| static BIG_B: &str = "\ |
| efac3c0a_0de55551_fee0bfe4_67fa017a_1a898fa1_6ca57cb1\ |
| ca9e3248_cacc09a9_b99d6abc_38418d0f_82ae4238_d9a68832\ |
| aadec7c1_ac5fed48_7a56a71b_67ac59d5_afb28022_20d9592d\ |
| 247c4efc_abbd9b75_586088ee_1dc00dc4_232a8e15_6e8191dd\ |
| 675b6ae0_c80f5164_752940bc_284b7cee_885c1e10_e495345b\ |
| 8fbe9cfd_e5233fe1_19459d0b_d64be53c_27de5a02_a829976b\ |
| 33096862_82dad291_bd38b6a9_be396646_ddaf8039_a2573c39\ |
| 1b14e8bc_2cb53e48_298c047e_d9879e9c_5a521076_f0e27df3\ |
| 990e1659_d3d8205b_6443ebc0_9918ebee_6764f668_9f2b2be3\ |
| b59cbc76_d76d0dfc_d737c3ec_0ccf9c00_ad0554bf_17e776ad\ |
| b4edf9cc_6ce540be_76229093_5c53893b"; |
| |
| static BIG_E: &str = "\ |
| be0e6ea6_08746133_e0fbc1bf_82dba91e_e2b56231_a81888d2\ |
| a833a1fc_f7ff002a_3c486a13_4f420bf3_a5435be9_1a5c8391\ |
| 774d6e6c_085d8357_b0c97d4d_2bb33f7c_34c68059_f78d2541\ |
| eacc8832_426f1816_d3be001e_b69f9242_51c7708e_e10efe98\ |
| 449c9a4a_b55a0f23_9d797410_515da00d_3ea07970_4478a2ca\ |
| c3d5043c_bd9be1b4_6dce479d_4302d344_84a939e6_0ab5ada7\ |
| 12ae34b2_30cc473c_9f8ee69d_2cac5970_29f5bf18_bc8203e4\ |
| f3e895a2_13c94f1e_24c73d77_e517e801_53661fdd_a2ce9e47\ |
| a73dd7f8_2f2adb1e_3f136bf7_8ae5f3b8_08730de1_a4eff678\ |
| e77a06d0_19a522eb_cbefba2a_9caf7736_b157c5c6_2d192591\ |
| 17946850_2ddb1822_117b68a0_32f7db88"; |
| |
| // This modulus is the prime from the 2048-bit MODP DH group: |
| // https://tools.ietf.org/html/rfc3526#section-3 |
| static BIG_M: &str = "\ |
| FFFFFFFF_FFFFFFFF_C90FDAA2_2168C234_C4C6628B_80DC1CD1\ |
| 29024E08_8A67CC74_020BBEA6_3B139B22_514A0879_8E3404DD\ |
| EF9519B3_CD3A431B_302B0A6D_F25F1437_4FE1356D_6D51C245\ |
| E485B576_625E7EC6_F44C42E9_A637ED6B_0BFF5CB6_F406B7ED\ |
| EE386BFB_5A899FA5_AE9F2411_7C4B1FE6_49286651_ECE45B3D\ |
| C2007CB8_A163BF05_98DA4836_1C55D39A_69163FA8_FD24CF5F\ |
| 83655D23_DCA3AD96_1C62F356_208552BB_9ED52907_7096966D\ |
| 670C354E_4ABC9804_F1746C08_CA18217C_32905E46_2E36CE3B\ |
| E39E772C_180E8603_9B2783A2_EC07A28F_B5C55DF0_6F4C52C9\ |
| DE2BCBF6_95581718_3995497C_EA956AE5_15D22618_98FA0510\ |
| 15728E5A_8AACAA68_FFFFFFFF_FFFFFFFF"; |
| |
| static BIG_R: &str = "\ |
| a1468311_6e56edc9_7a98228b_5e924776_0dd7836e_caabac13\ |
| eda5373b_4752aa65_a1454850_40dc770e_30aa8675_6be7d3a8\ |
| 9d3085e4_da5155cf_b451ef62_54d0da61_cf2b2c87_f495e096\ |
| 055309f7_77802bbb_37271ba8_1313f1b5_075c75d1_024b6c77\ |
| fdb56f17_b05bce61_e527ebfd_2ee86860_e9907066_edd526e7\ |
| 93d289bf_6726b293_41b0de24_eff82424_8dfd374b_4ec59542\ |
| 35ced2b2_6b195c90_10042ffb_8f58ce21_bc10ec42_64fda779\ |
| d352d234_3d4eaea6_a86111ad_a37e9555_43ca78ce_2885bed7\ |
| 5a30d182_f1cf6834_dc5b6e27_1a41ac34_a2e91e11_33363ff0\ |
| f88a7b04_900227c9_f6e6d06b_7856b4bb_4e354d61_060db6c8\ |
| 109c4735_6e7db425_7b5d74c7_0b709508"; |
| |
| mod biguint { |
| use num_bigint::BigUint; |
| use num_integer::Integer; |
| use num_traits::Num; |
| |
| fn check_modpow<T: Into<BigUint>>(b: T, e: T, m: T, r: T) { |
| let b: BigUint = b.into(); |
| let e: BigUint = e.into(); |
| let m: BigUint = m.into(); |
| let r: BigUint = r.into(); |
| |
| assert_eq!(b.modpow(&e, &m), r); |
| |
| let even_m = &m << 1; |
| let even_modpow = b.modpow(&e, &even_m); |
| assert!(even_modpow < even_m); |
| assert_eq!(even_modpow.mod_floor(&m), r); |
| } |
| |
| #[test] |
| fn test_modpow_single() { |
| check_modpow::<u32>(1, 0, 11, 1); |
| check_modpow::<u32>(0, 15, 11, 0); |
| check_modpow::<u32>(3, 7, 11, 9); |
| check_modpow::<u32>(5, 117, 19, 1); |
| check_modpow::<u32>(20, 1, 2, 0); |
| check_modpow::<u32>(20, 1, 3, 2); |
| } |
| |
| #[test] |
| fn test_modpow_small() { |
| for b in 0u64..11 { |
| for e in 0u64..11 { |
| for m in 1..11 { |
| check_modpow::<u64>(b, e, m, b.pow(e as u32) % m); |
| } |
| } |
| } |
| } |
| |
| #[test] |
| fn test_modpow_big() { |
| let b = BigUint::from_str_radix(super::BIG_B, 16).unwrap(); |
| let e = BigUint::from_str_radix(super::BIG_E, 16).unwrap(); |
| let m = BigUint::from_str_radix(super::BIG_M, 16).unwrap(); |
| let r = BigUint::from_str_radix(super::BIG_R, 16).unwrap(); |
| |
| assert_eq!(b.modpow(&e, &m), r); |
| |
| let even_m = &m << 1; |
| let even_modpow = b.modpow(&e, &even_m); |
| assert!(even_modpow < even_m); |
| assert_eq!(even_modpow % m, r); |
| } |
| } |
| |
| mod bigint { |
| use num_bigint::BigInt; |
| use num_integer::Integer; |
| use num_traits::{Num, One, Signed}; |
| |
| fn check_modpow<T: Into<BigInt>>(b: T, e: T, m: T, r: T) { |
| fn check(b: &BigInt, e: &BigInt, m: &BigInt, r: &BigInt) { |
| assert_eq!(&b.modpow(e, m), r, "{} ** {} (mod {}) != {}", b, e, m, r); |
| |
| let even_m = m << 1u8; |
| let even_modpow = b.modpow(e, m); |
| assert!(even_modpow.abs() < even_m.abs()); |
| assert_eq!(&even_modpow.mod_floor(&m), r); |
| |
| // the sign of the result follows the modulus like `mod_floor`, not `rem` |
| assert_eq!(b.modpow(&BigInt::one(), m), b.mod_floor(m)); |
| } |
| |
| let b: BigInt = b.into(); |
| let e: BigInt = e.into(); |
| let m: BigInt = m.into(); |
| let r: BigInt = r.into(); |
| |
| let neg_b_r = if e.is_odd() { |
| (-&r).mod_floor(&m) |
| } else { |
| r.clone() |
| }; |
| let neg_m_r = r.mod_floor(&-&m); |
| let neg_bm_r = neg_b_r.mod_floor(&-&m); |
| |
| check(&b, &e, &m, &r); |
| check(&-&b, &e, &m, &neg_b_r); |
| check(&b, &e, &-&m, &neg_m_r); |
| check(&-b, &e, &-&m, &neg_bm_r); |
| } |
| |
| #[test] |
| fn test_modpow() { |
| check_modpow(1, 0, 11, 1); |
| check_modpow(0, 15, 11, 0); |
| check_modpow(3, 7, 11, 9); |
| check_modpow(5, 117, 19, 1); |
| check_modpow(-20, 1, 2, 0); |
| check_modpow(-20, 1, 3, 1); |
| } |
| |
| #[test] |
| fn test_modpow_small() { |
| for b in -10i64..11 { |
| for e in 0i64..11 { |
| for m in -10..11 { |
| if m == 0 { |
| continue; |
| } |
| check_modpow(b, e, m, b.pow(e as u32).mod_floor(&m)); |
| } |
| } |
| } |
| } |
| |
| #[test] |
| fn test_modpow_big() { |
| let b = BigInt::from_str_radix(super::BIG_B, 16).unwrap(); |
| let e = BigInt::from_str_radix(super::BIG_E, 16).unwrap(); |
| let m = BigInt::from_str_radix(super::BIG_M, 16).unwrap(); |
| let r = BigInt::from_str_radix(super::BIG_R, 16).unwrap(); |
| |
| check_modpow(b, e, m, r); |
| } |
| } |
