ffuf/main.go
Corben Leo 752002d56b Add -timeout flag for customizable HTTP Request timeouts (#31)
* Add -timeout flag to specify HTTP request timeouts
2019-04-27 10:29:05 +03:00

326 lines
10 KiB
Go

package main
import (
"context"
"flag"
"fmt"
"net/http"
"net/url"
"os"
"strconv"
"strings"
"github.com/ffuf/ffuf/pkg/ffuf"
"github.com/ffuf/ffuf/pkg/filter"
"github.com/ffuf/ffuf/pkg/input"
"github.com/ffuf/ffuf/pkg/output"
"github.com/ffuf/ffuf/pkg/runner"
)
type cliOptions struct {
extensions string
delay string
filterStatus string
filterSize string
filterRegexp string
filterWords string
matcherStatus string
matcherSize string
matcherRegexp string
matcherWords string
proxyURL string
outputFormat string
headers multiStringFlag
showVersion bool
}
type multiStringFlag []string
func (m *multiStringFlag) String() string {
return ""
}
func (m *multiStringFlag) Set(value string) error {
*m = append(*m, value)
return nil
}
func main() {
ctx, cancel := context.WithCancel(context.Background())
defer cancel()
conf := ffuf.NewConfig(ctx)
opts := cliOptions{}
flag.StringVar(&opts.extensions, "e", "", "List of extensions to apply. Each extension provided will extend the wordlist entry once.")
flag.BoolVar(&conf.DirSearchCompat, "D", false, "DirSearch style wordlist compatibility mode. Used in conjunction with -e flag. Replaces %EXT% in wordlist entry with each of the extensions provided by -e.")
flag.Var(&opts.headers, "H", "Header `\"Name: Value\"`, separated by colon. Multiple -H flags are accepted.")
flag.StringVar(&conf.Url, "u", "", "Target URL")
flag.StringVar(&conf.Wordlist, "w", "", "Wordlist path")
flag.BoolVar(&conf.TLSVerify, "k", false, "TLS identity verification")
flag.StringVar(&opts.delay, "p", "", "Seconds of `delay` between requests, or a range of random delay. For example \"0.1\" or \"0.1-2.0\"")
flag.StringVar(&opts.filterStatus, "fc", "", "Filter HTTP status codes from response")
flag.StringVar(&opts.filterSize, "fs", "", "Filter HTTP response size")
flag.StringVar(&opts.filterRegexp, "fr", "", "Filter regexp")
flag.StringVar(&opts.filterWords, "fw", "", "Filter by amount of words in response")
flag.StringVar(&conf.Data, "d", "", "POST data.")
flag.BoolVar(&conf.Colors, "c", false, "Colorize output.")
flag.StringVar(&opts.matcherStatus, "mc", "200,204,301,302,307,401,403", "Match HTTP status codes from respose, use \"all\" to match every response code.")
flag.StringVar(&opts.matcherSize, "ms", "", "Match HTTP response size")
flag.StringVar(&opts.matcherRegexp, "mr", "", "Match regexp")
flag.StringVar(&opts.matcherWords, "mw", "", "Match amount of words in response")
flag.StringVar(&opts.proxyURL, "x", "", "HTTP Proxy URL")
flag.StringVar(&conf.Method, "X", "GET", "HTTP method to use")
flag.StringVar(&conf.OutputFile, "o", "", "Write output to file")
flag.StringVar(&opts.outputFormat, "of", "json", "Output file format. Available formats: json, csv, ecsv")
flag.BoolVar(&conf.Quiet, "s", false, "Do not print additional information (silent mode)")
flag.BoolVar(&conf.StopOn403, "sf", false, "Stop when > 90% of responses return 403 Forbidden")
flag.BoolVar(&conf.StopOnErrors, "se", false, "Stop on spurious errors")
flag.BoolVar(&conf.StopOnAll, "sa", false, "Stop on all error cases. Implies -sf and -se")
flag.BoolVar(&conf.FollowRedirects, "r", false, "Follow redirects")
flag.BoolVar(&conf.AutoCalibration, "ac", false, "Automatically calibrate filtering options")
flag.IntVar(&conf.Threads, "t", 40, "Number of concurrent threads.")
flag.IntVar(&conf.Timeout, "timeout", 10, "HTTP request timeout in seconds.")
flag.BoolVar(&opts.showVersion, "V", false, "Show version information.")
flag.Parse()
if opts.showVersion {
fmt.Printf("ffuf version: %s\n", ffuf.VERSION)
os.Exit(0)
}
if err := prepareConfig(&opts, &conf); err != nil {
fmt.Fprintf(os.Stderr, "Encountered error(s): %s\n", err)
flag.Usage()
os.Exit(1)
}
if err := prepareFilters(&opts, &conf); err != nil {
fmt.Fprintf(os.Stderr, "Encountered error(s): %s\n", err)
flag.Usage()
os.Exit(1)
}
job, err := prepareJob(&conf)
if err != nil {
fmt.Fprintf(os.Stderr, "Encountered error(s): %s\n", err)
flag.Usage()
os.Exit(1)
}
if conf.AutoCalibration {
// Handle the calibration
responses, err := job.CalibrateResponses()
if err != nil {
fmt.Fprintf(os.Stderr, "Error in autocalibration, exiting: %s\n", err)
os.Exit(1)
}
if len(responses) > 0 {
calibrateFilters(responses, &conf)
}
}
// Job handles waiting for goroutines to complete itself
job.Start()
}
func calibrateFilters(responses []ffuf.Response, conf *ffuf.Config) {
sizeCalib := make([]string, 0)
wordCalib := make([]string, 0)
for _, r := range responses {
if r.ContentLength > 1 {
// Only add if we have an actual size of responses
sizeCalib = append(sizeCalib, strconv.FormatInt(r.ContentLength, 10))
}
if r.ContentWords > 1 {
// Only add if we have an actual word length of response
wordCalib = append(wordCalib, strconv.FormatInt(r.ContentWords, 10))
}
}
if len(sizeCalib) > 0 {
addFilter(conf, "size", strings.Join(sizeCalib, ","))
}
if len(wordCalib) > 0 {
addFilter(conf, "word", strings.Join(wordCalib, ","))
}
}
func prepareJob(conf *ffuf.Config) (*ffuf.Job, error) {
errs := ffuf.NewMultierror()
// TODO: implement error handling for runnerprovider and outputprovider
// We only have http runner right now
runprovider := runner.NewRunnerByName("http", conf)
// We only have wordlist inputprovider right now
inputprovider, err := input.NewInputProviderByName("wordlist", conf)
if err != nil {
errs.Add(fmt.Errorf("%s", err))
}
// We only have stdout outputprovider right now
outprovider := output.NewOutputProviderByName("stdout", conf)
return &ffuf.Job{
Config: conf,
Runner: runprovider,
Output: outprovider,
Input: inputprovider,
}, errs.ErrorOrNil()
}
func prepareConfig(parseOpts *cliOptions, conf *ffuf.Config) error {
//TODO: refactor in a proper flag library that can handle things like required flags
errs := ffuf.NewMultierror()
foundkeyword := false
var err error
var err2 error
if len(conf.Url) == 0 {
errs.Add(fmt.Errorf("-u flag is required"))
}
if len(conf.Wordlist) == 0 {
errs.Add(fmt.Errorf("-w flag is required"))
}
// prepare extensions
if parseOpts.extensions != "" {
extensions := strings.Split(parseOpts.extensions, ",")
conf.Extensions = extensions
}
//Prepare headers
for _, v := range parseOpts.headers {
hs := strings.SplitN(v, ":", 2)
if len(hs) == 2 {
fuzzedheader := false
for _, fv := range hs {
if strings.Index(fv, "FUZZ") != -1 {
// Add to fuzzheaders
fuzzedheader = true
}
}
if fuzzedheader {
conf.FuzzHeaders[strings.TrimSpace(hs[0])] = strings.TrimSpace(hs[1])
foundkeyword = true
} else {
conf.StaticHeaders[strings.TrimSpace(hs[0])] = strings.TrimSpace(hs[1])
}
} else {
errs.Add(fmt.Errorf("Header defined by -H needs to have a value. \":\" should be used as a separator"))
}
}
//Prepare delay
d := strings.Split(parseOpts.delay, "-")
if len(d) > 2 {
errs.Add(fmt.Errorf("Delay needs to be either a single float: \"0.1\" or a range of floats, delimited by dash: \"0.1-0.8\""))
} else if len(d) == 2 {
conf.Delay.IsRange = true
conf.Delay.HasDelay = true
conf.Delay.Min, err = strconv.ParseFloat(d[0], 64)
conf.Delay.Max, err2 = strconv.ParseFloat(d[1], 64)
if err != nil || err2 != nil {
errs.Add(fmt.Errorf("Delay range min and max values need to be valid floats. For example: 0.1-0.5"))
}
} else if len(parseOpts.delay) > 0 {
conf.Delay.IsRange = false
conf.Delay.HasDelay = true
conf.Delay.Min, err = strconv.ParseFloat(parseOpts.delay, 64)
if err != nil {
errs.Add(fmt.Errorf("Delay needs to be either a single float: \"0.1\" or a range of floats, delimited by dash: \"0.1-0.8\""))
}
}
// Verify proxy url format
if len(parseOpts.proxyURL) > 0 {
pu, err := url.Parse(parseOpts.proxyURL)
if err != nil {
errs.Add(fmt.Errorf("Bad proxy url (-x) format: %s", err))
} else {
conf.ProxyURL = http.ProxyURL(pu)
}
}
//Check the output file format option
if conf.OutputFile != "" {
//No need to check / error out if output file isn't defined
outputFormats := []string{"json", "csv", "ecsv"}
found := false
for _, f := range outputFormats {
if f == parseOpts.outputFormat {
conf.OutputFormat = f
found = true
}
}
if !found {
errs.Add(fmt.Errorf("Unknown output file format (-of): %s", parseOpts.outputFormat))
}
}
conf.CommandLine = strings.Join(os.Args, " ")
//Search for keyword from URL and POST data too
if strings.Index(conf.Url, "FUZZ") != -1 {
foundkeyword = true
}
if strings.Index(conf.Data, "FUZZ") != -1 {
foundkeyword = true
}
if !foundkeyword {
errs.Add(fmt.Errorf("No FUZZ keyword(s) found in headers, URL or POST data, nothing to do"))
}
return errs.ErrorOrNil()
}
func prepareFilters(parseOpts *cliOptions, conf *ffuf.Config) error {
errs := ffuf.NewMultierror()
if parseOpts.filterStatus != "" {
if err := addFilter(conf, "status", parseOpts.filterStatus); err != nil {
errs.Add(err)
}
}
if parseOpts.filterSize != "" {
if err := addFilter(conf, "size", parseOpts.filterSize); err != nil {
errs.Add(err)
}
}
if parseOpts.filterRegexp != "" {
if err := addFilter(conf, "regexp", parseOpts.filterRegexp); err != nil {
errs.Add(err)
}
}
if parseOpts.filterWords != "" {
if err := addFilter(conf, "word", parseOpts.filterWords); err != nil {
errs.Add(err)
}
}
if parseOpts.matcherStatus != "" {
if err := addMatcher(conf, "status", parseOpts.matcherStatus); err != nil {
errs.Add(err)
}
}
if parseOpts.matcherSize != "" {
if err := addMatcher(conf, "size", parseOpts.matcherSize); err != nil {
errs.Add(err)
}
}
if parseOpts.matcherRegexp != "" {
if err := addMatcher(conf, "regexp", parseOpts.matcherRegexp); err != nil {
errs.Add(err)
}
}
if parseOpts.matcherWords != "" {
if err := addMatcher(conf, "word", parseOpts.matcherWords); err != nil {
errs.Add(err)
}
}
return errs.ErrorOrNil()
}
func addFilter(conf *ffuf.Config, name string, option string) error {
newf, err := filter.NewFilterByName(name, option)
if err == nil {
conf.Filters = append(conf.Filters, newf)
}
return err
}
func addMatcher(conf *ffuf.Config, name string, option string) error {
newf, err := filter.NewFilterByName(name, option)
if err == nil {
conf.Matchers = append(conf.Matchers, newf)
}
return err
}