path: root/compare.py

#! /bin/python3
import re
import sys
import shutil
import argparse
from typing import List
from functools import partial as bind

from utils import check_version
from utils import print_separator

from run import Runner

progressive = False

class ContextBlock:
    regnames = ['PC',
                'RAX',
                'RBX',
                'RCX',
                'RDX',
                'RSI',
                'RDI',
                'RBP',
                'RSP',
                'R8',
                'R9',
                'R10',
                'R11',
                'R12',
                'R13',
                'R14',
                'R15',
                'flag ZF',
                'flag CF',
                'flag OF',
                'flag SF',
                'flag PF',
                'flag DF']

    def __init__(self):
        self.regs = {reg: None for reg in ContextBlock.regnames}
        self.has_backwards = False

    def set_backwards(self):
        self.has_backwards = True

    def set(self, idx: int, value: int):
        self.regs[list(self.regs.keys())[idx]] = value

    def __repr__(self):
        return self.regs.__repr__()

class Constructor:
    def __init__(self, structure: dict):
        self.cblocks = []
        self.structure = structure
        self.patterns = list(self.structure.keys())

    def match(self, line: str):
        # find patterns that match it
        regex = re.compile("|".join(self.patterns))
        match = regex.match(line)

        idx = self.patterns.index(match.group(0)) if match else 0

        pattern = self.patterns[idx]
        register = ContextBlock.regnames[idx]

        return register, self.structure[pattern](line)

    def add_backwards(self):
        self.cblocks[-1].set_backwards()

    def add(self, key: str, value: int):
        if key == 'PC':
            self.cblocks.append(ContextBlock())

        if self.cblocks[-1].regs[key] != None:
            raise RuntimeError("Reassigning register")

        self.cblocks[-1].regs[key] = value

class Transformations:
    def __init__(self, previous: ContextBlock, current: ContextBlock):
        self.transformation = ContextBlock()
        for el1 in current.regs.keys():
            for el2 in previous.regs.keys():
                if el1 != el2:
                    continue
                self.transformation.regs[el1] = current.regs[el1] - previous.regs[el2]

def parse(lines: list, labels: list):
    ctor = Constructor(labels)

    patterns = ctor.patterns.copy()
    patterns.append('Backwards')
    regex = re.compile("|".join(patterns))
    lines = [l for l in lines if regex.match(l) is not None]

    for line in lines:
        if 'Backwards' in line:
            ctor.add_backwards()
            continue

        key, value = ctor.match(line)
        ctor.add(key, value)

    return ctor.cblocks

def get_labels():
    split_value = lambda x,i: int(x.split()[i], 16)

    split_first = bind(split_value, i=1)
    split_second = bind(split_value, i=2)

    split_equal = lambda x,i: int(x.split('=')[i], 16)
    labels = {'INVOKE': bind(split_equal, i=1),
              'RAX': split_first,
              'RBX': split_first,
              'RCX': split_first,
              'RDX': split_first,
              'RSI': split_first,
              'RDI': split_first,
              'RBP': split_first,
              'RSP': split_first,
              'R8':  split_first,
              'R9':  split_first,
              'R10': split_first,
              'R11': split_first,
              'R12': split_first,
              'R13': split_first,
              'R14': split_first,
              'R15': split_first,
              'flag ZF': split_second,
              'flag CF': split_second,
              'flag OF': split_second,
              'flag SF': split_second,
              'flag PF': split_second,
              'flag DF': split_second}
    return labels

def equivalent(val1, val2, transformation, previous_translation):
    if val1 == val2:
        return True

    # TODO: maybe incorrect
    return val1 - previous_translation == transformation

def verify(translation: ContextBlock, reference: ContextBlock,
           transformation: Transformations, previous_translation: ContextBlock):
    if translation.regs["PC"] != reference.regs["PC"]:
        return 1

    print_separator()
    print(f'For PC={hex(translation.regs["PC"])}')
    print_separator()
    for el1 in translation.regs.keys():
        for el2 in reference.regs.keys():
            if el1 != el2:
                continue

            if translation.regs[el1] is None:
                print(f'Element not available in translation: {el1}')
                continue

            if reference.regs[el2] is None:
                print(f'Element not available in reference: {el2}')
                continue

            if not equivalent(translation.regs[el1], reference.regs[el2],
                              transformation.regs[el1], previous_translation.regs[el1]):
                print(f'Difference for {el1}: {hex(translation.regs[el1])} != {hex(reference.regs[el2])}')
    return 0

def compare(txl: List[ContextBlock], native: List[ContextBlock], stats: bool = False):
    txl = parse(txl, get_labels())
    native = parse(native, get_labels())

    if len(txl) != len(native):
        print(f'Different number of blocks discovered translation: {len(txl)} vs. '
              f'reference: {len(native)}', file=sys.stdout)

    previous_reference = native[0]
    previous_translation = txl[0]

    unmatched_pcs = {}
    if progressive:
        i = 0
        for translation in txl:
            previous = i

            while i < len(native):
                reference = native[i]
                transformations = Transformations(previous_reference, reference)
                if verify(translation, reference, transformations.transformation, previous_translation) == 0:
                    break

                previous_reference = reference
                previous_translation = translation
                i += 1

            # Didn't find anything
            if i == len(native):
                # TODO: add verbose output
                print_separator(stream=sys.stdout)
                print(f'No match for PC {hex(translation.regs["PC"])}', file=sys.stdout)
                if translation.regs['PC'] not in unmatched_pcs:
                    unmatched_pcs[translation.regs['PC']] = 0
                unmatched_pcs[translation.regs['PC']] += 1

                i = previous + 1

            if translation.has_backwards:
                i += 1
    else:
        txl = iter(txl)
        native = iter(native)
        for translation, reference in zip(txl, native):
            transformations = Transformations(previous_reference, reference)
            if verify(translation, reference, transformations.transformation, previous_translation) == 1:
                # TODO: add verbose output
                print_separator(stream=sys.stdout)
                print(f'No match for PC {hex(translation.regs["PC"])}', file=sys.stdout)
                if translation.regs['PC'] not in unmatched_pcs:
                    unmatched_pcs[translation.regs['PC']] = 0
                unmatched_pcs[translation.regs['PC']] += 1

            if translation.has_backwards:
                next(native)

            previous_reference = reference
            previous_translation = translation

    if stats:
        print_separator()
        print('Statistics:')
        print_separator()

        for pc in unmatched_pcs:
            print(f'PC {hex(pc)} unmatched {unmatched_pcs[pc]} times')
    return 0

def read_logs(txl_path, native_path, program):
    txl = []
    with open(txl_path, "r") as txl_file:
        txl = txl_file.readlines()

    native = []
    if program is not None:
        runner = Runner(txl, program)
        native = runner.run()
    else:
        with open(native_path, "r") as native_file:
            native = native_file.readlines()

    return txl, native

def parse_arguments():
    parser = argparse.ArgumentParser(description='Comparator for emulator logs to reference')
    parser.add_argument('-p', '--program',
                        type=str,
                        help='Path to oracle program')
    parser.add_argument('-r', '--ref',
                        type=str,
                        required=True,
                        help='Path to the reference log (gathered with run.sh)')
    parser.add_argument('-t', '--txl',
                        type=str,
                        required=True,
                        help='Path to the translation log (gathered via Arancini)')
    parser.add_argument('-s', '--stats',
                        action='store_true',
                        default=False,
                        help='Run statistics on comparisons')
    parser.add_argument('-v', '--verbose',
                        action='store_true',
                        default=True,
                        help='Path to oracle program')
    parser.add_argument('--progressive',
                        action='store_true',
                        default=False,
                        help='Try to match exhaustively before declaring \
                        mismatch')
    args = parser.parse_args()
    return args

if __name__ == "__main__":
    check_version('3.7')

    args = parse_arguments()

    txl_path = args.txl
    native_path = args.ref
    program = args.program

    stats = args.stats
    verbose = args.verbose
    progressive = args.progressive

    if program is None and native_path is None:
        raise ValueError('Either program or path to native file must be'
                         'provided')

    txl, native = read_logs(txl_path, native_path, program)

    if program != None and native_path != None:
        with open(native_path, 'w') as w:
            w.write(''.join(native))

    compare(txl, native, stats)