mirror of
https://github.com/trezor/trezor-firmware.git
synced 2024-11-18 05:28:40 +00:00
400 lines
14 KiB
Python
Executable File
400 lines
14 KiB
Python
Executable File
#!/usr/bin/env python3
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# -*- coding: utf-8 -*-
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"""
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This experimental program is designed to extract a subset of interesting test
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case snippets from the trezor-crypto test directory and output them as a
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standard fuzzer dictionary file.
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The program is built on quick-and-dirty regex matching that is known to be
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incorrect for parsing code files, but is considered "good enough" for this
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specific purpose.
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Note that there are target-specific configurations and internal filter settings.
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"""
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import argparse
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import binascii
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import glob
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import re
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# re2 is considered for future use
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# it requires a system installation and the google-re2 python package
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# import re2
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# Expected target format for strings in code:
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# Most strings are defined in the general form "example"
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# There are a few test vectors in crypto/tests/wycheproof/javascript/EcUtil.js
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# with 'example' style string definitions, these are ignored for now
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TARGET_DIR = "../tests"
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# intentionally excluded file types that currently do not provide enough value:
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# *.js, *.md, *.sh, *.html and others from the wycheproof subdirectory
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targeted_filetypes_multiline_classA = ("*.c", "*.h", "*.py")
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# Java files have different multiline strings that are handled differently
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targeted_filetypes_multiline_classB = ("*.java",)
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targeted_filetypes_multiline = (
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targeted_filetypes_multiline_classA + targeted_filetypes_multiline_classB
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)
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# files without multiline string content
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# Note: consider switching to actual JSON parsing?
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# Note: the wycheproof repository has a number of test cases for other
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# cryptography such as DSA and RSA which are currently less interesting for the
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# fuzzer dictionary and therefore excluded
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targeted_filetypes_singleline = (
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"aes*.json",
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"ecdh*.json",
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"ecdsa*.json",
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"x25519*.json",
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"chacha20*.json",
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"kw*.json",
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)
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verbose = False
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# patterns to extract
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# singleline:
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# "4a1e76f133afb"
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# 0xAF8BBDFE8CDD5 and 0x0488b21e
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# m/0'/2147483647'/1'/2147483646'/2' in test_check.c via m/[\d'/]+
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#
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# multiline:
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# "fffc" \n "99"
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# "dpubZ9169K" \n "bTYbcY"
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# "\x65\xf9" \\n "\xa0\x6a"
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# { 0x086d8bd5, 0x1018f82f, \n 0xc55ece} , see rg "0x([a-zA-Z0-9])+"
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# patterns to ignore
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# lines with print statements
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# lines with exceptions
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# comments and other metadata in the testvector JSON files
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# filenames
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# import statements and other package names
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# patterns to investigate further
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# public keys with the form BEGIN PUBLIC KEY
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# TODO "abc" + "def" string concatenation on the same line without newline
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# strings in comments
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# dictionary text export file format
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# general description:
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# https://github.com/AFLplusplus/AFLplusplus/blob/stable/dictionaries/README.md
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#
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# the exported file is primarly designed for use with a recent libFuzzer version
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# and is known to be partially incompatible with other fuzzers that impose
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# other limitations
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#
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# known incompatibilities:
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# * honggfuzz only reads a limited number of dictionary entries (8192 with version 2.5)
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# * afl++ only reads line content with up to 128 byte
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# match everything in quotes that doesn't have an internal quote character and
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# at least one internal character
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regex_string_general_definition = r"\"[^\"]+\""
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regex_string_general = re.compile(regex_string_general_definition)
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# the capturing group ignores prefix and suffix outside of the quotes
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# Note that this is prone to matching the last line of a C-style multiline string,
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# which is addressed via extra state handling during the file processing
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regex_oneline_string = re.compile(
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r"(" + regex_string_general_definition + r")\s*[\,\)]+"
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)
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# ignore lines that have a "+" character preceding a string
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regex_oneline_string_java_ignore1 = re.compile(r"^\s*\+\s*\"")
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regex_hex_character_segment_inner_definition = "[0-9a-fA-F]+"
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regex_hex_character_input_complete = re.compile(
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'^"' + regex_hex_character_segment_inner_definition + '"$'
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)
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regex_hex_character_input_inner = re.compile(
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regex_hex_character_segment_inner_definition
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)
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# most constants are preceded by a space, but some have a "(" "[" or "{" before them
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regex_hex_constant_singleline = re.compile(r"(?<=\(|\[|\{| )0x[a-fA-F0-9]+")
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regex_c_style_multiline = re.compile(r"(?:\".+\"\s*\n\s*)+(?:\".+\")", re.MULTILINE)
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regex_c_intermediary_content = re.compile(r"\"\s*\n\s*\"", re.MULTILINE)
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# TODO how to prevent matching in the middle of a multi-line string concatenation?
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# negative lookbehind for "+" is not possible generically and
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# (?<!\+ ) and similar patterns are too static
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regex_java_style_multiline = re.compile(
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r"(?:\".+\"\s*\n\s*\+\s*)+(?:\".+\")", re.MULTILINE
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)
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regex_java_intermediary_content = re.compile(r"\"\s*\n\s*\+\s*\"", re.MULTILINE)
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regex_text_newline = re.compile(r"\\n")
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# primitive regex that catches most filenames in the data set
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regex_filename_heuristic = re.compile(r"\.[a-zA-Z]+")
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counter_hex_content = 0
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counter_wycheproof_hex_reconstruction = 0
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# TODO add '"curve"' to capture algorithm names?
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allowlist_keywords_json = (
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'"uncompressed"',
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'"wx"',
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'"wy"',
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'"msg"',
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'"sig"',
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'"key"',
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'"iv"',
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'"ct"',
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'"aad"',
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'"tag"',
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'"public"',
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'"private"',
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'"shared"',
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'"padding"',
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'"x"',
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'"d"',
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)
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# TODO the "keyPem" entry is only a workaround for an encoding issue
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ignore_keywords_java = (
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"println(",
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"Exception(",
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'"keyPem"',
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)
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ignore_keywords_c = ("printf(",)
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def ignore_single_line_json(data):
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"""return True if the input should be ignored"""
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# ignore everything that is not matched by the allowlist
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for keyword in allowlist_keywords_json:
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if data.find(keyword) > -1:
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return False
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return True
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def ignore_single_line_java(data):
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"""return True if the input should be ignored"""
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for keyword in ignore_keywords_java:
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if data.find(keyword) > -1:
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return True
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return False
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def ignore_single_line_c(data):
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"""return True if the input should be ignored"""
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for keyword in ignore_keywords_c:
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if data.find(keyword) > -1:
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return True
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return False
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def ignore_general(data):
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"""return True if the input should be ignored"""
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if regex_filename_heuristic.search(data):
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return True
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return False
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def encode_strings_for_dictionary(data):
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"""
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Assumes that inputs are already in string quotes
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Handles dictionary-specific encoding steps
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"""
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# libfuzzer does not like "\n" string patterns in dictionary files, replace
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# it with an encoded newline
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data = regex_text_newline.sub("\\\\x0a", data)
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return data
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def detect_and_convert_hex(data):
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"""
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Convert hex strings
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Directly pass through non-hex content
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"""
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global counter_hex_content
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global counter_wycheproof_hex_reconstruction
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match_result1 = regex_hex_character_input_complete.search(data)
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if match_result1:
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match_result2 = regex_hex_character_input_inner.search(match_result1.string)
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isolated_substring = match_result2.group(0)
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if len(isolated_substring) % 2 == 1:
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# Note: the test cases in the wycheproof testvector JSON files have
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# a custom binary hex format to represent keys
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# among other things, this results in hex strings with an uneven
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# number of characters
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# see tests/wycheproof/java/com/google/security/wycheproof/JsonUtil.java
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# specifically the asBigInteger() function for more information
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if isolated_substring[0] >= "0" and isolated_substring[0] <= "7":
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isolated_substring = "0" + isolated_substring
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else:
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isolated_substring = "f" + isolated_substring
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counter_wycheproof_hex_reconstruction += 1
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converted_result = ""
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try:
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# test error-free conversion to binary
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binascii.unhexlify(isolated_substring)
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hex_with_c_style_formatting = ""
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pos = 0
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while pos < len(isolated_substring) - 1:
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hex_with_c_style_formatting += "\\x" + isolated_substring[pos : pos + 2]
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pos += 2
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converted_result = '"%s"' % hex_with_c_style_formatting
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# TODO binascii.Incomplete exception also relevant?
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except binascii.Error:
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# default to the original input
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return data
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counter_hex_content += 1
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return converted_result
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return data
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def search_files_recursively(directory, filetype_glob):
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"""returns glob search results"""
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target_files = []
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print_verbose("searching in %s" % directory)
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for filetype in filetype_glob:
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print_verbose("searching for %s" % filetype)
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target_files.extend(glob.glob(f"{directory}/**/{filetype}", recursive=True))
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return target_files
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def print_verbose(text):
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"""print wrapper"""
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if verbose:
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print(text)
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def recursive_dictionary_extraction(directory):
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"""handle the central extraction logic"""
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# TODO split this function up into subfunctions
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global counter_hex_content
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# handle as a set structure to de-duplicate results automatically
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candidate_lines = set()
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target_files = search_files_recursively(directory, targeted_filetypes_singleline)
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for filepath in target_files:
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per_file_result_counter = 0
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with open(filepath) as _file:
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print_verbose("processing %s" % filepath)
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for _, line in enumerate(_file.readlines()):
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if ignore_single_line_json(line):
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continue
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results = regex_oneline_string.findall(line)
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for result in results:
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candidate_lines.add(result)
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per_file_result_counter += 1
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if per_file_result_counter > 0:
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print_verbose("results: %d" % per_file_result_counter)
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print_verbose("number of candidate entries: %d" % len(candidate_lines))
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target_files = search_files_recursively(directory, targeted_filetypes_multiline)
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for filepath in target_files:
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per_file_result_counter = 0
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with open(filepath) as _file:
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last_line_was_multiline_string = False
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print_verbose("processing %s for single-line strings" % filepath)
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for _, line in enumerate(_file.readlines()):
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if ignore_single_line_java(line):
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last_line_was_multiline_string = False
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continue
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if ignore_single_line_c(line):
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last_line_was_multiline_string = False
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continue
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if regex_oneline_string_java_ignore1.search(line):
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last_line_was_multiline_string = True
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if regex_oneline_string.search(line):
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# the Java multiline string apparently ends on this line
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last_line_was_multiline_string = False
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continue
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result_general_string = regex_string_general.search(line)
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if result_general_string:
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# at least one general string is matched, see if it is
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# a single-line string
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results = regex_oneline_string.findall(line)
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for result in results:
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if not last_line_was_multiline_string:
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candidate_lines.add(result)
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per_file_result_counter += 1
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last_line_was_multiline_string = False
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if len(results) == 0:
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last_line_was_multiline_string = True
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else:
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last_line_was_multiline_string = False
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# TODO split this into a separate loop?
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results = regex_hex_constant_singleline.findall(line)
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for result in results:
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# remove the "0x" prefix, add quotes
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candidate_lines.add('"%s"' % result[2:])
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per_file_result_counter += 1
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if per_file_result_counter > 0:
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print_verbose("results: %d" % per_file_result_counter)
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target_files = search_files_recursively(
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directory, targeted_filetypes_multiline_classA
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)
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for filepath in target_files:
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with open(filepath) as _file:
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print_verbose("processing %s for C-style multi-line strings" % filepath)
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filecontent = _file.read()
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multiline_results = regex_c_style_multiline.findall(filecontent)
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if len(multiline_results) > 0:
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print_verbose("results: %d" % len(multiline_results))
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for result in multiline_results:
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cleanup = regex_c_intermediary_content.sub("", result)
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candidate_lines.add(cleanup)
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target_files = search_files_recursively(
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directory, targeted_filetypes_multiline_classB
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)
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for filepath in target_files:
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with open(filepath) as _file:
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print_verbose("processing %s for Java-style multi-line strings" % filepath)
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filecontent = _file.read()
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multiline_results = regex_java_style_multiline.findall(filecontent)
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if len(multiline_results) > 0:
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print_verbose("results: %d" % len(multiline_results))
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for result in multiline_results:
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cleanup = regex_java_intermediary_content.sub("", result)
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candidate_lines.add(cleanup)
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return candidate_lines
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if __name__ == "__main__":
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parser = argparse.ArgumentParser()
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parser.add_argument("dictionary_output_file", help="output file", type=str)
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parser.add_argument("--verbose", action="store_true", help="verbose stdout output")
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args = parser.parse_args()
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verbose = args.verbose
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collected_candidate_lines = recursive_dictionary_extraction(TARGET_DIR)
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sorted_candidate_lines = sorted(collected_candidate_lines)
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result_lines = []
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for candidate_line in sorted_candidate_lines:
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if ignore_general(candidate_line):
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continue
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result_lines.append(
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encode_strings_for_dictionary(detect_and_convert_hex(candidate_line))
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)
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print_verbose("counter_hex_content: %d" % counter_hex_content)
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print_verbose(
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"counter_wycheproof_hex_reconstruction: %d"
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% counter_wycheproof_hex_reconstruction
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)
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print_verbose("overall deduplicated entries: %d" % len(sorted_candidate_lines))
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with open(args.dictionary_output_file, "w") as _file:
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for result_line in result_lines:
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_file.write("%s\n" % result_line)
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