/* * Copyright (c) 2014-2016 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. */ #ifndef CRYB_MPI_H_INCLUDED #define CRYB_MPI_H_INCLUDED #ifndef CRYB_TO #include #endif CRYB_BEGIN const char *cryb_mpi_version(void); #define mpi_add cryb_mpi_add #define mpi_add_abs cryb_mpi_add_abs #define mpi_cmp cryb_mpi_cmp #define mpi_cmp_abs cryb_mpi_cmp_abs #define mpi_cmp_abs_u32 cryb_mpi_cmp_abs_u32 #define mpi_cmp_abs_u64 cryb_mpi_cmp_abs_u64 #define mpi_cmp_i32 cryb_mpi_cmp_i32 #define mpi_cmp_i64 cryb_mpi_cmp_i64 #define mpi_cmp_u32 cryb_mpi_cmp_u32 #define mpi_cmp_u64 cryb_mpi_cmp_u64 #define mpi_copy cryb_mpi_copy #define mpi_dec cryb_mpi_dec #define mpi_dec_abs cryb_mpi_dec_abs #define mpi_destroy cryb_mpi_destroy #define mpi_div cryb_mpi_div #define mpi_div_abs cryb_mpi_div_abs #define mpi_eq cryb_mpi_eq #define mpi_eq_abs cryb_mpi_eq_abs #define mpi_eq_abs_u32 cryb_mpi_eq_abs_u32 #define mpi_eq_abs_u64 cryb_mpi_eq_abs_u64 #define mpi_eq_i32 cryb_mpi_eq_i32 #define mpi_eq_i64 cryb_mpi_eq_i64 #define mpi_eq_u32 cryb_mpi_eq_u32 #define mpi_eq_u64 cryb_mpi_eq_u64 #define mpi_gcd_abs cryb_mpi_gcd_abs #define mpi_grow cryb_mpi_grow #define mpi_inc cryb_mpi_inc #define mpi_inc_abs cryb_mpi_inc_abs #define mpi_init cryb_mpi_init #define mpi_load cryb_mpi_load #define mpi_lsb cryb_mpi_lsb #define mpi_lshift cryb_mpi_lshift #define mpi_msb cryb_mpi_msb #define mpi_mul cryb_mpi_mul #define mpi_mul_abs cryb_mpi_mul_abs #define mpi_negate cryb_mpi_negate #define mpi_rshift cryb_mpi_rshift #define mpi_set cryb_mpi_set #define mpi_sub cryb_mpi_sub #define mpi_sub_abs cryb_mpi_sub_abs #define mpi_swap cryb_mpi_swap #define mpi_zero cryb_mpi_zero #define CRYB_MPI_SWORDS 16 typedef struct cryb_mpi { uint32_t *words; /* pointer to words */ size_t size; /* number of words */ unsigned int msb; /* most significant bit */ unsigned int neg:1; /* negative */ uint32_t swords[CRYB_MPI_SWORDS]; } cryb_mpi; /* all-zeroes MPI - not the same as a zero-value MPI! */ #define CRYB_MPI_ZERO { 0, 0, 0, 0, { 0 } } int mpi_add(cryb_mpi *, const cryb_mpi *, const cryb_mpi *); int mpi_add_abs(cryb_mpi *, const cryb_mpi *, const cryb_mpi *); int mpi_cmp(const cryb_mpi *, const cryb_mpi *); int mpi_cmp_abs(const cryb_mpi *, const cryb_mpi *); int mpi_cmp_abs_u32(const cryb_mpi *, uint32_t); int mpi_cmp_abs_u64(const cryb_mpi *, uint64_t); int mpi_cmp_i32(const cryb_mpi *, int32_t); int mpi_cmp_i64(const cryb_mpi *, int64_t); int mpi_cmp_u32(const cryb_mpi *, uint32_t); int mpi_cmp_u64(const cryb_mpi *, uint64_t); int mpi_copy(cryb_mpi *, const cryb_mpi *); int mpi_dec(cryb_mpi *); int mpi_dec_abs(cryb_mpi *); void mpi_destroy(cryb_mpi *); int mpi_div(cryb_mpi *, cryb_mpi *, const cryb_mpi *, const cryb_mpi *); int mpi_div_abs(cryb_mpi *, cryb_mpi *, const cryb_mpi *, const cryb_mpi *); int mpi_eq(const cryb_mpi *, const cryb_mpi *); int mpi_eq_abs(const cryb_mpi *, const cryb_mpi *); int mpi_eq_abs_u32(const cryb_mpi *, uint32_t); int mpi_eq_abs_u64(const cryb_mpi *, uint64_t); int mpi_eq_i32(const cryb_mpi *, int32_t); int mpi_eq_i64(const cryb_mpi *, int64_t); int mpi_eq_u32(const cryb_mpi *, uint32_t); int mpi_eq_u64(const cryb_mpi *, uint64_t); int mpi_gcd_abs(cryb_mpi *, const cryb_mpi *, const cryb_mpi *); int mpi_grow(cryb_mpi *, unsigned int); int mpi_inc(cryb_mpi *); int mpi_inc_abs(cryb_mpi *); void mpi_init(cryb_mpi *); int mpi_load(cryb_mpi *, const uint8_t *, size_t); unsigned int mpi_lsb(const cryb_mpi *); int mpi_lshift(cryb_mpi *, unsigned int); unsigned int mpi_msb(const cryb_mpi *); int mpi_mul(cryb_mpi *, const cryb_mpi *, const cryb_mpi *); int mpi_mul_abs(cryb_mpi *, const cryb_mpi *, const cryb_mpi *); void mpi_negate(cryb_mpi *); int mpi_rshift(cryb_mpi *, unsigned int); int mpi_set(cryb_mpi *, int32_t); int mpi_sub(cryb_mpi *, const cryb_mpi *, const cryb_mpi *); int mpi_sub_abs(cryb_mpi *, const cryb_mpi *, const cryb_mpi *); void mpi_swap(cryb_mpi *, cryb_mpi *); void mpi_zero(cryb_mpi *); CRYB_END #endif