nuclei/pkg/protocols/protocols.go

320 lines
13 KiB
Go

package protocols
import (
"encoding/base64"
"sync/atomic"
"github.com/projectdiscovery/ratelimit"
mapsutil "github.com/projectdiscovery/utils/maps"
stringsutil "github.com/projectdiscovery/utils/strings"
"github.com/logrusorgru/aurora"
"github.com/projectdiscovery/nuclei/v3/pkg/catalog"
"github.com/projectdiscovery/nuclei/v3/pkg/input"
"github.com/projectdiscovery/nuclei/v3/pkg/js/compiler"
"github.com/projectdiscovery/nuclei/v3/pkg/model"
"github.com/projectdiscovery/nuclei/v3/pkg/operators"
"github.com/projectdiscovery/nuclei/v3/pkg/operators/extractors"
"github.com/projectdiscovery/nuclei/v3/pkg/operators/matchers"
"github.com/projectdiscovery/nuclei/v3/pkg/output"
"github.com/projectdiscovery/nuclei/v3/pkg/progress"
"github.com/projectdiscovery/nuclei/v3/pkg/projectfile"
"github.com/projectdiscovery/nuclei/v3/pkg/protocols/common/contextargs"
"github.com/projectdiscovery/nuclei/v3/pkg/protocols/common/hosterrorscache"
"github.com/projectdiscovery/nuclei/v3/pkg/protocols/common/interactsh"
"github.com/projectdiscovery/nuclei/v3/pkg/protocols/common/utils/excludematchers"
"github.com/projectdiscovery/nuclei/v3/pkg/protocols/common/variables"
"github.com/projectdiscovery/nuclei/v3/pkg/protocols/headless/engine"
"github.com/projectdiscovery/nuclei/v3/pkg/reporting"
"github.com/projectdiscovery/nuclei/v3/pkg/scan"
templateTypes "github.com/projectdiscovery/nuclei/v3/pkg/templates/types"
"github.com/projectdiscovery/nuclei/v3/pkg/types"
)
var MaxTemplateFileSizeForEncoding = 1024 * 1024
// Executer is an interface implemented any protocol based request executer.
type Executer interface {
// Compile compiles the execution generators preparing any requests possible.
Compile() error
// Requests returns the total number of requests the rule will perform
Requests() int
// Execute executes the protocol group and returns true or false if results were found.
Execute(ctx *scan.ScanContext) (bool, error)
// ExecuteWithResults executes the protocol requests and returns results instead of writing them.
ExecuteWithResults(ctx *scan.ScanContext) ([]*output.ResultEvent, error)
}
// ExecutorOptions contains the configuration options for executer clients
type ExecutorOptions struct {
// TemplateID is the ID of the template for the request
TemplateID string
// TemplatePath is the path of the template for the request
TemplatePath string
// TemplateInfo contains information block of the template request
TemplateInfo model.Info
// RawTemplate is the raw template for the request
RawTemplate []byte
// Output is a writer interface for writing output events from executer.
Output output.Writer
// Options contains configuration options for the executer.
Options *types.Options
// IssuesClient is a client for nuclei issue tracker reporting
IssuesClient reporting.Client
// Progress is a progress client for scan reporting
Progress progress.Progress
// RateLimiter is a rate-limiter for limiting sent number of requests.
RateLimiter *ratelimit.Limiter
// Catalog is a template catalog implementation for nuclei
Catalog catalog.Catalog
// ProjectFile is the project file for nuclei
ProjectFile *projectfile.ProjectFile
// Browser is a browser engine for running headless templates
Browser *engine.Browser
// Interactsh is a client for interactsh oob polling server
Interactsh *interactsh.Client
// HostErrorsCache is an optional cache for handling host errors
HostErrorsCache hosterrorscache.CacheInterface
// Stop execution once first match is found (Assigned while parsing templates)
// Note: this is different from Options.StopAtFirstMatch (Assigned from CLI option)
StopAtFirstMatch bool
// Variables is a list of variables from template
Variables variables.Variable
// Constants is a list of constants from template
Constants map[string]interface{}
// ExcludeMatchers is the list of matchers to exclude
ExcludeMatchers *excludematchers.ExcludeMatchers
// InputHelper is a helper for input normalization
InputHelper *input.Helper
Operators []*operators.Operators // only used by offlinehttp module
// DoNotCache bool disables optional caching of the templates structure
DoNotCache bool
Colorizer aurora.Aurora
WorkflowLoader model.WorkflowLoader
ResumeCfg *types.ResumeCfg
// ProtocolType is the type of the template
ProtocolType templateTypes.ProtocolType
// Flow is execution flow for the template (written in javascript)
Flow string
// IsMultiProtocol is true if template has more than one protocol
IsMultiProtocol bool
// templateStore is a map which contains template context for each scan (i.e input * template-id pair)
templateCtxStore *mapsutil.SyncLockMap[string, *contextargs.Context]
// JsCompiler is abstracted javascript compiler which adds node modules and provides execution
// environment for javascript templates
JsCompiler *compiler.Compiler
}
// CreateTemplateCtxStore creates template context store (which contains templateCtx for every scan)
func (e *ExecutorOptions) CreateTemplateCtxStore() {
e.templateCtxStore = &mapsutil.SyncLockMap[string, *contextargs.Context]{
Map: make(map[string]*contextargs.Context),
ReadOnly: atomic.Bool{},
}
}
// RemoveTemplateCtx removes template context of given scan from store
func (e *ExecutorOptions) RemoveTemplateCtx(input *contextargs.MetaInput) {
scanId := input.GetScanHash(e.TemplateID)
if e.templateCtxStore != nil {
e.templateCtxStore.Delete(scanId)
}
}
// GetTemplateCtx returns template context for given input
func (e *ExecutorOptions) GetTemplateCtx(input *contextargs.MetaInput) *contextargs.Context {
scanId := input.GetScanHash(e.TemplateID)
templateCtx, ok := e.templateCtxStore.Get(scanId)
if !ok {
// if template context does not exist create new and add it to store and return it
templateCtx = contextargs.New()
_ = e.templateCtxStore.Set(scanId, templateCtx)
}
return templateCtx
}
// AddTemplateVars adds vars to template context with given template type as prefix
// this method is no-op if template is not multi protocol
func (e *ExecutorOptions) AddTemplateVars(input *contextargs.MetaInput, reqType templateTypes.ProtocolType, reqID string, vars map[string]interface{}) {
// if we wan't to disable adding response variables and other variables to template context
// this is the statement that does it . template context is currently only enabled for
// multiprotocol and flow templates
if !e.IsMultiProtocol && e.Flow == "" {
// no-op if not multi protocol template or flow template
return
}
templateCtx := e.GetTemplateCtx(input)
for k, v := range vars {
if !stringsutil.EqualFoldAny(k, "template-id", "template-info", "template-path") {
if reqID != "" {
k = reqID + "_" + k
} else if reqType < templateTypes.InvalidProtocol {
k = reqType.String() + "_" + k
}
templateCtx.Set(k, v)
}
}
}
// AddTemplateVar adds given var to template context with given template type as prefix
// this method is no-op if template is not multi protocol
func (e *ExecutorOptions) AddTemplateVar(input *contextargs.MetaInput, templateType templateTypes.ProtocolType, reqID string, key string, value interface{}) {
if !e.IsMultiProtocol && e.Flow == "" {
// no-op if not multi protocol template or flow template
return
}
templateCtx := e.GetTemplateCtx(input)
if reqID != "" {
key = reqID + "_" + key
} else if templateType < templateTypes.InvalidProtocol {
key = templateType.String() + "_" + key
}
templateCtx.Set(key, value)
}
// Copy returns a copy of the executeroptions structure
func (e ExecutorOptions) Copy() ExecutorOptions {
copy := e
copy.CreateTemplateCtxStore()
return copy
}
// Request is an interface implemented any protocol based request generator.
type Request interface {
// Compile compiles the request generators preparing any requests possible.
Compile(options *ExecutorOptions) error
// Requests returns the total number of requests the rule will perform
Requests() int
// GetID returns the ID for the request if any. IDs are used for multi-request
// condition matching. So, two requests can be sent and their match can
// be evaluated from the third request by using the IDs for both requests.
GetID() string
// Match performs matching operation for a matcher on model and returns:
// true and a list of matched snippets if the matcher type is supports it
// otherwise false and an empty string slice
Match(data map[string]interface{}, matcher *matchers.Matcher) (bool, []string)
// Extract performs extracting operation for an extractor on model and returns true or false.
Extract(data map[string]interface{}, matcher *extractors.Extractor) map[string]struct{}
// ExecuteWithResults executes the protocol requests and returns results instead of writing them.
ExecuteWithResults(input *contextargs.Context, dynamicValues, previous output.InternalEvent, callback OutputEventCallback) error
// MakeResultEventItem creates a result event from internal wrapped event. Intended to be used by MakeResultEventItem internally
MakeResultEventItem(wrapped *output.InternalWrappedEvent) *output.ResultEvent
// MakeResultEvent creates a flat list of result events from an internal wrapped event, based on successful matchers and extracted data
MakeResultEvent(wrapped *output.InternalWrappedEvent) []*output.ResultEvent
// GetCompiledOperators returns a list of the compiled operators
GetCompiledOperators() []*operators.Operators
// Type returns the type of the protocol request
Type() templateTypes.ProtocolType
}
// OutputEventCallback is a callback event for any results found during scanning.
type OutputEventCallback func(result *output.InternalWrappedEvent)
func MakeDefaultResultEvent(request Request, wrapped *output.InternalWrappedEvent) []*output.ResultEvent {
// Note: operator result is generated if something was succesfull match/extract/dynamic-extract
// but results should not be generated if
// 1. no match was found and some dynamic values were extracted
// 2. if something was extracted (matchers exist but no match was found)
if len(wrapped.OperatorsResult.DynamicValues) > 0 && !wrapped.OperatorsResult.Matched {
return nil
}
// check if something was extracted (except dynamic values)
extracted := len(wrapped.OperatorsResult.Extracts) > 0 || len(wrapped.OperatorsResult.OutputExtracts) > 0
if extracted && len(wrapped.OperatorsResult.Operators.Matchers) > 0 && !wrapped.OperatorsResult.Matched {
// if extracted and matchers exist but no match was found then don't generate result
return nil
}
results := make([]*output.ResultEvent, 0, len(wrapped.OperatorsResult.Matches)+1)
// If we have multiple matchers with names, write each of them separately.
if len(wrapped.OperatorsResult.Matches) > 0 {
for matcherNames := range wrapped.OperatorsResult.Matches {
data := request.MakeResultEventItem(wrapped)
data.MatcherName = matcherNames
results = append(results, data)
}
} else if len(wrapped.OperatorsResult.Extracts) > 0 {
for k, v := range wrapped.OperatorsResult.Extracts {
data := request.MakeResultEventItem(wrapped)
data.ExtractorName = k
data.ExtractedResults = v
results = append(results, data)
}
} else {
data := request.MakeResultEventItem(wrapped)
results = append(results, data)
}
return results
}
// MakeDefaultExtractFunc performs extracting operation for an extractor on model and returns true or false.
func MakeDefaultExtractFunc(data map[string]interface{}, extractor *extractors.Extractor) map[string]struct{} {
part := extractor.Part
if part == "" {
part = "response"
}
item, ok := data[part]
if !ok && !extractors.SupportsMap(extractor) {
return nil
}
itemStr := types.ToString(item)
switch extractor.GetType() {
case extractors.RegexExtractor:
return extractor.ExtractRegex(itemStr)
case extractors.KValExtractor:
return extractor.ExtractKval(data)
case extractors.JSONExtractor:
return extractor.ExtractJSON(itemStr)
case extractors.XPathExtractor:
return extractor.ExtractXPath(itemStr)
case extractors.DSLExtractor:
return extractor.ExtractDSL(data)
}
return nil
}
// MakeDefaultMatchFunc performs matching operation for a matcher on model and returns true or false.
func MakeDefaultMatchFunc(data map[string]interface{}, matcher *matchers.Matcher) (bool, []string) {
part := matcher.Part
if part == "" {
part = "response"
}
partItem, ok := data[part]
if !ok && matcher.Type.MatcherType != matchers.DSLMatcher {
return false, nil
}
item := types.ToString(partItem)
switch matcher.GetType() {
case matchers.SizeMatcher:
result := matcher.Result(matcher.MatchSize(len(item)))
return result, nil
case matchers.WordsMatcher:
return matcher.ResultWithMatchedSnippet(matcher.MatchWords(item, nil))
case matchers.RegexMatcher:
return matcher.ResultWithMatchedSnippet(matcher.MatchRegex(item))
case matchers.BinaryMatcher:
return matcher.ResultWithMatchedSnippet(matcher.MatchBinary(item))
case matchers.DSLMatcher:
return matcher.Result(matcher.MatchDSL(data)), nil
case matchers.XPathMatcher:
return matcher.Result(matcher.MatchXPath(item)), []string{}
}
return false, nil
}
func (e *ExecutorOptions) EncodeTemplate() string {
if !e.Options.OmitTemplate && len(e.RawTemplate) <= MaxTemplateFileSizeForEncoding {
return base64.StdEncoding.EncodeToString(e.RawTemplate)
}
return ""
}