From: Jacob Lifshay Date: Wed, 27 Sep 2023 04:41:58 +0000 (-0700) Subject: working on adding divmod 512x256 to 256x256 X-Git-Url: https://git.libre-soc.org/?a=commitdiff_plain;h=8444282d4c29bbeb19e84612c5f075d078d27f3b;p=openpower-isa.git working on adding divmod 512x256 to 256x256 --- diff --git a/src/openpower/decoder/isa/test_caller_svp64_powmod.py b/src/openpower/decoder/isa/test_caller_svp64_powmod.py index 3b7a77f2..37da2b72 100644 --- a/src/openpower/decoder/isa/test_caller_svp64_powmod.py +++ b/src/openpower/decoder/isa/test_caller_svp64_powmod.py @@ -12,22 +12,71 @@ related bugs: """ import unittest - +from functools import lru_cache +import os from openpower.test.bigint.powmod import PowModCases from openpower.test.runner import TestRunnerBase # writing the test_caller invocation this way makes it work with pytest -class TestPowMod(TestRunnerBase): +@lru_cache() +def make_cases(): + # cache globally, so we only have to create test_data once per process + return PowModCases().test_data + + +class TestPowModBase(TestRunnerBase): + __test__ = False + + # split up test cases into SPLIT_COUNT tests, so we get some parallelism + SPLIT_COUNT = 64 + SPLIT_INDEX = -1 + def __init__(self, test): - assert test == 'test' - super().__init__(PowModCases().test_data) + assert test == 'test', f"test={test!r}" + self.__old_silence_log = os.environ.get("SILENCELOG") + cases = make_cases() + assert self.SPLIT_INDEX != -1, "must be overridden" + # split cases evenly over tests + start = (len(cases) * self.SPLIT_INDEX) // self.SPLIT_COUNT + end = (len(cases) * (self.SPLIT_INDEX + 1)) // self.SPLIT_COUNT + # if we have less cases than tests, move them all to the beginning, + # making finding failures faster + if len(cases) < self.SPLIT_COUNT: + start = 0 + end = 0 + if self.SPLIT_INDEX < len(cases): + start = self.SPLIT_INDEX + end = start + 1 + # can't do raise SkipTest if `start == end`, it makes unittest break + super().__init__(cases[start:end]) + + def setUp(self): + super().setUp() + if self.__old_silence_log is None: + os.environ["SILENCELOG"] = "!*,default" + + def tearDown(self): + super().tearDown() + if self.__old_silence_log is None: + del os.environ["SILENCELOG"] + + @classmethod + def make_split_classes(cls): + for i in range(cls.SPLIT_COUNT): + exec(f""" +class TestPowMod{i}(TestPowModBase): + __test__ = True + SPLIT_INDEX = {i} def test(self): # dummy function to make unittest try to test this class pass + """, globals()) + +TestPowModBase.make_split_classes() if __name__ == "__main__": unittest.main() diff --git a/src/openpower/test/bigint/powmod.py b/src/openpower/test/bigint/powmod.py index 67043948..c0d5e316 100644 --- a/src/openpower/test/bigint/powmod.py +++ b/src/openpower/test/bigint/powmod.py @@ -17,7 +17,7 @@ from openpower.test.util import assemble from nmutil.sim_util import hash_256 -MUL_256_X_256_TO_512_ASM = [ +MUL_256_X_256_TO_512_ASM = ( "mul_256_to_512:", # a is in r4-7, b is in r8-11 "setvl 0, 0, 8, 0, 1, 1", # set VL to 8 @@ -39,7 +39,7 @@ MUL_256_X_256_TO_512_ASM = [ "sv.addc 7, 7, 40", "sv.adde *8, *8, *41", "bclr 20, 0, 0 # blr", -] +) def _python_mul_algorithm(a, b): @@ -83,6 +83,68 @@ def _python_mul_algorithm(a, b): return y +DIVMOD_512x256_TO_256x256_ASM = ( + # extremely slow and simplistic shift and subtract algorithm. + # a future task is to rewrite to use Knuth's Algorithm D, + # which is generally an order of magnitude faster + "divmod_512_by_256:", + # n is in r4-11, d is in r32-35 + "addi 3, 0, 256 # li 3, 256", + "mtspr 9, 3 # mtctr 3", # set CTR to 256 + "setvl 0, 0, 8, 0, 1, 1", # set VL to 8 + # r is in r40-47 + "sv.or *40, *4, *4", # assign n to r, in r40-47 + # shifted_d is in r32-39 + "setvl 0, 0, 4, 0, 1, 1", # set VL to 4 + "addi 3, 0, 1 # li 3, 1", # shift amount + "addi 0, 0, 0 # li 0, 0", # dsrd carry + "sv.dsrd/mrr *36, *32, 3, 0", # shifted_d = d << (256 - 1) + "sv.addi *32, 0, 0", # clear lsb half + "sv.or 35, 0, 0", # move carry to correct location + # q is in r4-7 + "sv.addi *4, 0, 0", # clear q + "divmod_loop:", + "setvl 0, 0, 8, 0, 1, 1", # set VL to 8 + "subfc 0, 0, 0", # set CA + # diff is in r48-55 + "sv.subfe *48, *32, *40", # diff = r - shifted_d + # not borrowed is in CA + "mcrxrx 0", # move CA to CR0.eq + "setvl 0, 0, 4, 0, 1, 1", # set VL to 4 + "addi 0, 0, 0 # li 0, 0", # dsld carry + "sv.dsld *4, *4, 3, 0", # q <<= 1 (1 is in r3) + "setvl 0, 0, 8, 0, 1, 1", # set VL to 8 + "bc 4, 2, divmod_else # bne divmod_else", # if borrowed goto divmod_else + "ori 4, 4, 1", # q |= 1 + "sv.or *40, *48, *48", # r = diff + "divmod_else:", + "addi 0, 0, 0 # li 0, 0", # dsld carry + "sv.dsld *40, *40, 3, 0", # r <<= 1 (1 is in r3) + "bc 16, 0, divmod_loop # bdnz divmod_loop", + "setvl 0, 0, 4, 0, 1, 1", # set VL to 4 + # r is in r40-47 + "sv.or *8, *44, 44", # r >>= 256 + # q is in r4-7, r is in r8-11 + "bclr 20, 0, 0 # blr", +) + + +def python_divmod_algorithm(n, d, width=256): + assert n >= 0 and d > 0 and width > 0 and n < (d << width), "invalid input" + r = n + shifted_d = d << (width - 1) + q = 0 + for _ in range(width): + diff = r - shifted_d + borrowed = diff < 0 + q <<= 1 + if not borrowed: + q |= 1 + r = diff + r <<= 1 + return q, r >> width + + class PowModCases(TestAccumulatorBase): def call_case(self, instructions, expected, initial_regs, src_loc_at=0): stop_at_pc = 0x10000000 @@ -122,7 +184,49 @@ class PowModCases(TestAccumulatorBase): self.call_case(MUL_256_X_256_TO_512_ASM, e, initial_regs) - # TODO: add 512x256-bit divrem + @skip_case("FIXME: wip -- currently broken") + def case_divmod_512x256_to_256x256(self): + for i in range(10): + n = hash_256(f"divmod256 input n msb {i}") + n <<= 256 + n |= hash_256(f"divmod256 input n lsb {i}") + d = hash_256(f"divmod256 input d {i}") + if i == 0: + # use known values: + n = 2 ** (256 - 1) + d = 1 + elif i == 1: + # use known values: + n = 2 ** (512 - 1) - 1 + d = 2 ** 256 - 1 + if d == 0: + d = 1 + if n >= d << 256: + n -= d << 256 + q, r = divmod(n, d) + with self.subTest(n=f"{n:#_x}", d=f"{d:#_x}", + q=f"{q:#_x}", r=f"{r:#_x}"): + # registers start filled with junk + initial_regs = [0xABCDEF] * 128 + for i in range(8): + # write n in LE order to regs 4-11 + initial_regs[4 + i] = (n >> (64 * i)) % 2**64 + for i in range(4): + # write d in LE order to regs 32-35 + initial_regs[32 + i] = (d >> (64 * i)) % 2**64 + # only check regs up to r11 since that's where the output is. + # don't check CR + e = ExpectedState(int_regs=initial_regs[:12], crregs=0) + e.intregs[0] = 0 # leftovers -- ignore + e.intregs[3] = 1 # leftovers -- ignore + for i in range(4): + # write q in LE order to regs 4-7 + e.intregs[4 + i] = (q >> (64 * i)) % 2**64 + # write r in LE order to regs 8-11 + e.intregs[8 + i] = (r >> (64 * i)) % 2**64 + + self.call_case(DIVMOD_512x256_TO_256x256_ASM, e, initial_regs) + # TODO: add 256-bit modular exponentiation