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flawfinder.py
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flawfinder.py
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#!/usr/bin/env python
"""flawfinder: Find potential security flaws ("hits") in source code.
Usage:
flawfinder [options] [source_code_file]+
See the man page for a description of the options."""
# The default output is as follows:
# filename:line_number [risk_level] (type) function_name: message
# where "risk_level" goes from 0 to 5. 0=no risk, 5=maximum risk.
# The final output is sorted by risk level, most risky first.
# Optionally ":column_number" can be added after the line number.
#
# Currently this program can only analyze C/C++ code.
#
# Copyright (C) 2001-2019 David A. Wheeler.
# This is released under the
# GNU General Public License (GPL) version 2 or later (GPL-2.0+):
#
# This program is free software; you can redistribute it and/or modify
# it under the terms of the GNU General Public License as published by
# the Free Software Foundation; either version 2 of the License, or
# (at your option) any later version.
#
# This program is distributed in the hope that it will be useful,
# but WITHOUT ANY WARRANTY; without even the implied warranty of
# MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
# GNU General Public License for more details.
#
# You should have received a copy of the GNU General Public License
# along with this program; if not, write to the Free Software
# Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA
# This code is written to run on both Python 2.7 and Python 3.
# The Python developers did a *terrible* job when they transitioned
# to Python version 3, as I have documented elsewhere.
# Thankfully, more recent versions of Python 3, and the most recent version of
# Python 2, make it possible (though ugly) to write code that runs on both.
# That *finally* makes it possible to semi-gracefully transition.
from __future__ import division
from __future__ import print_function
import functools
import sys
import re
import string
import getopt
import pickle # To support load/save/diff of hitlist
import os
import glob
import operator # To support filename expansion on Windows
import time
import csv # To support generating CSV format
import hashlib
import json
version = "2.0.19"
# Program Options - these are the default values.
# TODO: Switch to boolean types where appropriate.
# We didn't use boolean types originally because this program
# predates Python's PEP 285, which added boolean types to Python 2.3.
# Even after Python 2.3 was released, we wanted to run on older versions.
# That's irrelevant today, but since "it works" there hasn't been a big
# rush to change it.
show_context = 0
minimum_level = 1
show_immediately = 0
show_inputs = 0 # Only show inputs?
falsepositive = 0 # Work to remove false positives?
allowlink = 0 # Allow symbolic links?
skipdotdir = 1 # If 1, don't recurse into dirs beginning with "."
# Note: This doesn't affect the command line.
num_links_skipped = 0 # Number of links skipped.
num_dotdirs_skipped = 0 # Number of dotdirs skipped.
show_columns = 0
never_ignore = 0 # If true, NEVER ignore problems, even if directed.
list_rules = 0 # If true, list the rules (helpful for debugging)
patch_file = "" # File containing (unified) diff output.
loadhitlist = None
savehitlist = None
diffhitlist_filename = None
quiet = 0
showheading = 1 # --dataonly turns this off
output_format = 0 # 0 = normal, 1 = html.
single_line = 0 # 1 = singleline (can 't be 0 if html)
csv_output = 0 # 1 = Generate CSV
csv_writer = None
sarif_output = 0 # 1 = Generate SARIF report
omit_time = 0 # 1 = omit time-to-run (needed for testing)
required_regex = None # If non-None, regex that must be met to report
required_regex_compiled = None
ERROR_ON_DISABLED_VALUE = 999
error_level = ERROR_ON_DISABLED_VALUE # Level where we're return error code
error_level_exceeded = False
displayed_header = 0 # Have we displayed the header yet?
num_ignored_hits = 0 # Number of ignored hits (used if never_ignore==0)
def error(message):
sys.stderr.write("Error: %s\n" % message)
# Support routines: find a pattern.
# To simplify the calling convention, several global variables are used
# and these support routines are defined, in an attempt to make the
# actual calls simpler and clearer.
#
filename = "" # Source filename.
linenumber = 0 # Linenumber from original file.
ignoreline = -1 # Line number to ignore.
sumlines = 0 # Number of lines (total) examined.
sloc = 0 # Physical SLOC
starttime = time.time() # Used to determine analyzed lines/second.
# Send warning message. This is written this way to work on
# Python version 2.5 through Python 3.
def print_warning(message):
sys.stderr.write("Warning: ")
sys.stderr.write(message)
sys.stderr.write("\n")
sys.stderr.flush()
def to_json(o):
return json.dumps(o, default=lambda o: o.__dict__, sort_keys=False, indent=2)
# The following implements the SarifLogger.
# We intentionally merge all of flawfinder's functionality into 1 file
# so it's trivial to copy & use elsewhere.
class SarifLogger(object):
_hitlist = None
TOOL_NAME = "Flawfinder"
TOOL_URL = "https://dwheeler.com/flawfinder/"
TOOL_VERSION = version
URI_BASE_ID = "SRCROOT"
SARIF_SCHEMA = "https://schemastore.azurewebsites.net/schemas/json/sarif-2.1.0-rtm.5.json"
SARIF_SCHEMA_VERSION = "2.1.0"
CWE_TAXONOMY_NAME = "CWE"
CWE_TAXONOMY_URI = "https://raw.githubusercontent.com/sarif-standard/taxonomies/main/CWE_v4.4.sarif"
CWE_TAXONOMY_GUID = "FFC64C90-42B6-44CE-8BEB-F6B7DAE649E5"
def __init__ (self, hits):
self._hitlist = hits
def output_sarif(self):
tool = {
"driver": {
"name": self.TOOL_NAME,
"version": self.TOOL_VERSION,
"informationUri": self.TOOL_URL,
"rules": self._extract_rules(self._hitlist),
"supportedTaxonomies": [{
"name": self.CWE_TAXONOMY_NAME,
"guid": self.CWE_TAXONOMY_GUID,
}],
}
}
runs = [{
"tool": tool,
"columnKind": "utf16CodeUnits",
"results": self._extract_results(self._hitlist),
"externalPropertyFileReferences": {
"taxonomies": [{
"location": {
"uri": self.CWE_TAXONOMY_URI,
},
"guid": self.CWE_TAXONOMY_GUID,
}],
},
}]
report = {
"$schema": self.SARIF_SCHEMA,
"version": self.SARIF_SCHEMA_VERSION,
"runs": runs,
}
jsonstr = to_json(report)
return jsonstr
def _extract_rules(self, hitlist):
rules = {}
for hit in hitlist:
if not hit.ruleid in rules:
rules[hit.ruleid] = self._to_sarif_rule(hit)
return list(rules.values())
def _extract_results(self, hitlist):
results = []
for hit in hitlist:
results.append(self._to_sarif_result(hit))
return results
def _to_sarif_rule(self, hit):
return {
"id": hit.ruleid,
"name": "{0}/{1}".format(hit.category, hit.name),
"shortDescription": {
"text": self._append_period(hit.warning),
},
"defaultConfiguration": {
"level": self._to_sarif_level(hit.defaultlevel),
},
"helpUri": hit.helpuri(),
"relationships": self._extract_relationships(hit.cwes()),
}
def _to_sarif_result(self, hit):
return {
"ruleId": hit.ruleid,
"level": self._to_sarif_level(hit.level),
"message": {
"text": self._append_period("{0}/{1}:{2}".format(hit.category, hit.name, hit.warning)),
},
"locations": [{
"physicalLocation": {
"artifactLocation": {
"uri": self._to_uri_path(hit.filename),
"uriBaseId": self.URI_BASE_ID,
},
"region": {
"startLine": hit.line,
"startColumn": hit.column,
"endColumn": len(hit.context_text) + 1,
"snippet": {
"text": hit.context_text,
}
}
}
}],
"fingerprints": {
"contextHash/v1": hit.fingerprint()
},
"rank": self._to_sarif_rank(hit.level),
}
def _extract_relationships(self, cwestring):
# example cwe string "CWE-119!/ CWE-120", "CWE-829, CWE-20"
relationships = []
for cwe in re.split(',|/',cwestring):
cwestr = cwe.strip()
if cwestr:
relationship = {
"target": {
"id": cwestr.replace("!", ""),
"toolComponent": {
"name": self.CWE_TAXONOMY_NAME,
"guid": self.CWE_TAXONOMY_GUID,
},
},
"kinds": [
"relevant" if cwestr[-1] != '!' else "incomparable"
],
}
relationships.append(relationship)
return relationships
@staticmethod
def _to_sarif_level(level):
# level 4 & 5
if level >= 4:
return "error"
# level 3
if level == 3:
return "warning"
# level 0 1 2
return "note"
@staticmethod
def _to_sarif_rank(level):
#SARIF rank FF Level SARIF level Default Viewer Action
#0.0 0 note Does not display by default
#0.2 1 note Does not display by default
#0.4 2 note Does not display by default
#0.6 3 warning Displays by default, does not break build / other processes
#0.8 4 error Displays by default, breaks build/ other processes
#1.0 5 error Displays by default, breaks build/ other processes
return level * 0.2
@staticmethod
def _to_uri_path(path):
return path.replace("\\", "/")
@staticmethod
def _append_period(text):
return text if text[-1] == '.' else text + "."
# The following code accepts unified diff format from both subversion (svn)
# and GNU diff, which aren't well-documented. It gets filenames from
# "Index:" if exists, else from the "+++ FILENAME ..." entry.
# Note that this is different than some tools (which will use "+++" in
# preference to "Index:"), but subversion's nonstandard format is easier
# to handle this way.
# Since they aren't well-documented, here's some info on the diff formats:
# GNU diff format:
# --- OLDFILENAME OLDTIMESTAMP
# +++ NEWFILENAME NEWTIMESTAMP
# @@ -OLDSTART,OLDLENGTH +NEWSTART,NEWLENGTH @@
# ... Changes where preceeding "+" is add, "-" is remove, " " is unchanged.
#
# ",OLDLENGTH" and ",NEWLENGTH" are optional (they default to 1).
# GNU unified diff format doesn't normally output "Index:"; you use
# the "+++/---" to find them (presuming the diff user hasn't used --label
# to mess it up).
#
# Subversion format:
# Index: FILENAME
# --- OLDFILENAME (comment)
# +++ NEWFILENAME (comment)
# @@ -OLDSTART,OLDLENGTH +NEWSTART,NEWLENGTH @@
#
# In subversion, the "Index:" always occurs, and note that paren'ed
# comments are in the oldfilename/newfilename, NOT timestamps like
# everyone else.
#
# Git format:
# diff --git a/junk.c b/junk.c
# index 03d668d..5b005a1 100644
# --- a/junk.c
# +++ b/junk.c
# @@ -6,4 +6,5 @@ main() {
#
# Single Unix Spec version 3 (http://www.unix.org/single_unix_specification/)
# does not specify unified format at all; it only defines the older
# (obsolete) context diff format. That format DOES use "Index:", but
# only when the filename isn't specified otherwise.
# We're only supporting unified format directly; if you have an older diff
# format, use "patch" to apply it, and then use "diff -u" to create a
# unified format.
#
diff_index_filename = re.compile(r'^Index:\s+(?P<filename>.*)')
diff_git_filename = re.compile(r'^diff --git a/.* b/(?P<filename>.*)$')
diff_newfile = re.compile(r'^\+\+\+\s(?P<filename>.*)$')
diff_hunk = re.compile(r'^@@ -\d+(,\d+)?\s+\+(?P<linenumber>\d+)[, ].*@@')
diff_line_added = re.compile(r'^\+[^+].*')
diff_line_del = re.compile(r'^-[^-].*')
# The "+++" newfile entries have the filename, followed by a timestamp
# or " (comment)" postpended.
# Timestamps can be of these forms:
# 2005-04-24 14:21:39.000000000 -0400
# Mon Mar 10 15:13:12 1997
# Also, "newfile" can have " (comment)" postpended. Find and eliminate this.
# Note that the expression below is Y10K (and Y100K) ready. :-).
diff_findjunk = re.compile(
r'^(?P<filename>.*)('
r'(\s\d\d\d\d+-\d\d-\d\d\s+\d\d:\d[0-9:.]+Z?(\s+[\-\+0-9A-Z]+)?)|'
r'(\s[A-Za-z][a-z]+\s[A-za-z][a-z]+\s\d+\s\d+:\d[0-9:.]+Z?'
r'(\s[\-\+0-9]*)?\s\d\d\d\d+)|'
r'(\s\(.*\)))\s*$'
)
def is_svn_diff(sLine):
if sLine.find('Index:') != -1:
return True
return False
def is_gnu_diff(sLine):
if sLine.startswith('--- '):
return True
return False
def is_git_diff(sLine):
if sLine.startswith('diff --git a'):
return True
return False
def svn_diff_get_filename(sLine):
return diff_index_filename.match(sLine)
def gnu_diff_get_filename(sLine):
newfile_match = diff_newfile.match(sLine)
if newfile_match:
patched_filename = newfile_match.group('filename').strip()
# Clean up filename - remove trailing timestamp and/or (comment).
return diff_findjunk.match(patched_filename)
return None
def git_diff_get_filename(sLine):
return diff_git_filename.match(sLine)
# For each file found in the file input_patch_file, keep the
# line numbers of the new file (after patch is applied) which are added.
# We keep this information in a hash table for a quick access later.
#
def load_patch_info(input_patch_file):
patch = {}
line_counter = 0
initial_number = 0
try:
hPatch = open(input_patch_file, 'r')
except BaseException:
print("Error: failed to open", h(input_patch_file))
sys.exit(10)
patched_filename = "" # Name of new file patched by current hunk.
sLine = hPatch.readline()
# Heuristic to determine if it's a svn diff, git diff, or a GNU diff.
if is_svn_diff(sLine):
fn_get_filename = svn_diff_get_filename
elif is_git_diff(sLine):
fn_get_filename = git_diff_get_filename
elif is_gnu_diff(sLine):
fn_get_filename = gnu_diff_get_filename
else:
print("Error: Unrecognized patch format")
sys.exit(11)
while True: # Loop-and-half construct. Read a line, end loop when no more
# This is really a sequence of if ... elsif ... elsif..., but
# because Python forbids '=' in conditions, we do it this way.
filename_match = fn_get_filename(sLine)
if filename_match:
patched_filename = filename_match.group('filename').strip()
if patched_filename in patch:
error("filename occurs more than once in the patch: %s" %
patched_filename)
sys.exit(12)
else:
patch[patched_filename] = {}
else:
hunk_match = diff_hunk.match(sLine)
if hunk_match:
if patched_filename == "":
error(
"wrong type of patch file : "
"we have a line number without having seen a filename"
)
sys.exit(13)
initial_number = hunk_match.group('linenumber')
line_counter = 0
else:
line_added_match = diff_line_added.match(sLine)
if line_added_match:
line_added = line_counter + int(initial_number)
patch[patched_filename][line_added] = True
# Let's also warn about the lines above and below this one,
# so that errors that "leak" into adjacent lines are caught.
# Besides, if you're creating a patch, you had to at
# least look at adjacent lines,
# so you're in a position to fix them.
patch[patched_filename][line_added - 1] = True
patch[patched_filename][line_added + 1] = True
line_counter += 1
else:
line_del_match = diff_line_del.match(sLine)
if line_del_match is None:
line_counter += 1
sLine = hPatch.readline()
if sLine == '':
break # Done reading.
return patch
def htmlize(s):
# Take s, and return legal (UTF-8) HTML.
return s.replace("&", "&").replace("<", "<").replace(">", ">")
def h(s):
# htmlize s if we're generating html, otherwise just return s.
return htmlize(s) if output_format else s
def print_multi_line(text):
# Print text as multiple indented lines.
width = 78
prefix = " "
starting_position = len(prefix) + 1
#
print(prefix, end='')
position = starting_position
#
for w in text.split():
if len(w) + position >= width:
print()
print(prefix, end='')
position = starting_position
print(' ', end='')
print(w, end='')
position += len(w) + 1
# This matches references to CWE identifiers, so we can HTMLize them.
# We don't refer to CWEs with one digit, so we'll only match on 2+ digits.
link_cwe_pattern = re.compile(r'(CWE-([1-9][0-9]+))([,()!/])')
# This matches the CWE data, including multiple entries.
find_cwe_pattern = re.compile(r'\(CWE-[^)]*\)')
class Hit(object):
"""
Each instance of Hit is a warning of some kind in a source code file.
See the rulesets, which define the conditions for triggering a hit.
Hit is initialized with a tuple containing the following:
hook: function to call when function name found.
level: (default) warning level, 0-5. 0=no problem, 5=very risky.
warning: warning (text saying what's the problem)
suggestion: suggestion (text suggesting what to do instead)
category: One of "buffer" (buffer overflow), "race" (race condition),
"tmpfile" (temporary file creation), "format" (format string).
Use "" if you don't have a better category.
url: URL fragment reference.
other: A dictionary with other settings.
Other settings usually set:
name: function name
parameter: the function parameters (0th parameter null)
input: set to 1 if the function inputs from external sources.
start: start position (index) of the function name (in text)
end: end position of the function name (in text)
filename: name of file
line: line number in file
column: column in line in file
context_text: text surrounding hit
"""
# Set default values:
source_position = 2 # By default, the second parameter is the source.
format_position = 1 # By default, the first parameter is the format.
input = 0 # By default, this doesn't read input.
note = "" # No additional notes.
filename = "" # Empty string is filename.
extract_lookahead = 0 # Normally don't extract lookahead.
def __init__(self, data):
hook, level, warning, suggestion, category, url, other, ruleid = data
self.hook, self.level, self.defaultlevel = hook, level, level
self.warning, self.suggestion = warning, suggestion
self.category, self.url = category, url
self.ruleid = ruleid
# These will be set later, but I set them here so that
# analysis tools like PyChecker will know about them.
self.column = 0
self.line = 0
self.name = ""
self.context_text = ""
for key in other:
setattr(self, key, other[key])
def __getitem__(self, X): # Define this so this works: "%(line)" % hit
return getattr(self, X)
def __eq__(self, other):
return (self.filename == other.filename
and self.line == other.line
and self.column == other.column
and self.level == other.level
and self.name == other.name)
def __ne__(self, other):
return not self == other
# Return CWEs
def cwes(self):
result = find_cwe_pattern.search(self.warning)
return result.group()[1:-1] if result else ''
def fingerprint(self):
"""Return fingerprint of stripped context."""
m = hashlib.sha256()
m.update(self.context_text.strip().encode('utf-8'))
return m.hexdigest()
# Help uri for each defined rule. e.g. "https://dwheeler.com/flawfinder#FF1002"
# return first CWE link for now
def helpuri(self):
if self.cwes() == '':
return 'https://dwheeler.com/flawfinder#{}'.format(self.ruleid)
cwe = re.split(',|!', self.cwes())[0] + ")"
return link_cwe_pattern.sub(
r'https://cwe.mitre.org/data/definitions/\2.html',
cwe)
# Show as CSV format
def show_csv(self):
csv_writer.writerow([
self.filename, self.line, self.column, self.defaultlevel, self.level, self.category,
self.name, self.warning + ".", self.suggestion + "." if self.suggestion else "", self.note,
self.cwes(), self.context_text, self.fingerprint(),
version, self.ruleid, self.helpuri()
])
def show(self):
if csv_output:
self.show_csv()
return
if sarif_output:
return
if output_format:
print("<li>", end='')
sys.stdout.write(h(self.filename))
if show_columns:
print(":%(line)s:%(column)s:" % self, end='')
else:
print(":%(line)s:" % self, end='')
if output_format:
print(" <b>", end='')
# Extra space before risk level in text, makes it easier to find:
print(" [%(level)s]" % self, end=' ')
if output_format:
print("</b> ", end='')
print("(%(category)s)" % self, end=' ')
if output_format:
print("<i> ", end='')
print(h("%(name)s:" % self), end='')
main_text = h("%(warning)s. " % self)
if output_format: # Create HTML link to CWE definitions
main_text = link_cwe_pattern.sub(
r'<a href="https://cwe.mitre.org/data/definitions/\2.html">\1</a>\3',
main_text)
if single_line:
print(main_text, end='')
if self.suggestion:
print(" " + h(self.suggestion) + ".", end='')
print(' ' + h(self.note), end='')
else:
if self.suggestion:
main_text += h(self.suggestion) + ". "
main_text += h(self.note)
print()
print_multi_line(main_text)
if output_format:
print(" </i>", end='')
print("</li>", end='')
print()
if show_context:
if output_format:
print("<pre>")
print(h(self.context_text))
if output_format:
print("</pre>")
# The "hitlist" is the list of all hits (warnings) found so far.
# Use add_warning to add to it.
hitlist = []
def add_warning(hit):
global hitlist, num_ignored_hits
if show_inputs and not hit.input:
return
if required_regex and (required_regex_compiled.search(hit.warning) is
None):
return
if linenumber == ignoreline:
num_ignored_hits += 1
else:
hitlist.append(hit)
if show_immediately:
hit.show()
def internal_warn(message):
print(h(message), file=sys.stderr)
# C Language Specific
def extract_c_parameters(text, pos=0):
"Return a list of the given C function's parameters, starting at text[pos]"
# '(a,b)' produces ['', 'a', 'b']
i = pos
# Skip whitespace and find the "("; if there isn't one, return []:
while i < len(text):
if text[i] == '(':
break
elif text[i] in string.whitespace:
i += 1
else:
return []
else: # Never found a reasonable ending.
return []
i += 1
parameters = [""] # Insert 0th entry, so 1st parameter is parameter[1].
currentstart = i
parenlevel = 1
curlylevel = 0
instring = 0 # 1=in double-quote, 2=in single-quote
incomment = 0
while i < len(text):
c = text[i]
if instring:
if c == '"' and instring == 1:
instring = 0
elif c == "'" and instring == 2:
instring = 0
# if \, skip next character too. The C/C++ rules for
# \ are actually more complex, supporting \ooo octal and
# \xhh hexadecimal (which can be shortened),
# but we don't need to
# parse that deeply, we just need to know we'll stay
# in string mode:
elif c == '\\':
i += 1
elif incomment:
if c == '*' and text[i:i + 2] == '*/':
incomment = 0
i += 1
else:
if c == '"':
instring = 1
elif c == "'":
instring = 2
elif c == '/' and text[i:i + 2] == '/*':
incomment = 1
i += 1
elif c == '/' and text[i:i + 2] == '//':
while i < len(text) and text[i] != "\n":
i += 1
elif c == '\\' and text[i:i + 2] == '\\"':
i += 1 # Handle exposed '\"'
elif c == '(':
parenlevel += 1
elif c == ',' and (parenlevel == 1):
parameters.append(
p_trailingbackslashes.sub('', text[currentstart:i]).strip())
currentstart = i + 1
elif c == ')':
parenlevel -= 1
if parenlevel <= 0:
parameters.append(
p_trailingbackslashes.sub(
'', text[currentstart:i]).strip())
# Re-enable these for debugging:
# print " EXTRACT_C_PARAMETERS: ", text[pos:pos+80]
# print " RESULTS: ", parameters
return parameters
elif c == '{':
curlylevel += 1
elif c == '}':
curlylevel -= 1
elif c == ';' and curlylevel < 1:
internal_warn(
"Parsing failed to find end of parameter list; "
"semicolon terminated it in %s" % text[pos:pos + 200])
return parameters
i += 1
internal_warn("Parsing failed to find end of parameter list in %s" %
text[pos:pos + 200])
return [] # Treat unterminated list as an empty list
# These patterns match gettext() and _() for internationalization.
# This is compiled here, to avoid constant recomputation.
# FIXME: assumes simple function call if it ends with ")",
# so will get confused by patterns like gettext("hi") + function("bye")
# In practice, this doesn't seem to be a problem; gettext() is usually
# wrapped around the entire parameter.
# The ?s makes it posible to match multi-line strings.
gettext_pattern = re.compile(r'(?s)^\s*' 'gettext' r'\s*\((.*)\)\s*$')
undersc_pattern = re.compile(r'(?s)^\s*' '_(T(EXT)?)?' r'\s*\((.*)\)\s*$')
def strip_i18n(text):
"""Strip any internationalization function calls surrounding 'text'.
In particular, strip away calls to gettext() and _().
"""
match = gettext_pattern.search(text)
if match:
return match.group(1).strip()
match = undersc_pattern.search(text)
if match:
return match.group(3).strip()
return text
p_trailingbackslashes = re.compile(r'(\s|\\(\n|\r))*$')
p_c_singleton_string = re.compile(r'^\s*L?"([^\\]|\\[^0-6]|\\[0-6]+)?"\s*$')
def c_singleton_string(text):
"Returns true if text is a C string with 0 or 1 character."
return 1 if p_c_singleton_string.search(text) else 0
# This string defines a C constant.
p_c_constant_string = re.compile(r'^\s*L?"([^\\]|\\[^0-6]|\\[0-6]+)*"$')
def c_constant_string(text):
"Returns true if text is a constant C string."
return 1 if p_c_constant_string.search(text) else 0
# Precompile patterns for speed.
p_memcpy_sizeof = re.compile(r'sizeof\s*\(\s*([^)\s]*)\s*\)')
p_memcpy_param_amp = re.compile(r'&?\s*(.*)')
def c_memcpy(hit):
if len(hit.parameters) < 4: # 3 parameters
add_warning(hit)
return
m1 = re.search(p_memcpy_param_amp, hit.parameters[1])
m3 = re.search(p_memcpy_sizeof, hit.parameters[3])
if not m1 or not m3 or m1.group(1) != m3.group(1):
add_warning(hit)
def c_buffer(hit):
source_position = hit.source_position
if source_position <= len(hit.parameters) - 1:
source = hit.parameters[source_position]
if c_singleton_string(source):
hit.level = 1
hit.note = "Risk is low because the source is a constant character."
elif c_constant_string(strip_i18n(source)):
hit.level = max(hit.level - 2, 1)
hit.note = "Risk is low because the source is a constant string."
add_warning(hit)
p_dangerous_strncat = re.compile(r'^\s*sizeof\s*(\(\s*)?[A-Za-z_$0-9]+'
r'\s*(\)\s*)?(-\s*1\s*)?$')
# This is a heuristic: constants in C are usually given in all
# upper case letters. Yes, this need not be true, but it's true often
# enough that it's worth using as a heuristic.
# We check because strncat better not be passed a constant as the length!
p_looks_like_constant = re.compile(r'^\s*[A-Z][A-Z_$0-9]+\s*(-\s*1\s*)?$')
def c_strncat(hit):
if len(hit.parameters) > 3:
# A common mistake is to think that when calling strncat(dest,src,len),
# that "len" means the ENTIRE length of the destination.
# This isn't true,
# it must be the length of the characters TO BE ADDED at most.
# Which is one reason that strlcat is better than strncat.
# We'll detect a common case of this error; if the length parameter
# is of the form "sizeof(dest)", we have this error.
# Actually, sizeof(dest) is okay if the dest's first character
# is always \0,
# but in that case the programmer should use strncpy, NOT strncat.
# The following heuristic will certainly miss some dangerous cases, but
# it at least catches the most obvious situation.
# This particular heuristic is overzealous; it detects ANY sizeof,
# instead of only the sizeof(dest) (where dest is given in
# hit.parameters[1]).
# However, there aren't many other likely candidates for sizeof; some
# people use it to capture just the length of the source, but this is
# just as dangerous, since then it absolutely does NOT take care of
# the destination maximum length in general.
# It also detects if a constant is given as a length, if the
# constant follows common C naming rules.
length_text = hit.parameters[3]
if p_dangerous_strncat.search(
length_text) or p_looks_like_constant.search(length_text):
hit.level = 5
hit.note = (
"Risk is high; the length parameter appears to be a constant, "
"instead of computing the number of characters left.")
add_warning(hit)
return
c_buffer(hit)
def c_printf(hit):
format_position = hit.format_position
if format_position <= len(hit.parameters) - 1:
# Assume that translators are trusted to not insert "evil" formats:
source = strip_i18n(hit.parameters[format_position])
if c_constant_string(source):
# Parameter is constant, so there's no risk of
# format string problems.
# At one time we warned that very old systems sometimes incorrectly
# allow buffer overflows on snprintf/vsnprintf, but those systems
# are now very old, and snprintf is an important potential tool for
# countering buffer overflows.
# We'll pass it on, just in case it's needed, but at level 0 risk.
hit.level = 0
hit.note = "Constant format string, so not considered risky."
add_warning(hit)
p_dangerous_sprintf_format = re.compile(r'%-?([0-9]+|\*)?s')
# sprintf has both buffer and format vulnerabilities.
def c_sprintf(hit):
source_position = hit.source_position
if hit.parameters is None:
# Serious parameter problem, e.g., none, or a string constant that
# never finishes.
hit.warning = "format string parameter problem"
hit.suggestion = "Check if required parameters present and quotes close."
hit.level = 4
hit.category = "format"
hit.url = ""
elif source_position <= len(hit.parameters) - 1:
source = hit.parameters[source_position]
if c_singleton_string(source):
hit.level = 1
hit.note = "Risk is low because the source is a constant character."
else:
source = strip_i18n(source)
if c_constant_string(source):
if not p_dangerous_sprintf_format.search(source):
hit.level = max(hit.level - 2, 1)
hit.note = "Risk is low because the source has a constant maximum length."
# otherwise, warn of potential buffer overflow (the default)
else:
# Ho ho - a nonconstant format string - we have a different
# problem.
hit.warning = "Potential format string problem (CWE-134)"
hit.suggestion = "Make format string constant"
hit.level = 4
hit.category = "format"
hit.url = ""
add_warning(hit)
p_dangerous_scanf_format = re.compile(r'%s')
p_low_risk_scanf_format = re.compile(r'%[0-9]+s')
def c_scanf(hit):
format_position = hit.format_position
if format_position <= len(hit.parameters) - 1:
# Assume that translators are trusted to not insert "evil" formats;
# it's not clear that translators will be messing with INPUT formats,
# but it's possible so we'll account for it.
source = strip_i18n(hit.parameters[format_position])
if c_constant_string(source):
if p_dangerous_scanf_format.search(source):
pass # Accept default.
elif p_low_risk_scanf_format.search(source):
# This is often okay, but sometimes extremely serious.
hit.level = 1
hit.warning = ("It's unclear if the %s limit in the "
"format string is small enough (CWE-120)")
hit.suggestion = ("Check that the limit is sufficiently "
"small, or use a different input function")
else:
# No risky scanf request.
# We'll pass it on, just in case it's needed, but at level 0
# risk.
hit.level = 0
hit.note = "No risky scanf format detected."
else:
# Format isn't a constant.
hit.note = ("If the scanf format is influenceable "
"by an attacker, it's exploitable.")
add_warning(hit)
p_dangerous_multi_byte = re.compile(r'^\s*sizeof\s*(\(\s*)?[A-Za-z_$0-9]+'
r'\s*(\)\s*)?(-\s*1\s*)?$')
p_safe_multi_byte = re.compile(
r'^\s*sizeof\s*(\(\s*)?[A-Za-z_$0-9]+\s*(\)\s*)?'
r'/\s*sizeof\s*\(\s*?[A-Za-z_$0-9]+\s*\[\s*0\s*\]\)\s*(-\s*1\s*)?$')
def c_multi_byte_to_wide_char(hit):
# Unfortunately, this doesn't detect bad calls when it's a #define or
# constant set by a sizeof(), but trying to do so would create
# FAR too many false positives.
if len(hit.parameters) - 1 >= 6:
num_chars_to_copy = hit.parameters[6]
if p_dangerous_multi_byte.search(num_chars_to_copy):
hit.level = 5
hit.note = (
"Risk is high, it appears that the size is given as bytes, but the "
"function requires size as characters.")
elif p_safe_multi_byte.search(num_chars_to_copy):
# This isn't really risk-free, since it might not be the destination,
# or the destination might be a character array (if it's a char pointer,
# the pattern is actually quite dangerous, but programmers
# are unlikely to make that error).
hit.level = 1
hit.note = "Risk is very low, the length appears to be in characters not bytes."
add_warning(hit)