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mutator.go
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mutator.go
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package alterx
import (
"bytes"
"context"
"fmt"
"io"
"regexp"
"strings"
"time"
"github.com/projectdiscovery/fasttemplate"
"github.com/projectdiscovery/gologger"
"github.com/projectdiscovery/utils/dedupe"
errorutil "github.com/projectdiscovery/utils/errors"
sliceutil "github.com/projectdiscovery/utils/slice"
)
var (
extractNumbers = regexp.MustCompile(`[0-9]+`)
extractWords = regexp.MustCompile(`[a-zA-Z0-9]+`)
extractWordsOnly = regexp.MustCompile(`[a-zA-Z]{3,}`)
DedupeResults = true // Dedupe all results (default: true)
)
// Mutator Options
type Options struct {
// list of Domains to use as base
Domains []string
// list of words to use while creating permutations
// if empty DefaultWordList is used
Payloads map[string][]string
// list of pattersn to use while creating permutations
// if empty DefaultPatterns are used
Patterns []string
// Limits output results (0 = no limit)
Limit int
// Enrich when true alterx extra possible words from input
// and adds them to default payloads word,number
Enrich bool
// MaxSize limits output data size
MaxSize int
}
// Mutator
type Mutator struct {
Options *Options
payloadCount int
Inputs []*Input // all processed inputs
timeTaken time.Duration
// internal or unexported variables
maxkeyLenInBytes int
}
// New creates and returns new mutator instance from options
func New(opts *Options) (*Mutator, error) {
if len(opts.Domains) == 0 {
return nil, fmt.Errorf("no input provided to calculate permutations")
}
if len(opts.Payloads) == 0 {
opts.Payloads = map[string][]string{}
if len(DefaultConfig.Payloads) == 0 {
return nil, fmt.Errorf("something went wrong, `DefaultWordList` and input wordlist are empty")
}
opts.Payloads = DefaultConfig.Payloads
}
if len(opts.Patterns) == 0 {
if len(DefaultConfig.Patterns) == 0 {
return nil, fmt.Errorf("something went wrong,`DefaultPatters` and input patterns are empty")
}
opts.Patterns = DefaultConfig.Patterns
}
// purge duplicates if any
for k, v := range opts.Payloads {
dedupe := sliceutil.Dedupe(v)
if len(v) != len(dedupe) {
gologger.Warning().Msgf("%v duplicate payloads found in %v. purging them..", len(v)-len(dedupe), k)
opts.Payloads[k] = dedupe
}
}
m := &Mutator{
Options: opts,
}
if err := m.validatePatterns(); err != nil {
return nil, err
}
if err := m.prepareInputs(); err != nil {
return nil, err
}
if opts.Enrich {
m.enrichPayloads()
}
return m, nil
}
// Execute calculates all permutations using input wordlist and patterns
// and writes them to a string channel
func (m *Mutator) Execute(ctx context.Context) <-chan string {
var maxBytes int
if DedupeResults {
count := m.EstimateCount()
maxBytes = count * m.maxkeyLenInBytes
}
results := make(chan string, len(m.Options.Patterns))
go func() {
now := time.Now()
for _, v := range m.Inputs {
varMap := getSampleMap(v.GetMap(), m.Options.Payloads)
for _, pattern := range m.Options.Patterns {
if err := checkMissing(pattern, varMap); err == nil {
statement := Replace(pattern, v.GetMap())
select {
case <-ctx.Done():
return
default:
m.clusterBomb(statement, results)
}
} else {
gologger.Warning().Msgf("%v : failed to evaluate pattern %v. skipping", err.Error(), pattern)
}
}
}
m.timeTaken = time.Since(now)
close(results)
}()
if DedupeResults {
// drain results
d := dedupe.NewDedupe(results, maxBytes)
d.Drain()
return d.GetResults()
}
return results
}
// ExecuteWithWriter executes Mutator and writes results directly to type that implements io.Writer interface
func (m *Mutator) ExecuteWithWriter(Writer io.Writer) error {
if Writer == nil {
return errorutil.NewWithTag("alterx", "writer destination cannot be nil")
}
resChan := m.Execute(context.TODO())
m.payloadCount = 0
maxFileSize := m.Options.MaxSize
for {
value, ok := <-resChan
if !ok {
gologger.Info().Msgf("Generated %v permutations in %v", m.payloadCount, m.Time())
return nil
}
if m.Options.Limit > 0 && m.payloadCount == m.Options.Limit {
// we can't early exit, due to abstraction we have to conclude the elaboration to drain all dedupers
continue
}
if maxFileSize <= 0 {
// drain all dedupers when max-file size reached
continue
}
if strings.HasPrefix(value, "-") {
continue
}
outputData := []byte(value + "\n")
if len(outputData) > maxFileSize {
maxFileSize = 0
continue
}
n, err := Writer.Write(outputData)
if err != nil {
return err
}
// update maxFileSize limit after each write
maxFileSize -= n
m.payloadCount++
}
}
// EstimateCount estimates number of payloads that will be created
// without actually executing/creating permutations
func (m *Mutator) EstimateCount() int {
counter := 0
for _, v := range m.Inputs {
varMap := getSampleMap(v.GetMap(), m.Options.Payloads)
for _, pattern := range m.Options.Patterns {
if err := checkMissing(pattern, varMap); err == nil {
// if say patterns is {{sub}}.{{sub1}}-{{word}}.{{root}}
// and input domain is api.scanme.sh its clear that {{sub1}} here will be empty/missing
// in such cases `alterx` silently skips that pattern for that specific input
// this way user can have a long list of patterns but they are only used if all required data is given (much like self-contained templates)
statement := Replace(pattern, v.GetMap())
bin := unsafeToBytes(statement)
if m.maxkeyLenInBytes < len(bin) {
m.maxkeyLenInBytes = len(bin)
}
varsUsed := getAllVars(statement)
if len(varsUsed) == 0 {
counter += 1
} else {
tmpCounter := 1
for _, word := range varsUsed {
tmpCounter *= len(m.Options.Payloads[word])
}
counter += tmpCounter
}
}
}
}
return counter
}
// DryRun executes payloads without storing and returns number of payloads created
// this value is also stored in variable and can be accessed via getter `PayloadCount`
func (m *Mutator) DryRun() int {
m.payloadCount = 0
err := m.ExecuteWithWriter(io.Discard)
if err != nil {
gologger.Error().Msgf("alterx: got %v", err)
}
return m.payloadCount
}
// clusterBomb calculates all payloads of clusterbomb attack and sends them to result channel
func (m *Mutator) clusterBomb(template string, results chan string) {
// Early Exit: this is what saves clusterBomb from stackoverflows and reduces
// n*len(n) iterations and n recursions
varsUsed := getAllVars(template)
if len(varsUsed) == 0 {
// clusterBomb is not required
// just send existing template as result and exit
results <- template
return
}
payloadSet := map[string][]string{}
// instead of sending all payloads only send payloads that are used
// in template/statement
for _, v := range varsUsed {
payloadSet[v] = []string{}
for _, word := range m.Options.Payloads[v] {
if !strings.Contains(template, word) {
// skip all words that are already present in template/sub , it is highly unlikely
// we will ever find api-api.example.com
payloadSet[v] = append(payloadSet[v], word)
}
}
}
payloads := NewIndexMap(payloadSet)
// in clusterBomb attack no of payloads generated are
// len(first_set)*len(second_set)*len(third_set)....
callbackFunc := func(varMap map[string]interface{}) {
results <- Replace(template, varMap)
}
ClusterBomb(payloads, callbackFunc, []string{})
}
// prepares input and patterns and calculates estimations
func (m *Mutator) prepareInputs() error {
var errors []string
// prepare input
var allInputs []*Input
for _, v := range m.Options.Domains {
i, err := NewInput(v)
if err != nil {
errors = append(errors, err.Error())
continue
}
allInputs = append(allInputs, i)
}
m.Inputs = allInputs
if len(errors) > 0 {
gologger.Warning().Msgf("errors found when preparing inputs got: %v : skipping errored inputs", strings.Join(errors, " : "))
}
return nil
}
// validates all patterns by compiling them
func (m *Mutator) validatePatterns() error {
for _, v := range m.Options.Patterns {
// check if all placeholders are correctly used and are valid
if _, err := fasttemplate.NewTemplate(v, ParenthesisOpen, ParenthesisClose); err != nil {
return err
}
}
return nil
}
// enrichPayloads extract possible words and adds them to default wordlist
func (m *Mutator) enrichPayloads() {
var temp bytes.Buffer
for _, v := range m.Inputs {
temp.WriteString(v.Sub + " ")
if len(v.MultiLevel) > 0 {
temp.WriteString(strings.Join(v.MultiLevel, " "))
}
}
numbers := extractNumbers.FindAllString(temp.String(), -1)
extraWords := extractWords.FindAllString(temp.String(), -1)
extraWordsOnly := extractWordsOnly.FindAllString(temp.String(), -1)
if len(extraWordsOnly) > 0 {
extraWords = append(extraWords, extraWordsOnly...)
extraWords = sliceutil.Dedupe(extraWords)
}
if len(m.Options.Payloads["word"]) > 0 {
extraWords = append(extraWords, m.Options.Payloads["word"]...)
m.Options.Payloads["word"] = sliceutil.Dedupe(extraWords)
}
if len(m.Options.Payloads["number"]) > 0 {
numbers = append(numbers, m.Options.Payloads["number"]...)
m.Options.Payloads["number"] = sliceutil.Dedupe(numbers)
}
}
// PayloadCount returns total estimated payloads count
func (m *Mutator) PayloadCount() int {
if m.payloadCount == 0 {
return m.EstimateCount()
}
return m.payloadCount
}
// Time returns time taken to create permutations in seconds
func (m *Mutator) Time() string {
return fmt.Sprintf("%.4fs", m.timeTaken.Seconds())
}