package main import ( "context" "flag" "fmt" "io" "log" "os" "strings" "time" "github.com/ffuf/ffuf/v2/pkg/ffuf" "github.com/ffuf/ffuf/v2/pkg/filter" "github.com/ffuf/ffuf/v2/pkg/input" "github.com/ffuf/ffuf/v2/pkg/interactive" "github.com/ffuf/ffuf/v2/pkg/output" "github.com/ffuf/ffuf/v2/pkg/runner" "github.com/ffuf/ffuf/v2/pkg/scraper" ) type multiStringFlag []string type wordlistFlag []string func (m *multiStringFlag) String() string { return "" } func (m *wordlistFlag) String() string { return "" } func (m *multiStringFlag) Set(value string) error { *m = append(*m, value) return nil } func (m *wordlistFlag) Set(value string) error { delimited := strings.Split(value, ",") if len(delimited) > 1 { *m = append(*m, delimited...) } else { *m = append(*m, value) } return nil } // ParseFlags parses the command line flags and (re)populates the ConfigOptions struct func ParseFlags(opts *ffuf.ConfigOptions) *ffuf.ConfigOptions { var ignored bool var cookies, autocalibrationstrings, autocalibrationstrategies, headers, inputcommands multiStringFlag var wordlists, encoders wordlistFlag cookies = opts.HTTP.Cookies autocalibrationstrings = opts.General.AutoCalibrationStrings headers = opts.HTTP.Headers inputcommands = opts.Input.Inputcommands wordlists = opts.Input.Wordlists encoders = opts.Input.Encoders flag.BoolVar(&ignored, "compressed", true, "Dummy flag for copy as curl functionality (ignored)") flag.BoolVar(&ignored, "i", true, "Dummy flag for copy as curl functionality (ignored)") flag.BoolVar(&ignored, "k", false, "Dummy flag for backwards compatibility") flag.BoolVar(&opts.Output.OutputSkipEmptyFile, "or", opts.Output.OutputSkipEmptyFile, "Don't create the output file if we don't have results") flag.BoolVar(&opts.General.AutoCalibration, "ac", opts.General.AutoCalibration, "Automatically calibrate filtering options") flag.BoolVar(&opts.General.AutoCalibrationPerHost, "ach", opts.General.AutoCalibration, "Per host autocalibration") flag.BoolVar(&opts.General.Colors, "c", opts.General.Colors, "Colorize output.") flag.BoolVar(&opts.General.Json, "json", opts.General.Json, "JSON output, printing newline-delimited JSON records") flag.BoolVar(&opts.General.Noninteractive, "noninteractive", opts.General.Noninteractive, "Disable the interactive console functionality") flag.BoolVar(&opts.General.Quiet, "s", opts.General.Quiet, "Do not print additional information (silent mode)") flag.BoolVar(&opts.General.ShowVersion, "V", opts.General.ShowVersion, "Show version information.") flag.BoolVar(&opts.General.StopOn403, "sf", opts.General.StopOn403, "Stop when > 95% of responses return 403 Forbidden") flag.BoolVar(&opts.General.StopOnAll, "sa", opts.General.StopOnAll, "Stop on all error cases. Implies -sf and -se.") flag.BoolVar(&opts.General.StopOnErrors, "se", opts.General.StopOnErrors, "Stop on spurious errors") flag.BoolVar(&opts.General.Verbose, "v", opts.General.Verbose, "Verbose output, printing full URL and redirect location (if any) with the results.") flag.BoolVar(&opts.HTTP.FollowRedirects, "r", opts.HTTP.FollowRedirects, "Follow redirects") flag.BoolVar(&opts.HTTP.IgnoreBody, "ignore-body", opts.HTTP.IgnoreBody, "Do not fetch the response content.") flag.BoolVar(&opts.HTTP.Raw, "raw", opts.HTTP.Raw, "Do not encode URI") flag.BoolVar(&opts.HTTP.Recursion, "recursion", opts.HTTP.Recursion, "Scan recursively. Only FUZZ keyword is supported, and URL (-u) has to end in it.") flag.BoolVar(&opts.HTTP.Http2, "http2", opts.HTTP.Http2, "Use HTTP2 protocol") flag.BoolVar(&opts.Input.DirSearchCompat, "D", opts.Input.DirSearchCompat, "DirSearch wordlist compatibility mode. Used in conjunction with -e flag.") flag.BoolVar(&opts.Input.IgnoreWordlistComments, "ic", opts.Input.IgnoreWordlistComments, "Ignore wordlist comments") flag.IntVar(&opts.General.MaxTime, "maxtime", opts.General.MaxTime, "Maximum running time in seconds for entire process.") flag.IntVar(&opts.General.MaxTimeJob, "maxtime-job", opts.General.MaxTimeJob, "Maximum running time in seconds per job.") flag.IntVar(&opts.General.Rate, "rate", opts.General.Rate, "Rate of requests per second") flag.IntVar(&opts.General.Threads, "t", opts.General.Threads, "Number of concurrent threads.") flag.IntVar(&opts.HTTP.RecursionDepth, "recursion-depth", opts.HTTP.RecursionDepth, "Maximum recursion depth.") flag.IntVar(&opts.HTTP.Timeout, "timeout", opts.HTTP.Timeout, "HTTP request timeout in seconds.") flag.IntVar(&opts.Input.InputNum, "input-num", opts.Input.InputNum, "Number of inputs to test. Used in conjunction with --input-cmd.") flag.StringVar(&opts.General.AutoCalibrationKeyword, "ack", opts.General.AutoCalibrationKeyword, "Autocalibration keyword") flag.StringVar(&opts.HTTP.ClientCert, "cc", "", "Client cert for authentication. Client key needs to be defined as well for this to work") flag.StringVar(&opts.HTTP.ClientKey, "ck", "", "Client key for authentication. Client certificate needs to be defined as well for this to work") flag.StringVar(&opts.General.ConfigFile, "config", "", "Load configuration from a file") flag.StringVar(&opts.General.ScraperFile, "scraperfile", "", "Custom scraper file path") flag.StringVar(&opts.General.Scrapers, "scrapers", opts.General.Scrapers, "Active scraper groups") flag.StringVar(&opts.Filter.Mode, "fmode", opts.Filter.Mode, "Filter set operator. Either of: and, or") flag.StringVar(&opts.Filter.Lines, "fl", opts.Filter.Lines, "Filter by amount of lines in response. Comma separated list of line counts and ranges") flag.StringVar(&opts.Filter.Regexp, "fr", opts.Filter.Regexp, "Filter regexp") flag.StringVar(&opts.Filter.Size, "fs", opts.Filter.Size, "Filter HTTP response size. Comma separated list of sizes and ranges") flag.StringVar(&opts.Filter.Status, "fc", opts.Filter.Status, "Filter HTTP status codes from response. Comma separated list of codes and ranges") flag.StringVar(&opts.Filter.Time, "ft", opts.Filter.Time, "Filter by number of milliseconds to the first response byte, either greater or less than. EG: >100 or <100") flag.StringVar(&opts.Filter.Words, "fw", opts.Filter.Words, "Filter by amount of words in response. Comma separated list of word counts and ranges") flag.StringVar(&opts.General.Delay, "p", opts.General.Delay, "Seconds of `delay` between requests, or a range of random delay. For example \"0.1\" or \"0.1-2.0\"") flag.StringVar(&opts.General.Searchhash, "search", opts.General.Searchhash, "Search for a FFUFHASH payload from ffuf history") flag.StringVar(&opts.HTTP.Data, "d", opts.HTTP.Data, "POST data") flag.StringVar(&opts.HTTP.Data, "data", opts.HTTP.Data, "POST data (alias of -d)") flag.StringVar(&opts.HTTP.Data, "data-ascii", opts.HTTP.Data, "POST data (alias of -d)") flag.StringVar(&opts.HTTP.Data, "data-binary", opts.HTTP.Data, "POST data (alias of -d)") flag.StringVar(&opts.HTTP.Method, "X", opts.HTTP.Method, "HTTP method to use") flag.StringVar(&opts.HTTP.ProxyURL, "x", opts.HTTP.ProxyURL, "Proxy URL (SOCKS5 or HTTP). For example: http://127.0.0.1:8080 or socks5://127.0.0.1:8080") flag.StringVar(&opts.HTTP.ReplayProxyURL, "replay-proxy", opts.HTTP.ReplayProxyURL, "Replay matched requests using this proxy.") flag.StringVar(&opts.HTTP.RecursionStrategy, "recursion-strategy", opts.HTTP.RecursionStrategy, "Recursion strategy: \"default\" for a redirect based, and \"greedy\" to recurse on all matches") flag.StringVar(&opts.HTTP.URL, "u", opts.HTTP.URL, "Target URL") flag.StringVar(&opts.HTTP.SNI, "sni", opts.HTTP.SNI, "Target TLS SNI, does not support FUZZ keyword") flag.StringVar(&opts.Input.Extensions, "e", opts.Input.Extensions, "Comma separated list of extensions. Extends FUZZ keyword.") flag.StringVar(&opts.Input.InputMode, "mode", opts.Input.InputMode, "Multi-wordlist operation mode. Available modes: clusterbomb, pitchfork, sniper") flag.StringVar(&opts.Input.InputShell, "input-shell", opts.Input.InputShell, "Shell to be used for running command") flag.StringVar(&opts.Input.Request, "request", opts.Input.Request, "File containing the raw http request") flag.StringVar(&opts.Input.RequestProto, "request-proto", opts.Input.RequestProto, "Protocol to use along with raw request") flag.StringVar(&opts.Matcher.Mode, "mmode", opts.Matcher.Mode, "Matcher set operator. Either of: and, or") flag.StringVar(&opts.Matcher.Lines, "ml", opts.Matcher.Lines, "Match amount of lines in response") flag.StringVar(&opts.Matcher.Regexp, "mr", opts.Matcher.Regexp, "Match regexp") flag.StringVar(&opts.Matcher.Size, "ms", opts.Matcher.Size, "Match HTTP response size") flag.StringVar(&opts.Matcher.Status, "mc", opts.Matcher.Status, "Match HTTP status codes, or \"all\" for everything.") flag.StringVar(&opts.Matcher.Time, "mt", opts.Matcher.Time, "Match how many milliseconds to the first response byte, either greater or less than. EG: >100 or <100") flag.StringVar(&opts.Matcher.Words, "mw", opts.Matcher.Words, "Match amount of words in response") flag.StringVar(&opts.Output.DebugLog, "debug-log", opts.Output.DebugLog, "Write all of the internal logging to the specified file.") flag.StringVar(&opts.Output.OutputDirectory, "od", opts.Output.OutputDirectory, "Directory path to store matched results to.") flag.StringVar(&opts.Output.OutputFile, "o", opts.Output.OutputFile, "Write output to file") flag.StringVar(&opts.Output.OutputFormat, "of", opts.Output.OutputFormat, "Output file format. Available formats: json, ejson, html, md, csv, ecsv (or, 'all' for all formats)") flag.Var(&autocalibrationstrings, "acc", "Custom auto-calibration string. Can be used multiple times. Implies -ac") flag.Var(&autocalibrationstrategies, "acs", "Custom auto-calibration strategies. Can be used multiple times. Implies -ac") flag.Var(&cookies, "b", "Cookie data `\"NAME1=VALUE1; NAME2=VALUE2\"` for copy as curl functionality.") flag.Var(&cookies, "cookie", "Cookie data (alias of -b)") flag.Var(&headers, "H", "Header `\"Name: Value\"`, separated by colon. Multiple -H flags are accepted.") flag.Var(&inputcommands, "input-cmd", "Command producing the input. --input-num is required when using this input method. Overrides -w.") flag.Var(&wordlists, "w", "Wordlist file path and (optional) keyword separated by colon. eg. '/path/to/wordlist:KEYWORD'") flag.Var(&encoders, "enc", "Encoders for keywords, eg. 'FUZZ:urlencode b64encode'") flag.Usage = Usage flag.Parse() opts.General.AutoCalibrationStrings = autocalibrationstrings if len(autocalibrationstrategies) > 0 { opts.General.AutoCalibrationStrategies = []string{} for _, strategy := range autocalibrationstrategies { opts.General.AutoCalibrationStrategies = append(opts.General.AutoCalibrationStrategies, strings.Split(strategy, ",")...) } } opts.HTTP.Cookies = cookies opts.HTTP.Headers = headers opts.Input.Inputcommands = inputcommands opts.Input.Wordlists = wordlists opts.Input.Encoders = encoders return opts } func main() { var err, optserr error ctx, cancel := context.WithCancel(context.Background()) defer cancel() // prepare the default config options from default config file var opts *ffuf.ConfigOptions opts, optserr = ffuf.ReadDefaultConfig() opts = ParseFlags(opts) // Handle searchhash functionality and exit if opts.General.Searchhash != "" { coptions, pos, err := ffuf.SearchHash(opts.General.Searchhash) if err != nil { fmt.Printf("[ERR] %s\n", err) os.Exit(1) } if len(coptions) > 0 { fmt.Printf("Request candidate(s) for hash %s\n", opts.General.Searchhash) } for _, copt := range coptions { conf, err := ffuf.ConfigFromOptions(&copt.ConfigOptions, ctx, cancel) if err != nil { continue } ok, reason := ffuf.HistoryReplayable(conf) if ok { printSearchResults(conf, pos, copt.Time, opts.General.Searchhash) } else { fmt.Printf("[ERR] Hash cannot be mapped back because %s\n", reason) } } if err != nil { fmt.Printf("[ERR] %s\n", err) } os.Exit(0) } if opts.General.ShowVersion { fmt.Printf("ffuf version: %s\n", ffuf.Version()) os.Exit(0) } if len(opts.Output.DebugLog) != 0 { f, err := os.OpenFile(opts.Output.DebugLog, os.O_APPEND|os.O_CREATE|os.O_WRONLY, 0644) if err != nil { fmt.Fprintf(os.Stderr, "Disabling logging, encountered error(s): %s\n", err) log.SetOutput(io.Discard) } else { log.SetOutput(f) defer f.Close() } } else { log.SetOutput(io.Discard) } if optserr != nil { log.Printf("Error while opening default config file: %s", optserr) } if opts.General.ConfigFile != "" { opts, err = ffuf.ReadConfig(opts.General.ConfigFile) if err != nil { fmt.Fprintf(os.Stderr, "Encoutered error(s): %s\n", err) Usage() fmt.Fprintf(os.Stderr, "Encoutered error(s): %s\n", err) os.Exit(1) } // Reset the flag package state flag.CommandLine = flag.NewFlagSet(os.Args[0], flag.ExitOnError) // Re-parse the cli options opts = ParseFlags(opts) } // Set up Config struct conf, err := ffuf.ConfigFromOptions(opts, ctx, cancel) if err != nil { fmt.Fprintf(os.Stderr, "Encountered error(s): %s\n", err) Usage() fmt.Fprintf(os.Stderr, "Encountered error(s): %s\n", err) os.Exit(1) } job, err := prepareJob(conf) if err != nil { fmt.Fprintf(os.Stderr, "Encountered error(s): %s\n", err) Usage() fmt.Fprintf(os.Stderr, "Encountered error(s): %s\n", err) os.Exit(1) } if err := SetupFilters(opts, conf); err != nil { fmt.Fprintf(os.Stderr, "Encountered error(s): %s\n", err) Usage() fmt.Fprintf(os.Stderr, "Encountered error(s): %s\n", err) os.Exit(1) } if !conf.Noninteractive { go func() { err := interactive.Handle(job) if err != nil { log.Printf("Error while trying to initialize interactive session: %s", err) } }() } // Job handles waiting for goroutines to complete itself job.Start() } func prepareJob(conf *ffuf.Config) (*ffuf.Job, error) { var err error job := ffuf.NewJob(conf) var errs ffuf.Multierror job.Input, errs = input.NewInputProvider(conf) // TODO: implement error handling for runnerprovider and outputprovider // We only have http runner right now job.Runner = runner.NewRunnerByName("http", conf, false) if len(conf.ReplayProxyURL) > 0 { job.ReplayRunner = runner.NewRunnerByName("http", conf, true) } // We only have stdout outputprovider right now job.Output = output.NewOutputProviderByName("stdout", conf) // Initialize scraper newscraper, scraper_err := scraper.FromDir(ffuf.SCRAPERDIR, conf.Scrapers) if scraper_err.ErrorOrNil() != nil { errs.Add(scraper_err.ErrorOrNil()) } job.Scraper = newscraper if conf.ScraperFile != "" { err = job.Scraper.AppendFromFile(conf.ScraperFile) if err != nil { errs.Add(err) } } return job, errs.ErrorOrNil() } func SetupFilters(parseOpts *ffuf.ConfigOptions, conf *ffuf.Config) error { errs := ffuf.NewMultierror() conf.MatcherManager = filter.NewMatcherManager() // If any other matcher is set, ignore -mc default value matcherSet := false statusSet := false warningIgnoreBody := false flag.Visit(func(f *flag.Flag) { if f.Name == "mc" { statusSet = true } if f.Name == "ms" { matcherSet = true warningIgnoreBody = true } if f.Name == "ml" { matcherSet = true warningIgnoreBody = true } if f.Name == "mr" { matcherSet = true } if f.Name == "mt" { matcherSet = true } if f.Name == "mw" { matcherSet = true warningIgnoreBody = true } }) // Only set default matchers if no if statusSet || !matcherSet { if err := conf.MatcherManager.AddMatcher("status", parseOpts.Matcher.Status); err != nil { errs.Add(err) } } if parseOpts.Filter.Status != "" { if err := conf.MatcherManager.AddFilter("status", parseOpts.Filter.Status, false); err != nil { errs.Add(err) } } if parseOpts.Filter.Size != "" { warningIgnoreBody = true if err := conf.MatcherManager.AddFilter("size", parseOpts.Filter.Size, false); err != nil { errs.Add(err) } } if parseOpts.Filter.Regexp != "" { if err := conf.MatcherManager.AddFilter("regexp", parseOpts.Filter.Regexp, false); err != nil { errs.Add(err) } } if parseOpts.Filter.Words != "" { warningIgnoreBody = true if err := conf.MatcherManager.AddFilter("word", parseOpts.Filter.Words, false); err != nil { errs.Add(err) } } if parseOpts.Filter.Lines != "" { warningIgnoreBody = true if err := conf.MatcherManager.AddFilter("line", parseOpts.Filter.Lines, false); err != nil { errs.Add(err) } } if parseOpts.Filter.Time != "" { if err := conf.MatcherManager.AddFilter("time", parseOpts.Filter.Time, false); err != nil { errs.Add(err) } } if parseOpts.Matcher.Size != "" { if err := conf.MatcherManager.AddMatcher("size", parseOpts.Matcher.Size); err != nil { errs.Add(err) } } if parseOpts.Matcher.Regexp != "" { if err := conf.MatcherManager.AddMatcher("regexp", parseOpts.Matcher.Regexp); err != nil { errs.Add(err) } } if parseOpts.Matcher.Words != "" { if err := conf.MatcherManager.AddMatcher("word", parseOpts.Matcher.Words); err != nil { errs.Add(err) } } if parseOpts.Matcher.Lines != "" { if err := conf.MatcherManager.AddMatcher("line", parseOpts.Matcher.Lines); err != nil { errs.Add(err) } } if parseOpts.Matcher.Time != "" { if err := conf.MatcherManager.AddMatcher("time", parseOpts.Matcher.Time); err != nil { errs.Add(err) } } if conf.IgnoreBody && warningIgnoreBody { fmt.Printf("*** Warning: possible undesired combination of -ignore-body and the response options: fl,fs,fw,ml,ms and mw.\n") } return errs.ErrorOrNil() } func printSearchResults(conf *ffuf.Config, pos int, exectime time.Time, hash string) { inp, err := input.NewInputProvider(conf) if err.ErrorOrNil() != nil { fmt.Printf("-------------------------------------------\n") fmt.Println("Encountered error that prevents reproduction of the request:") fmt.Println(err.ErrorOrNil()) return } inp.SetPosition(pos) inputdata := inp.Value() inputdata["FFUFHASH"] = []byte(hash) basereq := ffuf.BaseRequest(conf) dummyrunner := runner.NewRunnerByName("simple", conf, false) ffufreq, _ := dummyrunner.Prepare(inputdata, &basereq) rawreq, _ := dummyrunner.Dump(&ffufreq) fmt.Printf("-------------------------------------------\n") fmt.Printf("ffuf job started at: %s\n\n", exectime.Format(time.RFC3339)) fmt.Printf("%s\n", string(rawreq)) }