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/*
* Copyright ( c ) 2021 , Peter Bocan < me @ pbocan . net >
*
* SPDX - License - Identifier : BSD - 2 - Clause
*/
# include <LibCrypto/BigInt/Algorithms/UnsignedBigIntegerAlgorithms.h>
# include <LibCrypto/BigInt/SignedBigInteger.h>
# include <LibCrypto/BigInt/UnsignedBigInteger.h>
# include <LibCrypto/NumberTheory/ModularFunctions.h>
# include <LibTest/TestCase.h>
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# include <math.h>
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static Crypto : : UnsignedBigInteger bigint_fibonacci ( size_t n )
{
Crypto : : UnsignedBigInteger num1 ( 0 ) ;
Crypto : : UnsignedBigInteger num2 ( 1 ) ;
for ( size_t i = 0 ; i < n ; + + i ) {
Crypto : : UnsignedBigInteger t = num1 . plus ( num2 ) ;
num2 = num1 ;
num1 = t ;
}
return num1 ;
}
static Crypto : : SignedBigInteger bigint_signed_fibonacci ( size_t n )
{
Crypto : : SignedBigInteger num1 ( 0 ) ;
Crypto : : SignedBigInteger num2 ( 1 ) ;
for ( size_t i = 0 ; i < n ; + + i ) {
Crypto : : SignedBigInteger t = num1 . plus ( num2 ) ;
num2 = num1 ;
num1 = t ;
}
return num1 ;
}
TEST_CASE ( test_bigint_fib500 )
{
Vector < u32 > result {
315178285 , 505575602 , 1883328078 , 125027121 , 3649625763 ,
347570207 , 74535262 , 3832543808 , 2472133297 , 1600064941 , 65273441
} ;
EXPECT_EQ ( bigint_fibonacci ( 500 ) . words ( ) , result ) ;
}
TEST_CASE ( test_unsigned_bigint_addition_initialization )
{
Crypto : : UnsignedBigInteger num1 ;
Crypto : : UnsignedBigInteger num2 ( 70 ) ;
Crypto : : UnsignedBigInteger num3 = num1 . plus ( num2 ) ;
bool pass = ( num3 = = num2 ) ;
pass & = ( num1 = = Crypto : : UnsignedBigInteger ( 0 ) ) ;
EXPECT ( pass ) ;
}
TEST_CASE ( test_unsigned_bigint_addition_borrow_with_zero )
{
Crypto : : UnsignedBigInteger num1 ( { UINT32_MAX - 3 , UINT32_MAX } ) ;
Crypto : : UnsignedBigInteger num2 ( { UINT32_MAX - 2 , 0 } ) ;
Vector < u32 > expected_result { 4294967289 , 0 , 1 } ;
EXPECT_EQ ( num1 . plus ( num2 ) . words ( ) , expected_result ) ;
}
TEST_CASE ( test_unsigned_bigint_basic_add_to_accumulator )
{
Crypto : : UnsignedBigInteger num1 ( 10 ) ;
Crypto : : UnsignedBigInteger num2 ( 70 ) ;
Crypto : : UnsignedBigIntegerAlgorithms : : add_into_accumulator_without_allocation ( num1 , num2 ) ;
EXPECT_EQ ( num1 . words ( ) , Vector < u32 > { 80 } ) ;
}
TEST_CASE ( test_unsigned_bigint_basic_add_to_empty_accumulator )
{
Crypto : : UnsignedBigInteger num1 ( { } ) ;
Crypto : : UnsignedBigInteger num2 ( 10 ) ;
Crypto : : UnsignedBigIntegerAlgorithms : : add_into_accumulator_without_allocation ( num1 , num2 ) ;
EXPECT_EQ ( num1 . words ( ) , Vector < u32 > { 10 } ) ;
}
TEST_CASE ( test_unsigned_bigint_basic_add_to_smaller_accumulator )
{
Crypto : : UnsignedBigInteger num1 ( 10 ) ;
Crypto : : UnsignedBigInteger num2 ( { 10 , 10 } ) ;
Crypto : : UnsignedBigIntegerAlgorithms : : add_into_accumulator_without_allocation ( num1 , num2 ) ;
Vector < u32 > expected_result { 20 , 10 } ;
EXPECT_EQ ( num1 . words ( ) , expected_result ) ;
}
TEST_CASE ( test_unsigned_bigint_add_to_accumulator_with_multiple_carry_levels )
{
Crypto : : UnsignedBigInteger num1 ( { UINT32_MAX - 2 , UINT32_MAX } ) ;
Crypto : : UnsignedBigInteger num2 ( 5 ) ;
Crypto : : UnsignedBigIntegerAlgorithms : : add_into_accumulator_without_allocation ( num1 , num2 ) ;
Vector < u32 > expected_result { 2 , 0 , 1 } ;
EXPECT_EQ ( num1 . words ( ) , expected_result ) ;
}
TEST_CASE ( test_unsigned_bigint_add_to_accumulator_with_leading_zero )
{
Crypto : : UnsignedBigInteger num1 ( 1 ) ;
Crypto : : UnsignedBigInteger num2 ( { 1 , 0 } ) ;
Crypto : : UnsignedBigIntegerAlgorithms : : add_into_accumulator_without_allocation ( num1 , num2 ) ;
EXPECT_EQ ( num1 . words ( ) , Vector < u32 > { 2 } ) ;
}
TEST_CASE ( test_unsigned_bigint_add_to_accumulator_with_carry_and_leading_zero )
{
Crypto : : UnsignedBigInteger num1 ( { UINT32_MAX , 0 , 0 , 0 } ) ;
Crypto : : UnsignedBigInteger num2 ( { 1 , 0 } ) ;
Crypto : : UnsignedBigIntegerAlgorithms : : add_into_accumulator_without_allocation ( num1 , num2 ) ;
Vector < u32 > expected_result { 0 , 1 , 0 , 0 } ;
EXPECT_EQ ( num1 . words ( ) , expected_result ) ;
}
TEST_CASE ( test_unsigned_bigint_simple_subtraction )
{
Crypto : : UnsignedBigInteger num1 ( 80 ) ;
Crypto : : UnsignedBigInteger num2 ( 70 ) ;
EXPECT_EQ ( num1 . minus ( num2 ) , Crypto : : UnsignedBigInteger ( 10 ) ) ;
}
TEST_CASE ( test_unsigned_bigint_simple_subtraction_invalid )
{
Crypto : : UnsignedBigInteger num1 ( 50 ) ;
Crypto : : UnsignedBigInteger num2 ( 70 ) ;
EXPECT ( num1 . minus ( num2 ) . is_invalid ( ) ) ;
}
TEST_CASE ( test_unsigned_bigint_simple_subtraction_with_borrow )
{
Crypto : : UnsignedBigInteger num1 ( UINT32_MAX ) ;
Crypto : : UnsignedBigInteger num2 ( 1 ) ;
Crypto : : UnsignedBigInteger num3 = num1 . plus ( num2 ) ;
Crypto : : UnsignedBigInteger result = num3 . minus ( num2 ) ;
EXPECT_EQ ( result , num1 ) ;
}
TEST_CASE ( test_unsigned_bigint_subtraction_with_large_numbers )
{
Crypto : : UnsignedBigInteger num1 = bigint_fibonacci ( 343 ) ;
Crypto : : UnsignedBigInteger num2 = bigint_fibonacci ( 218 ) ;
Crypto : : UnsignedBigInteger result = num1 . minus ( num2 ) ;
Vector < u32 > expected_result {
811430588 , 2958904896 , 1130908877 , 2830569969 , 3243275482 ,
3047460725 , 774025231 , 7990
} ;
EXPECT_EQ ( result . plus ( num2 ) , num1 ) ;
EXPECT_EQ ( result . words ( ) , expected_result ) ;
}
TEST_CASE ( test_unsigned_bigint_subtraction_with_large_numbers2 )
{
Crypto : : UnsignedBigInteger num1 ( Vector < u32 > { 1483061863 , 446680044 , 1123294122 , 191895498 , 3347106536 , 16 , 0 , 0 , 0 } ) ;
Crypto : : UnsignedBigInteger num2 ( Vector < u32 > { 4196414175 , 1117247942 , 1123294122 , 191895498 , 3347106536 , 16 } ) ;
Crypto : : UnsignedBigInteger result = num1 . minus ( num2 ) ;
// this test only verifies that we don't crash on an assertion
}
TEST_CASE ( test_unsigned_bigint_subtraction_regression_1 )
{
auto num = Crypto : : UnsignedBigInteger { 1 } . shift_left ( 256 ) ;
Vector < u32 > expected_result {
4294967295 , 4294967295 , 4294967295 , 4294967295 , 4294967295 ,
4294967295 , 4294967295 , 4294967295 , 0
} ;
EXPECT_EQ ( num . minus ( 1 ) . words ( ) , expected_result ) ;
}
TEST_CASE ( test_unsigned_bigint_simple_multiplication )
{
Crypto : : UnsignedBigInteger num1 ( 8 ) ;
Crypto : : UnsignedBigInteger num2 ( 251 ) ;
Crypto : : UnsignedBigInteger result = num1 . multiplied_by ( num2 ) ;
EXPECT_EQ ( result . words ( ) , Vector < u32 > { 2008 } ) ;
}
TEST_CASE ( test_unsigned_bigint_multiplication_with_big_numbers1 )
{
Crypto : : UnsignedBigInteger num1 = bigint_fibonacci ( 200 ) ;
Crypto : : UnsignedBigInteger num2 ( 12345678 ) ;
Crypto : : UnsignedBigInteger result = num1 . multiplied_by ( num2 ) ;
Vector < u32 > expected_result { 669961318 , 143970113 , 4028714974 , 3164551305 , 1589380278 , 2 } ;
EXPECT_EQ ( result . words ( ) , expected_result ) ;
}
TEST_CASE ( test_unsigned_bigint_multiplication_with_big_numbers2 )
{
Crypto : : UnsignedBigInteger num1 = bigint_fibonacci ( 200 ) ;
Crypto : : UnsignedBigInteger num2 = bigint_fibonacci ( 341 ) ;
Crypto : : UnsignedBigInteger result = num1 . multiplied_by ( num2 ) ;
Vector < u32 > expected_result {
3017415433 , 2741793511 , 1957755698 , 3731653885 , 3154681877 ,
785762127 , 3200178098 , 4260616581 , 529754471 , 3632684436 ,
1073347813 , 2516430
} ;
EXPECT_EQ ( result . words ( ) , expected_result ) ;
}
TEST_CASE ( test_unsigned_bigint_simple_division )
{
Crypto : : UnsignedBigInteger num1 ( 27194 ) ;
Crypto : : UnsignedBigInteger num2 ( 251 ) ;
auto result = num1 . divided_by ( num2 ) ;
Crypto : : UnsignedDivisionResult expected = { Crypto : : UnsignedBigInteger ( 108 ) , Crypto : : UnsignedBigInteger ( 86 ) } ;
EXPECT_EQ ( result . quotient , expected . quotient ) ;
EXPECT_EQ ( result . remainder , expected . remainder ) ;
}
TEST_CASE ( test_unsigned_bigint_division_with_big_numbers )
{
Crypto : : UnsignedBigInteger num1 = bigint_fibonacci ( 386 ) ;
Crypto : : UnsignedBigInteger num2 = bigint_fibonacci ( 238 ) ;
auto result = num1 . divided_by ( num2 ) ;
Crypto : : UnsignedDivisionResult expected = {
Crypto : : UnsignedBigInteger ( Vector < u32 > { 2300984486 , 2637503534 , 2022805584 , 107 } ) ,
Crypto : : UnsignedBigInteger ( Vector < u32 > { 1483061863 , 446680044 , 1123294122 , 191895498 , 3347106536 , 16 , 0 , 0 , 0 } )
} ;
EXPECT_EQ ( result . quotient , expected . quotient ) ;
EXPECT_EQ ( result . remainder , expected . remainder ) ;
}
TEST_CASE ( test_unsigned_bigint_division_combined_test )
{
auto num1 = bigint_fibonacci ( 497 ) ;
auto num2 = bigint_fibonacci ( 238 ) ;
auto div_result = num1 . divided_by ( num2 ) ;
EXPECT_EQ ( div_result . quotient . multiplied_by ( num2 ) . plus ( div_result . remainder ) , num1 ) ;
}
TEST_CASE ( test_unsigned_bigint_base10_from_string )
{
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auto result = Crypto : : UnsignedBigInteger : : from_base ( 10 , " 57195071295721390579057195715793 " sv ) ;
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Vector < u32 > expected_result { 3806301393 , 954919431 , 3879607298 , 721 } ;
EXPECT_EQ ( result . words ( ) , expected_result ) ;
}
TEST_CASE ( test_unsigned_bigint_base10_to_string )
{
auto result = Crypto : : UnsignedBigInteger {
Vector < u32 > { 3806301393 , 954919431 , 3879607298 , 721 }
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} . to_base ( 10 ) ;
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EXPECT_EQ ( result , " 57195071295721390579057195715793 " ) ;
}
TEST_CASE ( test_bigint_modular_inverse )
{
auto result = Crypto : : NumberTheory : : ModularInverse ( 7 , 87 ) ;
EXPECT_EQ ( result , 25 ) ;
}
TEST_CASE ( test_bigint_even_simple_modular_power )
{
Crypto : : UnsignedBigInteger base { 7 } ;
Crypto : : UnsignedBigInteger exponent { 2 } ;
Crypto : : UnsignedBigInteger modulo { 10 } ;
auto result = Crypto : : NumberTheory : : ModularPower ( base , exponent , modulo ) ;
EXPECT_EQ ( result . words ( ) , Vector < u32 > { 9 } ) ;
}
TEST_CASE ( test_bigint_odd_simple_modular_power )
{
Crypto : : UnsignedBigInteger base { 10 } ;
Crypto : : UnsignedBigInteger exponent { 2 } ;
Crypto : : UnsignedBigInteger modulo { 9 } ;
auto result = Crypto : : NumberTheory : : ModularPower ( base , exponent , modulo ) ;
EXPECT_EQ ( result . words ( ) , Vector < u32 > { 1 } ) ;
}
TEST_CASE ( test_bigint_large_even_fibonacci_modular_power )
{
Crypto : : UnsignedBigInteger base = bigint_fibonacci ( 200 ) ;
Crypto : : UnsignedBigInteger exponent = bigint_fibonacci ( 100 ) ;
Crypto : : UnsignedBigInteger modulo = bigint_fibonacci ( 150 ) ;
// Result according to Wolfram Alpha : 7195284628716783672927396027925
auto result = Crypto : : NumberTheory : : ModularPower ( base , exponent , modulo ) ;
Vector < u32 > expected_result { 2042093077 , 1351416233 , 3510104665 , 90 } ;
EXPECT_EQ ( result . words ( ) , expected_result ) ;
}
TEST_CASE ( test_bigint_large_odd_fibonacci_modular_power )
{
Crypto : : UnsignedBigInteger base = bigint_fibonacci ( 200 ) ;
Crypto : : UnsignedBigInteger exponent = bigint_fibonacci ( 100 ) ;
Crypto : : UnsignedBigInteger modulo = bigint_fibonacci ( 149 ) ;
// Result according to Wolfram Alpha : 1136278609611966596838389694992
auto result = Crypto : : NumberTheory : : ModularPower ( base , exponent , modulo ) ;
Vector < u32 > expected_result { 2106049040 , 2169509253 , 1468244710 , 14 } ;
EXPECT_EQ ( result . words ( ) , expected_result ) ;
}
TEST_CASE ( test_bigint_large_odd_fibonacci_with_carry_modular_power )
{
Crypto : : UnsignedBigInteger base = bigint_fibonacci ( 200 ) ;
Crypto : : UnsignedBigInteger exponent = bigint_fibonacci ( 100 ) ;
Crypto : : UnsignedBigInteger modulo = bigint_fibonacci ( 185 ) ;
// Result according to Wolfram Alpha : 55094573983071006678665780782730672080
auto result = Crypto : : NumberTheory : : ModularPower ( base , exponent , modulo ) ;
Vector < u32 > expected_result { 1988720592 , 2097784252 , 347129583 , 695391288 } ;
EXPECT_EQ ( result . words ( ) , expected_result ) ;
}
TEST_CASE ( test_bigint_modular_power_extra_tests )
{
struct {
Crypto : : UnsignedBigInteger base ;
Crypto : : UnsignedBigInteger exp ;
Crypto : : UnsignedBigInteger mod ;
Crypto : : UnsignedBigInteger expected ;
} mod_pow_tests [ ] = {
{ " 2988348162058574136915891421498819466320163312926952423791023078876139 " _bigint , " 2351399303373464486466122544523690094744975233415544072992656881240319 " _bigint , " 10000 " _bigint , " 3059 " _bigint } ,
{ " 24231 " _bigint , " 12448 " _bigint , " 14679 " _bigint , " 4428 " _bigint } ,
{ " 1005404 " _bigint , " 8352654 " _bigint , " 8161408 " _bigint , " 2605696 " _bigint } ,
{ " 3665005778 " _bigint , " 3244425589 " _bigint , " 565668506 " _bigint , " 524766494 " _bigint } ,
{ " 10662083169959689657 " _bigint , " 11605678468317533000 " _bigint , " 1896834583057209739 " _bigint , " 1292743154593945858 " _bigint } ,
{ " 99667739213529524852296932424683448520 " _bigint , " 123394910770101395416306279070921784207 " _bigint , " 238026722756504133786938677233768788719 " _bigint , " 197165477545023317459748215952393063201 " _bigint } ,
{ " 49368547511968178788919424448914214709244872098814465088945281575062739912239 " _bigint , " 25201856190991298572337188495596990852134236115562183449699512394891190792064 " _bigint , " 45950460777961491021589776911422805972195170308651734432277141467904883064645 " _bigint , " 39917885806532796066922509794537889114718612292469285403012781055544152450051 " _bigint } ,
{ " 48399385336454791246880286907257136254351739111892925951016159217090949616810 " _bigint , " 5758661760571644379364752528081901787573279669668889744323710906207949658569 " _bigint , " 32812120644405991429173950312949738783216437173380339653152625840449006970808 " _bigint , " 7948464125034399875323770213514649646309423451213282653637296324080400293584 " _bigint } ,
} ;
for ( auto test_case : mod_pow_tests ) {
auto actual = Crypto : : NumberTheory : : ModularPower (
test_case . base , test_case . exp , test_case . mod ) ;
EXPECT_EQ ( actual , test_case . expected ) ;
}
}
TEST_CASE ( test_bigint_primality_test )
{
struct {
Crypto : : UnsignedBigInteger candidate ;
bool expected_result ;
} primality_tests [ ] = {
{ " 1180591620717411303424 " _bigint , false } , // 2**70
{ " 620448401733239439360000 " _bigint , false } , // 25!
{ " 953962166440690129601298432 " _bigint , false } , // 12**25
{ " 620448401733239439360000 " _bigint , false } , // 25!
{ " 147926426347074375 " _bigint , false } , // 35! / 2**32
{ " 340282366920938429742726440690708343523 " _bigint , false } , // 2 factors near 2^64
{ " 73 " _bigint , true } ,
{ " 6967 " _bigint , true } ,
{ " 787649 " _bigint , true } ,
{ " 73513949 " _bigint , true } ,
{ " 6691236901 " _bigint , true } ,
{ " 741387182759 " _bigint , true } ,
{ " 67466615915827 " _bigint , true } ,
{ " 9554317039214687 " _bigint , true } ,
{ " 533344522150170391 " _bigint , true } ,
{ " 18446744073709551557 " _bigint , true } , // just below 2**64
} ;
for ( auto test_case : primality_tests ) {
bool actual_result = Crypto : : NumberTheory : : is_probably_prime ( test_case . candidate ) ;
EXPECT_EQ ( test_case . expected_result , actual_result ) ;
}
}
TEST_CASE ( test_bigint_random_number_generation )
{
struct {
Crypto : : UnsignedBigInteger min ;
Crypto : : UnsignedBigInteger max ;
} random_number_tests [ ] = {
{ " 1 " _bigint , " 1000000 " _bigint } ,
{ " 10000000000 " _bigint , " 20000000000 " _bigint } ,
{ " 1000 " _bigint , " 200000000000000000 " _bigint } ,
{ " 200000000000000000 " _bigint , " 200000000000010000 " _bigint } ,
} ;
for ( auto test_case : random_number_tests ) {
auto actual_result = Crypto : : NumberTheory : : random_number ( test_case . min , test_case . max ) ;
EXPECT ( ! ( actual_result < test_case . min ) ) ;
EXPECT ( actual_result < test_case . max ) ;
}
}
TEST_CASE ( test_bigint_random_distribution )
{
auto actual_result = Crypto : : NumberTheory : : random_number (
" 1 " _bigint ,
" 100000000000000000000000000000 " _bigint ) ; // 10**29
if ( actual_result < " 100000000000000000000 " _bigint ) { // 10**20
FAIL ( " Too small " ) ;
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outln ( " The generated number {} is extremely small. This *can* happen by pure chance, but should happen only once in a billion times. So it's probably an error. " , actual_result . to_base ( 10 ) ) ;
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} else if ( " 99999999900000000000000000000 " _bigint < actual_result ) { // 10**29 - 10**20
FAIL ( " Too large " ) ;
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outln ( " The generated number {} is extremely large. This *can* happen by pure chance, but should happen only once in a billion times. So it's probably an error. " , actual_result . to_base ( 10 ) ) ;
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}
}
TEST_CASE ( test_bigint_import_big_endian_decode_encode_roundtrip )
{
u8 random_bytes [ 128 ] ;
u8 target_buffer [ 128 ] ;
fill_with_random ( random_bytes , 128 ) ;
auto encoded = Crypto : : UnsignedBigInteger : : import_data ( random_bytes , 128 ) ;
encoded . export_data ( { target_buffer , 128 } ) ;
EXPECT ( memcmp ( target_buffer , random_bytes , 128 ) = = 0 ) ;
}
TEST_CASE ( test_bigint_import_big_endian_encode_decode_roundtrip )
{
u8 target_buffer [ 128 ] ;
auto encoded = " 12345678901234567890 " _bigint ;
auto size = encoded . export_data ( { target_buffer , 128 } ) ;
auto decoded = Crypto : : UnsignedBigInteger : : import_data ( target_buffer , size ) ;
EXPECT_EQ ( encoded , decoded ) ;
}
TEST_CASE ( test_bigint_big_endian_import )
{
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auto number = Crypto : : UnsignedBigInteger : : import_data ( " hello " sv ) ;
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EXPECT_EQ ( number , " 448378203247 " _bigint ) ;
}
TEST_CASE ( test_bigint_big_endian_export )
{
auto number = " 448378203247 " _bigint ;
char exported [ 8 ] { 0 } ;
auto exported_length = number . export_data ( { exported , 8 } , true ) ;
EXPECT_EQ ( exported_length , 5u ) ;
EXPECT ( memcmp ( exported + 3 , " hello " , 5 ) = = 0 ) ;
}
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TEST_CASE ( test_bigint_one_based_index_of_highest_set_bit )
{
auto num1 = " 1234567 " _bigint ;
auto num2 = " 1234567 " _bigint ;
EXPECT_EQ ( " 0 " _bigint . one_based_index_of_highest_set_bit ( ) , 0u ) ;
EXPECT_EQ ( " 1 " _bigint . one_based_index_of_highest_set_bit ( ) , 1u ) ;
EXPECT_EQ ( " 7 " _bigint . one_based_index_of_highest_set_bit ( ) , 3u ) ;
EXPECT_EQ ( " 4294967296 " _bigint . one_based_index_of_highest_set_bit ( ) , 33u ) ;
}
TEST_CASE ( test_signed_bigint_bitwise_not_fill_to_one_based_index )
{
EXPECT_EQ ( " 0 " _bigint . bitwise_not_fill_to_one_based_index ( 0 ) , " 0 " _bigint ) ;
EXPECT_EQ ( " 0 " _bigint . bitwise_not_fill_to_one_based_index ( 1 ) , " 1 " _bigint ) ;
EXPECT_EQ ( " 0 " _bigint . bitwise_not_fill_to_one_based_index ( 2 ) , " 3 " _bigint ) ;
EXPECT_EQ ( " 0 " _bigint . bitwise_not_fill_to_one_based_index ( 4 ) , " 15 " _bigint ) ;
EXPECT_EQ ( " 0 " _bigint . bitwise_not_fill_to_one_based_index ( 32 ) , " 4294967295 " _bigint ) ;
EXPECT_EQ ( " 0 " _bigint . bitwise_not_fill_to_one_based_index ( 33 ) , " 8589934591 " _bigint ) ;
}
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TEST_CASE ( test_bigint_bitwise_or )
{
auto num1 = " 1234567 " _bigint ;
auto num2 = " 1234567 " _bigint ;
EXPECT_EQ ( num1 . bitwise_or ( num2 ) , num1 ) ;
}
TEST_CASE ( test_bigint_bitwise_or_different_lengths )
{
auto num1 = " 1234567 " _bigint ;
auto num2 = " 123456789012345678901234567890 " _bigint ;
auto expected = " 123456789012345678901234622167 " _bigint ;
auto result = num1 . bitwise_or ( num2 ) ;
EXPECT_EQ ( result , expected ) ;
}
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TEST_CASE ( test_signed_bigint_bitwise_or )
{
auto num1 = " -1234567 " _sbigint ;
auto num2 = " 1234567 " _sbigint ;
EXPECT_EQ ( num1 . bitwise_or ( num1 ) , num1 ) ;
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EXPECT_EQ ( num1 . bitwise_or ( num2 ) , " -1 " _sbigint ) ;
EXPECT_EQ ( num2 . bitwise_or ( num1 ) , " -1 " _sbigint ) ;
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EXPECT_EQ ( num2 . bitwise_or ( num2 ) , num2 ) ;
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EXPECT_EQ ( " 0 " _sbigint . bitwise_or ( " -1 " _sbigint ) , " -1 " _sbigint ) ;
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}
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TEST_CASE ( test_bigint_bitwise_and )
{
auto num1 = " 1234567 " _bigint ;
auto num2 = " 1234561 " _bigint ;
EXPECT_EQ ( num1 . bitwise_and ( num2 ) , " 1234561 " _bigint ) ;
}
TEST_CASE ( test_bigint_bitwise_and_different_lengths )
{
auto num1 = " 1234567 " _bigint ;
auto num2 = " 123456789012345678901234567890 " _bigint ;
EXPECT_EQ ( num1 . bitwise_and ( num2 ) , " 1180290 " _bigint ) ;
}
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TEST_CASE ( test_signed_bigint_bitwise_not )
{
EXPECT_EQ ( " 3 " _sbigint . bitwise_not ( ) , " -4 " _sbigint ) ;
EXPECT_EQ ( " -1 " _sbigint . bitwise_not ( ) , " 0 " _sbigint ) ;
}
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TEST_CASE ( test_signed_bigint_bitwise_and )
{
auto num1 = " -1234567 " _sbigint ;
auto num2 = " 1234567 " _sbigint ;
EXPECT_EQ ( num1 . bitwise_and ( num1 ) , num1 ) ;
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EXPECT_EQ ( num1 . bitwise_and ( num2 ) , " 1 " _sbigint ) ;
EXPECT_EQ ( num2 . bitwise_and ( num1 ) , " 1 " _sbigint ) ;
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EXPECT_EQ ( num2 . bitwise_and ( num2 ) , num2 ) ;
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EXPECT_EQ ( " -3 " _sbigint . bitwise_and ( " -2 " _sbigint ) , " -4 " _sbigint ) ;
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}
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TEST_CASE ( test_bigint_bitwise_xor )
{
auto num1 = " 1234567 " _bigint ;
auto num2 = " 1234561 " _bigint ;
EXPECT_EQ ( num1 . bitwise_xor ( num2 ) , 6 ) ;
}
TEST_CASE ( test_bigint_bitwise_xor_different_lengths )
{
auto num1 = " 1234567 " _bigint ;
auto num2 = " 123456789012345678901234567890 " _bigint ;
EXPECT_EQ ( num1 . bitwise_xor ( num2 ) , " 123456789012345678901233441877 " _bigint ) ;
}
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TEST_CASE ( test_signed_bigint_bitwise_xor )
{
auto num1 = " -3 " _sbigint ;
auto num2 = " 1 " _sbigint ;
EXPECT_EQ ( num1 . bitwise_xor ( num1 ) , " 0 " _sbigint ) ;
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EXPECT_EQ ( num1 . bitwise_xor ( num2 ) , " -4 " _sbigint ) ;
EXPECT_EQ ( num2 . bitwise_xor ( num1 ) , " -4 " _sbigint ) ;
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EXPECT_EQ ( num2 . bitwise_xor ( num2 ) , " 0 " _sbigint ) ;
}
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TEST_CASE ( test_signed_bigint_fibo500 )
{
Vector < u32 > expected_result {
315178285 , 505575602 , 1883328078 , 125027121 ,
3649625763 , 347570207 , 74535262 , 3832543808 ,
2472133297 , 1600064941 , 65273441
} ;
auto result = bigint_signed_fibonacci ( 500 ) ;
EXPECT_EQ ( result . unsigned_value ( ) . words ( ) , expected_result ) ;
}
TEST_CASE ( test_signed_addition_edgecase_borrow_with_zero )
{
Crypto : : SignedBigInteger num1 { Crypto : : UnsignedBigInteger { { UINT32_MAX - 3 , UINT32_MAX } } , false } ;
Crypto : : SignedBigInteger num2 { Crypto : : UnsignedBigInteger { UINT32_MAX - 2 } , false } ;
Vector < u32 > expected_result { 4294967289 , 0 , 1 } ;
EXPECT_EQ ( num1 . plus ( num2 ) . unsigned_value ( ) . words ( ) , expected_result ) ;
}
TEST_CASE ( test_signed_addition_edgecase_addition_to_other_sign )
{
Crypto : : SignedBigInteger num1 = INT32_MAX ;
Crypto : : SignedBigInteger num2 = num1 ;
num2 . negate ( ) ;
EXPECT_EQ ( num1 . plus ( num2 ) , Crypto : : SignedBigInteger { 0 } ) ;
}
TEST_CASE ( test_signed_subtraction_simple_subtraction_positive_result )
{
Crypto : : SignedBigInteger num1 ( 80 ) ;
Crypto : : SignedBigInteger num2 ( 70 ) ;
EXPECT_EQ ( num1 . minus ( num2 ) , Crypto : : SignedBigInteger ( 10 ) ) ;
}
TEST_CASE ( test_signed_subtraction_simple_subtraction_negative_result )
{
Crypto : : SignedBigInteger num1 ( 50 ) ;
Crypto : : SignedBigInteger num2 ( 70 ) ;
EXPECT_EQ ( num1 . minus ( num2 ) , Crypto : : SignedBigInteger { - 20 } ) ;
}
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TEST_CASE ( test_signed_subtraction_both_negative )
{
Crypto : : SignedBigInteger num1 ( - 50 ) ;
Crypto : : SignedBigInteger num2 ( - 70 ) ;
EXPECT_EQ ( num1 . minus ( num2 ) , Crypto : : SignedBigInteger { 20 } ) ;
EXPECT_EQ ( num2 . minus ( num1 ) , Crypto : : SignedBigInteger { - 20 } ) ;
}
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TEST_CASE ( test_signed_subtraction_simple_subtraction_with_borrow )
{
Crypto : : SignedBigInteger num1 ( Crypto : : UnsignedBigInteger { UINT32_MAX } ) ;
Crypto : : SignedBigInteger num2 ( 1 ) ;
Crypto : : SignedBigInteger num3 = num1 . plus ( num2 ) ;
Crypto : : SignedBigInteger result = num2 . minus ( num3 ) ;
num1 . negate ( ) ;
EXPECT_EQ ( result , num1 ) ;
}
TEST_CASE ( test_signed_subtraction_with_large_numbers )
{
Crypto : : SignedBigInteger num1 = bigint_signed_fibonacci ( 343 ) ;
Crypto : : SignedBigInteger num2 = bigint_signed_fibonacci ( 218 ) ;
Crypto : : SignedBigInteger result = num2 . minus ( num1 ) ;
auto expected = Crypto : : UnsignedBigInteger { Vector < u32 > { 811430588 , 2958904896 , 1130908877 , 2830569969 , 3243275482 , 3047460725 , 774025231 , 7990 } } ;
EXPECT_EQ ( result . plus ( num1 ) , num2 ) ;
EXPECT_EQ ( result . unsigned_value ( ) , expected ) ;
}
TEST_CASE ( test_signed_subtraction_with_large_numbers_check_for_assertion )
{
Crypto : : SignedBigInteger num1 ( Crypto : : UnsignedBigInteger { Vector < u32 > { 1483061863 , 446680044 , 1123294122 , 191895498 , 3347106536 , 16 , 0 , 0 , 0 } } ) ;
Crypto : : SignedBigInteger num2 ( Crypto : : UnsignedBigInteger { Vector < u32 > { 4196414175 , 1117247942 , 1123294122 , 191895498 , 3347106536 , 16 } } ) ;
Crypto : : SignedBigInteger result = num1 . minus ( num2 ) ;
// this test only verifies that we don't crash on an assertion
}
TEST_CASE ( test_signed_multiplication_with_negative_number )
{
Crypto : : SignedBigInteger num1 ( 8 ) ;
Crypto : : SignedBigInteger num2 ( - 251 ) ;
Crypto : : SignedBigInteger result = num1 . multiplied_by ( num2 ) ;
EXPECT_EQ ( result , Crypto : : SignedBigInteger { - 2008 } ) ;
}
TEST_CASE ( test_signed_multiplication_with_big_number )
{
Crypto : : SignedBigInteger num1 = bigint_signed_fibonacci ( 200 ) ;
Crypto : : SignedBigInteger num2 ( - 12345678 ) ;
Crypto : : SignedBigInteger result = num1 . multiplied_by ( num2 ) ;
Vector < u32 > expected_result { 669961318 , 143970113 , 4028714974 , 3164551305 , 1589380278 , 2 } ;
EXPECT_EQ ( result . unsigned_value ( ) . words ( ) , expected_result ) ;
EXPECT ( result . is_negative ( ) ) ;
}
TEST_CASE ( test_signed_multiplication_with_two_big_numbers )
{
Crypto : : SignedBigInteger num1 = bigint_signed_fibonacci ( 200 ) ;
Crypto : : SignedBigInteger num2 = bigint_signed_fibonacci ( 341 ) ;
num1 . negate ( ) ;
Crypto : : SignedBigInteger result = num1 . multiplied_by ( num2 ) ;
Vector < u32 > expected_results {
3017415433 , 2741793511 , 1957755698 , 3731653885 ,
3154681877 , 785762127 , 3200178098 , 4260616581 ,
529754471 , 3632684436 , 1073347813 , 2516430
} ;
EXPECT_EQ ( result . unsigned_value ( ) . words ( ) , expected_results ) ;
EXPECT ( result . is_negative ( ) ) ;
}
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TEST_CASE ( test_negative_zero_is_not_allowed )
{
Crypto : : SignedBigInteger zero ( Crypto : : UnsignedBigInteger ( 0 ) , true ) ;
EXPECT ( ! zero . is_negative ( ) ) ;
zero . negate ( ) ;
EXPECT ( ! zero . is_negative ( ) ) ;
Crypto : : SignedBigInteger positive_five ( Crypto : : UnsignedBigInteger ( 5 ) , false ) ;
Crypto : : SignedBigInteger negative_five ( Crypto : : UnsignedBigInteger ( 5 ) , true ) ;
zero = positive_five . plus ( negative_five ) ;
EXPECT ( zero . unsigned_value ( ) . is_zero ( ) ) ;
EXPECT ( ! zero . is_negative ( ) ) ;
}
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TEST_CASE ( double_comparisons )
{
# define EXPECT_LESS_THAN(bigint, double_value) EXPECT_EQ(bigint.compare_to_double(double_value), Crypto::SignedBigInteger::CompareResult::DoubleGreaterThanBigInt)
# define EXPECT_GREATER_THAN(bigint, double_value) EXPECT_EQ(bigint.compare_to_double(double_value), Crypto::SignedBigInteger::CompareResult::DoubleLessThanBigInt)
# define EXPECT_EQUAL_TO(bigint, double_value) EXPECT_EQ(bigint.compare_to_double(double_value), Crypto::SignedBigInteger::CompareResult::DoubleEqualsBigInt)
{
Crypto : : SignedBigInteger zero { 0 } ;
EXPECT_EQUAL_TO ( zero , 0.0 ) ;
EXPECT_EQUAL_TO ( zero , - 0.0 ) ;
}
{
Crypto : : SignedBigInteger one { 1 } ;
EXPECT_EQUAL_TO ( one , 1.0 ) ;
EXPECT_GREATER_THAN ( one , - 1.0 ) ;
EXPECT_GREATER_THAN ( one , 0.5 ) ;
EXPECT_GREATER_THAN ( one , - 0.5 ) ;
EXPECT_LESS_THAN ( one , 1.000001 ) ;
one . negate ( ) ;
auto const & negative_one = one ;
EXPECT_EQUAL_TO ( negative_one , - 1.0 ) ;
EXPECT_LESS_THAN ( negative_one , 1.0 ) ;
EXPECT_LESS_THAN ( one , 0.5 ) ;
EXPECT_LESS_THAN ( one , - 0.5 ) ;
EXPECT_GREATER_THAN ( one , - 1.5 ) ;
EXPECT_LESS_THAN ( one , 1.000001 ) ;
EXPECT_GREATER_THAN ( one , - 1.000001 ) ;
}
{
double double_max_value = NumericLimits < double > : : max ( ) ;
double double_below_max_value = nextafter ( double_max_value , 0.0 ) ;
VERIFY ( double_below_max_value < double_max_value ) ;
VERIFY ( double_below_max_value < ( double_max_value - 1.0 ) ) ;
auto max_value_in_bigint = Crypto : : SignedBigInteger : : from_base ( 16 , " fffffffffffff800000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000 " sv ) ;
auto max_value_plus_one = max_value_in_bigint . plus ( Crypto : : SignedBigInteger { 1 } ) ;
auto max_value_minus_one = max_value_in_bigint . minus ( Crypto : : SignedBigInteger { 1 } ) ;
auto below_max_value_in_bigint = Crypto : : SignedBigInteger : : from_base ( 16 , " fffffffffffff000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000 " sv ) ;
EXPECT_EQUAL_TO ( max_value_in_bigint , double_max_value ) ;
EXPECT_LESS_THAN ( max_value_minus_one , double_max_value ) ;
EXPECT_GREATER_THAN ( max_value_plus_one , double_max_value ) ;
EXPECT_LESS_THAN ( below_max_value_in_bigint , double_max_value ) ;
EXPECT_GREATER_THAN ( max_value_in_bigint , double_below_max_value ) ;
EXPECT_GREATER_THAN ( max_value_minus_one , double_below_max_value ) ;
EXPECT_GREATER_THAN ( max_value_plus_one , double_below_max_value ) ;
EXPECT_EQUAL_TO ( below_max_value_in_bigint , double_below_max_value ) ;
}
{
double double_min_value = NumericLimits < double > : : lowest ( ) ;
double double_above_min_value = nextafter ( double_min_value , 0.0 ) ;
VERIFY ( double_above_min_value > double_min_value ) ;
VERIFY ( double_above_min_value > ( double_min_value + 1.0 ) ) ;
auto min_value_in_bigint = Crypto : : SignedBigInteger : : from_base ( 16 , " -fffffffffffff800000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000 " sv ) ;
auto min_value_plus_one = min_value_in_bigint . plus ( Crypto : : SignedBigInteger { 1 } ) ;
auto min_value_minus_one = min_value_in_bigint . minus ( Crypto : : SignedBigInteger { 1 } ) ;
auto above_min_value_in_bigint = Crypto : : SignedBigInteger : : from_base ( 16 , " -fffffffffffff000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000 " sv ) ;
EXPECT_EQUAL_TO ( min_value_in_bigint , double_min_value ) ;
EXPECT_LESS_THAN ( min_value_minus_one , double_min_value ) ;
EXPECT_GREATER_THAN ( min_value_plus_one , double_min_value ) ;
EXPECT_GREATER_THAN ( above_min_value_in_bigint , double_min_value ) ;
EXPECT_LESS_THAN ( min_value_in_bigint , double_above_min_value ) ;
EXPECT_LESS_THAN ( min_value_minus_one , double_above_min_value ) ;
EXPECT_LESS_THAN ( min_value_plus_one , double_above_min_value ) ;
EXPECT_EQUAL_TO ( above_min_value_in_bigint , double_above_min_value ) ;
}
{
double just_above_255 = bit_cast < double > ( 0x406fe00000000001ULL ) ;
double just_below_255 = bit_cast < double > ( 0x406fdfffffffffffULL ) ;
double double_255 = 255.0 ;
Crypto : : SignedBigInteger bigint_255 { 255 } ;
EXPECT_EQUAL_TO ( bigint_255 , double_255 ) ;
EXPECT_GREATER_THAN ( bigint_255 , just_below_255 ) ;
EXPECT_LESS_THAN ( bigint_255 , just_above_255 ) ;
}
# undef EXPECT_LESS_THAN
# undef EXPECT_GREATER_THAN
# undef EXPECT_EQUAL_TO
}
namespace AK {
template < >
struct Formatter < Crypto : : SignedBigInteger : : CompareResult > : Formatter < StringView > {
ErrorOr < void > format ( FormatBuilder & builder , Crypto : : SignedBigInteger : : CompareResult const & compare_result )
{
switch ( compare_result ) {
case Crypto : : SignedBigInteger : : CompareResult : : DoubleEqualsBigInt :
return builder . put_string ( " Equals " sv ) ;
case Crypto : : SignedBigInteger : : CompareResult : : DoubleLessThanBigInt :
return builder . put_string ( " LessThan " sv ) ;
case Crypto : : SignedBigInteger : : CompareResult : : DoubleGreaterThanBigInt :
return builder . put_string ( " GreaterThan " sv ) ;
default :
return builder . put_string ( " ??? " sv ) ;
}
}
} ;
}