nuclei/v2/internal/runner/runner.go

308 lines
8.1 KiB
Go

package runner
import (
"bufio"
"fmt"
"io"
"io/ioutil"
"os"
"regexp"
"strings"
"github.com/logrusorgru/aurora"
"github.com/pkg/errors"
"github.com/projectdiscovery/gologger"
"github.com/projectdiscovery/nuclei/v2/internal/bufwriter"
"github.com/projectdiscovery/nuclei/v2/internal/progress"
"github.com/projectdiscovery/nuclei/v2/internal/tracelog"
"github.com/projectdiscovery/nuclei/v2/pkg/atomicboolean"
"github.com/projectdiscovery/nuclei/v2/pkg/collaborator"
"github.com/projectdiscovery/nuclei/v2/pkg/colorizer"
"github.com/projectdiscovery/nuclei/v2/pkg/globalratelimiter"
"github.com/projectdiscovery/nuclei/v2/pkg/projectfile"
"github.com/projectdiscovery/nuclei/v2/pkg/templates"
"github.com/projectdiscovery/nuclei/v2/pkg/workflows"
"github.com/remeh/sizedwaitgroup"
)
// Runner is a client for running the enumeration process.
type Runner struct {
input string
inputCount int64
tempFile string
traceLog tracelog.Log
// output is the output file to write if any
output *bufwriter.Writer
templatesConfig *nucleiConfig
// options contains configuration options for runner
options *Options
pf *projectfile.ProjectFile
// progress tracking
progress progress.IProgress
// output coloring
colorizer colorizer.NucleiColorizer
decolorizer *regexp.Regexp
}
// New creates a new client for running enumeration process.
func New(options *Options) (*Runner, error) {
runner := &Runner{
traceLog: &tracelog.NoopLogger{},
options: options,
}
if options.TraceLogFile != "" {
fileLog, err := tracelog.NewFileLogger(options.TraceLogFile)
if err != nil {
return nil, errors.Wrap(err, "could not create file trace logger")
}
runner.traceLog = fileLog
}
if err := runner.updateTemplates(); err != nil {
gologger.Labelf("Could not update templates: %s\n", err)
}
// output coloring
useColor := !options.NoColor
runner.colorizer = *colorizer.NewNucleiColorizer(aurora.NewAurora(useColor))
if useColor {
// compile a decolorization regex to cleanup file output messages
runner.decolorizer = regexp.MustCompile(`\x1B\[[0-9;]*[a-zA-Z]`)
}
if options.TemplateList {
runner.listAvailableTemplates()
os.Exit(0)
}
if (len(options.Templates) == 0 || (options.Targets == "" && !options.Stdin && options.Target == "")) && options.UpdateTemplates {
os.Exit(0)
}
// Read nucleiignore file if given a templateconfig
if runner.templatesConfig != nil {
runner.readNucleiIgnoreFile()
}
// If we have stdin, write it to a new file
if options.Stdin {
tempInput, err := ioutil.TempFile("", "stdin-input-*")
if err != nil {
return nil, err
}
if _, err := io.Copy(tempInput, os.Stdin); err != nil {
return nil, err
}
runner.tempFile = tempInput.Name()
tempInput.Close()
}
// If we have single target, write it to a new file
if options.Target != "" {
tempInput, err := ioutil.TempFile("", "stdin-input-*")
if err != nil {
return nil, err
}
fmt.Fprintf(tempInput, "%s\n", options.Target)
runner.tempFile = tempInput.Name()
tempInput.Close()
}
// Setup input, handle a list of hosts as argument
var err error
var input *os.File
if options.Targets != "" {
input, err = os.Open(options.Targets)
} else if options.Stdin || options.Target != "" {
input, err = os.Open(runner.tempFile)
}
if err != nil {
gologger.Fatalf("Could not open targets file '%s': %s\n", options.Targets, err)
}
// Sanitize input and pre-compute total number of targets
var usedInput = make(map[string]struct{})
dupeCount := 0
sb := strings.Builder{}
scanner := bufio.NewScanner(input)
runner.inputCount = 0
for scanner.Scan() {
url := scanner.Text()
// skip empty lines
if url == "" {
continue
}
// deduplication
if _, ok := usedInput[url]; !ok {
usedInput[url] = struct{}{}
runner.inputCount++
// allocate global rate limiters
globalratelimiter.Add(url, options.RateLimit)
sb.WriteString(url)
sb.WriteString("\n")
} else {
dupeCount++
}
}
input.Close()
runner.input = sb.String()
if dupeCount > 0 {
gologger.Labelf("Supplied input was automatically deduplicated (%d removed).", dupeCount)
}
// Create the output file if asked
if options.Output != "" {
output, err := bufwriter.New(options.Output)
if err != nil {
gologger.Fatalf("Could not create output file '%s': %s\n", options.Output, err)
}
runner.output = output
}
// Creates the progress tracking object
runner.progress = progress.NewProgress(runner.colorizer.Colorizer, options.EnableProgressBar)
// create project file if requested or load existing one
if options.Project {
var err error
runner.pf, err = projectfile.New(&projectfile.Options{Path: options.ProjectPath, Cleanup: options.ProjectPath == ""})
if err != nil {
return nil, err
}
}
// Enable Polling
if options.BurpCollaboratorBiid != "" {
collaborator.DefaultCollaborator.Collab.AddBIID(options.BurpCollaboratorBiid)
}
return runner, nil
}
// Close releases all the resources and cleans up
func (r *Runner) Close() {
if r.output != nil {
r.output.Close()
}
os.Remove(r.tempFile)
if r.pf != nil {
r.pf.Close()
}
}
// RunEnumeration sets up the input layer for giving input nuclei.
// binary and runs the actual enumeration
func (r *Runner) RunEnumeration() {
// resolves input templates definitions and any optional exclusion
includedTemplates := r.getTemplatesFor(r.options.Templates)
excludedTemplates := r.getTemplatesFor(r.options.ExcludedTemplates)
// defaults to all templates
allTemplates := includedTemplates
if len(excludedTemplates) > 0 {
excludedMap := make(map[string]struct{}, len(excludedTemplates))
for _, excl := range excludedTemplates {
excludedMap[excl] = struct{}{}
}
// rebuild list with only non-excluded templates
allTemplates = []string{}
for _, incl := range includedTemplates {
if _, found := excludedMap[incl]; !found {
allTemplates = append(allTemplates, incl)
} else {
gologger.Warningf("Excluding '%s'", incl)
}
}
}
// pre-parse all the templates, apply filters
availableTemplates, workflowCount := r.getParsedTemplatesFor(allTemplates, r.options.Severity)
templateCount := len(availableTemplates)
hasWorkflows := workflowCount > 0
// 0 matches means no templates were found in directory
if templateCount == 0 {
gologger.Fatalf("Error, no templates were found.\n")
}
gologger.Infof("Using %s rules (%s templates, %s workflows)",
r.colorizer.Colorizer.Bold(templateCount).String(),
r.colorizer.Colorizer.Bold(templateCount-workflowCount).String(),
r.colorizer.Colorizer.Bold(workflowCount).String())
// precompute total request count
var totalRequests int64 = 0
for _, t := range availableTemplates {
switch av := t.(type) {
case *templates.Template:
totalRequests += (av.GetHTTPRequestCount() + av.GetDNSRequestCount()) * r.inputCount
case *workflows.Workflow:
// workflows will dynamically adjust the totals while running, as
// it can't be know in advance which requests will be called
} // nolint:wsl // comment
}
results := atomicboolean.New()
wgtemplates := sizedwaitgroup.New(r.options.TemplateThreads)
// Starts polling or ignore
collaborator.DefaultCollaborator.Poll()
if r.inputCount == 0 {
gologger.Errorf("Could not find any valid input URLs.")
} else if totalRequests > 0 || hasWorkflows {
// tracks global progress and captures stdout/stderr until p.Wait finishes
p := r.progress
p.InitProgressbar(r.inputCount, templateCount, totalRequests)
for _, t := range availableTemplates {
wgtemplates.Add()
go func(template interface{}) {
defer wgtemplates.Done()
switch tt := template.(type) {
case *templates.Template:
for _, request := range tt.RequestsDNS {
results.Or(r.processTemplateWithList(p, tt, request))
}
for _, request := range tt.BulkRequestsHTTP {
results.Or(r.processTemplateWithList(p, tt, request))
}
case *workflows.Workflow:
results.Or(r.processWorkflowWithList(p, template.(*workflows.Workflow)))
}
}(t)
}
wgtemplates.Wait()
p.Wait()
}
if !results.Get() {
if r.output != nil {
r.output.Close()
os.Remove(r.options.Output)
}
gologger.Infof("No results found. Happy hacking!")
}
}