import std/strutils from os import DirSep, AltSep const vendorPath = currentSourcePath.rsplit({DirSep, AltSep}, 3)[0] & "/vendor" srcPath = vendorPath & "/libtommath" {.passc: "-DMP_32BIT"} {.compile: srcPath & "/mp_radix_size.c"} {.compile: srcPath & "/mp_to_radix.c"} {.compile: srcPath & "/mp_init_u64.c"} {.compile: srcPath & "/mp_init_i32.c"} {.compile: srcPath & "/mp_init_multi.c"} {.compile: srcPath & "/mp_init.c"} {.compile: srcPath & "/mp_init_size.c"} {.compile: srcPath & "/mp_init_copy.c"} {.compile: srcPath & "/mp_invmod.c"} {.compile: srcPath & "/mp_abs.c"} {.compile: srcPath & "/mp_set_u64.c"} {.compile: srcPath & "/mp_set_u32.c"} {.compile: srcPath & "/mp_set_i32.c"} {.compile: srcPath & "/mp_get_i32.c"} {.compile: srcPath & "/mp_get_i64.c"} {.compile: srcPath & "/mp_exptmod.c"} {.compile: srcPath & "/mp_clear_multi.c"} {.compile: srcPath & "/mp_clear.c"} {.compile: srcPath & "/mp_montgomery_reduce.c"} {.compile: srcPath & "/mp_clamp.c"} {.compile: srcPath & "/mp_grow.c"} {.compile: srcPath & "/mp_mul.c"} {.compile: srcPath & "/mp_mul_2.c"} {.compile: srcPath & "/mp_mul_2d.c"} {.compile: srcPath & "/mp_mod_2d.c"} {.compile: srcPath & "/mp_log_n.c"} {.compile: srcPath & "/mp_div_2.c"} {.compile: srcPath & "/mp_div_d.c"} {.compile: srcPath & "/mp_add.c"} {.compile: srcPath & "/mp_sub.c"} {.compile: srcPath & "/mp_exch.c"} {.compile: srcPath & "/mp_rshd.c"} {.compile: srcPath & "/mp_lshd.c"} {.compile: srcPath & "/mp_zero.c"} {.compile: srcPath & "/mp_dr_reduce.c"} {.compile: srcPath & "/mp_cmp_mag.c"} {.compile: srcPath & "/mp_cutoffs.c"} {.compile: srcPath & "/mp_reduce.c"} {.compile: srcPath & "/mp_count_bits.c"} {.compile: srcPath & "/mp_montgomery_setup.c"} {.compile: srcPath & "/mp_dr_setup.c"} {.compile: srcPath & "/mp_reduce_2k_setup.c"} {.compile: srcPath & "/mp_reduce_2k_setup_l.c"} {.compile: srcPath & "/mp_reduce_2k.c"} {.compile: srcPath & "/mp_reduce_2k_l.c"} {.compile: srcPath & "/mp_reduce_is_2k_l.c"} {.compile: srcPath & "/mp_reduce_is_2k.c"} {.compile: srcPath & "/mp_reduce_setup.c"} {.compile: srcPath & "/mp_dr_is_modulus.c"} {.compile: srcPath & "/mp_mulmod.c"} {.compile: srcPath & "/mp_set.c"} {.compile: srcPath & "/mp_mod.c"} {.compile: srcPath & "/mp_copy.c"} {.compile: srcPath & "/mp_div.c"} {.compile: srcPath & "/mp_div_2d.c"} {.compile: srcPath & "/mp_mul_d.c"} {.compile: srcPath & "/mp_2expt.c"} {.compile: srcPath & "/mp_cmp.c"} {.compile: srcPath & "/mp_cmp_d.c"} {.compile: srcPath & "/mp_log.c"} {.compile: srcPath & "/mp_sub_d.c"} {.compile: srcPath & "/mp_add_d.c"} {.compile: srcPath & "/mp_cnt_lsb.c"} {.compile: srcPath & "/mp_expt_n.c"} {.compile: srcPath & "/mp_get_mag_u32.c"} {.compile: srcPath & "/mp_get_mag_u64.c"} {.compile: srcPath & "/mp_from_ubin.c"} {.compile: srcPath & "/mp_ubin_size.c"} {.compile: srcPath & "/mp_to_ubin.c"} {.compile: srcPath & "/mp_montgomery_calc_normalization.c"} {.compile: srcPath & "/s_mp_exptmod.c"} {.compile: srcPath & "/s_mp_exptmod_fast.c"} {.compile: srcPath & "/s_mp_zero_digs.c"} {.compile: srcPath & "/s_mp_montgomery_reduce_comba.c"} {.compile: srcPath & "/s_mp_add.c"} {.compile: srcPath & "/s_mp_sub.c"} {.compile: srcPath & "/s_mp_mul.c"} {.compile: srcPath & "/s_mp_mul_comba.c"} {.compile: srcPath & "/s_mp_mul_toom.c"} {.compile: srcPath & "/s_mp_mul_karatsuba.c"} {.compile: srcPath & "/s_mp_mul_balance.c"} {.compile: srcPath & "/s_mp_copy_digs.c"} {.compile: srcPath & "/s_mp_div_3.c"} {.compile: srcPath & "/s_mp_sqr.c"} {.compile: srcPath & "/s_mp_sqr_comba.c"} {.compile: srcPath & "/s_mp_sqr_toom.c"} {.compile: srcPath & "/s_mp_sqr_karatsuba.c"} {.compile: srcPath & "/s_mp_zero_buf.c"} {.compile: srcPath & "/s_mp_radix_map.c"} {.compile: srcPath & "/s_mp_invmod.c"} {.compile: srcPath & "/s_mp_invmod_odd.c"} {.compile: srcPath & "/s_mp_mul_high.c"} {.compile: srcPath & "/s_mp_mul_high_comba.c"} {.compile: srcPath & "/s_mp_div_recursive.c"} {.compile: srcPath & "/s_mp_div_school.c"} {.compile: srcPath & "/s_mp_fp_log_d.c"} {.compile: srcPath & "/s_mp_fp_log.c"} {.passc: "-I" & srcPath .} type mp_int {.importc: "mp_int", header: "tommath.h", byref.} = object mp_digit = uint32 mp_err {.importc: "mp_err", header: "tommath.h".} = cint mp_ord = cint {.pragma: mp_abi, importc, cdecl, header: "tommath.h".} const MP_OKAY = 0.mp_err MP_LT* = -1 MP_EQ* = 0 MP_GT* = 1 template getPtr(z: untyped): untyped = when (NimMajor, NimMinor) > (1,6): z.addr else: z.unsafeAddr # init a bignum # proc mp_init(a: mp_int): mp_err {.mp_abi.} # proc mp_init_size(a: mp_int, size: cint): mp_err {.mp_abi.} # init multiple bignum, 2nd, 3rd, and soon use addr, terminated with nil proc mp_init_multi(mp: mp_int): mp_err {.mp_abi, varargs.} # free a bignum proc mp_clear(a: mp_int) {.mp_abi.} # clear multiple mp_ints, terminated with nil proc mp_clear_multi(mp: mp_int) {.mp_abi, varargs.} # compare against a single digit proc mp_cmp_d(a: mp_int, b: mp_digit): mp_ord {.mp_abi.} # conversion from/to big endian bytes proc mp_ubin_size(a: mp_int): csize_t {.mp_abi.} proc mp_from_ubin(a: mp_int, buf: ptr byte, size: csize_t): mp_err {.mp_abi.} proc mp_to_ubin(a: mp_int, buf: ptr byte, maxlen: csize_t, written: var csize_t): mp_err {.mp_abi.} # Y = G**X (mod P) proc mp_exptmod(G, X, P, Y: mp_int): mp_err {.mp_abi.} #proc mp_get_i32(a: mp_int): int32 {.mp_abi.} #proc mp_get_u32(a: mp_int): uint32 = # cast[uint32](mp_get_i32(a)) # proc mp_init_u64(a: mp_int, b: uint64): mp_err {.mp_abi.} # proc mp_set_u64(a: mp_int, b: uint64) {.mp_abi.} proc mp_to_radix(a: mp_int, str: ptr char, maxlen: csize_t, written: var csize_t, radix: cint): mp_err {.mp_abi.} proc mp_radix_size(a: mp_int, radix: cint, size: var csize_t): mp_err {.mp_abi.} proc toString*(a: mp_int): string = var size: csize_t if mp_radix_size(a, 10.cint, size) != MP_OKAY: return if size.int == 0: return result = newString(size.int) if mp_to_radix(a, result[0].getPtr, size, size, 10.cint) != MP_OKAY: return result.setLen(size-1) proc modExp*(b, e, m: openArray[byte]): seq[byte] = var base, exp, modulo, res: mp_int if mp_init_multi(base, exp.addr, modulo.addr, nil) != MP_OKAY: return if m.len > 0: discard mp_from_ubin(modulo, m[0].getPtr, m.len.csize_t) if mp_cmp_d(modulo, 1.mp_digit) <= MP_EQ: # EVM special case 1 # If m == 0: EVM returns 0. # If m == 1: we can shortcut that to 0 as well mp_clear(modulo) return @[0.byte] if e.len > 0: discard mp_from_ubin(exp, e[0].getPtr, e.len.csize_t) if mp_cmp_d(exp, 0.mp_digit) == MP_EQ: # EVM special case 2 # If 0^0: EVM returns 1 # For all x != 0, x^0 == 1 as well mp_clear_multi(exp, modulo.addr, nil) return @[1.byte] if b.len > 0: discard mp_from_ubin(base, b[0].getPtr, b.len.csize_t) if mp_exptmod(base, exp, modulo, res) == MP_OKAY: let size = mp_ubin_size(res) if size.int > 0: var written: csize_t result = newSeq[byte](size.int) discard mp_to_ubin(res, result[0].getPtr, size, written) result.setLen(written) mp_clear_multi(base, exp.addr, modulo.addr, res.addr, nil)