/* * Copyright (c) 2014 Dag-Erling Smørgrav * All rights reserved. * * Redistribution and use in source and binary forms, with or without * modification, are permitted provided that the following conditions * are met: * 1. Redistributions of source code must retain the above copyright * notice, this list of conditions and the following disclaimer. * 2. Redistributions in binary form must reproduce the above copyright * notice, this list of conditions and the following disclaimer in the * documentation and/or other materials provided with the distribution. * 3. The name of the author may not be used to endorse or promote * products derived from this software without specific prior written * permission. * * THIS SOFTWARE IS PROVIDED BY THE AUTHOR AND CONTRIBUTORS ``AS IS'' AND * ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE * IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE * ARE DISCLAIMED. IN NO EVENT SHALL THE AUTHOR OR CONTRIBUTORS BE LIABLE * FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL * DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS * OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) * HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT * LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY * OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF * SUCH DAMAGE. */ #include "cryb/impl.h" #include #include #include #include #include #include "t.h" /*************************************************************************** * Useful constants */ static const cryb_mpi z; #define SMALL_V_SIZE (size_t)64 #define SMALL_E_SIZE (size_t)16 static uint8_t small_v[SMALL_V_SIZE]; static uint32_t small_e[SMALL_E_SIZE]; #define LARGE_V_SIZE (size_t)256 #define LARGE_E_SIZE (size_t)64 static uint8_t large_v[LARGE_V_SIZE]; static uint32_t large_e[LARGE_E_SIZE]; /*************************************************************************** * Commonly used predicates */ /* * Verify that an MPI has never grown. */ static int t_mpi_not_grown(cryb_mpi *x) { int ret = 1; ret &= t_compare_ptr(x->swords, x->words); ret &= t_compare_sz(CRYB_MPI_SWORDS, x->size); return (ret); } /* * Verify that an MPI has grown. */ static int t_mpi_grown(cryb_mpi *x) { int ret = 1; /* XXX we need inequality predicates */ if (x->words == x->swords) { t_verbose("value was expected to change"); ret &= 0; } if (x->size == CRYB_MPI_SWORDS) { t_verbose("value was expected to change"); ret &= 0; } return (ret); } /* * Verify that an MPI is zero. */ static int t_mpi_is_zero(cryb_mpi *x) { int ret = 1; ret &= t_mpi_not_grown(x); ret &= t_compare_mem(t_zero, x->words, CRYB_MPI_SWORDS); ret &= t_compare_u(0, x->msb); ret &= t_compare_i(0, x->neg); return (ret); } /* * Verify that an MPI has the expected value */ static int t_compare_mpi(cryb_mpi *e, cryb_mpi *x) { int ret = 1; if (e == x) return (1); if (e == NULL || x == NULL) return (0); ret &= t_compare_u(e->msb, x->msb); ret &= t_compare_i(e->neg, x->neg); ret &= t_compare_mem(e->words, x->words, (e->msb + 7) / 8); return (ret); } /*************************************************************************** * Miscellaneous cases */ /* * Test MPI initialization. */ static int t_mpi_init(char **desc CRYB_UNUSED, void *arg CRYB_UNUSED) { cryb_mpi x; memset(&x, 0xff, sizeof x); mpi_init(&x); return (t_mpi_is_zero(&x)); } /* * Very basic value-setting test, zero. More complex cases below. */ static int t_mpi_set_zero(char **desc CRYB_UNUSED, void *arg CRYB_UNUSED) { cryb_mpi x; mpi_init(&x); mpi_set(&x, 0); return (t_mpi_is_zero(&x)); } /* * As above, but use the "fast init" logic whereby an all-zeroes MPI is * automatically converted to a valid MPI representing the value zero. */ static int t_mpi_fast_init(char **desc CRYB_UNUSED, void *arg CRYB_UNUSED) { cryb_mpi x = CRYB_MPI_ZERO; mpi_set(&x, 0); return (t_mpi_is_zero(&x)); } /* * Test successful MPI growth. */ static int t_mpi_grow_ok(char **desc CRYB_UNUSED, void *arg CRYB_UNUSED) { cryb_mpi x = CRYB_MPI_ZERO; int ret = 1; mpi_set(&x, 1); assert(x.words[0] == 1 && x.msb == 1); ret &= t_compare_i(0, mpi_grow(&x, CRYB_MPI_SWORDS * 32 + 1)); assert(x.words[0] == 1 && x.msb == 1); ret &= t_mpi_grown(&x); mpi_destroy(&x); return (ret); } /* * Test failed MPI growth. */ static int t_mpi_grow_fail(char **desc CRYB_UNUSED, void *arg CRYB_UNUSED) { cryb_mpi x = CRYB_MPI_ZERO; int ret = 1; ++t_malloc_fail; ret &= t_compare_i(-1, mpi_grow(&x, CRYB_MPI_SWORDS * 32 + 1)); --t_malloc_fail; ret &= t_mpi_not_grown(&x); mpi_destroy(&x); return (ret); } /* * Double successful MPI growth. */ static int t_mpi_grow_twice(char **desc CRYB_UNUSED, void *arg CRYB_UNUSED) { cryb_mpi x = CRYB_MPI_ZERO; uint32_t *p; int ret = 1; ret &= t_compare_i(0, mpi_grow(&x, CRYB_MPI_SWORDS * 32 + 1)); ret &= t_mpi_grown(&x); p = x.words; ret &= t_compare_i(0, mpi_grow(&x, CRYB_MPI_SWORDS * 32 * 2 + 1)); /* XXX we need inequality predicates */ if (x.words == p) { t_verbose("pointer was expected to change\n"); ret &= 0; } ret &= t_mpi_grown(&x); mpi_destroy(&x); return (ret); } /* * Test the destruction logic with an uninitialized MPI */ static int t_mpi_destroy_uninit(char **desc CRYB_UNUSED, void *arg CRYB_UNUSED) { cryb_mpi x = CRYB_MPI_ZERO; mpi_destroy(&x); return (t_mpi_is_zero(&x)); } /* * Test the destruction logic with an MPI that hasn't grown */ static int t_mpi_destroy_static(char **desc CRYB_UNUSED, void *arg CRYB_UNUSED) { cryb_mpi x = CRYB_MPI_ZERO; assert(sizeof large_v >= sizeof x.swords); mpi_load(&x, large_v, sizeof x.swords); assert(x.words == x.swords); mpi_destroy(&x); return (t_mpi_is_zero(&x)); } /* * Test the destruction logic with an MPI that has grown */ static int t_mpi_destroy_grown(char **desc CRYB_UNUSED, void *arg CRYB_UNUSED) { cryb_mpi x = CRYB_MPI_ZERO; assert(sizeof large_v > sizeof x.swords); mpi_load(&x, large_v, sizeof large_v); assert(x.words != x.swords); mpi_destroy(&x); return (t_mpi_is_zero(&x)); } /*************************************************************************** * Assignment, negation, copying, swapping */ /* * Assign a positive value. */ static int t_mpi_set_positive(char **desc CRYB_UNUSED, void *arg CRYB_UNUSED) { cryb_mpi x = CRYB_MPI_ZERO; int ret = 1; mpi_set(&x, 0x19700101); ret &= t_mpi_not_grown(&x); ret &= t_compare_x32(0x19700101, x.words[0]); ret &= t_compare_u(29, x.msb); ret &= t_compare_i(0, x.neg); mpi_destroy(&x); return (ret); } /* * Assign a negative value. */ static int t_mpi_set_negative(char **desc CRYB_UNUSED, void *arg CRYB_UNUSED) { cryb_mpi x = CRYB_MPI_ZERO; int ret = 1; mpi_set(&x, -0x19700101); ret &= t_mpi_not_grown(&x); ret &= t_compare_x32(0x19700101, x.words[0]); ret &= t_compare_u(29, x.msb); ret &= t_compare_u(1, x.neg); mpi_destroy(&x); return (ret); } /* * Negate zero */ static int t_mpi_negate_zero(char **desc CRYB_UNUSED, void *arg CRYB_UNUSED) { cryb_mpi x = CRYB_MPI_ZERO; int ret = 1; mpi_zero(&x); assert(x.words[0] == 0 && x.msb == 0 && x.neg == 0); mpi_negate(&x); ret &= t_mpi_is_zero(&x); mpi_destroy(&x); return (ret); } /* * Negate non-zero, back and forth */ static int t_mpi_negate_nonzero(char **desc CRYB_UNUSED, void *arg CRYB_UNUSED) { cryb_mpi x = CRYB_MPI_ZERO; int ret = 1; mpi_set(&x, -0x19700101); ret &= t_compare_x32(0x19700101, x.words[0]); assert(x.words[0] == 0x19700101 && x.msb == 29 && x.neg == 1); mpi_negate(&x); ret &= t_mpi_not_grown(&x); ret &= t_compare_x32(0x19700101, x.words[0]); ret &= t_compare_u(29, x.msb); ret &= t_compare_u(0, x.neg); mpi_negate(&x); ret &= t_mpi_not_grown(&x); ret &= t_compare_x32(0x19700101, x.words[0]); ret &= t_compare_u(29, x.msb); ret &= t_compare_u(1, x.neg); mpi_destroy(&x); return (ret); } /* * Copy an MPI into itself */ static int t_mpi_copy_same(char **desc CRYB_UNUSED, void *arg CRYB_UNUSED) { cryb_mpi x = CRYB_MPI_ZERO; int ret = 1; /* how do you really test this? oh well */ mpi_set(&x, -0x19700101); assert(x.words[0] == 0x19700101 && x.msb == 29 && x.neg == 1); mpi_copy(&x, &x); ret &= t_mpi_not_grown(&x); ret &= t_compare_x32(0x19700101, x.words[0]); ret &= t_compare_u(29, x.msb); ret &= t_compare_u(1, x.neg); mpi_destroy(&x); return (ret); } /* * Copy a static MPI into another */ static int t_mpi_copy_static(char **desc CRYB_UNUSED, void *arg CRYB_UNUSED) { cryb_mpi x = CRYB_MPI_ZERO, y = CRYB_MPI_ZERO; int ret = 1; mpi_set(&x, -0x19700101); mpi_copy(&y, &x); ret &= t_mpi_not_grown(&y); ret &= t_compare_mpi(&x, &y); mpi_destroy(&x); mpi_destroy(&y); return (ret); } /* * Copy an all-zeroes MPI into another */ static int t_mpi_copy_zero(char **desc CRYB_UNUSED, void *arg CRYB_UNUSED) { cryb_mpi x = CRYB_MPI_ZERO, y = CRYB_MPI_ZERO; int ret = 1; assert(x.words == NULL && y.words == NULL); ret &= t_compare_i(0, mpi_copy(&y, &x)); ret &= t_compare_mem(&z, &x, sizeof x); ret &= t_mpi_not_grown(&y); ret &= t_mpi_is_zero(&y); mpi_destroy(&x); mpi_destroy(&y); return (ret); } /* * Copy a force-grown MPI */ static int t_mpi_copy_grown(char **desc CRYB_UNUSED, void *arg CRYB_UNUSED) { cryb_mpi x = CRYB_MPI_ZERO, y = CRYB_MPI_ZERO; int ret = 1; mpi_set(&x, -0x19700101); /* the original is larger than necessary */ mpi_grow(&x, CRYB_MPI_SWORDS * 32 + 1); assert(x.words != x.swords && x.size > CRYB_MPI_SWORDS); mpi_copy(&y, &x); /* the copy is just large enough to fit the actual value */ ret &= t_mpi_not_grown(&y); ret &= t_compare_mpi(&x, &y); mpi_destroy(&x); mpi_destroy(&y); return (ret); } /* * Copy an organically-grown MPI */ static int t_mpi_copy_long(char **desc CRYB_UNUSED, void *arg CRYB_UNUSED) { cryb_mpi x = CRYB_MPI_ZERO, y = CRYB_MPI_ZERO; int ret = 1; mpi_load(&x, large_v, sizeof large_v); assert(x.words != x.swords && x.size > CRYB_MPI_SWORDS && memcmp(x.words, large_e, sizeof large_e) == 0); mpi_copy(&y, &x); ret &= t_mpi_grown(&y); ret &= t_compare_mpi(&x, &y); mpi_destroy(&x); mpi_destroy(&y); return (ret); } /* * As above, but allocation fails. */ static int t_mpi_copy_long_fail(char **desc CRYB_UNUSED, void *arg CRYB_UNUSED) { cryb_mpi x = CRYB_MPI_ZERO, y = CRYB_MPI_ZERO; int ret = 1; mpi_load(&x, large_v, sizeof large_v); assert(t_mpi_grown(&x)); ++t_malloc_fail; ret &= t_compare_i(-1, mpi_copy(&y, &x)); --t_malloc_fail; ret &= t_mpi_is_zero(&y); mpi_destroy(&x); mpi_destroy(&y); return (ret); } /* * Swap two values (not grown) */ static int t_mpi_swap_static(char **desc CRYB_UNUSED, void *arg CRYB_UNUSED) { cryb_mpi x0 = CRYB_MPI_ZERO, y0 = CRYB_MPI_ZERO; cryb_mpi x = CRYB_MPI_ZERO, y = CRYB_MPI_ZERO; int ret = 1; mpi_set(&x, -0x19700101); assert(x.words[0] == 0x19700101 && x.msb == 29 && x.neg == 1); mpi_copy(&x0, &x); mpi_set(&y, 0x20140901); assert(y.words[0] == 0x20140901 && y.msb == 30 && y.neg == 0); mpi_copy(&y0, &y); mpi_swap(&x, &y); ret &= t_compare_mpi(&x0, &y); ret &= t_compare_mpi(&y0, &x); mpi_destroy(&x); mpi_destroy(&x0); mpi_destroy(&y); mpi_destroy(&y0); return (ret); } /* * Swap two values (grown) */ static int t_mpi_swap_grown(char **desc CRYB_UNUSED, void *arg CRYB_UNUSED) { cryb_mpi x0 = CRYB_MPI_ZERO, y0 = CRYB_MPI_ZERO; cryb_mpi x = CRYB_MPI_ZERO, y = CRYB_MPI_ZERO; int ret = 1; mpi_set(&x, -0x19700101); mpi_copy(&x0, &x); mpi_grow(&x, CRYB_MPI_SWORDS * 32 + 1); assert(t_mpi_grown(&x) && t_compare_mpi(&x0, &x)); mpi_set(&y, 0x20140901); mpi_copy(&y0, &y); mpi_grow(&y, CRYB_MPI_SWORDS * 32 + 1); assert(t_mpi_grown(&y) && t_compare_mpi(&y0, &y)); mpi_swap(&x, &y); ret &= t_compare_mpi(&x0, &y); ret &= t_compare_mpi(&y0, &x); mpi_destroy(&x); mpi_destroy(&x0); mpi_destroy(&y); mpi_destroy(&y0); return (ret); } /*************************************************************************** * Load / store */ static struct t_load_case { const char *desc; uint8_t v[16]; size_t vlen; uint32_t e[4]; unsigned int msb; } t_load_cases[] = { { "load nothing", { }, 0, { 0x00000000, }, 0, }, { "load 0x00", { 0x00, }, 1, { 0x00000000, }, 0, }, { "load 0x01", { 0x01, }, 1, { 0x00000001, }, 1, }, { "load 0x0102", { 0x01, 0x02, }, 2, { 0x00000102, }, 9, }, { "load 0x010203", { 0x01, 0x02, 0x03, }, 3, { 0x00010203, }, 17, }, { "load 0x01020304", { 0x01, 0x02, 0x03, 0x04, }, 4, { 0x01020304, }, 25, }, { "load 0x0102030405", { 0x01, 0x02, 0x03, 0x04, 0x05, }, 5, { 0x02030405, 0x00000001, }, 33, }, { "load 0x010203040506", { 0x01, 0x02, 0x03, 0x04, 0x05, 0x06, }, 6, { 0x03040506, 0x00000102, }, 41, }, { "load 0x01020304050607", { 0x01, 0x02, 0x03, 0x04, 0x05, 0x06, 0x07, }, 7, { 0x04050607, 0x00010203, }, 49, }, { "load 0x0102030405060708", { 0x01, 0x02, 0x03, 0x04, 0x05, 0x06, 0x07, 0x08, }, 8, { 0x05060708, 0x01020304, }, 57, }, }; /* * Load a string of bytes, verify result. */ static int t_mpi_load(char **desc CRYB_UNUSED, void *arg) { struct t_load_case *tc = arg; cryb_mpi x = CRYB_MPI_ZERO; int ret = 1; mpi_load(&x, tc->v, tc->vlen); ret &= t_compare_mem(tc->e, x.words, sizeof tc->e); ret &= t_compare_u(tc->msb, x.msb); mpi_destroy(&x); return (ret); } /* * As above, but with a number that exactly fills the static buffer. */ static int t_mpi_exact_load(char **desc CRYB_UNUSED, void *arg CRYB_UNUSED) { cryb_mpi x = CRYB_MPI_ZERO; int ret = 1; assert(sizeof small_e == sizeof small_v); assert(sizeof small_v == sizeof x.swords); mpi_load(&x, small_v, sizeof x.swords); ret &= t_compare_ptr(x.swords, x.words); ret &= t_compare_mem(small_e, x.words, sizeof x.swords); ret &= t_compare_u(SMALL_V_SIZE * 8, x.msb); mpi_destroy(&x); return (ret); } /* * As above, but with a large number to force reallocation. */ static int t_mpi_large_load(char **desc CRYB_UNUSED, void *arg CRYB_UNUSED) { cryb_mpi x = CRYB_MPI_ZERO; int ret = 1; assert(sizeof large_e == sizeof large_v); assert(sizeof large_v > sizeof x.swords); mpi_load(&x, large_v, sizeof large_v); /* XXX we need inequality predicates */ if (x.words == x.swords) { t_verbose("reallocation failed to occur\n"); ret &= 0; } /* XXX we need inequality predicates */ if (x.size < LARGE_E_SIZE) { t_verbose("expected at least %zu, received %zu\n", LARGE_E_SIZE, x.size); ret &= 0; } ret &= t_compare_mem(large_e, x.words, sizeof large_e); ret &= t_compare_u(LARGE_V_SIZE * 8, x.msb); mpi_destroy(&x); return (ret); } /* * As above, but allocation fails. */ static int t_mpi_large_load_fail(char **desc CRYB_UNUSED, void *arg CRYB_UNUSED) { cryb_mpi x = CRYB_MPI_ZERO, y; int ret = 1; assert(sizeof large_e == sizeof large_v); assert(sizeof large_v > sizeof x.swords); mpi_init(&x); y = x; ++t_malloc_fail; ret &= t_compare_i(-1, mpi_load(&x, large_v, sizeof large_v)); --t_malloc_fail; ret &= t_compare_mem(&y, &x, sizeof x); mpi_destroy(&x); return (ret); } /*************************************************************************** * Comparison */ static struct t_cmp_case { const char *desc; int a, b, cmp; } t_cmp_cases[] = { { "-3 == -3", -3, -3, 0 }, { "-3 < -2", -3, -2, -1 }, { "-3 < -1", -3, -1, -1 }, { "-3 < 0", -3, 0, -1 }, { "-3 < 1", -3, 1, -1 }, { "-3 < 2", -3, 2, -1 }, { "-3 < 3", -3, 3, -1 }, { "-2 > -3", -2, -3, 1 }, { "-2 == -2", -2, -2, 0 }, { "-2 < -1", -2, -1, -1 }, { "-2 < 0", -2, 0, -1 }, { "-2 < 1", -2, 1, -1 }, { "-2 < 2", -2, 2, -1 }, { "-2 < 3", -2, 3, -1 }, { "-1 > -3", -1, -3, 1 }, { "-1 > -2", -1, -2, 1 }, { "-1 == -1", -1, -1, 0 }, { "-1 < 0", -1, 0, -1 }, { "-1 < 1", -1, 1, -1 }, { "-1 < 2", -1, 2, -1 }, { "-1 < 3", -1, 3, -1 }, { "0 > -3", 0, -3, 1 }, { "0 > -2", 0, -2, 1 }, { "0 > -1", 0, -1, 1 }, { "0 == 0", 0, 0, 0 }, { "0 < 1", 0, 1, -1 }, { "0 < 2", 0, 2, -1 }, { "0 < 3", 0, 3, -1 }, { "1 > -3", 1, -3, 1 }, { "1 > -2", 1, -2, 1 }, { "1 > -1", 1, -1, 1 }, { "1 > 0", 1, 0, 1 }, { "1 == 1", 1, 1, 0 }, { "1 < 2", 1, 2, -1 }, { "1 < 3", 1, 3, -1 }, { "2 > -3", 2, -3, 1 }, { "2 > -2", 2, -2, 1 }, { "2 > -1", 2, -1, 1 }, { "2 > 0", 2, 0, 1 }, { "2 > 1", 2, 1, 1 }, { "2 == 2", 2, 2, 0 }, { "2 < 3", 2, 3, -1 }, { "3 > -3", 3, -3, 1 }, { "3 > -2", 3, -2, 1 }, { "3 > -1", 3, -1, 1 }, { "3 > 0", 3, 0, 1 }, { "3 > 1", 3, 1, 1 }, { "3 > 2", 3, 2, 1 }, { "3 == 3", 3, 3, 0 }, }; /* * Compare two MPIs */ static int t_mpi_cmp(char **desc CRYB_UNUSED, void *arg) { struct t_cmp_case *tc = arg; cryb_mpi a = CRYB_MPI_ZERO, b = CRYB_MPI_ZERO; int ret = 1; mpi_set(&a, tc->a); mpi_set(&b, tc->b); ret &= t_compare_i(tc->cmp, mpi_cmp(&a, &b)); mpi_destroy(&a); mpi_destroy(&b); return (ret); } /*************************************************************************** * Left / right shift */ static struct t_lsh_case { const char *desc; uint8_t v[16]; size_t vlen; unsigned int n; uint8_t e[16]; size_t elen; } t_lsh_cases[] = { { "0x00 << 0 == 0x00", { 0x00, }, 1, 0, { 0x00, }, 1, }, { "0x00 << 1 == 0x00", { 0x00, }, 1, 1, { 0x00, }, 1, }, { "0x01 << 0 == 0x01", { 0x01, }, 1, 0, { 0x01, }, 1, }, { "0x01 << 1 == 0x02", { 0x01, }, 1, 1, { 0x02, }, 1, }, { "0x11 << 1 == 0x22", { 0x11, }, 1, 1, { 0x22, }, 1, }, { "0x11 << 32 == 0x1100000000", { 0x00, 0x00, 0x00, 0x11, }, 4, 32, { 0x11, 0x00, 0x00, 0x00, 0x00, }, 5, }, { "0x22 << 31 == 0x1100000000", { 0x00, 0x00, 0x00, 0x22, }, 4, 31, { 0x11, 0x00, 0x00, 0x00, 0x00, }, 5, }, { "0x80000000 << 1 == 0x100000000", { 0x80, 0x00, 0x00, 0x00, }, 4, 1, { 0x01, 0x00, 0x00, 0x00, 0x00, }, 5, }, }; /* * Load a number, left-shift it and verify the result. */ static int t_mpi_lsh(char **desc CRYB_UNUSED, void *arg) { struct t_lsh_case *tc = arg; cryb_mpi x = CRYB_MPI_ZERO, e = CRYB_MPI_ZERO; int ret = 1; mpi_load(&x, tc->v, tc->vlen); mpi_load(&e, tc->e, tc->elen); ret &= t_compare_i(0, mpi_lshift(&x, tc->n)); ret &= t_compare_mpi(&e, &x); mpi_destroy(&x); mpi_destroy(&e); return (ret); } /* * As above, but with an initial number large enough to cause an overflow * and reallocation. */ static int t_mpi_large_lsh(char **desc CRYB_UNUSED, void *arg CRYB_UNUSED) { cryb_mpi x = CRYB_MPI_ZERO; int ret = 1; mpi_load(&x, small_v, sizeof small_v); assert(t_mpi_not_grown(&x)); ret &= t_compare_i(0, mpi_lshift(&x, 32)); /* XXX we need inequality predicates */ if (x.words == x.swords) { t_verbose("reallocation failed to occur\n"); return (0); } ret &= t_compare_mem(t_zero, x.words, sizeof x.words[0]); ret &= t_compare_mem(small_e, x.words + 1, sizeof small_e); ret &= t_compare_u(SMALL_V_SIZE * 8 + 32, x.msb); mpi_destroy(&x); return (ret); } /* * As above, but allocation will fail. */ static int t_mpi_large_lsh_fail(char **desc CRYB_UNUSED, void *arg CRYB_UNUSED) { cryb_mpi x = CRYB_MPI_ZERO, y; int ret = 1; mpi_load(&x, small_v, sizeof small_v); assert(t_mpi_not_grown(&x)); y = x; ++t_malloc_fail; ret &= t_compare_i(-1, mpi_lshift(&x, 32)); --t_malloc_fail; ret &= t_compare_mem(&y, &x, sizeof x); mpi_destroy(&x); return (ret); } static struct t_rsh_case { const char *desc; uint8_t v[16]; size_t vlen; unsigned int n; uint8_t e[16]; size_t elen; } t_rsh_cases[] = { { "0x00 >> 0 == 0x00", { 0x00, }, 1, 0, { 0x00, }, 1, }, { "0x00 >> 1 == 0x00", { 0x00, }, 1, 1, { 0x00, }, 1, }, { "0x01 >> 0 == 0x01", { 0x01, }, 1, 0, { 0x01, }, 1, }, { "0x01 >> 1 == 0x00", { 0x01, }, 1, 1, { 0x00, }, 1, }, { "0x02 >> 1 == 0x01", { 0x02, }, 1, 1, { 0x01, }, 1, }, { "0x22 >> 1 == 0x11", { 0x22, }, 1, 1, { 0x11, }, 1, }, { "0x1100000000 >> 32 == 0x11", { 0x11, 0x00, 0x00, 0x00, 0x00, }, 5, 32, { 0x00, 0x00, 0x00, 0x11, }, 4, }, { "0x1100000000 >> 31 == 0x22", { 0x11, 0x00, 0x00, 0x00, 0x00, }, 5, 31, { 0x00, 0x00, 0x00, 0x22, }, 4, }, { "0x100000000 >> 1 == 0x80000000", { 0x01, 0x00, 0x00, 0x00, 0x00, }, 5, 1, { 0x80, 0x00, 0x00, 0x00, }, 4, }, }; /* * Load a number, right-shift it and verify the result. */ static int t_mpi_rsh(char **desc CRYB_UNUSED, void *arg) { struct t_rsh_case *tc = arg; cryb_mpi x = CRYB_MPI_ZERO, e = CRYB_MPI_ZERO; int ret = 1; mpi_load(&x, tc->v, tc->vlen); mpi_load(&e, tc->e, tc->elen); mpi_rshift(&x, tc->n); ret &= t_compare_mpi(&e, &x); mpi_destroy(&x); mpi_destroy(&e); return (ret); } /*************************************************************************** * Addition */ static struct t_add_case { const char *desc; uint8_t a[16]; size_t amsb; uint8_t b[16]; size_t bmsb; uint8_t e[16]; size_t emsb; } t_add_cases[] = { { "0 + 0 == 0", { }, 0, { }, 0, { }, 0, }, { "0 + 1 == 1", { }, 0, { 0x01, }, 1, { 0x01, }, 1, }, { "1 + 0 == 1", { 0x01, }, 1, { }, 0, { 0x01, }, 1, }, { "2 + 2 == 4", { 0x02, }, 2, { 0x02, }, 2, { 0x04, }, 3, }, { "simple carry, " "0xffffffff + 0x01 == 0x0100000000", { 0xff, 0xff, 0xff, 0xff, }, 32, { 0x01, }, 1, { 0x01, 0x00, 0x00, 0x00, 0x00, }, 33, }, { "complex carry, " "0xffffffffffffffff + 0x0100000001 == 0x010000000100000000", { 0xff, 0xff, 0xff, 0xff, 0xff, 0xff, 0xff, 0xff, }, 64, { 0x01, 0x00, 0x00, 0x00, 0x01, }, 33, { 0x01, 0x00, 0x00, 0x00, 0x01, 0x00, 0x00, 0x00, 0x00, }, 65, }, }; static int t_mpi_add_tc(char **desc CRYB_UNUSED, void *arg) { struct t_add_case *tc = arg; cryb_mpi a = CRYB_MPI_ZERO, b = CRYB_MPI_ZERO, e = CRYB_MPI_ZERO; cryb_mpi x = CRYB_MPI_ZERO; int ret = 1; mpi_load(&a, tc->a, (tc->amsb + 7) / 8); mpi_load(&b, tc->b, (tc->bmsb + 7) / 8); mpi_load(&e, tc->e, (tc->emsb + 7) / 8); ret &= t_compare_i(0, mpi_add_abs(&x, &a, &b)); ret &= t_compare_mpi(&e, &x); mpi_destroy(&a); mpi_destroy(&b); mpi_destroy(&e); mpi_destroy(&x); return (ret); } /* * All operands are different */ static int t_mpi_add(char **desc CRYB_UNUSED, void *arg CRYB_UNUSED) { cryb_mpi a = CRYB_MPI_ZERO, b = CRYB_MPI_ZERO, e = CRYB_MPI_ZERO; cryb_mpi x = CRYB_MPI_ZERO; int ret = 1; mpi_set(&a, 0x19700101); mpi_set(&b, 0x20140901); mpi_set(&e, 0x19700101 + 0x20140901); ret &= t_compare_i(0, mpi_add_abs(&x, &a, &b)); ret &= t_compare_mpi(&e, &x); mpi_destroy(&a); mpi_destroy(&b); mpi_destroy(&e); mpi_destroy(&x); return (ret); } /* * As above, but allocation will fail */ static int t_mpi_add_fail(char **desc CRYB_UNUSED, void *arg CRYB_UNUSED) { cryb_mpi a = CRYB_MPI_ZERO, b = CRYB_MPI_ZERO, e = CRYB_MPI_ZERO; cryb_mpi x = CRYB_MPI_ZERO; int ret = 1; mpi_load(&a, large_v, sizeof large_v); mpi_load(&b, large_v, sizeof large_v); mpi_set(&x, 0x20140901); mpi_set(&e, 0x20140901); ++t_malloc_fail; ret &= t_compare_i(-1, mpi_add_abs(&x, &a, &b)); --t_malloc_fail; ret &= t_compare_mpi(&e, &x); mpi_destroy(&a); mpi_destroy(&b); mpi_destroy(&e); mpi_destroy(&x); return (ret); } /* * Target is the first operand */ static int t_mpi_add_b_to_a(char **desc CRYB_UNUSED, void *arg CRYB_UNUSED) { cryb_mpi a = CRYB_MPI_ZERO, b = CRYB_MPI_ZERO, e = CRYB_MPI_ZERO; int ret = 1; mpi_set(&a, 0x19700101); mpi_set(&b, 0x20140901); mpi_set(&e, 0x19700101 + 0x20140901); ret &= t_compare_i(0, mpi_add_abs(&a, &a, &b)); ret &= t_compare_mpi(&e, &a); mpi_destroy(&a); mpi_destroy(&b); mpi_destroy(&e); return (ret); } /* * As above, but allocation will fail */ static int t_mpi_add_b_to_a_fail(char **desc CRYB_UNUSED, void *arg CRYB_UNUSED) { cryb_mpi a = CRYB_MPI_ZERO, b = CRYB_MPI_ZERO, e = CRYB_MPI_ZERO; int ret = 1; mpi_set(&a, 0x19700101); mpi_load(&b, large_v, sizeof large_v); mpi_set(&e, 0x19700101); ++t_malloc_fail; ret &= t_compare_i(-1, mpi_add_abs(&a, &a, &b)); --t_malloc_fail; ret &= t_compare_mpi(&e, &a); mpi_destroy(&a); mpi_destroy(&b); mpi_destroy(&e); return (ret); } /* * Target is the second operand */ static int t_mpi_add_a_to_b(char **desc CRYB_UNUSED, void *arg CRYB_UNUSED) { cryb_mpi a = CRYB_MPI_ZERO, b = CRYB_MPI_ZERO, e = CRYB_MPI_ZERO; int ret = 1; mpi_set(&a, 0x19700101); mpi_set(&b, 0x20140901); mpi_set(&e, 0x19700101 + 0x20140901); ret &= t_compare_i(0, mpi_add_abs(&b, &a, &b)); ret &= t_compare_mpi(&e, &b); mpi_destroy(&a); mpi_destroy(&b); mpi_destroy(&e); return (ret); } /* * As above, but allocation will fail */ static int t_mpi_add_a_to_b_fail(char **desc CRYB_UNUSED, void *arg CRYB_UNUSED) { cryb_mpi a = CRYB_MPI_ZERO, b = CRYB_MPI_ZERO, e = CRYB_MPI_ZERO; int ret = 1; mpi_load(&a, large_v, sizeof large_v); mpi_set(&b, 0x20140901); mpi_set(&e, 0x20140901); ++t_malloc_fail; ret &= t_compare_i(-1, mpi_add_abs(&b, &a, &b)); --t_malloc_fail; ret &= t_compare_mpi(&e, &b); mpi_destroy(&a); mpi_destroy(&b); mpi_destroy(&e); return (ret); } /* * Target is both operands */ static int t_mpi_add_a_to_a(char **desc CRYB_UNUSED, void *arg CRYB_UNUSED) { cryb_mpi a = CRYB_MPI_ZERO, e = CRYB_MPI_ZERO; int ret = 1; mpi_set(&a, 0x19700101); mpi_set(&e, 0x19700101 + 0x19700101); ret &= t_compare_i(0, mpi_add_abs(&a, &a, &a)); ret &= t_compare_mpi(&e, &a); mpi_destroy(&a); mpi_destroy(&e); return (ret); } /* * As above, but allocation will fail */ static int t_mpi_add_a_to_a_fail(char **desc CRYB_UNUSED, void *arg CRYB_UNUSED) { cryb_mpi a = CRYB_MPI_ZERO, e = CRYB_MPI_ZERO; int ret = 1; mpi_load(&a, large_v, sizeof large_v); mpi_load(&e, large_v, sizeof large_v); ++t_malloc_fail; ret &= t_compare_i(-1, mpi_add_abs(&a, &a, &a)); --t_malloc_fail; ret &= t_compare_mpi(&e, &a); mpi_destroy(&a); mpi_destroy(&e); return (ret); } /* * Operands are the same */ static int t_mpi_add_a_and_a(char **desc CRYB_UNUSED, void *arg CRYB_UNUSED) { cryb_mpi a = CRYB_MPI_ZERO, b = CRYB_MPI_ZERO, e = CRYB_MPI_ZERO; int ret = 1; mpi_set(&a, 0x19700101); mpi_set(&e, 0x19700101 + 0x19700101); ret &= t_compare_i(0, mpi_add_abs(&b, &a, &a)); ret &= t_compare_mpi(&e, &b); mpi_destroy(&a); mpi_destroy(&b); mpi_destroy(&e); return (ret); } /* * As above, but allocation will fail */ static int t_mpi_add_a_and_a_fail(char **desc CRYB_UNUSED, void *arg CRYB_UNUSED) { cryb_mpi a = CRYB_MPI_ZERO, b = CRYB_MPI_ZERO, e = CRYB_MPI_ZERO; int ret = 1; mpi_load(&a, large_v, sizeof large_v); mpi_set(&b, 0x20140901); mpi_set(&e, 0x20140901); ++t_malloc_fail; ret &= t_compare_i(-1, mpi_add_abs(&b, &a, &a)); --t_malloc_fail; ret &= t_compare_mpi(&e, &b); mpi_destroy(&a); mpi_destroy(&b); return (ret); } /*************************************************************************** * Subtraction */ static struct t_sub_case { const char *desc; uint8_t a[16]; size_t amsb; uint8_t b[16]; size_t bmsb; uint8_t e[16]; size_t emsb; } t_sub_cases[] = { { "0 - 0 == 0", { }, 0, { }, 0, { }, 0, }, { "0 - 1 == 1", { }, 0, { 0x01, }, 1, { 0x01, }, 1, }, { "1 - 0 == 1", { 0x01, }, 1, { }, 0, { 0x01, }, 1, }, { "4 - 2 == 2", { 0x04, }, 3, { 0x02, }, 2, { 0x02, }, 2, }, { "2 - 4 == 2", { 0x02, }, 2, { 0x04, }, 3, { 0x02, }, 2, }, { "0x120140901 - 0x119700101 == 0x6a40800", { 0x01, 0x20, 0x14, 0x09, 0x01, }, 33, { 0x01, 0x19, 0x70, 0x01, 0x01, }, 33, { 0x06, 0xa4, 0x08, 0x00, }, 27, }, { "0x119700101 - 0x120140901 == 0x6a40800", { 0x01, 0x19, 0x70, 0x01, 0x01, }, 33, { 0x01, 0x20, 0x14, 0x09, 0x01, }, 33, { 0x06, 0xa4, 0x08, 0x00, }, 27, }, { "simple carry, " "0x1000000000 - 0xfffffffff == 0x01", { 0x10, 0x00, 0x00, 0x00, 0x00, }, 37, { 0x0f, 0xff, 0xff, 0xff, 0xff, }, 36, { 0x01, }, 1, }, { "simple carry, " "0x1000000000 - 0x01 == 0xfffffffff", { 0x10, 0x00, 0x00, 0x00, 0x00, }, 37, { 0x01, }, 1, { 0x0f, 0xff, 0xff, 0xff, 0xff, }, 36, }, { "complex carry, " "0x010000000000000000 - 0xffffffffffffffff == 0x01", { 0x01, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, }, 65, { 0xff, 0xff, 0xff, 0xff, 0xff, 0xff, 0xff, 0xff, }, 64, { 0x01, }, 1, }, { "complex carry, " "0x010000000000000000 - 0x01 == 0xffffffffffffffff", { 0x01, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, }, 65, { 0x01, }, 1, { 0xff, 0xff, 0xff, 0xff, 0xff, 0xff, 0xff, 0xff, }, 64, }, }; static int t_mpi_sub_tc(char **desc CRYB_UNUSED, void *arg) { struct t_sub_case *tc = arg; cryb_mpi a = CRYB_MPI_ZERO, b = CRYB_MPI_ZERO, e = CRYB_MPI_ZERO; cryb_mpi x = CRYB_MPI_ZERO; int ret = 1; mpi_load(&a, tc->a, (tc->amsb + 7) / 8); mpi_load(&b, tc->b, (tc->bmsb + 7) / 8); mpi_load(&e, tc->e, (tc->emsb + 7) / 8); ret &= t_compare_i(0, mpi_sub_abs(&x, &a, &b)); ret &= t_compare_mpi(&e, &x); mpi_destroy(&a); mpi_destroy(&b); mpi_destroy(&e); mpi_destroy(&x); return (ret); } /* * All operands are different */ static int t_mpi_sub(char **desc CRYB_UNUSED, void *arg CRYB_UNUSED) { cryb_mpi a = CRYB_MPI_ZERO, b = CRYB_MPI_ZERO, e = CRYB_MPI_ZERO; cryb_mpi x = CRYB_MPI_ZERO; int ret = 1; mpi_set(&a, 0x19700101); mpi_set(&b, 0x20140901); mpi_set(&e, 0x20140901 - 0x19700101); ret &= t_compare_i(0, mpi_sub_abs(&x, &a, &b)); ret &= t_compare_mpi(&e, &x); mpi_destroy(&a); mpi_destroy(&b); mpi_destroy(&e); mpi_destroy(&x); return (ret); } /* * As above, but allocation will fail */ static int t_mpi_sub_fail(char **desc CRYB_UNUSED, void *arg CRYB_UNUSED) { cryb_mpi a = CRYB_MPI_ZERO, b = CRYB_MPI_ZERO, e = CRYB_MPI_ZERO; cryb_mpi x = CRYB_MPI_ZERO; int ret = 1; mpi_load(&a, small_v, sizeof small_v); mpi_load(&b, large_v, sizeof large_v); mpi_set(&x, 0x20140901); mpi_set(&e, 0x20140901); ++t_malloc_fail; ret &= t_compare_i(-1, mpi_sub_abs(&x, &a, &b)); --t_malloc_fail; ret &= t_compare_mpi(&e, &x); mpi_destroy(&a); mpi_destroy(&b); mpi_destroy(&e); mpi_destroy(&x); return (ret); } /* * Target is the first operand */ static int t_mpi_sub_b_from_a(char **desc CRYB_UNUSED, void *arg CRYB_UNUSED) { cryb_mpi a = CRYB_MPI_ZERO, b = CRYB_MPI_ZERO, e = CRYB_MPI_ZERO; int ret = 1; mpi_set(&a, 0x19700101); mpi_set(&b, 0x20140901); mpi_set(&e, 0x20140901 - 0x19700101); ret &= t_compare_i(0, mpi_sub_abs(&a, &a, &b)); ret &= t_compare_mpi(&e, &a); mpi_destroy(&a); mpi_destroy(&b); mpi_destroy(&e); return (ret); } /* * As above, but allocation will fail */ static int t_mpi_sub_b_from_a_fail(char **desc CRYB_UNUSED, void *arg CRYB_UNUSED) { cryb_mpi a = CRYB_MPI_ZERO, b = CRYB_MPI_ZERO, e = CRYB_MPI_ZERO; int ret = 1; mpi_set(&a, 0x19700101); mpi_load(&b, large_v, sizeof large_v); mpi_set(&e, 0x19700101); ++t_malloc_fail; ret &= t_compare_i(-1, mpi_sub_abs(&a, &a, &b)); --t_malloc_fail; ret &= t_compare_mpi(&e, &a); mpi_destroy(&a); mpi_destroy(&b); mpi_destroy(&e); return (ret); } /* * Target is the second operand */ static int t_mpi_sub_a_from_b(char **desc CRYB_UNUSED, void *arg CRYB_UNUSED) { cryb_mpi a = CRYB_MPI_ZERO, b = CRYB_MPI_ZERO, e = CRYB_MPI_ZERO; int ret = 1; mpi_set(&a, 0x19700101); mpi_set(&b, 0x20140901); mpi_set(&e, 0x20140901 - 0x19700101); ret &= t_compare_i(0, mpi_sub_abs(&b, &a, &b)); ret &= t_compare_mpi(&e, &b); mpi_destroy(&a); mpi_destroy(&b); mpi_destroy(&e); return (ret); } /* * As above, but allocation will fail */ static int t_mpi_sub_a_from_b_fail(char **desc CRYB_UNUSED, void *arg CRYB_UNUSED) { cryb_mpi a = CRYB_MPI_ZERO, b = CRYB_MPI_ZERO, e = CRYB_MPI_ZERO; int ret = 1; mpi_load(&a, large_v, sizeof large_v); mpi_set(&b, 0x20140901); mpi_set(&e, 0x20140901); ++t_malloc_fail; ret &= t_compare_i(-1, mpi_sub_abs(&b, &a, &b)); --t_malloc_fail; ret &= t_compare_mpi(&e, &b); mpi_destroy(&a); mpi_destroy(&b); mpi_destroy(&e); return (ret); } /* * Target is both operands */ static int t_mpi_sub_a_from_a(char **desc CRYB_UNUSED, void *arg CRYB_UNUSED) { cryb_mpi a = CRYB_MPI_ZERO, e = CRYB_MPI_ZERO; int ret = 1; mpi_set(&a, 0x19700101); mpi_set(&e, 0); ret &= t_compare_i(0, mpi_sub_abs(&a, &a, &a)); ret &= t_compare_mpi(&e, &a); mpi_destroy(&a); mpi_destroy(&e); return (ret); } /* * Target is the first operand, second operand is zero */ static int t_mpi_sub_zero_from_a(char **desc CRYB_UNUSED, void *arg CRYB_UNUSED) { cryb_mpi a = CRYB_MPI_ZERO, b = CRYB_MPI_ZERO, e = CRYB_MPI_ZERO; int ret = 1; mpi_set(&a, 0x20140901); mpi_set(&e, 0x20140901); ret &= t_compare_i(0, mpi_sub_abs(&a, &a, &b)); ret &= t_compare_mpi(&e, &a); mpi_destroy(&a); mpi_destroy(&e); return (ret); } /* * Target is the second operand, first operand is zero */ static int t_mpi_sub_b_from_zero(char **desc CRYB_UNUSED, void *arg CRYB_UNUSED) { cryb_mpi a = CRYB_MPI_ZERO, b = CRYB_MPI_ZERO, e = CRYB_MPI_ZERO; int ret = 1; mpi_set(&b, 0x20140901); mpi_set(&e, 0x20140901); ret &= t_compare_i(0, mpi_sub_abs(&b, &a, &b)); ret &= t_compare_mpi(&e, &b); mpi_destroy(&b); mpi_destroy(&e); return (ret); } /*************************************************************************** * Boilerplate */ int t_prepare(int argc, char *argv[]) { unsigned int i; (void)argc; (void)argv; /* initialize constants used in multiple test cases */ assert(sizeof small_e == sizeof small_v); assert(sizeof small_e == sizeof z.swords); for (i = 0; i < SMALL_V_SIZE; ++i) small_v[i] = ~i; for (i = 0; i < SMALL_E_SIZE; ++i) small_e[SMALL_E_SIZE - 1 - i] = be32dec(small_v + i * 4); assert(sizeof large_e == sizeof large_v); assert(sizeof large_e > sizeof z.swords); for (i = 0; i < LARGE_V_SIZE; ++i) large_v[i] = ~i; for (i = 0; i < LARGE_E_SIZE; ++i) large_e[LARGE_E_SIZE - 1 - i] = be32dec(large_v + i * 4); /* basic tests */ t_add_test(t_mpi_init, NULL, "init"); t_add_test(t_mpi_set_zero, NULL, "set to 0"); t_add_test(t_mpi_fast_init, NULL, "fast init"); t_add_test(t_mpi_grow_ok, NULL, "grow (success)"); t_add_test(t_mpi_grow_fail, NULL, "grow (failure)"); t_add_test(t_mpi_grow_twice, NULL, "grow (twice)"); t_add_test(t_mpi_destroy_uninit, NULL, "destroy static"); t_add_test(t_mpi_destroy_static, NULL, "destroy static"); t_add_test(t_mpi_destroy_grown, NULL, "destroy grown"); /* assignment, copying, negation, swapping */ t_add_test(t_mpi_set_positive, NULL, "set to positive value"); t_add_test(t_mpi_set_negative, NULL, "set to negative value"); t_add_test(t_mpi_negate_zero, NULL, "negate zero"); t_add_test(t_mpi_negate_nonzero, NULL, "negate nonzero"); t_add_test(t_mpi_copy_same, NULL, "copy (same)"); t_add_test(t_mpi_copy_static, NULL, "copy (static)"); t_add_test(t_mpi_copy_zero, NULL, "copy (zero)"); t_add_test(t_mpi_copy_grown, NULL, "copy (grown)"); t_add_test(t_mpi_copy_long, NULL, "copy (long)"); t_add_test(t_mpi_copy_long_fail, NULL, "copy (long) (failure)"); t_add_test(t_mpi_swap_static, NULL, "swap (static)"); t_add_test(t_mpi_swap_grown, NULL, "swap (grown)"); /* load / store */ for (i = 0; i < sizeof t_load_cases / sizeof t_load_cases[0]; ++i) t_add_test(t_mpi_load, &t_load_cases[i], t_load_cases[i].desc); t_add_test(t_mpi_exact_load, NULL, "exact load"); t_add_test(t_mpi_large_load, NULL, "large load"); t_add_test(t_mpi_large_load_fail, NULL, "large load (failure)"); /* comparison */ for (i = 0; i < sizeof t_cmp_cases / sizeof t_cmp_cases[0]; ++i) t_add_test(t_mpi_cmp, &t_cmp_cases[i], t_cmp_cases[i].desc); /* left / right shift */ for (i = 0; i < sizeof t_lsh_cases / sizeof t_lsh_cases[0]; ++i) t_add_test(t_mpi_lsh, &t_lsh_cases[i], t_lsh_cases[i].desc); t_add_test(t_mpi_large_lsh, NULL, "large left shift"); t_add_test(t_mpi_large_lsh_fail, NULL, "large left shift (failure)"); for (i = 0; i < sizeof t_rsh_cases / sizeof t_rsh_cases[0]; ++i) t_add_test(t_mpi_rsh, &t_rsh_cases[i], t_rsh_cases[i].desc); /* addition */ for (i = 0; i < sizeof t_add_cases / sizeof t_add_cases[0]; ++i) t_add_test(t_mpi_add_tc, &t_add_cases[i], t_add_cases[i].desc); t_add_test(t_mpi_add, NULL, "x = a + b"); t_add_test(t_mpi_add_fail, NULL, "x = a + b (failure)"); t_add_test(t_mpi_add_b_to_a, NULL, "a = a + b"); t_add_test(t_mpi_add_b_to_a_fail, NULL, "a = a + b (failure)"); t_add_test(t_mpi_add_a_to_b, NULL, "b = a + b"); t_add_test(t_mpi_add_a_to_b_fail, NULL, "b = a + b (failure)"); t_add_test(t_mpi_add_a_to_a, NULL, "a = a + a"); t_add_test(t_mpi_add_a_to_a_fail, NULL, "a = a + a (failure)"); t_add_test(t_mpi_add_a_and_a, NULL, "b = a + a"); t_add_test(t_mpi_add_a_and_a_fail, NULL, "b = a + a (failure)"); /* subtraction */ for (i = 0; i < sizeof t_sub_cases / sizeof t_sub_cases[0]; ++i) t_add_test(t_mpi_sub_tc, &t_sub_cases[i], t_sub_cases[i].desc); t_add_test(t_mpi_sub, NULL, "x = a - b"); t_add_test(t_mpi_sub_fail, NULL, "x = a - b (failure)"); t_add_test(t_mpi_sub_b_from_a, NULL, "a = a - b"); t_add_test(t_mpi_sub_b_from_a_fail, NULL, "a = a - b (failure)"); t_add_test(t_mpi_sub_a_from_b, NULL, "b = a - b"); t_add_test(t_mpi_sub_a_from_b_fail, NULL, "b = a - b (failure)"); t_add_test(t_mpi_sub_a_from_a, NULL, "a = a - a"); t_add_test(t_mpi_sub_b_from_zero, NULL, "b = 0 - b"); t_add_test(t_mpi_sub_zero_from_a, NULL, "a = a - z"); return (0); } void t_cleanup(void) { assert(memcmp(&z, t_zero, sizeof z) == 0); }