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76 commits

Author SHA1 Message Date
Tom Cosgrove
ecbb124292 Fix incorrect parameter name in mbedtls_mpi_core_add_if() doc comment
Signed-off-by: Tom Cosgrove <tom.cosgrove@arm.com>
2022-08-25 10:13:44 +01:00
Tom Cosgrove
72594633a1 Apply the function parameter naming convention
Signed-off-by: Tom Cosgrove <tom.cosgrove@arm.com>
2022-08-24 11:51:58 +01:00
Tom Cosgrove
f0ffb1585a Have mbedtls_mpi_montg_init() take the modulus, rather than just its least significant limb
Signed-off-by: Tom Cosgrove <tom.cosgrove@arm.com>
2022-08-24 11:17:15 +01:00
Tom Cosgrove
9384284530 Use mbedtls_mpi_core_montmul() in mpi_montmul()
Signed-off-by: Tom Cosgrove <tom.cosgrove@arm.com>
2022-08-23 16:29:32 +01:00
Tom Cosgrove
f334d9622b Add unit tests for bignum_new.c:mbedtls_mpi_core_montmul()
These tests are also used to test the existing mpi_montmul() function (which
too is renamed with mbedtls_ prefix). Some of these are replays of captured
invocations during unit test runs. Others are generated.  They use a mixture
of primes and odd numbers for N, with four randomly-generated cases for each N.

The lines in the .data file were generated by the following script

```
    #!/usr/bin/env perl
    #
    # mpi-test-core-montmul.pl - generate MPI tests in Perl for mbedtls_mpi_core_montmul()
    #
    use strict;
    use warnings;
    use Math::BigInt;
    use sort 'stable';

    generate_tests();

    sub generate_tests {
        generate_mbedtls_mpi_core_montmul();
    }

    # XXX mbedtls_mpi_grow() and mbedtls_mpi_shrink() work in little-endian manner

    # \brief Montgomery multiplication: X = A * B * R^-1 mod N  (HAC 14.36)
    #
    # \param[out]     X      The destination MPI, as a big endian array of length \p n.
    #                        On successful completion, X contains the result of
    #                        the multiplication A * B * R^-1 mod N where
    #                        R = (2^ciL)^n.
    # \param[in]      A      Big endian presentation of first operand.
    #                        Must have exactly \p n limbs.
    # \param[in]      B      Big endian presentation of second operand.
    # \param[in]      B_len  The number of limbs in \p B.
    # \param[in]      N      Big endian presentation of the modulus.
    #                        This must be odd and have exactly \p n limbs.
    # \param[in]      n      The number of limbs in \p X, \p A, \p N.
    # \param          mm     The Montgomery constant for \p N: -N^-1 mod 2^ciL.
    #                        This can be calculated by `mbedtls_mpi_montg_init()`.
    # \param[in,out]  T      Temporary storage of size at least 2*n+1 limbs.
    #                        Its initial content is unused and
    #                        its final content is indeterminate.
    #
    # void mbedtls_mpi_core_montmul( mbedtls_mpi_uint *X,
    #                                const mbedtls_mpi_uint *A,
    #                                const mbedtls_mpi_uint *B, size_t B_len,
    #                                const mbedtls_mpi_uint *N, size_t n,
    #                                mbedtls_mpi_uint mm, mbedtls_mpi_uint *T );

    sub generate_mbedtls_mpi_core_montmul {

        my $sub_name = (caller(0))[3];      # e.g. main::generate_mbedtls_mpi_sub_mpi
        my ($ignore, $test_name) = split("main::generate_", $sub_name);

        my @cases = ();

        my @replay = (
            # [ limbsAN_4, limbsB_4, limbsAN_8, limbsB_8, hexA, hexB, hexN, hexExpected ]
            [ 2, 1, 1, 1, "19", "1", "1D", "18" ],
            [ 2, 1, 1, 1, "7", "1", "9", "1" ],
            [ 2, 1, 1, 1, "4", "1", "9", "7" ],
            #montmul:
            #A.n = 3
            #A.p = FFFE000000008004
            #      0000000000007FFC
            #      0000000000000000
            #B.n = 1
            #B.p = 0000000000000001
            #N.n = 3
            #N.p = 0000000000000001
            #      0000000000008000
            #      0000000000000000
            #mm = FFFFFFFFFFFFFFFF
            #res.n = 3
            #res.p = EFFF9FFF3FFF8001
            #        0000000000007FFF
            #        0000000000000000
            #[ "MBEDTLS_HAVE_INT32", 3, 1, 3, "7FFCFFFE000000008004", "1", "80000000000000000001", "2000C001800100000000" ],
            #[ "MBEDTLS_HAVE_INT64", 3, 1, 3, "7FFCFFFE000000008004", "1", "80000000000000000001", "7FFFEFFF9FFF3FFF8001" ],

            [ 12, 1, 6, 1, "3C246D0E059A93A266288A7718419EC741661B474C58C032C5EDAF92709402B07CC8C7CE0B781C641A1EA8DB2F4343", "1", "66A198186C18C10B2F5ED9B522752A9830B69916E535C8F047518A889A43A594B6BED27A168D31D4A52F88925AA8F5", "36E139AEA55215609D2816998ED020BBBD96C37890F65171D948E9BC7CBAA4D9325D24D6A3C12710F10A09FA08AB87" ],

            #A.n = 5
            #A.p = 340E918CE03C6211
            #      9888165CB75BFA1F
            #      FCCE74B999E470CA
            #      1E442976B0E63D64
            #      0000000000000000
            #B.n = 1
            #B.p = 0000000000000001
            #N.n = 4
            #N.p = 8054B3D124D0E561
            #      92A338655DCE4CA8
            #      E28581ECD892E0F5
            #      B3A119602EE213CD
            #mm = E41CFB909805815F
            #res.n = 5
            #res.p = 0E65383B59F8CA5B
            #        B103B17A2EEF84E6
            #        F23BC08FD0801C55
            #        38EB7749F4A5DA80
            #        0000000000000000
            [ 8, 1, 4, 1, "1E442976B0E63D64FCCE74B999E470CA9888165CB75BFA1F340E918CE03C6211", "1", "B3A119602EE213CDE28581ECD892E0F592A338655DCE4CA88054B3D124D0E561", "38EB7749F4A5DA80F23BC08FD0801C55B103B17A2EEF84E60E65383B59F8CA5B" ],

            #A.n = 12
            #A.p = 542306BCA7A2366E
            #      D2780B2B4968F8D8
            #      CBDFC696104353E4
            #      7776839B0AC9DB23
            #      B7E125BE407E7415
            #      D711917FD7537E13
            #      82392870D6D08F87
            #      D83ED5FA38560FFB
            #      9994B0FED1D2A8D3
            #      63C65413F57249F5
            #      007CF5AC97304E0B
            #      0000000000000000
            #B.n = 1
            #B.p = 0000000000000001
            #N.n = 11
            #N.p = E1AD22CEB7BA0123
            #      32B2A6AA42ADA923
            #      C56C62082912B661
            #      C6F0EAD752500A32
            #      DBC8D651793E93C9
            #      0B2F60D99CC1950C
            #      5B4CDCB5734C58F9
            #      09D3CB5BC5585472
            #      9A2C2BE12ED487A8
            #      BE09A8111926AAA3
            #      0284139EA19C139E
            #mm = C02E2164B293C975
            #res.n = 12
            #res.p = F6B14471839D8D31
            #        FF843ED3B17C44D7
            #        1C3D52C7CB9E0BA6
            #        82F3590C866BF9F8
            #        49C371DB2A4FB164
            #        964ECA2527A031ED
            #        FAACEC6982E0E5BE
            #        1F70C4CB2426AEE1
            #        2C92B02886267AB4
            #        0630B14113BEAD74
            #        01E4426A3D6C425F
            #        0000000000000000
            [ 22, 1, 11, 1, "7CF5AC97304E0B63C65413F57249F59994B0FED1D2A8D3D83ED5FA38560FFB82392870D6D08F87D711917FD7537E13B7E125BE407E74157776839B0AC9DB23CBDFC696104353E4D2780B2B4968F8D8542306BCA7A2366E", "1", "284139EA19C139EBE09A8111926AAA39A2C2BE12ED487A809D3CB5BC55854725B4CDCB5734C58F90B2F60D99CC1950CDBC8D651793E93C9C6F0EAD752500A32C56C62082912B66132B2A6AA42ADA923E1AD22CEB7BA0123", "1E4426A3D6C425F0630B14113BEAD742C92B02886267AB41F70C4CB2426AEE1FAACEC6982E0E5BE964ECA2527A031ED49C371DB2A4FB16482F3590C866BF9F81C3D52C7CB9E0BA6FF843ED3B17C44D7F6B14471839D8D31" ],
        );

        for my $c (@replay) {
            # For all of these, la4 = 2 * la8, so $xh4 == $xh8 (so we just have $xh)
            my ($la4, $lb4, $la8, $lb8, $ah, $bh, $nh, $xh) = @$c;    # limbs(A), limbs(B), limbs(N), (A, B, N, expected) hex

            my $a = Math::BigInt->from_hex($ah);
            my $b = Math::BigInt->from_hex($bh);
            my $n = Math::BigInt->from_hex($nh);

            my $desc = "$test_name #NUMBER (replay)";
            # mbedtls_mpi_core_montmul:mpiSize:limbs(A,N):limbs(B):<A>:<B>:<N>:<expected4>:<expected8>
            # (just repeat $xh, as la4 = 2 * la8, so $xh4 == $xh8)
            my $case = output($test_name, $la4, $lb4, $la8, $lb8, str($ah), str($bh), str($nh), str($xh), str($xh));

            push(@cases, [$case, $desc]);
        }

        # see mpi-modmul-gen.pl for the source of these test cases

        my @generate = (
            # [ hexN, hexA, hexB, info ]
            [ "3", "2", "2", "" ],
            [ "3", "1", "2", "" ],
            [ "3", "2", "1", "" ],
            [ "7", "6", "5", "" ],
            [ "7", "3", "4", "" ],
            [ "7", "1", "6", "" ],
            [ "7", "5", "6", "" ],
            [ "B", "3", "4", "" ],
            [ "B", "7", "4", "" ],
            [ "B", "9", "7", "" ],
            [ "B", "2", "a", "" ],
            [ "29", "25", "16", "(0x29 is prime)" ],
            [ "29", "8", "28", "" ],
            [ "29", "18", "21", "" ],
            [ "29", "15", "f", "" ],
            [ "FF", "e2", "ea", "" ],
            [ "FF", "43", "72", "" ],
            [ "FF", "d8", "70", "" ],
            [ "FF", "3c", "7c", "" ],
            [ "101", "99", "b9", "(0x101 is prime)" ],
            [ "101", "65", "b2", "" ],
            [ "101", "81", "32", "" ],
            [ "101", "51", "dd", "" ],
            [ "38B", "d5", "143", "(0x38B is prime)" ],
            [ "38B", "3d", "387", "" ],
            [ "38B", "160", "2e5", "" ],
            [ "38B", "10f", "137", "" ],
            [ "8003", "7dac", "25a", "(0x8003 is prime)" ],
            [ "8003", "6f1c", "3286", "" ],
            [ "8003", "59ed", "2f3f", "" ],
            [ "8003", "6893", "736d", "" ],
            [ "10001", "d199", "2832", "(0x10001 is prime)" ],
            [ "10001", "c3b2", "3e5b", "" ],
            [ "10001", "abe4", "214e", "" ],
            [ "10001", "4360", "a05d", "" ],
            [ "7F7F7", "3f5a1", "165b2", "" ],
            [ "7F7F7", "3bd29", "37863", "" ],
            [ "7F7F7", "60c47", "64819", "" ],
            [ "7F7F7", "16584", "12c49", "" ],
            [ "800009", "1ff03f", "610347", "(0x800009 is prime)" ],
            [ "800009", "340fd5", "19812e", "" ],
            [ "800009", "3fe2e8", "4d0dc7", "" ],
            [ "800009", "40356", "e6392", "" ],
            [ "100002B", "dd8a1d", "266c0e", "(0x100002B is prime)" ],
            [ "100002B", "3fa1cb", "847fd6", "" ],
            [ "100002B", "5f439d", "5c3196", "" ],
            [ "100002B", "18d645", "f72dc6", "" ],
            [ "37EEE9D", "20051ad", "37def6e", "(0x37EEE9D is prime)" ],
            [ "37EEE9D", "2ec140b", "3580dbf", "" ],
            [ "37EEE9D", "1d91b46", "190d4fc", "" ],
            [ "37EEE9D", "34e488d", "1224d24", "" ],
            [ "8000000B", "2a4fe2cb", "263466a9", "(0x8000000B is prime)" ],
            [ "8000000B", "5643fe94", "29a1aefa", "" ],
            [ "8000000B", "29633513", "7b007ac4", "" ],
            [ "8000000B", "2439cef5", "5c9d5a47", "" ],
            [ "8CD626B9", "4de3cfaa", "50dea178", "(0x8CD626B9 is prime)" ],
            [ "8CD626B9", "b8b8563", "10dbbbac", "" ],
            [ "8CD626B9", "4e8a6151", "5574ec19", "" ],
            [ "8CD626B9", "69224878", "309cfc23", "" ],
            [ "10000000F", "fb6f7fb6", "afb05423", "(0x10000000F is prime)" ],
            [ "10000000F", "8391a243", "26034dcd", "" ],
            [ "10000000F", "d26b98c", "14b2d6aa", "" ],
            [ "10000000F", "6b9f1371", "a21daf1d", "" ],
            [ "174876E7E9", "9f49435ad", "c8264ade8", "0x174876E7E9 is prime (dec) 99999999977" ],
            [ "174876E7E9", "c402da434", "1fb427acf", "" ],
            [ "174876E7E9", "f6ebc2bb1", "1096d39f2a", "" ],
            [ "174876E7E9", "153b7f7b6b", "878fda8ff", "" ],
            [ "8000000017", "2c1adbb8d6", "4384d2d3c6", "(0x8000000017 is prime)" ],
            [ "8000000017", "2e4f9cf5fb", "794f3443d9", "" ],
            [ "8000000017", "149e495582", "3802b8f7b7", "" ],
            [ "8000000017", "7b9d49df82", "69c68a442a", "" ],
            [ "864CB9076D", "683a134600", "6dd80ea9f6", "(0x864CB9076D is prime)" ],
            [ "864CB9076D", "13a870ff0d", "59b099694a", "" ],
            [ "864CB9076D", "37d06b0e63", "4d2147e46f", "" ],
            [ "864CB9076D", "661714f8f4", "22e55df507", "" ],
            [ "F7F7F7F7F7", "2f0a96363", "52693307b4", "" ],
            [ "F7F7F7F7F7", "3c85078e64", "f2275ecb6d", "" ],
            [ "F7F7F7F7F7", "352dae68d1", "707775b4c6", "" ],
            [ "F7F7F7F7F7", "37ae0f3e0b", "912113040f", "" ],
            [ "1000000000F", "6dada15e31", "f58ed9eff7", "(0x1000000000F is prime)" ],
            [ "1000000000F", "69627a7c89", "cfb5ebd13d", "" ],
            [ "1000000000F", "a5e1ad239b", "afc030c731", "" ],
            [ "1000000000F", "f1cc45f4c5", "c64ad607c8", "" ],
            [ "800000000005", "2ebad87d2e31", "4c72d90bca78", "(0x800000000005 is prime)" ],
            [ "800000000005", "a30b3cc50d", "29ac4fe59490", "" ],
            [ "800000000005", "33674e9647b4", "5ec7ee7e72d3", "" ],
            [ "800000000005", "3d956f474f61", "74070040257d", "" ],
            [ "800795D9BA47", "48348e3717d6", "43fcb4399571", "(0x800795D9BA47 is prime)" ],
            [ "800795D9BA47", "5234c03cc99b", "2f3cccb87803", "" ],
            [ "800795D9BA47", "3ed13db194ab", "44b8f4ba7030", "" ],
            [ "800795D9BA47", "1c11e843bfdb", "95bd1b47b08", "" ],
            [ "1000000000015", "a81d11cb81fd", "1e5753a3f33d", "(0x1000000000015 is prime)" ],
            [ "1000000000015", "688c4db99232", "36fc0cf7ed", "" ],
            [ "1000000000015", "f0720cc07e07", "fc76140ed903", "" ],
            [ "1000000000015", "2ec61f8d17d1", "d270c85e36d2", "" ],
            [ "100000000000051", "6a24cd3ab63820", "ed4aad55e5e348", "(0x100000000000051 is prime)" ],
            [ "100000000000051", "e680c160d3b248", "31e0d8840ed510", "" ],
            [ "100000000000051", "a80637e9aebc38", "bb81decc4e1738", "" ],
            [ "100000000000051", "9afa5a59e9d630", "be9e65a6d42938", "" ],
            [ "ABCDEF0123456789", "ab5e104eeb71c000", "2cffbd639e9fea00", "" ],
            [ "ABCDEF0123456789", "197b867547f68a00", "44b796cf94654800", "" ],
            [ "ABCDEF0123456789", "329f9483a04f2c00", "9892f76961d0f000", "" ],
            [ "ABCDEF0123456789", "4a2e12dfb4545000", "1aa3e89a69794500", "" ],
            [ "25A55A46E5DA99C71C7", "8b9acdf013d140f000", "12e4ceaefabdf2b2f00", "0x25A55A46E5DA99C71C7 is the 3rd repunit prime (dec) 11111111111111111111111" ],
            [ "25A55A46E5DA99C71C7", "1b8d960ea277e3f5500", "14418aa980e37dd000", "" ],
            [ "25A55A46E5DA99C71C7", "7314524977e8075980", "8172fa45618ccd0d80", "" ],
            [ "25A55A46E5DA99C71C7", "ca14f031769be63580", "147a2f3cf2964ca9400", "" ],
            [ "314DC643FB763F2B8C0E2DE00879", "18532ba119d5cd0cf39735c0000", "25f9838e31634844924733000000", "0x314DC643FB763F2B8C0E2DE00879 is (dec)99999999977^3" ],
            [ "314DC643FB763F2B8C0E2DE00879", "a56e2d2517519e3970e70c40000", "ec27428d4bb380458588fa80000", "" ],
            [ "314DC643FB763F2B8C0E2DE00879", "1cb5e8257710e8653fff33a00000", "15fdd42fe440fd3a1d121380000", "" ],
            [ "314DC643FB763F2B8C0E2DE00879", "e50d07a65fc6f93e538ce040000", "1f4b059ca609f3ce597f61240000", "" ],
            [ "47BF19662275FA2F6845C74942ED1D852E521", "1ea3ade786a095d978d387f30df9f20000000", "127c448575f04af5a367a7be06c7da0000000", "0x47BF19662275FA2F6845C74942ED1D852E521 is (dec) 99999999977^4" ],
            [ "47BF19662275FA2F6845C74942ED1D852E521", "16e15b0ca82764e72e38357b1f10a20000000", "43e2355d8514bbe22b0838fdc3983a0000000", "" ],
            [ "47BF19662275FA2F6845C74942ED1D852E521", "be39332529d93f25c3d116c004c620000000", "5cccec42370a0a2c89c6772da801a0000000", "" ],
            [ "47BF19662275FA2F6845C74942ED1D852E521", "ecaa468d90de0eeda474d39b3e1fc0000000", "1e714554018de6dc0fe576bfd3b5660000000", "" ],
            [ "97EDD86E4B5C4592C6D32064AC55C888A7245F07CA3CC455E07C931", "32298816711c5dce46f9ba06e775c4bedfc770e6700000000000000", "8ee751fd5fb24f0b4a653cb3a0c8b7d9e724574d168000000000000", "0x97EDD86E4B5C4592C6D32064AC55C888A7245F07CA3CC455E07C931 is (dec) 99999999977^6" ],
            [ "97EDD86E4B5C4592C6D32064AC55C888A7245F07CA3CC455E07C931", "29213b9df3cfd15f4b428645b67b677c29d1378d810000000000000", "6cbb732c65e10a28872394dfdd1936d5171c3c3aac0000000000000", "" ],
            [ "97EDD86E4B5C4592C6D32064AC55C888A7245F07CA3CC455E07C931", "6f18db06ad4abc52c0c50643dd13098abccd4a232f0000000000000", "7e6bf41f2a86098ad51f98dfc10490ba3e8081bc830000000000000", "" ],
            [ "97EDD86E4B5C4592C6D32064AC55C888A7245F07CA3CC455E07C931", "62d3286cd706ad9d73caff63f1722775d7e8c731208000000000000", "530f7ba02ae2b04c2fe3e3d27ec095925631a6c2528000000000000", "" ],
            [ "DD15FE80B731872AC104DB37832F7E75A244AA2631BC87885B861E8F20375499", "a6c6503e3c031fdbf6009a89ed60582b7233c5a85de28b16000000000000000", "75c8ed18270b583f16d442a467d32bf95c5e491e9b8523798000000000000000", "0xDD15FE80B731872AC104DB37832F7E75A244AA2631BC87885B861E8F20375499 is (dec) 99999999977^7" ],
            [ "DD15FE80B731872AC104DB37832F7E75A244AA2631BC87885B861E8F20375499", "bf84d1f85cf6b51e04d2c8f4ffd03532d852053cf99b387d4000000000000000", "397ba5a743c349f4f28bc583ecd5f06e0a25f9c6d98f09134000000000000000", "" ],
            [ "DD15FE80B731872AC104DB37832F7E75A244AA2631BC87885B861E8F20375499", "6db11c3a4152ed1a2aa6fa34b0903ec82ea1b88908dcb482000000000000000", "ac8ac576a74ad6ca48f201bf89f77350ce86e821358d85920000000000000000", "" ],
            [ "DD15FE80B731872AC104DB37832F7E75A244AA2631BC87885B861E8F20375499", "3001d96d7fe8b733f33687646fc3017e3ac417eb32e0ec708000000000000000", "925ddbdac4174e8321a48a32f79640e8cf7ec6f46ea235a80000000000000000", "" ],
            [ "141B8EBD9009F84C241879A1F680FACCED355DA36C498F73E96E880CF78EA5F96146380E41", "1029048755f2e60dd98c8de6d9989226b6bb4f0db8e46bd1939de560000000000000000000", "51bb7270b2e25cec0301a03e8275213bb6c2f6e6ec93d4d46d36ca0000000000000000000", "0x141B8EBD9009F84C241879A1F680FACCED355DA36C498F73E96E880CF78EA5F96146380E41 is 99999999977^8" ],
            [ "141B8EBD9009F84C241879A1F680FACCED355DA36C498F73E96E880CF78EA5F96146380E41", "1c5337ff982b3ad6611257dbff5bbd7a9920ba2d4f5838a0cc681ce000000000000000000", "520c5d049ca4702031ba728591b665c4d4ccd3b2b86864d4c160fd2000000000000000000", "" ],
            [ "141B8EBD9009F84C241879A1F680FACCED355DA36C498F73E96E880CF78EA5F96146380E41", "57074dfa00e42f6555bae624b7f0209f218adf57f73ed34ab0ff90c000000000000000000", "41eb14b6c07bfd3d1fe4f4a610c17cc44fcfcda695db040e011065000000000000000000", "" ],
            [ "141B8EBD9009F84C241879A1F680FACCED355DA36C498F73E96E880CF78EA5F96146380E41", "d8ed7feed2fe855e6997ad6397f776158573d425031bf085a615784000000000000000000", "6f121dcd18c578ab5e229881006007bb6d319b179f11015fe958b9c000000000000000000", "" ],
            [ "2A94608DE88B6D5E9F8920F5ABB06B24CC35AE1FBACC87D075C621C3E2833EC902713E40F51E3B3C214EDFABC451", "2a462b156180ea5fe550d3758c764e06fae54e626b5f503265a09df76edbdfbfa1e6000000000000000000000000", "1136f41d1879fd4fb9e49e0943a46b6704d77c068ee237c3121f9071cfd3e6a00315800000000000000000000000", "0x2A94608DE88B6D5E9F8920F5ABB06B24CC35AE1FBACC87D075C621C3E2833EC902713E40F51E3B3C214EDFABC451 is (dec) 99999999977^10" ],
            [ "2A94608DE88B6D5E9F8920F5ABB06B24CC35AE1FBACC87D075C621C3E2833EC902713E40F51E3B3C214EDFABC451", "c1ac3800dfb3c6954dea391d206200cf3c47f795bf4a5603b4cb88ae7e574de4740800000000000000000000000", "c0d16eda0549ede42fa0deb4635f7b7ce061fadea02ee4d85cba4c4f7096034193c800000000000000000000000", "" ],
            [ "2A94608DE88B6D5E9F8920F5ABB06B24CC35AE1FBACC87D075C621C3E2833EC902713E40F51E3B3C214EDFABC451", "19e45bb7633094d272588ad2e43bcb3ee341991c6731b6fa9d47c4018d7ce7bba5ee800000000000000000000000", "1e4f83166ae59f6b9cc8fd3e7677ed8bfc01bb99c98bd3eb084246b64c1e18c3365b800000000000000000000000", "" ],
            [ "2A94608DE88B6D5E9F8920F5ABB06B24CC35AE1FBACC87D075C621C3E2833EC902713E40F51E3B3C214EDFABC451", "1aa93395fad5f9b7f20b8f9028a054c0bb7c11bb8520e6a95e5a34f06cb70bcdd01a800000000000000000000000", "54b45afa5d4310192f8d224634242dd7dcfb342318df3d9bd37b4c614788ba13b8b000000000000000000000000", "" ],
            [ "8335616AED761F1F7F44E6BD49E807B82E3BF2BF11BFA6AF813C808DBF33DBFA11DABD6E6144BEF37C6800000000000000000000000000000000051", "544f2628a28cfb5ce0a1b7180ee66b49716f1d9476c466c57f0c4b2308991784306d48f78686115ee19e25400000000000000000000000000000000", "677eb31ef8d66c120fa872a60cd47f6e10cbfdf94f90501bd7883cba03d185be0a0148d1625745e9c4c827300000000000000000000000000000000", "0x8335616AED761F1F7F44E6BD49E807B82E3BF2BF11BFA6AF813C808DBF33DBFA11DABD6E6144BEF37C6800000000000000000000000000000000051 is prime, (dec) 10^143 + 3^4" ],
            [ "8335616AED761F1F7F44E6BD49E807B82E3BF2BF11BFA6AF813C808DBF33DBFA11DABD6E6144BEF37C6800000000000000000000000000000000051", "76bb3470985174915e9993522aec989666908f9e8cf5cb9f037bf4aee33d8865cb6464174795d07e30015b80000000000000000000000000000000", "6aaaf60d5784dcef612d133613b179a317532ecca0eed40b8ad0c01e6d4a6d8c79a52af190abd51739009a900000000000000000000000000000000", "" ],
            [ "8335616AED761F1F7F44E6BD49E807B82E3BF2BF11BFA6AF813C808DBF33DBFA11DABD6E6144BEF37C6800000000000000000000000000000000051", "6cfdd6e60912e441d2d1fc88f421b533f0103a5322ccd3f4db84861643ad63fd63d1d8cfbc1d498162786ba00000000000000000000000000000000", "1177246ec5e93814816465e7f8f248b350d954439d35b2b5d75d917218e7fd5fb4c2f6d0667f9467fdcf33400000000000000000000000000000000", "" ],
            [ "8335616AED761F1F7F44E6BD49E807B82E3BF2BF11BFA6AF813C808DBF33DBFA11DABD6E6144BEF37C6800000000000000000000000000000000051", "7a09a0b0f8bbf8057116fb0277a9bdf3a91b5eaa8830d448081510d8973888be5a9f0ad04facb69aa3715f00000000000000000000000000000000", "764dec6c05a1c0d87b649efa5fd94c91ea28bffb4725d4ab4b33f1a3e8e3b314d799020e244a835a145ec9800000000000000000000000000000000", "" ],
        );

        my %described = ();

        for my $g (@generate) {
            my ($nh, $ah, $bh, $info) = @$g;
            my $a = Math::BigInt->from_hex($ah);
            my $b = Math::BigInt->from_hex($bh);
            my $n = Math::BigInt->from_hex($nh);

            my $ln4 = mpi4s($n);
            my $la4 = mpi4s($a);
            my $lb4 = mpi4s($b);

            my $ln8 = mpi8s($n);
            my $la8 = mpi8s($a);
            my $lb8 = mpi8s($b);

            my $r4 = bound_mpi4($n->copy());
            my $i4 = $r4->copy()->bmodinv($n);
            my $x4 = $a * $b * $i4;
            $x4->bmod($n);
            my $xh4 = Math::BigInt->new($x4)->to_hex();

            my $r8 = bound_mpi8($n->copy());
            my $i8 = $r8->copy()->bmodinv($n);
            my $x8 = $a * $b * $i8;
            $x8->bmod($n);
            my $xh8 = Math::BigInt->new($x8)->to_hex();

            die("") if $la4 > $ln4 || $la8 > $ln8;

            my $desc = "$test_name #NUMBER (gen)";
            if ($ln4 > 1) {
                if (!$described{"2-MPI4"}) {
                    $desc .= " (start of 2-MPI 4-byte bignums)";
                    $described{"2-MPI4"} = 1;
                }
            }
            if ($ln8 > 1) {
                if (!$described{"2-MPI8"}) {
                    $desc .= " (start of 2-MPI 8-byte bignums)";
                    $described{"2-MPI8"} = 1;
                }
            }
            if (length($info) && !$described{$info}) {
                $desc .= " " . $info;
                $described{$info} = 1;
            }
            my $case = output($test_name, $ln4, $lb4, $ln8, $lb8, str($ah), str($bh), str($nh), str($xh4), str($xh8));

            #push(@cases, [$case, $desc, "MBEDTLS_HAVE_INT64"]);    -- now doing it differently
            push(@cases, [$case, $desc]);
        }

        output_cases("", @cases);
    }

    sub output_cases {

        my ($explain, @cases) = @_;

        my $count = 1;
        for my $c (@cases) {

            my ($case, $desc, $dep) = @$c;
            $desc =~ s/NUMBER/$count/; $count++;
            if (defined($explain) && $desc =~ /EXPLAIN/) {
                $desc =~ s/EXPLAIN/$explain/;
                $explain = "";
            }

            my $depends = "";
            $depends = "depends_on:$dep\n" if defined($dep) && length($dep);

            print <<EOF;

    $desc
    $depends$case
    EOF
        }
    }

    # The first number (a power of 2) that won't fit in the number of MPIs
    # needed for the given number
    sub bound_mpi4 {
        my $one = Math::BigInt->new(1);     # blsft modifies caller
        return $one->blsft(bits_mpi4($_[0]));
    }

    sub bound_mpi8 {
        my $one = Math::BigInt->new(1);     # blsft modifies caller
        return $one->blsft(bits_mpi8($_[0]));
    }

    # How many bits (a multiple of 32) needed to store the specified number
    # when using 4-byte MPIs
    sub bits_mpi4 {
        return 32 * mpi4s($_[0]);
    }

    # How many bits (a multiple of 64) needed to store the specified number
    # when using 8-byte MPIs
    sub bits_mpi8 {
        return 64 * mpi8s($_[0]);
    }

    # How many 4-byte MPIs needed to store the specified number
    sub mpi4s {
        my ($n) = @_;
        my $h = $n->to_hex();
        return int((length($h) + 7) / 8);
    }

    # How many 8-byte MPIs needed to store the specified number
    sub mpi8s {
        my ($n) = @_;
        my $h = $n->to_hex();
        return int((length($h) + 15) / 16);
    }

    sub output {
        #run_test(@_);

        return join(":", @_);
    }

    sub str {
        return '"' . $_[0] . '"';
    }
```

The data for the generated test cases (@generate) for mpi-test-core-montmul.pl
was created by

```
    #!/usr/bin/env perl
    #
    # mpi-modmul-gen.pl - randomly generate test cases for mpi-test-core-montmul.pl
    #
    use strict;
    use warnings;
    use Math::BigInt;
    use sort 'stable';

    my %seen = ();

    my @primes = (
        "3",
        "7",
        "B",
        "29",
        "101",
        "38B",
        "8003",
        "10001",
        "800009",
        "100002B",
        "37EEE9D",
        "8000000B",
        "8CD626B9",
        # From here they require > 1 4-byte MPI
        "10000000F",
        "174876E7E9",
        "8000000017",
        "864CB9076D",
        "1000000000F",
        "800000000005",
        "800795D9BA47",
        "1000000000015",
        "100000000000051",
        # From here they require > 1 8-byte MPI
        "25A55A46E5DA99C71C7",      # this is 11111111111111111111111 decimal
        # 10^143 + 3^4: (which is prime)
        # 100000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000081
        "8335616AED761F1F7F44E6BD49E807B82E3BF2BF11BFA6AF813C808DBF33DBFA11DABD6E6144BEF37C6800000000000000000000000000000000051",
    );
    my %prime = map { $_ => 1 } @primes;

    my @moduli = (
        [ "3", "" ],
        [ "7", "" ],
        [ "B", "" ],
        [ "29", "" ],
        [ "FF", "" ],
        [ "101", "" ],
        [ "38B", "" ],
        [ "8003", "" ],
        [ "10001", "" ],
        [ "7F7F7", "" ],
        [ "800009", "" ],
        [ "100002B", "" ],
        [ "37EEE9D", "" ],
        [ "8000000B", "" ],
        [ "8CD626B9", "" ],
        [ "10000000F", "" ],
        [ "174876E7E9", "0x174876E7E9 is prime (dec) 99999999977" ],
        [ "8000000017", "" ],
        [ "864CB9076D", "" ],
        [ "F7F7F7F7F7", "" ],
        [ "1000000000F", "" ],
        [ "800000000005", "" ],
        [ "800795D9BA47", "" ],
        [ "1000000000015", "" ],
        [ "100000000000051", "" ],
        [ "ABCDEF0123456789", "" ],
        [ "25A55A46E5DA99C71C7", "0x25A55A46E5DA99C71C7 is the 3rd repunit prime (dec) 11111111111111111111111" ],
        [ "314DC643FB763F2B8C0E2DE00879", "0x314DC643FB763F2B8C0E2DE00879 is (dec)99999999977^3" ],
        [ "47BF19662275FA2F6845C74942ED1D852E521", "0x47BF19662275FA2F6845C74942ED1D852E521 is (dec) 99999999977^4" ],
        [ "97EDD86E4B5C4592C6D32064AC55C888A7245F07CA3CC455E07C931", "0x97EDD86E4B5C4592C6D32064AC55C888A7245F07CA3CC455E07C931 is (dec) 99999999977^6" ],
        [ "DD15FE80B731872AC104DB37832F7E75A244AA2631BC87885B861E8F20375499", "0xDD15FE80B731872AC104DB37832F7E75A244AA2631BC87885B861E8F20375499 is (dec) 99999999977^7" ],
        [ "141B8EBD9009F84C241879A1F680FACCED355DA36C498F73E96E880CF78EA5F96146380E41", "0x141B8EBD9009F84C241879A1F680FACCED355DA36C498F73E96E880CF78EA5F96146380E41 is 99999999977^8" ],
        [ "2A94608DE88B6D5E9F8920F5ABB06B24CC35AE1FBACC87D075C621C3E2833EC902713E40F51E3B3C214EDFABC451", "0x2A94608DE88B6D5E9F8920F5ABB06B24CC35AE1FBACC87D075C621C3E2833EC902713E40F51E3B3C214EDFABC451 is (dec) 99999999977^10" ],
        [ "8335616AED761F1F7F44E6BD49E807B82E3BF2BF11BFA6AF813C808DBF33DBFA11DABD6E6144BEF37C6800000000000000000000000000000000051", "0x8335616AED761F1F7F44E6BD49E807B82E3BF2BF11BFA6AF813C808DBF33DBFA11DABD6E6144BEF37C6800000000000000000000000000000000051 is prime, (dec) 10^143 + 3^4" ], # 100000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000081
    );

    #99999999977^2:
    #ibase=16 ; obase=10 ; 174876E7E9*174876E7E9
    #99999999977^3:
    #ibase=16 ; obase=10 ; 174876E7E9*174876E7E9*174876E7E9
    #99999999977^2: 21E19E0C58BACE25211
    #99999999977^3: 314DC643FB763F2B8C0E2DE00879
    #99999999977^4: 47BF19662275FA2F6845C74942ED1D852E521
    #99999999977^5: 6867A5A664437D20ED7941408583AADA2193CE95695209
    #99999999977^6: 97EDD86E4B5C4592C6D32064AC55C888A7245F07CA3CC455E07C931
    #99999999977^7: DD15FE80B731872AC104DB37832F7E75A244AA2631BC87885B861E8F20375499
    #99999999977^8: 141B8EBD9009F84C241879A1F680FACCED355DA36C498F73E96E880CF78EA5F96146380E41
    #99999999977^9: 1D42AEA1837AA78C6339224E9B39A483E4AAAF12CE7752E1EA1681082CBC8AB056A36B6299557D7A029
    #99999999977^10: 2A94608DE88B6D5E9F8920F5ABB06B24CC35AE1FBACC87D075C621C3E2833EC902713E40F51E3B3C214EDFABC451

    my %mentioned = ();

    for my $mod (@moduli) {
        my ($nh, $info) = @$mod;
        my $n = Math::BigInt->from_hex($nh);

        my $xxx = $n->to_hex();
        die("$xxx != $nh") unless lc($xxx) eq lc($nh);

        my $cases = ($n < 5) ? 3 : 4;
        for (my $case = 0; $case < $cases; $case++) {
            my ($a, $b);
            for ($a = 0; $a == 0; ) {
                $a = int(rand($n));
            }
            for ($b = 0; $b == 0; ) {
                $b = int(rand($n));
            }

            my $cstr = "$a|$b|$n";
            if (exists($seen{$cstr})) {     # don't repeat ourselves
                $case--;
                next;
            }

            $seen{$cstr} = 1;

            my $ah = Math::BigInt->new($a)->to_hex();
            my $bh = Math::BigInt->new($b)->to_hex();

            my $desc = "";
            if (length($info)) {
                $desc = $info if !$mentioned{$info};
                $mentioned{$info} = 1;
            } elsif (length($nh) > 1 && $prime{$nh} && !$mentioned{$nh}) {
                $desc = "(0x$nh is prime)";
                $mentioned{$nh} = 1;
            }

            print <<EOF;
            [ "$nh", "$ah", "$bh", "$desc" ],
    EOF
        }
    }
```

Signed-off-by: Tom Cosgrove <tom.cosgrove@arm.com>
2022-08-23 16:29:00 +01:00
Tom Cosgrove
79b70f6394 Make a public version of mpi_montg_init() in bignum_new.c and add unit tests
The unit tests were created by capturing runs of the existing function during
execution of existing unit tests.

Signed-off-by: Tom Cosgrove <tom.cosgrove@arm.com>
2022-08-23 16:28:32 +01:00
Tom Cosgrove
90c426b932 Tidy up, removing MPI_CORE(), and using the new mbedtls_mpi_core_mla()
Signed-off-by: Tom Cosgrove <tom.cosgrove@arm.com>
2022-08-23 16:15:19 +01:00
Hanno Becker
71f4b0dda6 Add bignum_new.c starting with MPI_CORE(montmul) for Montgomery multiplication
Signed-off-by: Tom Cosgrove <tom.cosgrove@arm.com>
2022-08-23 12:09:35 +01:00
Tom Cosgrove
82d3f1e824 Remove bignum_internal.h, moving contents to bignum_core.h
Signed-off-by: Tom Cosgrove <tom.cosgrove@arm.com>
2022-08-23 12:01:39 +01:00
Janos Follath
2e328c8591 Remove confusing const qualifier
Since a is not a pointer, it is passed by value and declaring it const
doesn’t make any sense and on the first read can make me miss the fact
that a is not a pointer.

Signed-off-by: Janos Follath <janos.follath@arm.com>
2022-08-22 11:19:10 +01:00
Janos Follath
c459641ad1 Bignum: add missing limb qualifiers
Signed-off-by: Janos Follath <janos.follath@arm.com>
2022-08-22 10:04:52 +01:00
Janos Follath
af3f39c01c Fix typos
Co-authored-by: Tom Cosgrove <81633263+tom-cosgrove-arm@users.noreply.github.com>
Co-authored-by: Werner Lewis <Werner.Lewis@arm.com>

Signed-off-by: Janos Follath <janos.follath@arm.com>
2022-08-22 09:08:04 +01:00
Janos Follath
a95f204cd3 Improve documentation
Co-authored-by: Tom Cosgrove <81633263+tom-cosgrove-arm@users.noreply.github.com>
Co-authored-by: Werner Lewis <werner.wmlewis@gmail.com>
Co-authored-by: Minos Galanakis <minos.galanakis@arm.com>

Signed-off-by: Janos Follath <janos.follath@arm.com>
2022-08-19 13:11:22 +01:00
Janos Follath
ca5688e10c Improve coding style
Co-authored-by: Tom Cosgrove <81633263+tom-cosgrove-arm@users.noreply.github.com>
Co-authored-by: Werner Lewis <werner.wmlewis@gmail.com>

Signed-off-by: Janos Follath <janos.follath@arm.com>
2022-08-19 13:11:22 +01:00
Janos Follath
b7a88eca42 Bignum: Apply naming conventions
Numbers:

- A, B for mbedtls_mpi_uint* operands
- a, b for mbedtls_mpi_uint operands
- X or x for result
- HAC references where applicable

Lengths:

- Reserve size or length for length/size in bytes or byte buffers.
- For length of mbedtls_mpi_uint* buffers use limbs
- Length parameters are qualified if possible (eg. input_length or
  a_limbs)

Setup functions:

- The parameters match the corresponding structure member's name
- The structure to set up is a standard lower case name even if in other
  functions different naming conventions would apply

Scope of changes/conventions:

- bignum_core
- bignum_mod
- bignum_mod_raw

Signed-off-by: Janos Follath <janos.follath@arm.com>
2022-08-19 13:11:22 +01:00
Janos Follath
6b8a4ad0d8 Bignum: update const qualifiers
While at it, mark parameters based on their role.

Signed-off-by: Janos Follath <janos.follath@arm.com>
2022-08-19 13:11:22 +01:00
Gabor Mezei
c414ba3fc0
Simplify code
Signed-off-by: Gabor Mezei <gabor.mezei@arm.com>
2022-08-12 17:59:53 +02:00
Janos Follath
6318468183 Improve bignum documentation
Signed-off-by: Janos Follath <janos.follath@arm.com>
2022-08-11 17:42:59 +01:00
Janos Follath
d0895708e2 Bignum: move internal constants to headers
Now that the check_names script allows it, we can do so.

Signed-off-by: Janos Follath <janos.follath@arm.com>
2022-08-10 13:32:16 +01:00
Janos Follath
dae1147596 Improve Bignum documentation
Signed-off-by: Janos Follath <janos.follath@arm.com>
2022-08-08 11:50:02 +01:00
Janos Follath
8ff0729dd7 Fix typos in Bignum documentation
Signed-off-by: Janos Follath <janos.follath@arm.com>
2022-08-08 08:39:52 +01:00
Gabor Mezei
6666914b76 Revert "Move Bignum macros to common header"
This reverts commit 62c5901f0a5061a8825e19c77f88c91fea235078.

Reverting commit due the macros are meant to be local and not following the
naming convention.

Signed-off-by: Gabor Mezei <gabor.mezei@arm.com>
2022-08-05 17:10:51 +01:00
Gabor Mezei
37b06360b3 Add documentation for new bignum functions
Signed-off-by: Gabor Mezei <gabor.mezei@arm.com>
2022-08-05 17:10:51 +01:00
Janos Follath
4670f88991 Reuse Bignum helper functions
Signed-off-by: Janos Follath <janos.follath@arm.com>
2022-08-05 17:08:52 +01:00
Janos Follath
4614b9ad1b Move Bignum macros to common header
Signed-off-by: Janos Follath <janos.follath@arm.com>
2022-08-05 17:08:52 +01:00
Gabor Mezei
b903070cec Add a set of I/O functions
Signed-off-by: Gabor Mezei <gabor.mezei@arm.com>
2022-08-05 17:03:56 +01:00