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Author SHA1 Message Date
Gilles Peskine
449bd8303e Switch to the new code style 
Signed-off-by: Gilles Peskine <Gilles.Peskine@arm.com>
 2023-01-11 14:50:10 +01:00
Glenn Strauss
14db51224e Fix IAR warning 
Signed-off-by: Dave Rodgman <dave.rodgman@arm.com>
 2023-01-06 14:20:14 +00:00
Manuel Pégourié-Gonnard
5bf8629b2c
Merge pull request #6303 from gilles-peskine-arm/bignum-core-random 
Bignum: Implement mbedtls_mpi_core_random
 2022-12-16 09:58:07 +01:00
Gilles Peskine
6b7ce968d2 Clarify some comments 
Signed-off-by: Gilles Peskine <Gilles.Peskine@arm.com>
 2022-12-15 15:04:33 +01:00
Dave Rodgman
acbb6dc364 Merge remote-tracking branch 'origin/development' into merge-dev 2022-12-05 10:59:23 +00:00
Gilles Peskine
70375b2028 Move mbedtls_mpi_core_random to the proper source file 
Signed-off-by: Gilles Peskine <Gilles.Peskine@arm.com>
 2022-12-01 23:46:26 +01:00
Gilles Peskine
78cf3bbf22 Bignum core: break mbedtls_mpi_core_random out of mbedtls_mpi_random 
Signed-off-by: Gilles Peskine <Gilles.Peskine@arm.com>
 2022-12-01 23:45:45 +01:00
Gilles Peskine
26be89b3f6 Bignum core: random: prepare to break out the core function 
Shuffle things around a bit inside mbedtls_mpi_random() in preparation for
breaking out mbedtls_mpi_core_random().

Signed-off-by: Gilles Peskine <Gilles.Peskine@arm.com>
 2022-12-01 23:06:43 +01:00
Gilles Peskine
8a32a75aa2 mbedtls_mpi_random: avoid local allocation 
Rewrite the minimum bound comparison to avoid a local allocation. This costs
a bit of code size, but saves RAM. This is in preparation for moving the
bulk of the function to the bignum_core module where allocation is not
permitted.

Signed-off-by: Gilles Peskine <Gilles.Peskine@arm.com>
 2022-12-01 23:06:43 +01:00
Manuel Pégourié-Gonnard
660b396e41
Merge pull request #975 from yanesca/issue-946 
Fix RSA side channel
 2022-11-23 10:30:35 +01:00
Janos Follath
3165f063b5 mpi_exp_mod: use x_index consistently 
Signed-off-by: Janos Follath <janos.follath@arm.com>
 2022-11-22 15:04:11 +00:00
Janos Follath
c8d66d50d0 mpi_exp_mod: reduce the table size by one 
The first half of the table is not used, let's reuse index 0 for the
result instead of appending it in the end.

Signed-off-by: Janos Follath <janos.follath@arm.com>
 2022-11-22 15:04:11 +00:00
Janos Follath
060009518b mpi_exp_mod: fix out of bounds access 
The table size was set before the configured window size bound was
applied which lead to out of bounds access when the configured window
size bound is less.

Signed-off-by: Janos Follath <janos.follath@arm.com>
 2022-11-22 15:04:11 +00:00
Janos Follath
9c09326572 mpi_mod_exp: be pedantic about right shift 
The window size starts giving diminishing returns around 6 on most
platforms and highly unlikely to be more than 31 in practical use cases.
Still, compilers and static analysers might complain about this and
better to be pedantic.

Co-authored-by: Gilles Peskine <gilles.peskine@arm.com>
Signed-off-by: Janos Follath <janos.follath@arm.com>
 2022-11-22 15:04:11 +00:00
Janos Follath
be54ca77e2 mpi_exp_mod: improve documentation 
Signed-off-by: Janos Follath <janos.follath@arm.com>
 2022-11-22 15:04:10 +00:00
Janos Follath
74601209fa mpi_exp_mod: remove the 'one' variable 
Signed-off-by: Janos Follath <janos.follath@arm.com>
 2022-11-22 15:04:10 +00:00
Janos Follath
b2c2fca974 mpi_exp_mod: simplify freeing loop 
Signed-off-by: Janos Follath <janos.follath@arm.com>
 2022-11-22 15:04:10 +00:00
Janos Follath
3646ff02ad mpi_exp_mod: move X next to the precomputed values 
With small exponents (for example, when doing RSA-1024 with CRT, each
prime is 512 bits and we'll use wsize = 5 which may be smaller that the
maximum - or even worse when doing public RSA operations which typically
have a 16-bit exponent so we'll use wsize = 1) the usage of W will have
pre-computed values, then empty space, then the accumulator at the very
end.

Move X next to the precomputed values to make accesses more efficient
and intuitive.

Signed-off-by: Janos Follath <janos.follath@arm.com>
 2022-11-22 15:04:10 +00:00
Janos Follath
7fa11b88f3 mpi_exp_mod: rename local variables 
Signed-off-by: Janos Follath <janos.follath@arm.com>
 2022-11-22 15:04:10 +00:00
Janos Follath
844614814e mpi_exp_mod: remove memory ownership confusion 
Elements of W didn't all have the same owner: all were owned by this
function, except W[x_index]. It is more robust if we make a proper copy
of X.

Signed-off-by: Janos Follath <janos.follath@arm.com>
 2022-11-22 15:04:10 +00:00
Janos Follath
f08b40eaab mpi_exp_mod: improve documentation 
Signed-off-by: Janos Follath <janos.follath@arm.com>
 2022-11-22 15:04:10 +00:00
Janos Follath
b764ee1603 mpi_exp_mod: protect out of window zeroes 
Out of window zeroes were doing squaring on the output variable
directly. This leaks the position of windows and the out of window
zeroes.

Loading the output variable from the table in constant time removes this
leakage.

Signed-off-by: Janos Follath <janos.follath@arm.com>
 2022-11-22 15:04:10 +00:00
Janos Follath
8e7d6a0386 mpi_exp_mod: load the output variable to the table 
This is done in preparation for constant time loading that will be added
in a later commit.

Signed-off-by: Janos Follath <janos.follath@arm.com>
 2022-11-22 15:04:10 +00:00
Tom Cosgrove
452c99c173 Use mbedtls_mpi_core_sub_int() in mbedtls_mpi_sub_abs() 
Signed-off-by: Tom Cosgrove <tom.cosgrove@arm.com>
 2022-11-22 14:58:15 +00:00
Gilles Peskine
339406daf9
Merge pull request #6609 from gilles-peskine-arm/mpi_sint-min-ub 
Fix undefined behavior in bignum: NULL+0 and -most-negative-sint
 2022-11-21 19:51:58 +01:00
Gilles Peskine
ef7f4e47b1 Express abs(z) in a way that satisfies GCC and MSVC 
Signed-off-by: Gilles Peskine <Gilles.Peskine@arm.com>
 2022-11-15 23:25:27 +01:00
Gilles Peskine
af601f9751 Fix undefined behavior with the most negative mbedtls_mpi_sint 
When x is the most negative value of a two's complement type,
`(unsigned_type)(-x)` has undefined behavior, whereas `-(unsigned_type)x`
has well-defined behavior and does what was intended.

Signed-off-by: Gilles Peskine <Gilles.Peskine@arm.com>
 2022-11-15 23:02:14 +01:00
Gilles Peskine
db14a9d180 Fix NULL+0 in addition 0 + 0 
Fix undefined behavior (typically harmless in practice) of
mbedtls_mpi_add_mpi(), mbedtls_mpi_add_abs() and mbedtls_mpi_add_int() when
both operands are 0 and the left operand is represented with 0 limbs.

Signed-off-by: Gilles Peskine <Gilles.Peskine@arm.com>
 2022-11-15 23:00:21 +01:00
Gilles Peskine
4a768dd17d Fix negative zero created by (-A) + (+A) or (-A) - (-A) 
In mbedtls_mpi_add_mpi() and mbedtls_mpi_sub_mpi(), and by extention
mbedtls_mpi_add_int() and mbedtls_mpi_sub_int(), when the resulting value
was zero, the sign bit of the result was incorrectly set to -1 when the
left-hand operand was negative. This is not a valid mbedtls_mpi
representation. Fix this: always set the sign to +1 when the result is 0.

Signed-off-by: Gilles Peskine <Gilles.Peskine@arm.com>
 2022-11-15 20:36:18 +01:00
Gilles Peskine
72ee1e3f3c Unify mbedtls_mpi_add_mpi and mbedtls_mpi_sub_mpi 
mbedtls_mpi_add_mpi() and mbedtls_mpi_sub_mpi() have the same logic, just
with one bit to flip in the sign calculation. Move the shared logic to a new
auxiliary function. This slightly reduces the code size (if the compiler
doesn't inline) and reduces the maintenance burden.

Signed-off-by: Gilles Peskine <Gilles.Peskine@arm.com>
 2022-11-15 20:30:09 +01:00
Gilles Peskine
22cdd0ccd3 Update some internal comments 
The refactoring of fill_random had left some obsolete bits in comments.

Signed-off-by: Gilles Peskine <Gilles.Peskine@arm.com>
 2022-11-02 16:00:01 +01:00
Gilles Peskine
009d195a56 Move mbedtls_mpi_core_fill_random to the proper .c file 
Signed-off-by: Gilles Peskine <Gilles.Peskine@arm.com>
 2022-11-02 16:00:01 +01:00
Gilles Peskine
5980f2bd36 Implement mbedtls_mpi_core_fill_random 
Turn mpi_fill_random_internal() into mbedtls_mpi_core_fill_random(). It
had basically the right code except for how X is passed to the function.

Write unit tests.

Signed-off-by: Gilles Peskine <Gilles.Peskine@arm.com>
 2022-11-02 15:59:36 +01:00
Tom Cosgrove
6469fdfb0a Fix whitespace issue spotted in review 
Signed-off-by: Tom Cosgrove <tom.cosgrove@arm.com>
 2022-10-25 16:29:58 +01:00
Tom Cosgrove
af7d44b4d2 Tidy up, remove MPI_CORE(), apply the naming convention, and use the new mbedtls_mpi_core_add() 
Signed-off-by: Tom Cosgrove <tom.cosgrove@arm.com>
 2022-10-25 16:29:58 +01:00
Gilles Peskine
c279b2fa4a Move mbedtls_mpi_core_shift_r to the proper source file 
Signed-off-by: Gilles Peskine <Gilles.Peskine@arm.com>
 2022-10-20 11:40:15 +02:00
Gilles Peskine
6641420951 Bignum core: Break shift_r function out of the classic shift_r 
This commit contains the function prototype for mbedtls_mpi_core_shift_r,
and the implementation minimally modified from mbedtls_mpi_shift_r.

Signed-off-by: Gilles Peskine <Gilles.Peskine@arm.com>
 2022-10-20 11:40:15 +02:00
Gilles Peskine
0fe6631486
Merge pull request #6291 from gilles-peskine-arm/platform.h-unconditional-3.2 
Include platform.h unconditionally
 2022-10-13 10:19:22 +02:00
Gilles Peskine
945b23c46f Include platform.h unconditionally: automatic part 
We used to include platform.h only when MBEDTLS_PLATFORM_C was enabled, and
to define ad hoc replacements for mbedtls_xxx functions on a case-by-case
basis when MBEDTLS_PLATFORM_C was disabled. The only reason for this
complication was to allow building individual source modules without copying
platform.h. This is not something we support or recommend anymore, so get
rid of the complication: include platform.h unconditionally.

There should be no change in behavior since just including the header should
not change the behavior of a program.

This commit replaces most occurrences of conditional inclusion of
platform.h, using the following code:

```
perl -i -0777 -pe 's!#if.*\n#include "mbedtls/platform.h"\n(#else.*\n(#define (mbedtls|MBEDTLS)_.*\n|#include <(stdarg|stddef|stdio|stdlib|string|time)\.h>\n)*)?#endif.*!#include "mbedtls/platform.h"!mg' $(git grep -l '#include "mbedtls/platform.h"')
```

Signed-off-by: Gilles Peskine <Gilles.Peskine@arm.com>
 2022-09-15 20:33:07 +02:00
Tom Cosgrove
b7438d1f62 Update name of mbedtls_mpi_montg_init() 
Signed-off-by: Tom Cosgrove <tom.cosgrove@arm.com>
 2022-09-15 15:05:59 +01:00
Tom Cosgrove
5dd97e60d5 Update comments following code review 
Signed-off-by: Tom Cosgrove <tom.cosgrove@arm.com>
 2022-08-30 14:31:49 +01:00
Tom Cosgrove
b2c06f4acf Remove stale comment, and fix whitespace issue 
Signed-off-by: Tom Cosgrove <tom.cosgrove@arm.com>
 2022-08-24 17:45:58 +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
f88b47ea27 Remove 'const' qualifier from temporary for mpi_montmul() 
Signed-off-by: Tom Cosgrove <tom.cosgrove@arm.com>
 2022-08-23 16:31:42 +01:00
Tom Cosgrove
40d229487d Tidy up doc comments on existing function mpi_montmul() 
Signed-off-by: Tom Cosgrove <tom.cosgrove@arm.com>
 2022-08-23 16:30:27 +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
7e655f7b4c Use new mbedtls_mpi_core_sub() instead of old static mpi_sub_hlp() 
Signed-off-by: Tom Cosgrove <tom.cosgrove@arm.com>
 2022-08-23 16:15:44 +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