// (c) Copyright 2016 Hewlett Packard Enterprise Development LP // // Licensed under the Apache License, Version 2.0 (the "License"); // you may not use this file except in compliance with the License. // You may obtain a copy of the License at // // http://www.apache.org/licenses/LICENSE-2.0 // // Unless required by applicable law or agreed to in writing, software // distributed under the License is distributed on an "AS IS" BASIS, // WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. // See the License for the specific language governing permissions and // limitations under the License. package rules import ( "fmt" "go/ast" "go/token" "regexp" "strconv" zxcvbn "github.com/ccojocar/zxcvbn-go" "github.com/securego/gosec/v2" "github.com/securego/gosec/v2/issue" ) type secretPattern struct { name string regexp *regexp.Regexp } var secretsPatterns = [...]secretPattern{ { name: "RSA private key", regexp: regexp.MustCompile(`-----BEGIN RSA PRIVATE KEY-----`), }, { name: "SSH (DSA) private key", regexp: regexp.MustCompile(`-----BEGIN DSA PRIVATE KEY-----`), }, { name: "SSH (EC) private key", regexp: regexp.MustCompile(`-----BEGIN EC PRIVATE KEY-----`), }, { name: "PGP private key block", regexp: regexp.MustCompile(`-----BEGIN PGP PRIVATE KEY BLOCK-----`), }, { name: "Slack Token", regexp: regexp.MustCompile(`xox[pborsa]-[0-9]{12}-[0-9]{12}-[0-9]{12}-[a-z0-9]{32}`), }, { name: "AWS API Key", regexp: regexp.MustCompile(`AKIA[0-9A-Z]{16}`), }, { name: "Amazon MWS Auth Token", regexp: regexp.MustCompile(`amzn\.mws\.[0-9a-f]{8}-[0-9a-f]{4}-[0-9a-f]{4}-[0-9a-f]{4}-[0-9a-f]{12}`), }, { name: "AWS AppSync GraphQL Key", regexp: regexp.MustCompile(`da2-[a-z0-9]{26}`), }, { name: "GitHub personal access token", regexp: regexp.MustCompile(`ghp_[a-zA-Z0-9]{36}`), }, { name: "GitHub fine-grained access token", regexp: regexp.MustCompile(`github_pat_[a-zA-Z0-9]{22}_[a-zA-Z0-9]{59}`), }, { name: "GitHub action temporary token", regexp: regexp.MustCompile(`ghs_[a-zA-Z0-9]{36}`), }, { name: "Google API Key", regexp: regexp.MustCompile(`AIza[0-9A-Za-z\-_]{35}`), }, { name: "Google Cloud Platform API Key", regexp: regexp.MustCompile(`AIza[0-9A-Za-z\-_]{35}`), }, { name: "Google Cloud Platform OAuth", regexp: regexp.MustCompile(`[0-9]+-[0-9A-Za-z_]{32}\.apps\.googleusercontent\.com`), }, { name: "Google Drive API Key", regexp: regexp.MustCompile(`AIza[0-9A-Za-z\-_]{35}`), }, { name: "Google Drive OAuth", regexp: regexp.MustCompile(`[0-9]+-[0-9A-Za-z_]{32}\.apps\.googleusercontent\.com`), }, { name: "Google (GCP) Service-account", regexp: regexp.MustCompile(`"type": "service_account"`), }, { name: "Google Gmail API Key", regexp: regexp.MustCompile(`AIza[0-9A-Za-z\-_]{35}`), }, { name: "Google Gmail OAuth", regexp: regexp.MustCompile(`[0-9]+-[0-9A-Za-z_]{32}\.apps\.googleusercontent\.com`), }, { name: "Google OAuth Access Token", regexp: regexp.MustCompile(`ya29\.[0-9A-Za-z\-_]+`), }, { name: "Google YouTube API Key", regexp: regexp.MustCompile(`AIza[0-9A-Za-z\-_]{35}`), }, { name: "Google YouTube OAuth", regexp: regexp.MustCompile(`[0-9]+-[0-9A-Za-z_]{32}\.apps\.googleusercontent\.com`), }, { name: "Generic API Key", regexp: regexp.MustCompile(`[aA][pP][iI]_?[kK][eE][yY].*[''|"][0-9a-zA-Z]{32,45}[''|"]`), }, { name: "Generic Secret", regexp: regexp.MustCompile(`[sS][eE][cC][rR][eE][tT].*[''|"][0-9a-zA-Z]{32,45}[''|"]`), }, { name: "Heroku API Key", regexp: regexp.MustCompile(`[hH][eE][rR][oO][kK][uU].*[0-9A-F]{8}-[0-9A-F]{4}-[0-9A-F]{4}-[0-9A-F]{4}-[0-9A-F]{12}`), }, { name: "MailChimp API Key", regexp: regexp.MustCompile(`[0-9a-f]{32}-us[0-9]{1,2}`), }, { name: "Mailgun API Key", regexp: regexp.MustCompile(`key-[0-9a-zA-Z]{32}`), }, { name: "Password in URL", regexp: regexp.MustCompile(`[a-zA-Z]{3,10}://[^/\\s:@]{3,20}:[^/\\s:@]{3,20}@.{1,100}["'\\s]`), }, { name: "Slack Webhook", regexp: regexp.MustCompile(`https://hooks\.slack\.com/services/T[a-zA-Z0-9_]{8}/B[a-zA-Z0-9_]{8}/[a-zA-Z0-9_]{24}`), }, { name: "Stripe API Key", regexp: regexp.MustCompile(`sk_live_[0-9a-zA-Z]{24}`), }, { name: "Stripe API Key", regexp: regexp.MustCompile(`sk_live_[0-9a-zA-Z]{24}`), }, { name: "Stripe Restricted API Key", regexp: regexp.MustCompile(`rk_live_[0-9a-zA-Z]{24}`), }, { name: "Square Access Token", regexp: regexp.MustCompile(`sq0atp-[0-9A-Za-z\-_]{22}`), }, { name: "Square OAuth Secret", regexp: regexp.MustCompile(`sq0csp-[0-9A-Za-z\-_]{43}`), }, { name: "Telegram Bot API Key", regexp: regexp.MustCompile(`[0-9]+:AA[0-9A-Za-z\-_]{33}`), }, { name: "Twilio API Key", regexp: regexp.MustCompile(`SK[0-9a-fA-F]{32}`), }, { name: "Twitter Access Token", regexp: regexp.MustCompile(`[tT][wW][iI][tT][tT][eE][rR].*[1-9][0-9]+-[0-9a-zA-Z]{40}`), }, { name: "Twitter OAuth", regexp: regexp.MustCompile(`[tT][wW][iI][tT][tT][eE][rR].*[''|"][0-9a-zA-Z]{35,44}[''|"]`), }, } type credentials struct { issue.MetaData pattern *regexp.Regexp entropyThreshold float64 perCharThreshold float64 truncate int ignoreEntropy bool } func (r *credentials) ID() string { return r.MetaData.ID } func truncate(s string, n int) string { if n > len(s) { return s } return s[:n] } func (r *credentials) isHighEntropyString(str string) bool { s := truncate(str, r.truncate) info := zxcvbn.PasswordStrength(s, []string{}) entropyPerChar := info.Entropy / float64(len(s)) return (info.Entropy >= r.entropyThreshold || (info.Entropy >= (r.entropyThreshold/2) && entropyPerChar >= r.perCharThreshold)) } func (r *credentials) isSecretPattern(str string) (bool, string) { for _, pattern := range secretsPatterns { if pattern.regexp.MatchString(str) { return true, pattern.name } } return false, "" } func (r *credentials) Match(n ast.Node, ctx *gosec.Context) (*issue.Issue, error) { switch node := n.(type) { case *ast.AssignStmt: return r.matchAssign(node, ctx) case *ast.ValueSpec: return r.matchValueSpec(node, ctx) case *ast.BinaryExpr: return r.matchEqualityCheck(node, ctx) } return nil, nil } func (r *credentials) matchAssign(assign *ast.AssignStmt, ctx *gosec.Context) (*issue.Issue, error) { for _, i := range assign.Lhs { if ident, ok := i.(*ast.Ident); ok { // First check LHS to find anything being assigned to variables whose name appears to be a cred if r.pattern.MatchString(ident.Name) { for _, e := range assign.Rhs { if val, err := gosec.GetString(e); err == nil { if r.ignoreEntropy || (!r.ignoreEntropy && r.isHighEntropyString(val)) { return ctx.NewIssue(assign, r.ID(), r.What, r.Severity, r.Confidence), nil } } } } // Now that no names were matched, match the RHS to see if the actual values being assigned are creds for _, e := range assign.Rhs { val, err := gosec.GetString(e) if err != nil { continue } if r.ignoreEntropy || r.isHighEntropyString(val) { if ok, patternName := r.isSecretPattern(val); ok { return ctx.NewIssue(assign, r.ID(), fmt.Sprintf("%s: %s", r.What, patternName), r.Severity, r.Confidence), nil } } } } } return nil, nil } func (r *credentials) matchValueSpec(valueSpec *ast.ValueSpec, ctx *gosec.Context) (*issue.Issue, error) { // Running match against the variable name(s) first. Will catch any creds whose var name matches the pattern, // then will go back over to check the values themselves. for index, ident := range valueSpec.Names { if r.pattern.MatchString(ident.Name) && valueSpec.Values != nil { // const foo, bar = "same value" if len(valueSpec.Values) <= index { index = len(valueSpec.Values) - 1 } if val, err := gosec.GetString(valueSpec.Values[index]); err == nil { if r.ignoreEntropy || (!r.ignoreEntropy && r.isHighEntropyString(val)) { return ctx.NewIssue(valueSpec, r.ID(), r.What, r.Severity, r.Confidence), nil } } } } // Now that no variable names have been matched, match the actual values to find any creds for _, ident := range valueSpec.Values { if val, err := gosec.GetString(ident); err == nil { if r.ignoreEntropy || r.isHighEntropyString(val) { if ok, patternName := r.isSecretPattern(val); ok { return ctx.NewIssue(valueSpec, r.ID(), fmt.Sprintf("%s: %s", r.What, patternName), r.Severity, r.Confidence), nil } } } } return nil, nil } func (r *credentials) matchEqualityCheck(binaryExpr *ast.BinaryExpr, ctx *gosec.Context) (*issue.Issue, error) { if binaryExpr.Op == token.EQL || binaryExpr.Op == token.NEQ { ident, ok := binaryExpr.X.(*ast.Ident) if !ok { ident, _ = binaryExpr.Y.(*ast.Ident) } if ident != nil && r.pattern.MatchString(ident.Name) { valueNode := binaryExpr.Y if !ok { valueNode = binaryExpr.X } if val, err := gosec.GetString(valueNode); err == nil { if r.ignoreEntropy || (!r.ignoreEntropy && r.isHighEntropyString(val)) { return ctx.NewIssue(binaryExpr, r.ID(), r.What, r.Severity, r.Confidence), nil } } } // Now that the variable names have been checked, and no matches were found, make sure that // either the left or right operands is a string literal so we can match the value. identStrConst, ok := binaryExpr.X.(*ast.BasicLit) if !ok { identStrConst, ok = binaryExpr.Y.(*ast.BasicLit) } if ok && identStrConst.Kind == token.STRING { s, _ := gosec.GetString(identStrConst) if r.ignoreEntropy || r.isHighEntropyString(s) { if ok, patternName := r.isSecretPattern(s); ok { return ctx.NewIssue(binaryExpr, r.ID(), fmt.Sprintf("%s: %s", r.What, patternName), r.Severity, r.Confidence), nil } } } } return nil, nil } // NewHardcodedCredentials attempts to find high entropy string constants being // assigned to variables that appear to be related to credentials. func NewHardcodedCredentials(id string, conf gosec.Config) (gosec.Rule, []ast.Node) { pattern := `(?i)passwd|pass|password|pwd|secret|token|pw|apiKey|bearer|cred` entropyThreshold := 80.0 perCharThreshold := 3.0 ignoreEntropy := false truncateString := 16 if val, ok := conf[id]; ok { conf := val.(map[string]interface{}) if configPattern, ok := conf["pattern"]; ok { if cfgPattern, ok := configPattern.(string); ok { pattern = cfgPattern } } if configIgnoreEntropy, ok := conf["ignore_entropy"]; ok { if cfgIgnoreEntropy, ok := configIgnoreEntropy.(bool); ok { ignoreEntropy = cfgIgnoreEntropy } } if configEntropyThreshold, ok := conf["entropy_threshold"]; ok { if cfgEntropyThreshold, ok := configEntropyThreshold.(string); ok { if parsedNum, err := strconv.ParseFloat(cfgEntropyThreshold, 64); err == nil { entropyThreshold = parsedNum } } } if configCharThreshold, ok := conf["per_char_threshold"]; ok { if cfgCharThreshold, ok := configCharThreshold.(string); ok { if parsedNum, err := strconv.ParseFloat(cfgCharThreshold, 64); err == nil { perCharThreshold = parsedNum } } } if configTruncate, ok := conf["truncate"]; ok { if cfgTruncate, ok := configTruncate.(string); ok { if parsedInt, err := strconv.Atoi(cfgTruncate); err == nil { truncateString = parsedInt } } } } return &credentials{ pattern: regexp.MustCompile(pattern), entropyThreshold: entropyThreshold, perCharThreshold: perCharThreshold, ignoreEntropy: ignoreEntropy, truncate: truncateString, MetaData: issue.MetaData{ ID: id, What: "Potential hardcoded credentials", Confidence: issue.Low, Severity: issue.High, }, }, []ast.Node{(*ast.AssignStmt)(nil), (*ast.ValueSpec)(nil), (*ast.BinaryExpr)(nil)} }