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#!/usr/bin/env bash
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#
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# american fuzzy lop - corpus minimization tool
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# ---------------------------------------------
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#
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# Written and maintained by Michal Zalewski <lcamtuf@google.com>
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#
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# Copyright 2014, 2015 Google LLC All rights reserved.
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#
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# Licensed under the Apache License, Version 2.0 (the "License");
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# you may not use this file except in compliance with the License.
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# You may obtain a copy of the License at:
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#
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# http://www.apache.org/licenses/LICENSE-2.0
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#
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# This tool tries to find the smallest subset of files in the input directory
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# that still trigger the full range of instrumentation data points seen in
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# the starting corpus. This has two uses:
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#
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# - Screening large corpora of input files before using them as a seed for
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# afl-fuzz. The tool will remove functionally redundant files and likely
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# leave you with a much smaller set.
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#
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# (In this case, you probably also want to consider running afl-tmin on
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# the individual files later on to reduce their size.)
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#
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# - Minimizing the corpus generated organically by afl-fuzz, perhaps when
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# planning to feed it to more resource-intensive tools. The tool achieves
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# this by removing all entries that used to trigger unique behaviors in the
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# past, but have been made obsolete by later finds.
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#
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# Note that the tool doesn't modify the files themselves. For that, you want
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# afl-tmin.
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#
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# This script must use bash because other shells may have hardcoded limits on
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# array sizes.
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#
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echo "corpus minimization tool for afl-fuzz by <lcamtuf@google.com>"
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echo
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#########
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# SETUP #
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#########
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# Process command-line options...
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MEM_LIMIT=100
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TIMEOUT=none
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unset IN_DIR OUT_DIR STDIN_FILE EXTRA_PAR MEM_LIMIT_GIVEN \
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AFL_CMIN_CRASHES_ONLY AFL_CMIN_ALLOW_ANY QEMU_MODE
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while getopts "+i:o:f:m:t:eQC" opt; do
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case "$opt" in
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"i")
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IN_DIR="$OPTARG"
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;;
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"o")
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OUT_DIR="$OPTARG"
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;;
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"f")
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STDIN_FILE="$OPTARG"
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;;
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"m")
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MEM_LIMIT="$OPTARG"
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MEM_LIMIT_GIVEN=1
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;;
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"t")
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TIMEOUT="$OPTARG"
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;;
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"e")
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EXTRA_PAR="$EXTRA_PAR -e"
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;;
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"C")
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export AFL_CMIN_CRASHES_ONLY=1
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;;
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"Q")
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EXTRA_PAR="$EXTRA_PAR -Q"
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test "$MEM_LIMIT_GIVEN" = "" && MEM_LIMIT=250
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QEMU_MODE=1
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;;
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"?")
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exit 1
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;;
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esac
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done
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shift $((OPTIND-1))
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TARGET_BIN="$1"
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if [ "$TARGET_BIN" = "" -o "$IN_DIR" = "" -o "$OUT_DIR" = "" ]; then
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cat 1>&2 <<_EOF_
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Usage: $0 [ options ] -- /path/to/target_app [ ... ]
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Required parameters:
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-i dir - input directory with the starting corpus
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-o dir - output directory for minimized files
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Execution control settings:
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-f file - location read by the fuzzed program (stdin)
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-m megs - memory limit for child process ($MEM_LIMIT MB)
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-t msec - run time limit for child process (none)
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-Q - use binary-only instrumentation (QEMU mode)
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Minimization settings:
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-C - keep crashing inputs, reject everything else
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-e - solve for edge coverage only, ignore hit counts
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For additional tips, please consult docs/README.
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_EOF_
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exit 1
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fi
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# Do a sanity check to discourage the use of /tmp, since we can't really
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# handle this safely from a shell script.
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if [ "$AFL_ALLOW_TMP" = "" ]; then
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echo "$IN_DIR" | grep -qE '^(/var)?/tmp/'
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T1="$?"
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echo "$TARGET_BIN" | grep -qE '^(/var)?/tmp/'
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T2="$?"
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echo "$OUT_DIR" | grep -qE '^(/var)?/tmp/'
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T3="$?"
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echo "$STDIN_FILE" | grep -qE '^(/var)?/tmp/'
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T4="$?"
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echo "$PWD" | grep -qE '^(/var)?/tmp/'
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T5="$?"
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if [ "$T1" = "0" -o "$T2" = "0" -o "$T3" = "0" -o "$T4" = "0" -o "$T5" = "0" ]; then
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echo "[-] Error: do not use this script in /tmp or /var/tmp." 1>&2
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exit 1
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fi
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fi
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# If @@ is specified, but there's no -f, let's come up with a temporary input
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# file name.
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TRACE_DIR="$OUT_DIR/.traces"
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if [ "$STDIN_FILE" = "" ]; then
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if echo "$*" | grep -qF '@@'; then
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STDIN_FILE="$TRACE_DIR/.cur_input"
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fi
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fi
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# Check for obvious errors.
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if [ ! "$MEM_LIMIT" = "none" ]; then
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if [ "$MEM_LIMIT" -lt "5" ]; then
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echo "[-] Error: dangerously low memory limit." 1>&2
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exit 1
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fi
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fi
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if [ ! "$TIMEOUT" = "none" ]; then
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if [ "$TIMEOUT" -lt "10" ]; then
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echo "[-] Error: dangerously low timeout." 1>&2
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exit 1
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fi
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fi
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if [ ! -f "$TARGET_BIN" -o ! -x "$TARGET_BIN" ]; then
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TNEW="`which "$TARGET_BIN" 2>/dev/null`"
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if [ ! -f "$TNEW" -o ! -x "$TNEW" ]; then
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echo "[-] Error: binary '$TARGET_BIN' not found or not executable." 1>&2
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exit 1
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fi
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TARGET_BIN="$TNEW"
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fi
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if [ "$AFL_SKIP_BIN_CHECK" = "" -a "$QEMU_MODE" = "" ]; then
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if ! grep -qF "__AFL_SHM_ID" "$TARGET_BIN"; then
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echo "[-] Error: binary '$TARGET_BIN' doesn't appear to be instrumented." 1>&2
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exit 1
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fi
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fi
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if [ ! -d "$IN_DIR" ]; then
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echo "[-] Error: directory '$IN_DIR' not found." 1>&2
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exit 1
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fi
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test -d "$IN_DIR/queue" && IN_DIR="$IN_DIR/queue"
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find "$OUT_DIR" -name 'id[:_]*' -maxdepth 1 -exec rm -- {} \; 2>/dev/null
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rm -rf "$TRACE_DIR" 2>/dev/null
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rmdir "$OUT_DIR" 2>/dev/null
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if [ -d "$OUT_DIR" ]; then
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echo "[-] Error: directory '$OUT_DIR' exists and is not empty - delete it first." 1>&2
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exit 1
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fi
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mkdir -m 700 -p "$TRACE_DIR" || exit 1
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if [ ! "$STDIN_FILE" = "" ]; then
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rm -f "$STDIN_FILE" || exit 1
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touch "$STDIN_FILE" || exit 1
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fi
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if [ "$AFL_PATH" = "" ]; then
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SHOWMAP="${0%/afl-cmin}/afl-showmap"
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else
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SHOWMAP="$AFL_PATH/afl-showmap"
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fi
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if [ ! -x "$SHOWMAP" ]; then
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echo "[-] Error: can't find 'afl-showmap' - please set AFL_PATH." 1>&2
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rm -rf "$TRACE_DIR"
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exit 1
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fi
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IN_COUNT=$((`ls -- "$IN_DIR" 2>/dev/null | wc -l`))
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if [ "$IN_COUNT" = "0" ]; then
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echo "[+] Hmm, no inputs in the target directory. Nothing to be done."
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rm -rf "$TRACE_DIR"
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exit 1
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fi
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FIRST_FILE=`ls "$IN_DIR" | head -1`
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# Make sure that we're not dealing with a directory.
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if [ -d "$IN_DIR/$FIRST_FILE" ]; then
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echo "[-] Error: The target directory contains subdirectories - please fix." 1>&2
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rm -rf "$TRACE_DIR"
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exit 1
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fi
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# Check for the more efficient way to copy files...
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if ln "$IN_DIR/$FIRST_FILE" "$TRACE_DIR/.link_test" 2>/dev/null; then
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CP_TOOL=ln
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else
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CP_TOOL=cp
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fi
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# Make sure that we can actually get anything out of afl-showmap before we
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# waste too much time.
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echo "[*] Testing the target binary..."
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if [ "$STDIN_FILE" = "" ]; then
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AFL_CMIN_ALLOW_ANY=1 "$SHOWMAP" -m "$MEM_LIMIT" -t "$TIMEOUT" -o "$TRACE_DIR/.run_test" -Z $EXTRA_PAR -- "$@" <"$IN_DIR/$FIRST_FILE"
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else
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cp "$IN_DIR/$FIRST_FILE" "$STDIN_FILE"
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AFL_CMIN_ALLOW_ANY=1 "$SHOWMAP" -m "$MEM_LIMIT" -t "$TIMEOUT" -o "$TRACE_DIR/.run_test" -Z $EXTRA_PAR -A "$STDIN_FILE" -- "$@" </dev/null
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fi
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FIRST_COUNT=$((`grep -c . "$TRACE_DIR/.run_test"`))
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if [ "$FIRST_COUNT" -gt "0" ]; then
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echo "[+] OK, $FIRST_COUNT tuples recorded."
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else
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echo "[-] Error: no instrumentation output detected (perhaps crash or timeout)." 1>&2
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test "$AFL_KEEP_TRACES" = "" && rm -rf "$TRACE_DIR"
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exit 1
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fi
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# Let's roll!
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#############################
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# STEP 1: COLLECTING TRACES #
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#############################
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echo "[*] Obtaining traces for input files in '$IN_DIR'..."
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(
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CUR=0
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if [ "$STDIN_FILE" = "" ]; then
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while read -r fn; do
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CUR=$((CUR+1))
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printf "\\r Processing file $CUR/$IN_COUNT... "
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"$SHOWMAP" -m "$MEM_LIMIT" -t "$TIMEOUT" -o "$TRACE_DIR/$fn" -Z $EXTRA_PAR -- "$@" <"$IN_DIR/$fn"
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done < <(ls "$IN_DIR")
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else
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while read -r fn; do
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CUR=$((CUR+1))
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printf "\\r Processing file $CUR/$IN_COUNT... "
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cp "$IN_DIR/$fn" "$STDIN_FILE"
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"$SHOWMAP" -m "$MEM_LIMIT" -t "$TIMEOUT" -o "$TRACE_DIR/$fn" -Z $EXTRA_PAR -A "$STDIN_FILE" -- "$@" </dev/null
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done < <(ls "$IN_DIR")
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fi
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)
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echo
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##########################
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# STEP 2: SORTING TUPLES #
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##########################
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# With this out of the way, we sort all tuples by popularity across all
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# datasets. The reasoning here is that we won't be able to avoid the files
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# that trigger unique tuples anyway, so we will want to start with them and
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# see what's left.
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echo "[*] Sorting trace sets (this may take a while)..."
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ls "$IN_DIR" | sed "s#^#$TRACE_DIR/#" | tr '\n' '\0' | xargs -0 -n 1 cat | \
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sort | uniq -c | sort -n >"$TRACE_DIR/.all_uniq"
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TUPLE_COUNT=$((`grep -c . "$TRACE_DIR/.all_uniq"`))
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echo "[+] Found $TUPLE_COUNT unique tuples across $IN_COUNT files."
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#####################################
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# STEP 3: SELECTING CANDIDATE FILES #
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#####################################
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# The next step is to find the best candidate for each tuple. The "best"
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# part is understood simply as the smallest input that includes a particular
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# tuple in its trace. Empirical evidence suggests that this produces smaller
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# datasets than more involved algorithms that could be still pulled off in
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# a shell script.
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echo "[*] Finding best candidates for each tuple..."
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CUR=0
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while read -r fn; do
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CUR=$((CUR+1))
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printf "\\r Processing file $CUR/$IN_COUNT... "
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sed "s#\$# $fn#" "$TRACE_DIR/$fn" >>"$TRACE_DIR/.candidate_list"
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done < <(ls -rS "$IN_DIR")
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echo
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##############################
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# STEP 4: LOADING CANDIDATES #
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##############################
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# At this point, we have a file of tuple-file pairs, sorted by file size
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# in ascending order (as a consequence of ls -rS). By doing sort keyed
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# only by tuple (-k 1,1) and configured to output only the first line for
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# every key (-s -u), we end up with the smallest file for each tuple.
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echo "[*] Sorting candidate list (be patient)..."
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sort -k1,1 -s -u "$TRACE_DIR/.candidate_list" | \
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sed 's/^/BEST_FILE[/;s/ /]="/;s/$/"/' >"$TRACE_DIR/.candidate_script"
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if [ ! -s "$TRACE_DIR/.candidate_script" ]; then
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echo "[-] Error: no traces obtained from test cases, check syntax!" 1>&2
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test "$AFL_KEEP_TRACES" = "" && rm -rf "$TRACE_DIR"
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exit 1
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fi
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# The sed command converted the sorted list to a shell script that populates
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# BEST_FILE[tuple]="fname". Let's load that!
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. "$TRACE_DIR/.candidate_script"
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##########################
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||||||
|
# STEP 5: WRITING OUTPUT #
|
||||||
|
##########################
|
||||||
|
|
||||||
|
# The final trick is to grab the top pick for each tuple, unless said tuple is
|
||||||
|
# already set due to the inclusion of an earlier candidate; and then put all
|
||||||
|
# tuples associated with the newly-added file to the "already have" list. The
|
||||||
|
# loop works from least popular tuples and toward the most common ones.
|
||||||
|
|
||||||
|
echo "[*] Processing candidates and writing output files..."
|
||||||
|
|
||||||
|
CUR=0
|
||||||
|
|
||||||
|
touch "$TRACE_DIR/.already_have"
|
||||||
|
|
||||||
|
while read -r cnt tuple; do
|
||||||
|
|
||||||
|
CUR=$((CUR+1))
|
||||||
|
printf "\\r Processing tuple $CUR/$TUPLE_COUNT... "
|
||||||
|
|
||||||
|
# If we already have this tuple, skip it.
|
||||||
|
|
||||||
|
grep -q "^$tuple\$" "$TRACE_DIR/.already_have" && continue
|
||||||
|
|
||||||
|
FN=${BEST_FILE[tuple]}
|
||||||
|
|
||||||
|
$CP_TOOL "$IN_DIR/$FN" "$OUT_DIR/$FN"
|
||||||
|
|
||||||
|
if [ "$((CUR % 5))" = "0" ]; then
|
||||||
|
sort -u "$TRACE_DIR/$FN" "$TRACE_DIR/.already_have" >"$TRACE_DIR/.tmp"
|
||||||
|
mv -f "$TRACE_DIR/.tmp" "$TRACE_DIR/.already_have"
|
||||||
|
else
|
||||||
|
cat "$TRACE_DIR/$FN" >>"$TRACE_DIR/.already_have"
|
||||||
|
fi
|
||||||
|
|
||||||
|
done <"$TRACE_DIR/.all_uniq"
|
||||||
|
|
||||||
|
echo
|
||||||
|
|
||||||
|
OUT_COUNT=`ls -- "$OUT_DIR" | wc -l`
|
||||||
|
|
||||||
|
if [ "$OUT_COUNT" = "1" ]; then
|
||||||
|
echo "[!] WARNING: All test cases had the same traces, check syntax!"
|
||||||
|
fi
|
||||||
|
|
||||||
|
echo "[+] Narrowed down to $OUT_COUNT files, saved in '$OUT_DIR'."
|
||||||
|
echo
|
||||||
|
|
||||||
|
test "$AFL_KEEP_TRACES" = "" && rm -rf "$TRACE_DIR"
|
||||||
|
|
||||||
|
exit 0
|
Loading…
Reference in new issue