , BLAKE2S_OUTBYTES ) ;
blake2s_Key ( fromhex ( " 000102 " ) , 3 , key , BLAKE2S_KEYBYTES , digest , BLAKE2S_OUTBYTES ) ;
ck_assert_mem_eq ( digest , fromhex ( " 1d220dbe2ee134661fdf6d9e74b41704710556f2f6e5a091b227697445dbea6b " ) , BLAKE2S_OUTBYTES ) ;
blake2s_Key ( fromhex ( " 000102030405060708090a0b0c0d0e0f101112131415161718191a1b1c1d1e1f202122232425262728292a2b2c2d2e2f3031323334353637 " ) , 56 , key , BLAKE2S_KEYBYTES , digest , BLAKE2S_OUTBYTES ) ;
ck_assert_mem_eq ( digest , fromhex ( " 2966b3cfae1e44ea996dc5d686cf25fa053fb6f67201b9e46eade85d0ad6b806 " ) , BLAKE2S_OUTBYTES ) ;
blake2s_Key ( fromhex ( " 000102030405060708090a0b0c0d0e0f101112131415161718191a1b1c1d1e1f202122232425262728292a2b2c2d2e2f303132333435363738393a3b3c3d3e3f404142434445464748494a4b4c4d4e4f505152535455565758595a5b5c5d5e5f606162636465666768696a6b6c6d6e6f " ) , 112 , key , BLAKE2S_KEYBYTES , digest , BLAKE2S_OUTBYTES ) ;
ck_assert_mem_eq ( digest , fromhex ( " 90a83585717b75f0e9b725e055eeeeb9e7a028ea7e6cbc07b20917ec0363e38c " ) , BLAKE2S_OUTBYTES ) ;
}
END_TEST
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// test vectors from https://stackoverflow.com/questions/5130513/pbkdf2-hmac-sha2-test-vectors
START_TEST ( test_pbkdf2_hmac_sha256 )
{
uint8_t k [ 40 ] , s [ 40 ] ;
strcpy ( ( char * ) s , " salt " ) ;
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pbkdf2_hmac_sha256 ( ( uint8_t * ) " password " , 8 , s , 4 , 1 , k ) ;
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ck_assert_mem_eq ( k , fromhex ( " 120fb6cffcf8b32c43e7225256c4f837a86548c92ccc35480805987cb70be17b " ) , 32 ) ;
strcpy ( ( char * ) s , " salt " ) ;
2016-04-30 22:50:12 +00:00
pbkdf2_hmac_sha256 ( ( uint8_t * ) " password " , 8 , s , 4 , 2 , k ) ;
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ck_assert_mem_eq ( k , fromhex ( " ae4d0c95af6b46d32d0adff928f06dd02a303f8ef3c251dfd6e2d85a95474c43 " ) , 32 ) ;
strcpy ( ( char * ) s , " salt " ) ;
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pbkdf2_hmac_sha256 ( ( uint8_t * ) " password " , 8 , s , 4 , 4096 , k ) ;
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ck_assert_mem_eq ( k , fromhex ( " c5e478d59288c841aa530db6845c4c8d962893a001ce4e11a4963873aa98134a " ) , 32 ) ;
strcpy ( ( char * ) s , " saltSALTsaltSALTsaltSALTsaltSALTsalt " ) ;
2016-04-30 22:50:12 +00:00
pbkdf2_hmac_sha256 ( ( uint8_t * ) " passwordPASSWORDpassword " , 3 * 8 , s , 9 * 4 , 4096 , k ) ;
ck_assert_mem_eq ( k , fromhex ( " 348c89dbcbd32b2f32d814b8116e84cf2b17347ebc1800181c4e2a1fb8dd53e1 " ) , 32 ) ;
2014-10-30 00:35:13 +00:00
}
END_TEST
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// test vectors from http://stackoverflow.com/questions/15593184/pbkdf2-hmac-sha-512-test-vectors
2014-10-30 00:35:13 +00:00
START_TEST ( test_pbkdf2_hmac_sha512 )
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{
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uint8_t k [ 64 ] , s [ 40 ] ;
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strcpy ( ( char * ) s , " salt " ) ;
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pbkdf2_hmac_sha512 ( ( uint8_t * ) " password " , 8 , s , 4 , 1 , k ) ;
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ck_assert_mem_eq ( k , fromhex ( " 867f70cf1ade02cff3752599a3a53dc4af34c7a669815ae5d513554e1c8cf252c02d470a285a0501bad999bfe943c08f050235d7d68b1da55e63f73b60a57fce " ) , 64 ) ;
strcpy ( ( char * ) s , " salt " ) ;
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pbkdf2_hmac_sha512 ( ( uint8_t * ) " password " , 8 , s , 4 , 2 , k ) ;
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ck_assert_mem_eq ( k , fromhex ( " e1d9c16aa681708a45f5c7c4e215ceb66e011a2e9f0040713f18aefdb866d53cf76cab2868a39b9f7840edce4fef5a82be67335c77a6068e04112754f27ccf4e " ) , 64 ) ;
strcpy ( ( char * ) s , " salt " ) ;
2016-04-30 22:50:12 +00:00
pbkdf2_hmac_sha512 ( ( uint8_t * ) " password " , 8 , s , 4 , 4096 , k ) ;
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ck_assert_mem_eq ( k , fromhex ( " d197b1b33db0143e018b12f3d1d1479e6cdebdcc97c5c0f87f6902e072f457b5143f30602641b3d55cd335988cb36b84376060ecd532e039b742a239434af2d5 " ) , 64 ) ;
strcpy ( ( char * ) s , " saltSALTsaltSALTsaltSALTsaltSALTsalt " ) ;
2016-04-30 22:50:12 +00:00
pbkdf2_hmac_sha512 ( ( uint8_t * ) " passwordPASSWORDpassword " , 3 * 8 , s , 9 * 4 , 4096 , k ) ;
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ck_assert_mem_eq ( k , fromhex ( " 8c0511f4c6e597c6ac6315d8f0362e225f3c501495ba23b868c005174dc4ee71115b59f9e60cd9532fa33e0f75aefe30225c583a186cd82bd4daea9724a3d3b8 " ) , 64 ) ;
}
END_TEST
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START_TEST ( test_mnemonic )
{
static const char * vectors [ ] = {
" 00000000000000000000000000000000 " ,
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" abandon abandon abandon abandon abandon abandon abandon abandon abandon abandon abandon about " ,
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" c55257c360c07c72029aebc1b53c05ed0362ada38ead3e3e9efa3708e53495531f09a6987599d18264c1e1c92f2cf141630c7a3c4ab7c81b2f001698e7463b04 " ,
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" 7f7f7f7f7f7f7f7f7f7f7f7f7f7f7f7f " ,
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" legal winner thank year wave sausage worth useful legal winner thank yellow " ,
2014-01-14 13:35:13 +00:00
" 2e8905819b8723fe2c1d161860e5ee1830318dbf49a83bd451cfb8440c28bd6fa457fe1296106559a3c80937a1c1069be3a3a5bd381ee6260e8d9739fce1f607 " ,
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" 80808080808080808080808080808080 " ,
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" letter advice cage absurd amount doctor acoustic avoid letter advice cage above " ,
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" d71de856f81a8acc65e6fc851a38d4d7ec216fd0796d0a6827a3ad6ed5511a30fa280f12eb2e47ed2ac03b5c462a0358d18d69fe4f985ec81778c1b370b652a8 " ,
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" ffffffffffffffffffffffffffffffff " ,
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" zoo zoo zoo zoo zoo zoo zoo zoo zoo zoo zoo wrong " ,
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" ac27495480225222079d7be181583751e86f571027b0497b5b5d11218e0a8a13332572917f0f8e5a589620c6f15b11c61dee327651a14c34e18231052e48c069 " ,
2013-11-08 00:24:47 +00:00
" 000000000000000000000000000000000000000000000000 " ,
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" abandon abandon abandon abandon abandon abandon abandon abandon abandon abandon abandon abandon abandon abandon abandon abandon abandon agent " ,
2014-01-14 13:35:13 +00:00
" 035895f2f481b1b0f01fcf8c289c794660b289981a78f8106447707fdd9666ca06da5a9a565181599b79f53b844d8a71dd9f439c52a3d7b3e8a79c906ac845fa " ,
2013-11-08 00:24:47 +00:00
" 7f7f7f7f7f7f7f7f7f7f7f7f7f7f7f7f7f7f7f7f7f7f7f7f " ,
2013-11-25 21:46:54 +00:00
" legal winner thank year wave sausage worth useful legal winner thank year wave sausage worth useful legal will " ,
2014-01-14 13:35:13 +00:00
" f2b94508732bcbacbcc020faefecfc89feafa6649a5491b8c952cede496c214a0c7b3c392d168748f2d4a612bada0753b52a1c7ac53c1e93abd5c6320b9e95dd " ,
2013-11-08 00:24:47 +00:00
" 808080808080808080808080808080808080808080808080 " ,
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" letter advice cage absurd amount doctor acoustic avoid letter advice cage absurd amount doctor acoustic avoid letter always " ,
2014-01-14 13:35:13 +00:00
" 107d7c02a5aa6f38c58083ff74f04c607c2d2c0ecc55501dadd72d025b751bc27fe913ffb796f841c49b1d33b610cf0e91d3aa239027f5e99fe4ce9e5088cd65 " ,
2013-11-08 00:24:47 +00:00
" ffffffffffffffffffffffffffffffffffffffffffffffff " ,
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" zoo zoo zoo zoo zoo zoo zoo zoo zoo zoo zoo zoo zoo zoo zoo zoo zoo when " ,
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" 0cd6e5d827bb62eb8fc1e262254223817fd068a74b5b449cc2f667c3f1f985a76379b43348d952e2265b4cd129090758b3e3c2c49103b5051aac2eaeb890a528 " ,
2013-11-08 00:24:47 +00:00
" 0000000000000000000000000000000000000000000000000000000000000000 " ,
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" abandon abandon abandon abandon abandon abandon abandon abandon abandon abandon abandon abandon abandon abandon abandon abandon abandon abandon abandon abandon abandon abandon abandon art " ,
2014-01-14 13:35:13 +00:00
" bda85446c68413707090a52022edd26a1c9462295029f2e60cd7c4f2bbd3097170af7a4d73245cafa9c3cca8d561a7c3de6f5d4a10be8ed2a5e608d68f92fcc8 " ,
2013-11-08 00:24:47 +00:00
" 7f7f7f7f7f7f7f7f7f7f7f7f7f7f7f7f7f7f7f7f7f7f7f7f7f7f7f7f7f7f7f7f " ,
2013-11-25 21:46:54 +00:00
" legal winner thank year wave sausage worth useful legal winner thank year wave sausage worth useful legal winner thank year wave sausage worth title " ,
2014-01-14 13:35:13 +00:00
" bc09fca1804f7e69da93c2f2028eb238c227f2e9dda30cd63699232578480a4021b146ad717fbb7e451ce9eb835f43620bf5c514db0f8add49f5d121449d3e87 " ,
2013-11-08 00:24:47 +00:00
" 8080808080808080808080808080808080808080808080808080808080808080 " ,
2013-11-25 21:46:54 +00:00
" letter advice cage absurd amount doctor acoustic avoid letter advice cage absurd amount doctor acoustic avoid letter advice cage absurd amount doctor acoustic bless " ,
2014-01-14 13:35:13 +00:00
" c0c519bd0e91a2ed54357d9d1ebef6f5af218a153624cf4f2da911a0ed8f7a09e2ef61af0aca007096df430022f7a2b6fb91661a9589097069720d015e4e982f " ,
2013-11-08 00:24:47 +00:00
" ffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffff " ,
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" zoo zoo zoo zoo zoo zoo zoo zoo zoo zoo zoo zoo zoo zoo zoo zoo zoo zoo zoo zoo zoo zoo zoo vote " ,
2014-01-14 13:35:13 +00:00
" dd48c104698c30cfe2b6142103248622fb7bb0ff692eebb00089b32d22484e1613912f0a5b694407be899ffd31ed3992c456cdf60f5d4564b8ba3f05a69890ad " ,
" 77c2b00716cec7213839159e404db50d " ,
" jelly better achieve collect unaware mountain thought cargo oxygen act hood bridge " ,
" b5b6d0127db1a9d2226af0c3346031d77af31e918dba64287a1b44b8ebf63cdd52676f672a290aae502472cf2d602c051f3e6f18055e84e4c43897fc4e51a6ff " ,
" b63a9c59a6e641f288ebc103017f1da9f8290b3da6bdef7b " ,
" renew stay biology evidence goat welcome casual join adapt armor shuffle fault little machine walk stumble urge swap " ,
" 9248d83e06f4cd98debf5b6f010542760df925ce46cf38a1bdb4e4de7d21f5c39366941c69e1bdbf2966e0f6e6dbece898a0e2f0a4c2b3e640953dfe8b7bbdc5 " ,
" 3e141609b97933b66a060dcddc71fad1d91677db872031e85f4c015c5e7e8982 " ,
" dignity pass list indicate nasty swamp pool script soccer toe leaf photo multiply desk host tomato cradle drill spread actor shine dismiss champion exotic " ,
" ff7f3184df8696d8bef94b6c03114dbee0ef89ff938712301d27ed8336ca89ef9635da20af07d4175f2bf5f3de130f39c9d9e8dd0472489c19b1a020a940da67 " ,
" 0460ef47585604c5660618db2e6a7e7f " ,
" afford alter spike radar gate glance object seek swamp infant panel yellow " ,
" 65f93a9f36b6c85cbe634ffc1f99f2b82cbb10b31edc7f087b4f6cb9e976e9faf76ff41f8f27c99afdf38f7a303ba1136ee48a4c1e7fcd3dba7aa876113a36e4 " ,
" 72f60ebac5dd8add8d2a25a797102c3ce21bc029c200076f " ,
" indicate race push merry suffer human cruise dwarf pole review arch keep canvas theme poem divorce alter left " ,
" 3bbf9daa0dfad8229786ace5ddb4e00fa98a044ae4c4975ffd5e094dba9e0bb289349dbe2091761f30f382d4e35c4a670ee8ab50758d2c55881be69e327117ba " ,
" 2c85efc7f24ee4573d2b81a6ec66cee209b2dcbd09d8eddc51e0215b0b68e416 " ,
" clutch control vehicle tonight unusual clog visa ice plunge glimpse recipe series open hour vintage deposit universe tip job dress radar refuse motion taste " ,
" fe908f96f46668b2d5b37d82f558c77ed0d69dd0e7e043a5b0511c48c2f1064694a956f86360c93dd04052a8899497ce9e985ebe0c8c52b955e6ae86d4ff4449 " ,
" eaebabb2383351fd31d703840b32e9e2 " ,
" turtle front uncle idea crush write shrug there lottery flower risk shell " ,
" bdfb76a0759f301b0b899a1e3985227e53b3f51e67e3f2a65363caedf3e32fde42a66c404f18d7b05818c95ef3ca1e5146646856c461c073169467511680876c " ,
" 7ac45cfe7722ee6c7ba84fbc2d5bd61b45cb2fe5eb65aa78 " ,
" kiss carry display unusual confirm curtain upgrade antique rotate hello void custom frequent obey nut hole price segment " ,
" ed56ff6c833c07982eb7119a8f48fd363c4a9b1601cd2de736b01045c5eb8ab4f57b079403485d1c4924f0790dc10a971763337cb9f9c62226f64fff26397c79 " ,
" 4fa1a8bc3e6d80ee1316050e862c1812031493212b7ec3f3bb1b08f168cabeef " ,
" exile ask congress lamp submit jacket era scheme attend cousin alcohol catch course end lucky hurt sentence oven short ball bird grab wing top " ,
" 095ee6f817b4c2cb30a5a797360a81a40ab0f9a4e25ecd672a3f58a0b5ba0687c096a6b14d2c0deb3bdefce4f61d01ae07417d502429352e27695163f7447a8c " ,
" 18ab19a9f54a9274f03e5209a2ac8a91 " ,
" board flee heavy tunnel powder denial science ski answer betray cargo cat " ,
" 6eff1bb21562918509c73cb990260db07c0ce34ff0e3cc4a8cb3276129fbcb300bddfe005831350efd633909f476c45c88253276d9fd0df6ef48609e8bb7dca8 " ,
" 18a2e1d81b8ecfb2a333adcb0c17a5b9eb76cc5d05db91a4 " ,
" board blade invite damage undo sun mimic interest slam gaze truly inherit resist great inject rocket museum chief " ,
" f84521c777a13b61564234bf8f8b62b3afce27fc4062b51bb5e62bdfecb23864ee6ecf07c1d5a97c0834307c5c852d8ceb88e7c97923c0a3b496bedd4e5f88a9 " ,
" 15da872c95a13dd738fbf50e427583ad61f18fd99f628c417a61cf8343c90419 " ,
" beyond stage sleep clip because twist token leaf atom beauty genius food business side grid unable middle armed observe pair crouch tonight away coconut " ,
" b15509eaa2d09d3efd3e006ef42151b30367dc6e3aa5e44caba3fe4d3e352e65101fbdb86a96776b91946ff06f8eac594dc6ee1d3e82a42dfe1b40fef6bcc3fd " ,
2013-11-25 21:46:54 +00:00
0 ,
2013-11-08 00:24:47 +00:00
0 ,
0 ,
} ;
2013-11-25 21:46:54 +00:00
const char * * a , * * b , * * c , * m ;
uint8_t seed [ 64 ] ;
a = vectors ;
b = vectors + 1 ;
c = vectors + 2 ;
while ( * a & & * b & & * c ) {
m = mnemonic_from_data ( fromhex ( * a ) , strlen ( * a ) / 2 ) ;
ck_assert_str_eq ( m , * b ) ;
2014-03-11 19:09:15 +00:00
mnemonic_to_seed ( m , " TREZOR " , seed , 0 ) ;
2013-11-25 21:46:54 +00:00
ck_assert_mem_eq ( seed , fromhex ( * c ) , strlen ( * c ) / 2 ) ;
2016-01-19 14:11:57 +00:00
# if USE_BIP39_CACHE
// try second time to check whether caching results work
mnemonic_to_seed ( m , " TREZOR " , seed , 0 ) ;
ck_assert_mem_eq ( seed , fromhex ( * c ) , strlen ( * c ) / 2 ) ;
# endif
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a + = 3 ; b + = 3 ; c + = 3 ;
2013-11-08 00:24:47 +00:00
}
}
END_TEST
2014-03-12 19:45:51 +00:00
START_TEST ( test_mnemonic_check )
{
static const char * vectors_ok [ ] = {
" abandon abandon abandon abandon abandon abandon abandon abandon abandon abandon abandon about " ,
" legal winner thank year wave sausage worth useful legal winner thank yellow " ,
" letter advice cage absurd amount doctor acoustic avoid letter advice cage above " ,
" zoo zoo zoo zoo zoo zoo zoo zoo zoo zoo zoo wrong " ,
" abandon abandon abandon abandon abandon abandon abandon abandon abandon abandon abandon abandon abandon abandon abandon abandon abandon agent " ,
" legal winner thank year wave sausage worth useful legal winner thank year wave sausage worth useful legal will " ,
" letter advice cage absurd amount doctor acoustic avoid letter advice cage absurd amount doctor acoustic avoid letter always " ,
" zoo zoo zoo zoo zoo zoo zoo zoo zoo zoo zoo zoo zoo zoo zoo zoo zoo when " ,
" abandon abandon abandon abandon abandon abandon abandon abandon abandon abandon abandon abandon abandon abandon abandon abandon abandon abandon abandon abandon abandon abandon abandon art " ,
" legal winner thank year wave sausage worth useful legal winner thank year wave sausage worth useful legal winner thank year wave sausage worth title " ,
" letter advice cage absurd amount doctor acoustic avoid letter advice cage absurd amount doctor acoustic avoid letter advice cage absurd amount doctor acoustic bless " ,
" zoo zoo zoo zoo zoo zoo zoo zoo zoo zoo zoo zoo zoo zoo zoo zoo zoo zoo zoo zoo zoo zoo zoo vote " ,
" jelly better achieve collect unaware mountain thought cargo oxygen act hood bridge " ,
" renew stay biology evidence goat welcome casual join adapt armor shuffle fault little machine walk stumble urge swap " ,
" dignity pass list indicate nasty swamp pool script soccer toe leaf photo multiply desk host tomato cradle drill spread actor shine dismiss champion exotic " ,
" afford alter spike radar gate glance object seek swamp infant panel yellow " ,
" indicate race push merry suffer human cruise dwarf pole review arch keep canvas theme poem divorce alter left " ,
" clutch control vehicle tonight unusual clog visa ice plunge glimpse recipe series open hour vintage deposit universe tip job dress radar refuse motion taste " ,
" turtle front uncle idea crush write shrug there lottery flower risk shell " ,
" kiss carry display unusual confirm curtain upgrade antique rotate hello void custom frequent obey nut hole price segment " ,
" exile ask congress lamp submit jacket era scheme attend cousin alcohol catch course end lucky hurt sentence oven short ball bird grab wing top " ,
" board flee heavy tunnel powder denial science ski answer betray cargo cat " ,
" board blade invite damage undo sun mimic interest slam gaze truly inherit resist great inject rocket museum chief " ,
" beyond stage sleep clip because twist token leaf atom beauty genius food business side grid unable middle armed observe pair crouch tonight away coconut " ,
0 ,
} ;
static const char * vectors_fail [ ] = {
" above abandon abandon abandon abandon abandon abandon abandon abandon abandon abandon about " ,
" above winner thank year wave sausage worth useful legal winner thank yellow " ,
" above advice cage absurd amount doctor acoustic avoid letter advice cage above " ,
" above zoo zoo zoo zoo zoo zoo zoo zoo zoo zoo wrong " ,
" above abandon abandon abandon abandon abandon abandon abandon abandon abandon abandon abandon abandon abandon abandon abandon abandon agent " ,
" above winner thank year wave sausage worth useful legal winner thank year wave sausage worth useful legal will " ,
" above advice cage absurd amount doctor acoustic avoid letter advice cage absurd amount doctor acoustic avoid letter always " ,
" above zoo zoo zoo zoo zoo zoo zoo zoo zoo zoo zoo zoo zoo zoo zoo zoo when " ,
" above abandon abandon abandon abandon abandon abandon abandon abandon abandon abandon abandon abandon abandon abandon abandon abandon abandon abandon abandon abandon abandon abandon art " ,
" above winner thank year wave sausage worth useful legal winner thank year wave sausage worth useful legal winner thank year wave sausage worth title " ,
" above advice cage absurd amount doctor acoustic avoid letter advice cage absurd amount doctor acoustic avoid letter advice cage absurd amount doctor acoustic bless " ,
" above zoo zoo zoo zoo zoo zoo zoo zoo zoo zoo zoo zoo zoo zoo zoo zoo zoo zoo zoo zoo zoo zoo vote " ,
" above better achieve collect unaware mountain thought cargo oxygen act hood bridge " ,
" above stay biology evidence goat welcome casual join adapt armor shuffle fault little machine walk stumble urge swap " ,
" above pass list indicate nasty swamp pool script soccer toe leaf photo multiply desk host tomato cradle drill spread actor shine dismiss champion exotic " ,
" above alter spike radar gate glance object seek swamp infant panel yellow " ,
" above race push merry suffer human cruise dwarf pole review arch keep canvas theme poem divorce alter left " ,
" above control vehicle tonight unusual clog visa ice plunge glimpse recipe series open hour vintage deposit universe tip job dress radar refuse motion taste " ,
" above front uncle idea crush write shrug there lottery flower risk shell " ,
" above carry display unusual confirm curtain upgrade antique rotate hello void custom frequent obey nut hole price segment " ,
" above ask congress lamp submit jacket era scheme attend cousin alcohol catch course end lucky hurt sentence oven short ball bird grab wing top " ,
" above flee heavy tunnel powder denial science ski answer betray cargo cat " ,
" above blade invite damage undo sun mimic interest slam gaze truly inherit resist great inject rocket museum chief " ,
" above stage sleep clip because twist token leaf atom beauty genius food business side grid unable middle armed observe pair crouch tonight away coconut " ,
" abandon abandon abandon abandon abandon abandon abandon abandon abandon abandon about " ,
" winner thank year wave sausage worth useful legal winner thank yellow " ,
" advice cage absurd amount doctor acoustic avoid letter advice cage above " ,
" zoo zoo zoo zoo zoo zoo zoo zoo zoo zoo wrong " ,
" abandon abandon abandon abandon abandon abandon abandon abandon abandon abandon abandon abandon abandon abandon abandon abandon agent " ,
" winner thank year wave sausage worth useful legal winner thank year wave sausage worth useful legal will " ,
" advice cage absurd amount doctor acoustic avoid letter advice cage absurd amount doctor acoustic avoid letter always " ,
" zoo zoo zoo zoo zoo zoo zoo zoo zoo zoo zoo zoo zoo zoo zoo zoo when " ,
" abandon abandon abandon abandon abandon abandon abandon abandon abandon abandon abandon abandon abandon abandon abandon abandon abandon abandon abandon abandon abandon abandon art " ,
" winner thank year wave sausage worth useful legal winner thank year wave sausage worth useful legal winner thank year wave sausage worth title " ,
" advice cage absurd amount doctor acoustic avoid letter advice cage absurd amount doctor acoustic avoid letter advice cage absurd amount doctor acoustic bless " ,
" zoo zoo zoo zoo zoo zoo zoo zoo zoo zoo zoo zoo zoo zoo zoo zoo zoo zoo zoo zoo zoo zoo vote " ,
" better achieve collect unaware mountain thought cargo oxygen act hood bridge " ,
" stay biology evidence goat welcome casual join adapt armor shuffle fault little machine walk stumble urge swap " ,
" pass list indicate nasty swamp pool script soccer toe leaf photo multiply desk host tomato cradle drill spread actor shine dismiss champion exotic " ,
" alter spike radar gate glance object seek swamp infant panel yellow " ,
" race push merry suffer human cruise dwarf pole review arch keep canvas theme poem divorce alter left " ,
" control vehicle tonight unusual clog visa ice plunge glimpse recipe series open hour vintage deposit universe tip job dress radar refuse motion taste " ,
" front uncle idea crush write shrug there lottery flower risk shell " ,
" carry display unusual confirm curtain upgrade antique rotate hello void custom frequent obey nut hole price segment " ,
" ask congress lamp submit jacket era scheme attend cousin alcohol catch course end lucky hurt sentence oven short ball bird grab wing top " ,
" flee heavy tunnel powder denial science ski answer betray cargo cat " ,
" blade invite damage undo sun mimic interest slam gaze truly inherit resist great inject rocket museum chief " ,
" stage sleep clip because twist token leaf atom beauty genius food business side grid unable middle armed observe pair crouch tonight away coconut " ,
0 ,
} ;
const char * * m ;
int r ;
m = vectors_ok ;
while ( * m ) {
r = mnemonic_check ( * m ) ;
ck_assert_int_eq ( r , 1 ) ;
m + + ;
}
m = vectors_fail ;
while ( * m ) {
r = mnemonic_check ( * m ) ;
ck_assert_int_eq ( r , 0 ) ;
m + + ;
}
}
END_TEST
2014-01-27 18:57:44 +00:00
START_TEST ( test_address )
{
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char address [ 36 ] ;
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uint8_t pub_key [ 65 ] ;
memcpy ( pub_key , fromhex ( " 0226659c1cf7321c178c07437150639ff0c5b7679c7ea195253ed9abda2e081a37 " ) , 33 ) ;
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ecdsa_get_address ( pub_key , 0 , address , sizeof ( address ) ) ; ck_assert_str_eq ( address , " 139MaMHp3Vjo8o4x8N1ZLWEtovLGvBsg6s " ) ;
ecdsa_get_address ( pub_key , 111 , address , sizeof ( address ) ) ; ck_assert_str_eq ( address , " mhfJsQNnrXB3uuYZqvywARTDfuvyjg4RBh " ) ;
ecdsa_get_address ( pub_key , 52 , address , sizeof ( address ) ) ; ck_assert_str_eq ( address , " MxiimznnxsqMfLKTQBL8Z2PoY9jKpjgkCu " ) ;
ecdsa_get_address ( pub_key , 48 , address , sizeof ( address ) ) ; ck_assert_str_eq ( address , " LMNJqZbe89yrPbm7JVzrcXJf28hZ1rKPaH " ) ;
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memcpy ( pub_key , fromhex ( " 025b1654a0e78d28810094f6c5a96b8efb8a65668b578f170ac2b1f83bc63ba856 " ) , 33 ) ;
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ecdsa_get_address ( pub_key , 0 , address , sizeof ( address ) ) ; ck_assert_str_eq ( address , " 19Ywfm3witp6C1yBMy4NRYHY2347WCRBfQ " ) ;
ecdsa_get_address ( pub_key , 111 , address , sizeof ( address ) ) ; ck_assert_str_eq ( address , " mp4txp8vXvFLy8So5Y2kFTVrt2epN6YzdP " ) ;
ecdsa_get_address ( pub_key , 52 , address , sizeof ( address ) ) ; ck_assert_str_eq ( address , " N58JsQYveGueiZDgdnNwe4SSkGTAToutAY " ) ;
ecdsa_get_address ( pub_key , 48 , address , sizeof ( address ) ) ; ck_assert_str_eq ( address , " LTmtvyMmoZ49SpfLY73fhZMJEFRPdyohKh " ) ;
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memcpy ( pub_key , fromhex ( " 03433f246a12e6486a51ff08802228c61cf895175a9b49ed4766ea9a9294a3c7fe " ) , 33 ) ;
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ecdsa_get_address ( pub_key , 0 , address , sizeof ( address ) ) ; ck_assert_str_eq ( address , " 1FWE2bn3MWhc4QidcF6AvEWpK77sSi2cAP " ) ;
ecdsa_get_address ( pub_key , 111 , address , sizeof ( address ) ) ; ck_assert_str_eq ( address , " mv2BKes2AY8rqXCFKp4Yk9j9B6iaMfWRLN " ) ;
ecdsa_get_address ( pub_key , 52 , address , sizeof ( address ) ) ; ck_assert_str_eq ( address , " NB5bEFH2GtoAawy8t4Qk8kfj3LWvQs3MhB " ) ;
ecdsa_get_address ( pub_key , 48 , address , sizeof ( address ) ) ; ck_assert_str_eq ( address , " LZjBHp5sSAwfKDQnnP5UCFaaXKV9YheGxQ " ) ;
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memcpy ( pub_key , fromhex ( " 03aeb03abeee0f0f8b4f7a5d65ce31f9570cef9f72c2dd8a19b4085a30ab033d48 " ) , 33 ) ;
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ecdsa_get_address ( pub_key , 0 , address , sizeof ( address ) ) ; ck_assert_str_eq ( address , " 1yrZb8dhdevoqpUEGi2tUccUEeiMKeLcs " ) ;
ecdsa_get_address ( pub_key , 111 , address , sizeof ( address ) ) ; ck_assert_str_eq ( address , " mgVoreDcWf6BaxJ5wqgQiPpwLEFRLSr8U8 " ) ;
ecdsa_get_address ( pub_key , 52 , address , sizeof ( address ) ) ; ck_assert_str_eq ( address , " MwZDmEdcd1kVLP4yW62c6zmXCU3mNbveDo " ) ;
ecdsa_get_address ( pub_key , 48 , address , sizeof ( address ) ) ; ck_assert_str_eq ( address , " LLCopoSTnHtz4eWdQQhLAVgNgT1zTi4QBK " ) ;
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memcpy ( pub_key , fromhex ( " 0496e8f2093f018aff6c2e2da5201ee528e2c8accbf9cac51563d33a7bb74a016054201c025e2a5d96b1629b95194e806c63eb96facaedc733b1a4b70ab3b33e3a " ) , 65 ) ;
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ecdsa_get_address ( pub_key , 0 , address , sizeof ( address ) ) ; ck_assert_str_eq ( address , " 194SZbL75xCCGBbKtMsyWLE5r9s2V6mhVM " ) ;
ecdsa_get_address ( pub_key , 111 , address , sizeof ( address ) ) ; ck_assert_str_eq ( address , " moaPreR5tydT3J4wbvrMLFSQi9TjPCiZc6 " ) ;
ecdsa_get_address ( pub_key , 52 , address , sizeof ( address ) ) ; ck_assert_str_eq ( address , " N4domEq61LHkniqqABCYirNzaPG5NRU8GH " ) ;
ecdsa_get_address ( pub_key , 48 , address , sizeof ( address ) ) ; ck_assert_str_eq ( address , " LTHPpodwAcSFWzHV4VsGnMHr4NEJajMnKX " ) ;
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memcpy ( pub_key , fromhex ( " 0498010f8a687439ff497d3074beb4519754e72c4b6220fb669224749591dde416f3961f8ece18f8689bb32235e436874d2174048b86118a00afbd5a4f33a24f0f " ) , 65 ) ;
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ecdsa_get_address ( pub_key , 0 , address , sizeof ( address ) ) ; ck_assert_str_eq ( address , " 1A2WfBD4BJFwYHFPc5KgktqtbdJLBuVKc4 " ) ;
ecdsa_get_address ( pub_key , 111 , address , sizeof ( address ) ) ; ck_assert_str_eq ( address , " mpYTxEJ2zKhCKPj1KeJ4ap4DTcu39T3uzD " ) ;
ecdsa_get_address ( pub_key , 52 , address , sizeof ( address ) ) ; ck_assert_str_eq ( address , " N5bsrpi36gMW4pVtsteFyQzoKrhPE7nkxK " ) ;
ecdsa_get_address ( pub_key , 48 , address , sizeof ( address ) ) ; ck_assert_str_eq ( address , " LUFTvPWtFxVzo5wYnDJz2uueoqfcMYiuxH " ) ;
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memcpy ( pub_key , fromhex ( " 04f80490839af36d13701ec3f9eebdac901b51c362119d74553a3c537faff31b17e2a59ebddbdac9e87b816307a7ed5b826b8f40b92719086238e1bebf19b77a4d " ) , 65 ) ;
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ecdsa_get_address ( pub_key , 0 , address , sizeof ( address ) ) ; ck_assert_str_eq ( address , " 19J81hrPnQxg9UGx45ibTieCkb2ttm8CLL " ) ;
ecdsa_get_address ( pub_key , 111 , address , sizeof ( address ) ) ; ck_assert_str_eq ( address , " mop5JkwNbSPvvakZmegyHdrXcadbjLazww " ) ;
ecdsa_get_address ( pub_key , 52 , address , sizeof ( address ) ) ; ck_assert_str_eq ( address , " N4sVDMMNho4Eg1XTKu3AgEo7UpRwq3aNbn " ) ;
ecdsa_get_address ( pub_key , 48 , address , sizeof ( address ) ) ; ck_assert_str_eq ( address , " LTX5GvADs5CjQGy7EDhtjjhxxoQB2Uhicd " ) ;
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}
END_TEST
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START_TEST ( test_pubkey_validity )
{
uint8_t pub_key [ 65 ] ;
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curve_point pub ;
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int res ;
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const ecdsa_curve * curve = & secp256k1 ;
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memcpy ( pub_key , fromhex ( " 0226659c1cf7321c178c07437150639ff0c5b7679c7ea195253ed9abda2e081a37 " ) , 33 ) ;
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res = ecdsa_read_pubkey ( curve , pub_key , & pub ) ;
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ck_assert_int_eq ( res , 1 ) ;
memcpy ( pub_key , fromhex ( " 025b1654a0e78d28810094f6c5a96b8efb8a65668b578f170ac2b1f83bc63ba856 " ) , 33 ) ;
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res = ecdsa_read_pubkey ( curve , pub_key , & pub ) ;
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ck_assert_int_eq ( res , 1 ) ;
memcpy ( pub_key , fromhex ( " 03433f246a12e6486a51ff08802228c61cf895175a9b49ed4766ea9a9294a3c7fe " ) , 33 ) ;
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res = ecdsa_read_pubkey ( curve , pub_key , & pub ) ;
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ck_assert_int_eq ( res , 1 ) ;
memcpy ( pub_key , fromhex ( " 03aeb03abeee0f0f8b4f7a5d65ce31f9570cef9f72c2dd8a19b4085a30ab033d48 " ) , 33 ) ;
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res = ecdsa_read_pubkey ( curve , pub_key , & pub ) ;
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ck_assert_int_eq ( res , 1 ) ;
memcpy ( pub_key , fromhex ( " 0496e8f2093f018aff6c2e2da5201ee528e2c8accbf9cac51563d33a7bb74a016054201c025e2a5d96b1629b95194e806c63eb96facaedc733b1a4b70ab3b33e3a " ) , 65 ) ;
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res = ecdsa_read_pubkey ( curve , pub_key , & pub ) ;
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ck_assert_int_eq ( res , 1 ) ;
memcpy ( pub_key , fromhex ( " 0498010f8a687439ff497d3074beb4519754e72c4b6220fb669224749591dde416f3961f8ece18f8689bb32235e436874d2174048b86118a00afbd5a4f33a24f0f " ) , 65 ) ;
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res = ecdsa_read_pubkey ( curve , pub_key , & pub ) ;
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ck_assert_int_eq ( res , 1 ) ;
memcpy ( pub_key , fromhex ( " 04f80490839af36d13701ec3f9eebdac901b51c362119d74553a3c537faff31b17e2a59ebddbdac9e87b816307a7ed5b826b8f40b92719086238e1bebf19b77a4d " ) , 65 ) ;
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res = ecdsa_read_pubkey ( curve , pub_key , & pub ) ;
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ck_assert_int_eq ( res , 1 ) ;
memcpy ( pub_key , fromhex ( " 04f80490839af36d13701ec3f9eebdac901b51c362119d74553a3c537faff31b17e2a59ebddbdac9e87b816307a7ed5b826b8f40b92719086238e1bebf00000000 " ) , 65 ) ;
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res = ecdsa_read_pubkey ( curve , pub_key , & pub ) ;
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ck_assert_int_eq ( res , 0 ) ;
memcpy ( pub_key , fromhex ( " 04f80490839af36d13701ec3f9eebdac901b51c362119d74553a3c537faff31b17e2a59ebddbdac9e87b816307a7ed5b8211111111111111111111111111111111 " ) , 65 ) ;
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res = ecdsa_read_pubkey ( curve , pub_key , & pub ) ;
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ck_assert_int_eq ( res , 0 ) ;
memcpy ( pub_key , fromhex ( " 00 " ) , 1 ) ;
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res = ecdsa_read_pubkey ( curve , pub_key , & pub ) ;
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ck_assert_int_eq ( res , 0 ) ;
}
END_TEST
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START_TEST ( test_pubkey_uncompress )
{
uint8_t pub_key [ 65 ] ;
uint8_t uncompressed [ 65 ] ;
int res ;
const ecdsa_curve * curve = & secp256k1 ;
memcpy ( pub_key , fromhex ( " 0226659c1cf7321c178c07437150639ff0c5b7679c7ea195253ed9abda2e081a37 " ) , 33 ) ;
res = ecdsa_uncompress_pubkey ( curve , pub_key , uncompressed ) ;
ck_assert_int_eq ( res , 1 ) ;
ck_assert_mem_eq ( uncompressed , fromhex ( " 0426659c1cf7321c178c07437150639ff0c5b7679c7ea195253ed9abda2e081a37b3cfbad6b39a8ce8cb3a675f53b7b57e120fe067b8035d771fd99e3eba7cf4de " ) , 65 ) ;
memcpy ( pub_key , fromhex ( " 03433f246a12e6486a51ff08802228c61cf895175a9b49ed4766ea9a9294a3c7fe " ) , 33 ) ;
res = ecdsa_uncompress_pubkey ( curve , pub_key , uncompressed ) ;
ck_assert_int_eq ( res , 1 ) ;
ck_assert_mem_eq ( uncompressed , fromhex ( " 04433f246a12e6486a51ff08802228c61cf895175a9b49ed4766ea9a9294a3c7feeb4c25bcb840f720a16e8857a011e6b91e0ab2d03dbb5f9762844bb21a7b8ca7 " ) , 65 ) ;
memcpy ( pub_key , fromhex ( " 0496e8f2093f018aff6c2e2da5201ee528e2c8accbf9cac51563d33a7bb74a016054201c025e2a5d96b1629b95194e806c63eb96facaedc733b1a4b70ab3b33e3a " ) , 65 ) ;
res = ecdsa_uncompress_pubkey ( curve , pub_key , uncompressed ) ;
ck_assert_int_eq ( res , 1 ) ;
ck_assert_mem_eq ( uncompressed , fromhex ( " 0496e8f2093f018aff6c2e2da5201ee528e2c8accbf9cac51563d33a7bb74a016054201c025e2a5d96b1629b95194e806c63eb96facaedc733b1a4b70ab3b33e3a " ) , 65 ) ;
memcpy ( pub_key , fromhex ( " 00 " ) , 1 ) ;
res = ecdsa_uncompress_pubkey ( curve , pub_key , uncompressed ) ;
ck_assert_int_eq ( res , 0 ) ;
}
END_TEST
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START_TEST ( test_wif )
{
uint8_t priv_key [ 32 ] ;
char wif [ 53 ] ;
memcpy ( priv_key , fromhex ( " 1111111111111111111111111111111111111111111111111111111111111111 " ) , 32 ) ;
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ecdsa_get_wif ( priv_key , 0x80 , wif , sizeof ( wif ) ) ; ck_assert_str_eq ( wif , " KwntMbt59tTsj8xqpqYqRRWufyjGunvhSyeMo3NTYpFYzZbXJ5Hp " ) ;
ecdsa_get_wif ( priv_key , 0xEF , wif , sizeof ( wif ) ) ; ck_assert_str_eq ( wif , " cN9spWsvaxA8taS7DFMxnk1yJD2gaF2PX1npuTpy3vuZFJdwavaw " ) ;
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memcpy ( priv_key , fromhex ( " dddddddddddddddddddddddddddddddddddddddddddddddddddddddddddddddd " ) , 32 ) ;
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ecdsa_get_wif ( priv_key , 0x80 , wif , sizeof ( wif ) ) ; ck_assert_str_eq ( wif , " L4ezQvyC6QoBhxB4GVs9fAPhUKtbaXYUn8YTqoeXwbevQq4U92vN " ) ;
ecdsa_get_wif ( priv_key , 0xEF , wif , sizeof ( wif ) ) ; ck_assert_str_eq ( wif , " cV1ysqy3XUVSsPeKeugH2Utm6ZC1EyeArAgvxE73SiJvfa6AJng7 " ) ;
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memcpy ( priv_key , fromhex ( " 47f7616ea6f9b923076625b4488115de1ef1187f760e65f89eb6f4f7ff04b012 " ) , 32 ) ;
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ecdsa_get_wif ( priv_key , 0x80 , wif , sizeof ( wif ) ) ; ck_assert_str_eq ( wif , " KydbzBtk6uc7M6dXwEgTEH2sphZxSPbmDSz6kUUHi4eUpSQuhEbq " ) ;
ecdsa_get_wif ( priv_key , 0xEF , wif , sizeof ( wif ) ) ; ck_assert_str_eq ( wif , " cPzbT6tbXyJNWY6oKeVabbXwSvsN6qhTHV8ZrtvoDBJV5BRY1G5Q " ) ;
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}
END_TEST
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START_TEST ( test_address_decode )
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{
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int res ;
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uint8_t decode [ MAX_ADDR_RAW_SIZE ] ;
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res = ecdsa_address_decode ( " 1JwSSubhmg6iPtRjtyqhUYYH7bZg3Lfy1T " , 0 , decode ) ;
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ck_assert_int_eq ( res , 1 ) ;
ck_assert_mem_eq ( decode , fromhex ( " 00c4c5d791fcb4654a1ef5e03fe0ad3d9c598f9827 " ) , 21 ) ;
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res = ecdsa_address_decode ( " myTPjxggahXyAzuMcYp5JTkbybANyLsYBW " , 111 , decode ) ;
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ck_assert_int_eq ( res , 1 ) ;
ck_assert_mem_eq ( decode , fromhex ( " 6fc4c5d791fcb4654a1ef5e03fe0ad3d9c598f9827 " ) , 21 ) ;
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res = ecdsa_address_decode ( " NEWoeZ6gh4CGvRgFAoAGh4hBqpxizGT6gZ " , 52 , decode ) ;
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ck_assert_int_eq ( res , 1 ) ;
ck_assert_mem_eq ( decode , fromhex ( " 34c4c5d791fcb4654a1ef5e03fe0ad3d9c598f9827 " ) , 21 ) ;
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res = ecdsa_address_decode ( " LdAPi7uXrLLmeh7u57pzkZc3KovxEDYRJq " , 48 , decode ) ;
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ck_assert_int_eq ( res , 1 ) ;
ck_assert_mem_eq ( decode , fromhex ( " 30c4c5d791fcb4654a1ef5e03fe0ad3d9c598f9827 " ) , 21 ) ;
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res = ecdsa_address_decode ( " 1C7zdTfnkzmr13HfA2vNm5SJYRK6nEKyq8 " , 0 , decode ) ;
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ck_assert_int_eq ( res , 1 ) ;
ck_assert_mem_eq ( decode , fromhex ( " 0079fbfc3f34e7745860d76137da68f362380c606c " ) , 21 ) ;
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res = ecdsa_address_decode ( " mrdwvWkma2D6n9mGsbtkazedQQuoksnqJV " , 111 , decode ) ;
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ck_assert_int_eq ( res , 1 ) ;
ck_assert_mem_eq ( decode , fromhex ( " 6f79fbfc3f34e7745860d76137da68f362380c606c " ) , 21 ) ;
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res = ecdsa_address_decode ( " N7hMq7AmgNsQXaYARrEwybbDGei9mcPNqr " , 52 , decode ) ;
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ck_assert_int_eq ( res , 1 ) ;
ck_assert_mem_eq ( decode , fromhex ( " 3479fbfc3f34e7745860d76137da68f362380c606c " ) , 21 ) ;
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res = ecdsa_address_decode ( " LWLwtfycqf1uFqypLAug36W4kdgNwrZdNs " , 48 , decode ) ;
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ck_assert_int_eq ( res , 1 ) ;
ck_assert_mem_eq ( decode , fromhex ( " 3079fbfc3f34e7745860d76137da68f362380c606c " ) , 21 ) ;
// invalid char
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res = ecdsa_address_decode ( " 1JwSSubhmg6i000jtyqhUYYH7bZg3Lfy1T " , 0 , decode ) ;
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ck_assert_int_eq ( res , 0 ) ;
// invalid address
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res = ecdsa_address_decode ( " 1111Subhmg6iPtRjtyqhUYYH7bZg3Lfy1T " , 0 , decode ) ;
ck_assert_int_eq ( res , 0 ) ;
// invalid version
res = ecdsa_address_decode ( " LWLwtfycqf1uFqypLAug36W4kdgNwrZdNs " , 0 , decode ) ;
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ck_assert_int_eq ( res , 0 ) ;
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}
END_TEST
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START_TEST ( test_ecdsa_der )
{
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uint8_t sig [ 64 ] , der [ 72 ] ;
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int res ;
memcpy ( sig , fromhex ( " 9a0b7be0d4ed3146ee262b42202841834698bb3ee39c24e7437df208b8b70771 " ) , 32 ) ;
memcpy ( sig + 32 , fromhex ( " 2b79ab1e7736219387dffe8d615bbdba87e11477104b867ef47afed1a5ede781 " ) , 32 ) ;
res = ecdsa_sig_to_der ( sig , der ) ;
ck_assert_int_eq ( res , 71 ) ;
ck_assert_mem_eq ( der , fromhex ( " 30450221009a0b7be0d4ed3146ee262b42202841834698bb3ee39c24e7437df208b8b7077102202b79ab1e7736219387dffe8d615bbdba87e11477104b867ef47afed1a5ede781 " ) , 71 ) ;
memcpy ( sig , fromhex ( " 6666666666666666666666666666666666666666666666666666666666666666 " ) , 32 ) ;
memcpy ( sig + 32 , fromhex ( " 7777777777777777777777777777777777777777777777777777777777777777 " ) , 32 ) ;
res = ecdsa_sig_to_der ( sig , der ) ;
ck_assert_int_eq ( res , 70 ) ;
ck_assert_mem_eq ( der , fromhex ( " 30440220666666666666666666666666666666666666666666666666666666666666666602207777777777777777777777777777777777777777777777777777777777777777 " ) , 70 ) ;
memcpy ( sig , fromhex ( " 6666666666666666666666666666666666666666666666666666666666666666 " ) , 32 ) ;
memcpy ( sig + 32 , fromhex ( " eeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeee " ) , 32 ) ;
res = ecdsa_sig_to_der ( sig , der ) ;
ck_assert_int_eq ( res , 71 ) ;
ck_assert_mem_eq ( der , fromhex ( " 304502206666666666666666666666666666666666666666666666666666666666666666022100eeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeee " ) , 71 ) ;
memcpy ( sig , fromhex ( " eeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeee " ) , 32 ) ;
memcpy ( sig + 32 , fromhex ( " 7777777777777777777777777777777777777777777777777777777777777777 " ) , 32 ) ;
res = ecdsa_sig_to_der ( sig , der ) ;
ck_assert_int_eq ( res , 71 ) ;
ck_assert_mem_eq ( der , fromhex ( " 3045022100eeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeee02207777777777777777777777777777777777777777777777777777777777777777 " ) , 71 ) ;
memcpy ( sig , fromhex ( " eeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeee " ) , 32 ) ;
memcpy ( sig + 32 , fromhex ( " ffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffff " ) , 32 ) ;
res = ecdsa_sig_to_der ( sig , der ) ;
ck_assert_int_eq ( res , 72 ) ;
ck_assert_mem_eq ( der , fromhex ( " 3046022100eeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeee022100ffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffff " ) , 72 ) ;
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memcpy ( sig , fromhex ( " 0000000000000000000000000000000000000000000000000000000000000066 " ) , 32 ) ;
memcpy ( sig + 32 , fromhex ( " 0000000000000000000000000000000000000000000000000000000000000077 " ) , 32 ) ;
res = ecdsa_sig_to_der ( sig , der ) ;
ck_assert_int_eq ( res , 8 ) ;
ck_assert_mem_eq ( der , fromhex ( " 3006020166020177 " ) , 8 ) ;
memcpy ( sig , fromhex ( " 0000000000000000000000000000000000000000000000000000000000000066 " ) , 32 ) ;
memcpy ( sig + 32 , fromhex ( " 00000000000000000000000000000000000000000000000000000000000000ee " ) , 32 ) ;
res = ecdsa_sig_to_der ( sig , der ) ;
ck_assert_int_eq ( res , 9 ) ;
ck_assert_mem_eq ( der , fromhex ( " 3007020166020200ee " ) , 9 ) ;
memcpy ( sig , fromhex ( " 00000000000000000000000000000000000000000000000000000000000000ee " ) , 32 ) ;
memcpy ( sig + 32 , fromhex ( " 0000000000000000000000000000000000000000000000000000000000000077 " ) , 32 ) ;
res = ecdsa_sig_to_der ( sig , der ) ;
ck_assert_int_eq ( res , 9 ) ;
ck_assert_mem_eq ( der , fromhex ( " 3007020200ee020177 " ) , 9 ) ;
memcpy ( sig , fromhex ( " 00000000000000000000000000000000000000000000000000000000000000ee " ) , 32 ) ;
memcpy ( sig + 32 , fromhex ( " 00000000000000000000000000000000000000000000000000000000000000ff " ) , 32 ) ;
res = ecdsa_sig_to_der ( sig , der ) ;
ck_assert_int_eq ( res , 10 ) ;
ck_assert_mem_eq ( der , fromhex ( " 3008020200ee020200ff " ) , 10 ) ;
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}
END_TEST
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static void test_codepoints_curve ( const ecdsa_curve * curve ) {
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int i , j ;
bignum256 a ;
curve_point p , p1 ;
for ( i = 0 ; i < 64 ; i + + ) {
for ( j = 0 ; j < 8 ; j + + ) {
bn_zero ( & a ) ;
a . val [ ( 4 * i ) / 30 ] = ( 2 * j + 1 ) < < ( 4 * i % 30 ) ;
bn_normalize ( & a ) ;
// note that this is not a trivial test. We add 64 curve
// points in the table to get that particular curve point.
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scalar_multiply ( curve , & a , & p ) ;
ck_assert_mem_eq ( & p , & curve - > cp [ i ] [ j ] , sizeof ( curve_point ) ) ;
bn_zero ( & p . y ) ; // test that point_multiply curve, is not a noop
point_multiply ( curve , & a , & curve - > G , & p ) ;
ck_assert_mem_eq ( & p , & curve - > cp [ i ] [ j ] , sizeof ( curve_point ) ) ;
// mul 2 test. this should catch bugs
bn_lshift ( & a ) ;
bn_mod ( & a , & curve - > order ) ;
p1 = curve - > cp [ i ] [ j ] ;
point_double ( curve , & p1 ) ;
// note that this is not a trivial test. We add 64 curve
// points in the table to get that particular curve point.
scalar_multiply ( curve , & a , & p ) ;
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ck_assert_mem_eq ( & p , & p1 , sizeof ( curve_point ) ) ;
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bn_zero ( & p . y ) ; // test that point_multiply curve, is not a noop
point_multiply ( curve , & a , & curve - > G , & p ) ;
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ck_assert_mem_eq ( & p , & p1 , sizeof ( curve_point ) ) ;
}
}
}
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START_TEST ( test_codepoints ) {
test_codepoints_curve ( & secp256k1 ) ;
test_codepoints_curve ( & nist256p1 ) ;
}
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END_TEST
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static void test_mult_border_cases_curve ( const ecdsa_curve * curve ) {
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bignum256 a ;
curve_point p ;
curve_point expected ;
bn_zero ( & a ) ; // a == 0
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scalar_multiply ( curve , & a , & p ) ;
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ck_assert ( point_is_infinity ( & p ) ) ;
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point_multiply ( curve , & a , & p , & p ) ;
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ck_assert ( point_is_infinity ( & p ) ) ;
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point_multiply ( curve , & a , & curve - > G , & p ) ;
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ck_assert ( point_is_infinity ( & p ) ) ;
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bn_addi ( & a , 1 ) ; // a == 1
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scalar_multiply ( curve , & a , & p ) ;
ck_assert_mem_eq ( & p , & curve - > G , sizeof ( curve_point ) ) ;
point_multiply ( curve , & a , & curve - > G , & p ) ;
ck_assert_mem_eq ( & p , & curve - > G , sizeof ( curve_point ) ) ;
bn_subtract ( & curve - > order , & a , & a ) ; // a == -1
expected = curve - > G ;
bn_subtract ( & curve - > prime , & expected . y , & expected . y ) ;
scalar_multiply ( curve , & a , & p ) ;
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ck_assert_mem_eq ( & p , & expected , sizeof ( curve_point ) ) ;
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point_multiply ( curve , & a , & curve - > G , & p ) ;
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ck_assert_mem_eq ( & p , & expected , sizeof ( curve_point ) ) ;
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bn_subtract ( & curve - > order , & a , & a ) ;
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bn_addi ( & a , 1 ) ; // a == 2
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expected = curve - > G ;
point_add ( curve , & expected , & expected ) ;
scalar_multiply ( curve , & a , & p ) ;
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ck_assert_mem_eq ( & p , & expected , sizeof ( curve_point ) ) ;
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point_multiply ( curve , & a , & curve - > G , & p ) ;
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ck_assert_mem_eq ( & p , & expected , sizeof ( curve_point ) ) ;
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bn_subtract ( & curve - > order , & a , & a ) ; // a == -2
expected = curve - > G ;
point_add ( curve , & expected , & expected ) ;
bn_subtract ( & curve - > prime , & expected . y , & expected . y ) ;
scalar_multiply ( curve , & a , & p ) ;
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ck_assert_mem_eq ( & p , & expected , sizeof ( curve_point ) ) ;
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point_multiply ( curve , & a , & curve - > G , & p ) ;
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ck_assert_mem_eq ( & p , & expected , sizeof ( curve_point ) ) ;
}
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START_TEST ( test_mult_border_cases ) {
test_mult_border_cases_curve ( & secp256k1 ) ;
test_mult_border_cases_curve ( & nist256p1 ) ;
}
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END_TEST
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static void test_scalar_mult_curve ( const ecdsa_curve * curve ) {
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int i ;
// get two "random" numbers
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bignum256 a = curve - > G . x ;
bignum256 b = curve - > G . y ;
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curve_point p1 , p2 , p3 ;
for ( i = 0 ; i < 1000 ; i + + ) {
/* test distributivity: (a + b)G = aG + bG */
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bn_mod ( & a , & curve - > order ) ;
bn_mod ( & b , & curve - > order ) ;
scalar_multiply ( curve , & a , & p1 ) ;
scalar_multiply ( curve , & b , & p2 ) ;
bn_addmod ( & a , & b , & curve - > order ) ;
bn_mod ( & a , & curve - > order ) ;
scalar_multiply ( curve , & a , & p3 ) ;
point_add ( curve , & p1 , & p2 ) ;
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ck_assert_mem_eq ( & p2 , & p3 , sizeof ( curve_point ) ) ;
// new "random" numbers
a = p3 . x ;
b = p3 . y ;
}
}
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START_TEST ( test_scalar_mult ) {
test_scalar_mult_curve ( & secp256k1 ) ;
test_scalar_mult_curve ( & nist256p1 ) ;
}
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END_TEST
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static void test_point_mult_curve ( const ecdsa_curve * curve ) {
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int i ;
// get two "random" numbers and a "random" point
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bignum256 a = curve - > G . x ;
bignum256 b = curve - > G . y ;
curve_point p = curve - > G ;
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curve_point p1 , p2 , p3 ;
for ( i = 0 ; i < 200 ; i + + ) {
/* test distributivity: (a + b)P = aP + bP */
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bn_mod ( & a , & curve - > order ) ;
bn_mod ( & b , & curve - > order ) ;
point_multiply ( curve , & a , & p , & p1 ) ;
point_multiply ( curve , & b , & p , & p2 ) ;
bn_addmod ( & a , & b , & curve - > order ) ;
bn_mod ( & a , & curve - > order ) ;
point_multiply ( curve , & a , & p , & p3 ) ;
point_add ( curve , & p1 , & p2 ) ;
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ck_assert_mem_eq ( & p2 , & p3 , sizeof ( curve_point ) ) ;
// new "random" numbers and a "random" point
a = p1 . x ;
b = p1 . y ;
p = p3 ;
}
}
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START_TEST ( test_point_mult ) {
test_point_mult_curve ( & secp256k1 ) ;
test_point_mult_curve ( & nist256p1 ) ;
}
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END_TEST
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static void test_scalar_point_mult_curve ( const ecdsa_curve * curve ) {
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int i ;
// get two "random" numbers
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bignum256 a = curve - > G . x ;
bignum256 b = curve - > G . y ;
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curve_point p1 , p2 ;
for ( i = 0 ; i < 200 ; i + + ) {
/* test commutativity and associativity:
* a ( bG ) = ( ab ) G = b ( aG )
*/
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bn_mod ( & a , & curve - > order ) ;
bn_mod ( & b , & curve - > order ) ;
scalar_multiply ( curve , & a , & p1 ) ;
point_multiply ( curve , & b , & p1 , & p1 ) ;
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scalar_multiply ( curve , & b , & p2 ) ;
point_multiply ( curve , & a , & p2 , & p2 ) ;
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ck_assert_mem_eq ( & p1 , & p2 , sizeof ( curve_point ) ) ;
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bn_multiply ( & a , & b , & curve - > order ) ;
bn_mod ( & b , & curve - > order ) ;
scalar_multiply ( curve , & b , & p2 ) ;
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ck_assert_mem_eq ( & p1 , & p2 , sizeof ( curve_point ) ) ;
// new "random" numbers
a = p1 . x ;
b = p1 . y ;
}
}
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START_TEST ( test_scalar_point_mult ) {
test_scalar_point_mult_curve ( & secp256k1 ) ;
test_scalar_point_mult_curve ( & nist256p1 ) ;
}
2015-04-11 10:48:24 +00:00
END_TEST
2014-02-02 21:01:43 +00:00
2016-04-25 11:03:26 +00:00
START_TEST ( test_ed25519 ) {
// test vectors from https://github.com/torproject/tor/blob/master/src/test/ed25519_vectors.inc
static const char * vectors [ ] = {
" 26c76712d89d906e6672dafa614c42e5cb1caac8c6568e4d2493087db51f0d36 " , // secret
" c2247870536a192d142d056abefca68d6193158e7c1a59c1654c954eccaff894 " , // public
" d23188eac3773a316d46006fa59c095060be8b1a23582a0dd99002a82a0662bd246d8449e172e04c5f46ac0d1404cebe4aabd8a75a1457aa06cae41f3334f104 " , // selfsig
" fba7a5366b5cb98c2667a18783f5cf8f4f8d1a2ce939ad22a6e685edde85128d " ,
" 1519a3b15816a1aafab0b213892026ebf5c0dc232c58b21088d88cb90e9b940d " ,
" 3a785ac1201c97ee5f6f0d99323960d5f264c7825e61aa7cc81262f15bef75eb4fa5723add9b9d45b12311b6d403eb3ac79ff8e4e631fc3cd51e4ad2185b200b " ,
" 67e3aa7a14fac8445d15e45e38a523481a69ae35513c9e4143eb1c2196729a0e " ,
" 081faa81992e360ea22c06af1aba096e7a73f1c665bc8b3e4e531c46455fd1dd " ,
" cf431fd0416bfbd20c9d95ef9b723e2acddffb33900edc72195dea95965d52d888d30b7b8a677c0bd8ae1417b1e1a0ec6700deadd5d8b54b6689275e04a04509 " ,
" d51385942033a76dc17f089a59e6a5a7fe80d9c526ae8ddd8c3a506b99d3d0a6 " ,
" 73cfa1189a723aad7966137cbffa35140bb40d7e16eae4c40b79b5f0360dd65a " ,
" 2375380cd72d1a6c642aeddff862be8a5804b916acb72c02d9ed052c1561881aa658a5af856fcd6d43113e42f698cd6687c99efeef7f2ce045824440d26c5d00 " ,
" 5c8eac469bb3f1b85bc7cd893f52dc42a9ab66f1b02b5ce6a68e9b175d3bb433 " ,
" 66c1a77104d86461b6f98f73acf3cd229c80624495d2d74d6fda1e940080a96b " ,
" 2385a472f599ca965bbe4d610e391cdeabeba9c336694b0d6249e551458280be122c2441dd9746a81bbfb9cd619364bab0df37ff4ceb7aefd24469c39d3bc508 " ,
" eda433d483059b6d1ff8b7cfbd0fe406bfb23722c8f3c8252629284573b61b86 " ,
" d21c294db0e64cb2d8976625786ede1d9754186ae8197a64d72f68c792eecc19 " ,
" e500cd0b8cfff35442f88008d894f3a2fa26ef7d3a0ca5714ae0d3e2d40caae58ba7cdf69dd126994dad6be536fcda846d89dd8138d1683cc144c8853dce7607 " ,
" 4377c40431c30883c5fbd9bc92ae48d1ed8a47b81d13806beac5351739b5533d " ,
" c4d58b4cf85a348ff3d410dd936fa460c4f18da962c01b1963792b9dcc8a6ea6 " ,
" d187b9e334b0050154de10bf69b3e4208a584e1a65015ec28b14bcc252cf84b8baa9c94867daa60f2a82d09ba9652d41e8dde292b624afc8d2c26441b95e3c0e " ,
" c6bbcce615839756aed2cc78b1de13884dd3618f48367a17597a16c1cd7a290b " ,
" 95126f14d86494020665face03f2d42ee2b312a85bc729903eb17522954a1c4a " ,
" 815213640a643d198bd056e02bba74e1c8d2d931643e84497adf3347eb485079c9afe0afce9284cdc084946b561abbb214f1304ca11228ff82702185cf28f60d " ,
0 ,
0 ,
0 ,
} ;
const char * * ssk , * * spk , * * ssig ;
ssk = vectors ;
spk = vectors + 1 ;
ssig = vectors + 2 ;
ed25519_public_key pk ;
ed25519_secret_key sk ;
ed25519_signature sig ;
while ( * ssk & & * spk & & * ssig ) {
memcpy ( sk , fromhex ( * ssk ) , 32 ) ;
ed25519_publickey ( sk , pk ) ;
ck_assert_mem_eq ( pk , fromhex ( * spk ) , 32 ) ;
ed25519_sign ( pk , 32 , sk , pk , sig ) ;
ck_assert_mem_eq ( sig , fromhex ( * ssig ) , 64 ) ;
ssk + = 3 ;
spk + = 3 ;
ssig + = 3 ;
}
}
END_TEST
2016-10-24 10:40:00 +00:00
static void test_bip32_ecdh_init_node ( HDNode * node , const char * seed_str , const char * curve_name ) {
hdnode_from_seed ( ( const uint8_t * ) seed_str , strlen ( seed_str ) , curve_name , node ) ;
hdnode_fill_public_key ( node ) ;
if ( node - > public_key [ 0 ] = = 1 ) {
node - > public_key [ 0 ] = 0x40 ; // Curve25519 public keys start with 0x40 byte
}
}
static void test_bip32_ecdh ( const char * curve_name , int expected_key_size , const uint8_t * expected_key ) {
int res , key_size ;
HDNode alice , bob ;
uint8_t session_key1 [ expected_key_size ] , session_key2 [ expected_key_size ] ;
test_bip32_ecdh_init_node ( & alice , " Alice " , curve_name ) ;
test_bip32_ecdh_init_node ( & bob , " Bob " , curve_name ) ;
// Generate shared key from Alice's secret key and Bob's public key
res = hdnode_get_shared_key ( & alice , bob . public_key , session_key1 , & key_size ) ;
ck_assert_int_eq ( res , 0 ) ;
ck_assert_int_eq ( key_size , expected_key_size ) ;
ck_assert_mem_eq ( session_key1 , expected_key , key_size ) ;
// Generate shared key from Bob's secret key and Alice's public key
res = hdnode_get_shared_key ( & bob , alice . public_key , session_key2 , & key_size ) ;
ck_assert_int_eq ( res , 0 ) ;
ck_assert_int_eq ( key_size , expected_key_size ) ;
ck_assert_mem_eq ( session_key2 , expected_key , key_size ) ;
}
START_TEST ( test_bip32_ecdh_nist256p1 ) {
test_bip32_ecdh (
NIST256P1_NAME , 65 ,
fromhex ( " 044aa56f917323f071148cd29aa423f6bee96e7fe87f914d0b91a0f95388c6631646ea92e882773d7b0b1bec356b842c8559a1377673d3965fb931c8fe51e64873 " ) ) ;
}
END_TEST
START_TEST ( test_bip32_ecdh_curve25519 ) {
test_bip32_ecdh (
CURVE25519_NAME , 33 ,
fromhex ( " 04f34e35516325bb0d4a58507096c444a05ba13524ccf66910f11ce96c62224169 " ) ) ;
}
END_TEST
START_TEST ( test_bip32_ecdh_errors ) {
HDNode node ;
const uint8_t peer_public_key [ 65 ] = { 0 } ; // invalid public key
uint8_t session_key [ 65 ] ;
int res , key_size = 0 ;
test_bip32_ecdh_init_node ( & node , " Seed " , ED25519_NAME ) ;
res = hdnode_get_shared_key ( & node , peer_public_key , session_key , & key_size ) ;
ck_assert_int_eq ( res , 1 ) ;
ck_assert_int_eq ( key_size , 0 ) ;
test_bip32_ecdh_init_node ( & node , " Seed " , CURVE25519_NAME ) ;
res = hdnode_get_shared_key ( & node , peer_public_key , session_key , & key_size ) ;
ck_assert_int_eq ( res , 1 ) ;
ck_assert_int_eq ( key_size , 0 ) ;
test_bip32_ecdh_init_node ( & node , " Seed " , NIST256P1_NAME ) ;
res = hdnode_get_shared_key ( & node , peer_public_key , session_key , & key_size ) ;
ck_assert_int_eq ( res , 1 ) ;
ck_assert_int_eq ( key_size , 0 ) ;
}
END_TEST
2016-05-16 12:43:09 +00:00
START_TEST ( test_output_script ) {
static const char * vectors [ ] = {
" 76A914010966776006953D5567439E5E39F86A0D273BEE88AC " , " 16UwLL9Risc3QfPqBUvKofHmBQ7wMtjvM " ,
" A914010966776006953D5567439E5E39F86A0D273BEE87 " , " 31nVrspaydBz8aMpxH9WkS2DuhgqS1fCuG " ,
" 0014010966776006953D5567439E5E39F86A0D273BEE " , " p2xtZoXeX5X8BP8JfFhQK2nD3emtjch7UeFm " ,
" 00200102030405060708090A0B0C0D0E0F101112131415161718191A1B1C1D1E1F20 " , " 7XhPD7te3C6CVKnJWUhrTJbFTwudhHqfrjpS59AS6sMzL4RYFiCNg " ,
0 , 0 ,
} ;
const char * * scr , * * adr ;
scr = vectors ;
adr = vectors + 1 ;
char address [ 60 ] ;
while ( * scr & & * adr ) {
int r = script_output_to_address ( fromhex ( * scr ) , strlen ( * scr ) / 2 , address , 60 ) ;
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ck_assert_int_eq ( r , ( int ) ( strlen ( * adr ) + 1 ) ) ;
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ck_assert_str_eq ( address , * adr ) ;
scr + = 2 ;
adr + = 2 ;
}
}
END_TEST
2016-06-13 21:13:37 +00:00
START_TEST ( test_ethereum_pubkeyhash )
{
uint8_t pubkeyhash [ 20 ] ;
int res ;
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HDNode node ;
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// init m
hdnode_from_seed ( fromhex ( " 000102030405060708090a0b0c0d0e0f " ) , 16 , SECP256K1_NAME , & node ) ;
// [Chain m]
res = hdnode_get_ethereum_pubkeyhash ( & node , pubkeyhash ) ;
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ck_assert_int_eq ( res , 1 ) ;
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ck_assert_mem_eq ( pubkeyhash , fromhex ( " 056db290f8ba3250ca64a45d16284d04bc6f5fbf " ) , 20 ) ;
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2016-08-18 14:21:33 +00:00
// [Chain m/0']
hdnode_private_ckd_prime ( & node , 0 ) ;
res = hdnode_get_ethereum_pubkeyhash ( & node , pubkeyhash ) ;
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ck_assert_int_eq ( res , 1 ) ;
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ck_assert_mem_eq ( pubkeyhash , fromhex ( " bf6e48966d0dcf553b53e7b56cb2e0e72dca9e19 " ) , 20 ) ;
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// [Chain m/0'/1]
hdnode_private_ckd ( & node , 1 ) ;
res = hdnode_get_ethereum_pubkeyhash ( & node , pubkeyhash ) ;
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ck_assert_int_eq ( res , 1 ) ;
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ck_assert_mem_eq ( pubkeyhash , fromhex ( " 29379f45f515c494483298225d1b347f73d1babf " ) , 20 ) ;
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// [Chain m/0'/1/2']
hdnode_private_ckd_prime ( & node , 2 ) ;
res = hdnode_get_ethereum_pubkeyhash ( & node , pubkeyhash ) ;
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ck_assert_int_eq ( res , 1 ) ;
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ck_assert_mem_eq ( pubkeyhash , fromhex ( " d8e85fbbb4b3b3c71c4e63a5580d0c12fb4d2f71 " ) , 20 ) ;
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// [Chain m/0'/1/2'/2]
hdnode_private_ckd ( & node , 2 ) ;
res = hdnode_get_ethereum_pubkeyhash ( & node , pubkeyhash ) ;
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ck_assert_int_eq ( res , 1 ) ;
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ck_assert_mem_eq ( pubkeyhash , fromhex ( " 1d3462d2319ac0bfc1a52e177a9d372492752130 " ) , 20 ) ;
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// [Chain m/0'/1/2'/2/1000000000]
hdnode_private_ckd ( & node , 1000000000 ) ;
res = hdnode_get_ethereum_pubkeyhash ( & node , pubkeyhash ) ;
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ck_assert_int_eq ( res , 1 ) ;
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ck_assert_mem_eq ( pubkeyhash , fromhex ( " 73659c60270d326c06ac204f1a9c63f889a3d14b " ) , 20 ) ;
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// init m
hdnode_from_seed ( fromhex ( " fffcf9f6f3f0edeae7e4e1dedbd8d5d2cfccc9c6c3c0bdbab7b4b1aeaba8a5a29f9c999693908d8a8784817e7b7875726f6c696663605d5a5754514e4b484542 " ) , 64 , SECP256K1_NAME , & node ) ;
// [Chain m]
res = hdnode_get_ethereum_pubkeyhash ( & node , pubkeyhash ) ;
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ck_assert_int_eq ( res , 1 ) ;
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ck_assert_mem_eq ( pubkeyhash , fromhex ( " 6dd2a6f3b05fd15d901fbeec61b87a34bdcfb843 " ) , 20 ) ;
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// [Chain m/0]
hdnode_private_ckd ( & node , 0 ) ;
res = hdnode_get_ethereum_pubkeyhash ( & node , pubkeyhash ) ;
ck_assert_int_eq ( res , 1 ) ;
ck_assert_mem_eq ( pubkeyhash , fromhex ( " abbcd4471a0b6e76a2f6fdc44008fe53831e208e " ) , 20 ) ;
// [Chain m/0/2147483647']
hdnode_private_ckd_prime ( & node , 2147483647 ) ;
res = hdnode_get_ethereum_pubkeyhash ( & node , pubkeyhash ) ;
ck_assert_int_eq ( res , 1 ) ;
ck_assert_mem_eq ( pubkeyhash , fromhex ( " 40ef2cef1b2588ae862e7a511162ec7ff33c30fd " ) , 20 ) ;
// [Chain m/0/2147483647'/1]
hdnode_private_ckd ( & node , 1 ) ;
res = hdnode_get_ethereum_pubkeyhash ( & node , pubkeyhash ) ;
ck_assert_int_eq ( res , 1 ) ;
ck_assert_mem_eq ( pubkeyhash , fromhex ( " 3f2e8905488f795ebc84a39560d133971ccf9b50 " ) , 20 ) ;
// [Chain m/0/2147483647'/1/2147483646']
hdnode_private_ckd_prime ( & node , 2147483646 ) ;
res = hdnode_get_ethereum_pubkeyhash ( & node , pubkeyhash ) ;
ck_assert_int_eq ( res , 1 ) ;
ck_assert_mem_eq ( pubkeyhash , fromhex ( " a5016fdf975f767e4e6f355c7a82efa69bf42ea7 " ) , 20 ) ;
// [Chain m/0/2147483647'/1/2147483646'/2]
hdnode_private_ckd ( & node , 2 ) ;
res = hdnode_get_ethereum_pubkeyhash ( & node , pubkeyhash ) ;
ck_assert_int_eq ( res , 1 ) ;
ck_assert_mem_eq ( pubkeyhash , fromhex ( " 8ff2a9f7e7917804e8c8ec150d931d9c5a6fbc50 " ) , 20 ) ;
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}
END_TEST
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// define test suite and cases
Suite * test_suite ( void )
{
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Suite * s = suite_create ( " trezor-crypto " ) ;
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TCase * tc ;
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tc = tcase_create ( " bignum " ) ;
tcase_add_test ( tc , test_bignum_read_be ) ;
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tcase_add_test ( tc , test_bignum_write_be ) ;
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tcase_add_test ( tc , test_bignum_is_equal ) ;
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tcase_add_test ( tc , test_bignum_zero ) ;
tcase_add_test ( tc , test_bignum_is_zero ) ;
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tcase_add_test ( tc , test_bignum_one ) ;
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tcase_add_test ( tc , test_bignum_read_le ) ;
tcase_add_test ( tc , test_bignum_write_le ) ;
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tcase_add_test ( tc , test_bignum_read_uint32 ) ;
tcase_add_test ( tc , test_bignum_read_uint64 ) ;
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tcase_add_test ( tc , test_bignum_write_uint32 ) ;
tcase_add_test ( tc , test_bignum_write_uint64 ) ;
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tcase_add_test ( tc , test_bignum_copy ) ;
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tcase_add_test ( tc , test_bignum_is_even ) ;
tcase_add_test ( tc , test_bignum_is_odd ) ;
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tcase_add_test ( tc , test_bignum_bitcount ) ;
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tcase_add_test ( tc , test_bignum_is_less ) ;
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suite_add_tcase ( s , tc ) ;
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tc = tcase_create ( " base58 " ) ;
tcase_add_test ( tc , test_base58 ) ;
suite_add_tcase ( s , tc ) ;
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# if USE_GRAPHENE
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tc = tcase_create ( " base58gph " ) ;
tcase_add_test ( tc , test_base58gph ) ;
suite_add_tcase ( s , tc ) ;
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# endif
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tc = tcase_create ( " bignum_divmod " ) ;
tcase_add_test ( tc , test_bignum_divmod ) ;
suite_add_tcase ( s , tc ) ;
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tc = tcase_create ( " bip32 " ) ;
tcase_add_test ( tc , test_bip32_vector_1 ) ;
tcase_add_test ( tc , test_bip32_vector_2 ) ;
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tcase_add_test ( tc , test_bip32_compare ) ;
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tcase_add_test ( tc , test_bip32_cache_1 ) ;
tcase_add_test ( tc , test_bip32_cache_2 ) ;
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suite_add_tcase ( s , tc ) ;
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tc = tcase_create ( " bip32-nist " ) ;
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tcase_add_test ( tc , test_bip32_nist_seed ) ;
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tcase_add_test ( tc , test_bip32_nist_vector_1 ) ;
tcase_add_test ( tc , test_bip32_nist_vector_2 ) ;
tcase_add_test ( tc , test_bip32_nist_compare ) ;
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tcase_add_test ( tc , test_bip32_nist_repeat ) ;
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suite_add_tcase ( s , tc ) ;
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tc = tcase_create ( " bip32-ed25519 " ) ;
tcase_add_test ( tc , test_bip32_ed25519_vector_1 ) ;
tcase_add_test ( tc , test_bip32_ed25519_vector_2 ) ;
suite_add_tcase ( s , tc ) ;
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tc = tcase_create ( " bip32-ecdh " ) ;
tcase_add_test ( tc , test_bip32_ecdh_nist256p1 ) ;
tcase_add_test ( tc , test_bip32_ecdh_curve25519 ) ;
tcase_add_test ( tc , test_bip32_ecdh_errors ) ;
suite_add_tcase ( s , tc ) ;
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tc = tcase_create ( " ecdsa " ) ;
tcase_add_test ( tc , test_ecdsa_signature ) ;
suite_add_tcase ( s , tc ) ;
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tc = tcase_create ( " rfc6979 " ) ;
tcase_add_test ( tc , test_rfc6979 ) ;
suite_add_tcase ( s , tc ) ;
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tc = tcase_create ( " speed " ) ;
tcase_add_test ( tc , test_sign_speed ) ;
tcase_add_test ( tc , test_verify_speed ) ;
suite_add_tcase ( s , tc ) ;
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tc = tcase_create ( " address " ) ;
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tcase_add_test ( tc , test_address ) ;
suite_add_tcase ( s , tc ) ;
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tc = tcase_create ( " address_decode " ) ;
tcase_add_test ( tc , test_address_decode ) ;
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suite_add_tcase ( s , tc ) ;
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tc = tcase_create ( " wif " ) ;
tcase_add_test ( tc , test_wif ) ;
suite_add_tcase ( s , tc ) ;
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tc = tcase_create ( " ecdsa_der " ) ;
tcase_add_test ( tc , test_ecdsa_der ) ;
suite_add_tcase ( s , tc ) ;
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tc = tcase_create ( " aes " ) ;
tcase_add_test ( tc , test_aes ) ;
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suite_add_tcase ( s , tc ) ;
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tc = tcase_create ( " sha2 " ) ;
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tcase_add_test ( tc , test_sha1 ) ;
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tcase_add_test ( tc , test_sha256 ) ;
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tcase_add_test ( tc , test_sha512 ) ;
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suite_add_tcase ( s , tc ) ;
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tc = tcase_create ( " sha3 " ) ;
tcase_add_test ( tc , test_sha3_256 ) ;
tcase_add_test ( tc , test_sha3_512 ) ;
suite_add_tcase ( s , tc ) ;
tc = tcase_create ( " blake2s " ) ;
tcase_add_test ( tc , test_blake2s ) ;
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suite_add_tcase ( s , tc ) ;
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tc = tcase_create ( " pbkdf2 " ) ;
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tcase_add_test ( tc , test_pbkdf2_hmac_sha256 ) ;
tcase_add_test ( tc , test_pbkdf2_hmac_sha512 ) ;
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suite_add_tcase ( s , tc ) ;
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tc = tcase_create ( " bip39 " ) ;
tcase_add_test ( tc , test_mnemonic ) ;
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tcase_add_test ( tc , test_mnemonic_check ) ;
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suite_add_tcase ( s , tc ) ;
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tc = tcase_create ( " pubkey_validity " ) ;
tcase_add_test ( tc , test_pubkey_validity ) ;
suite_add_tcase ( s , tc ) ;
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tc = tcase_create ( " pubkey_uncompress " ) ;
tcase_add_test ( tc , test_pubkey_uncompress ) ;
suite_add_tcase ( s , tc ) ;
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tc = tcase_create ( " codepoints " ) ;
tcase_add_test ( tc , test_codepoints ) ;
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tcase_set_timeout ( tc , 8 ) ;
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suite_add_tcase ( s , tc ) ;
tc = tcase_create ( " mult_border_cases " ) ;
tcase_add_test ( tc , test_mult_border_cases ) ;
suite_add_tcase ( s , tc ) ;
tc = tcase_create ( " scalar_mult " ) ;
tcase_add_test ( tc , test_scalar_mult ) ;
suite_add_tcase ( s , tc ) ;
tc = tcase_create ( " point_mult " ) ;
tcase_add_test ( tc , test_point_mult ) ;
suite_add_tcase ( s , tc ) ;
tc = tcase_create ( " scalar_point_mult " ) ;
tcase_add_test ( tc , test_scalar_point_mult ) ;
suite_add_tcase ( s , tc ) ;
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tc = tcase_create ( " ed25519 " ) ;
tcase_add_test ( tc , test_ed25519 ) ;
suite_add_tcase ( s , tc ) ;
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tc = tcase_create ( " script " ) ;
tcase_add_test ( tc , test_output_script ) ;
suite_add_tcase ( s , tc ) ;
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tc = tcase_create ( " ethereum_pubkeyhash " ) ;
tcase_add_test ( tc , test_ethereum_pubkeyhash ) ;
suite_add_tcase ( s , tc ) ;
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return s ;
}
// run suite
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int main ( void )
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{
int number_failed ;
Suite * s = test_suite ( ) ;
SRunner * sr = srunner_create ( s ) ;
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srunner_run_all ( sr , CK_VERBOSE ) ;
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number_failed = srunner_ntests_failed ( sr ) ;
srunner_free ( sr ) ;
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if ( number_failed = = 0 ) {
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printf ( " PASSED ALL TESTS \n " ) ;
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}
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return number_failed ;
}