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aws.go
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aws.go
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package aws
import (
"context"
"crypto/hmac"
"crypto/sha256"
"encoding/hex"
"encoding/json"
"fmt"
"net/http"
"regexp"
"strings"
"time"
"github.com/trufflesecurity/trufflehog/v3/pkg/common"
"github.com/trufflesecurity/trufflehog/v3/pkg/detectors"
"github.com/trufflesecurity/trufflehog/v3/pkg/pb/detectorspb"
)
type scanner struct {
skipIDs map[string]struct{}
}
func New(opts ...func(*scanner)) *scanner {
scanner := &scanner{
skipIDs: map[string]struct{}{},
}
for _, opt := range opts {
opt(scanner)
}
return scanner
}
func WithSkipIDs(skipIDs []string) func(*scanner) {
return func(s *scanner) {
ids := map[string]struct{}{}
for _, id := range skipIDs {
ids[id] = struct{}{}
}
s.skipIDs = ids
}
}
// Ensure the scanner satisfies the interface at compile time.
var _ detectors.Detector = (*scanner)(nil)
var (
client = common.SaneHttpClient()
// Make sure that your group is surrounded in boundary characters such as below to reduce false positives.
// Key types are from this list https://docs.aws.amazon.com/IAM/latest/UserGuide/reference_identifiers.html#identifiers-unique-ids
idPat = regexp.MustCompile(`\b((?:AKIA|ABIA|ACCA|ASIA)[0-9A-Z]{16})\b`)
secretPat = regexp.MustCompile(`[^A-Za-z0-9+\/]{0,1}([A-Za-z0-9+\/]{40})[^A-Za-z0-9+\/]{0,1}`)
// Hashes, like those for git, do technically match the secret pattern.
// But they are extremely unlikely to be generated as an actual AWS secret.
// So when we find them, if they're not verified, we should ignore the result.
falsePositiveSecretCheck = regexp.MustCompile(`[a-f0-9]{40}`)
)
// Keywords are used for efficiently pre-filtering chunks.
// Use identifiers in the secret preferably, or the provider name.
func (s scanner) Keywords() []string {
return []string{
"AKIA",
"ABIA",
"ACCA",
"ASIA",
}
}
func GetHash(input string) string {
data := []byte(input)
hasher := sha256.New()
hasher.Write(data)
return hex.EncodeToString(hasher.Sum(nil))
}
func GetHMAC(key []byte, data []byte) []byte {
hasher := hmac.New(sha256.New, key)
hasher.Write(data)
return hasher.Sum(nil)
}
// FromData will find and optionally verify AWS secrets in a given set of bytes.
func (s scanner) FromData(ctx context.Context, verify bool, data []byte) (results []detectors.Result, err error) {
dataStr := string(data)
idMatches := idPat.FindAllStringSubmatch(dataStr, -1)
secretMatches := secretPat.FindAllStringSubmatch(dataStr, -1)
for _, idMatch := range idMatches {
if len(idMatch) != 2 {
continue
}
resIDMatch := strings.TrimSpace(idMatch[1])
if s.skipIDs != nil {
if _, ok := s.skipIDs[resIDMatch]; ok {
continue
}
}
for _, secretMatch := range secretMatches {
if len(secretMatch) != 2 {
continue
}
resSecretMatch := strings.TrimSpace(secretMatch[1])
s1 := detectors.Result{
DetectorType: detectorspb.DetectorType_AWS,
Raw: []byte(resIDMatch),
Redacted: resIDMatch,
RawV2: []byte(resIDMatch + resSecretMatch),
}
if verify {
// REQUEST VALUES.
method := "GET"
service := "sts"
host := "sts.amazonaws.com"
region := "us-east-1"
endpoint := "https://sts.amazonaws.com"
datestamp := time.Now().UTC().Format("20060102")
amzDate := time.Now().UTC().Format("20060102T150405Z0700")
req, err := http.NewRequestWithContext(ctx, method, endpoint, nil)
if err != nil {
continue
}
req.Header.Set("Accept", "application/json")
// TASK 1: CREATE A CANONICAL REQUEST.
// http://docs.aws.amazon.com/general/latest/gr/sigv4-create-canonical-request.html
canonicalURI := "/"
canonicalHeaders := "host:" + host + "\n"
signedHeaders := "host"
algorithm := "AWS4-HMAC-SHA256"
credentialScope := fmt.Sprintf("%s/%s/%s/aws4_request", datestamp, region, service)
params := req.URL.Query()
params.Add("Action", "GetCallerIdentity")
params.Add("Version", "2011-06-15")
params.Add("X-Amz-Algorithm", algorithm)
params.Add("X-Amz-Credential", resIDMatch+"/"+credentialScope)
params.Add("X-Amz-Date", amzDate)
params.Add("X-Amz-Expires", "30")
params.Add("X-Amz-SignedHeaders", signedHeaders)
canonicalQuerystring := params.Encode()
payloadHash := GetHash("") // empty payload
canonicalRequest := method + "\n" + canonicalURI + "\n" + canonicalQuerystring + "\n" + canonicalHeaders + "\n" + signedHeaders + "\n" + payloadHash
// TASK 2: CREATE THE STRING TO SIGN.
stringToSign := algorithm + "\n" + amzDate + "\n" + credentialScope + "\n" + GetHash(canonicalRequest)
// TASK 3: CALCULATE THE SIGNATURE.
// https://docs.aws.amazon.com/general/latest/gr/sigv4-calculate-signature.html
hash := GetHMAC([]byte(fmt.Sprintf("AWS4%s", resSecretMatch)), []byte(datestamp))
hash = GetHMAC(hash, []byte(region))
hash = GetHMAC(hash, []byte(service))
hash = GetHMAC(hash, []byte("aws4_request"))
signature2 := GetHMAC(hash, []byte(stringToSign)) // Get Signature HMAC SHA256
signature := hex.EncodeToString(signature2)
// TASK 4: ADD SIGNING INFORMATION TO THE REQUEST.
params.Add("X-Amz-Signature", signature)
req.Header.Add("Content-type", "application/x-www-form-urlencoded; charset=utf-8")
req.URL.RawQuery = params.Encode()
res, err := client.Do(req)
if err == nil {
if res.StatusCode >= 200 && res.StatusCode < 300 {
identityInfo := identityRes{}
err := json.NewDecoder(res.Body).Decode(&identityInfo)
if err == nil {
s1.Verified = true
s1.ExtraData = map[string]string{
"account": identityInfo.GetCallerIdentityResponse.GetCallerIdentityResult.Account,
"user_id": identityInfo.GetCallerIdentityResponse.GetCallerIdentityResult.UserID,
"arn": identityInfo.GetCallerIdentityResponse.GetCallerIdentityResult.Arn,
}
}
res.Body.Close()
} else {
// This function will check false positives for common test words, but also it will make sure the key appears "random" enough to be a real key.
if detectors.IsKnownFalsePositive(resSecretMatch, detectors.DefaultFalsePositives, true) {
continue
}
}
}
}
// If the result is unverified and matches something like a git hash, don't include it in the results.
if !s1.Verified && falsePositiveSecretCheck.MatchString(resSecretMatch) {
continue
}
results = append(results, s1)
// If we've found a verified match with this ID, we don't need to look for any more. So move on to the next ID.
if s1.Verified {
break
}
}
}
return awsCustomCleanResults(results), nil
}
func awsCustomCleanResults(results []detectors.Result) []detectors.Result {
if len(results) == 0 {
return results
}
// For every ID, we want at most one result, preferrably verified.
idResults := map[string]detectors.Result{}
for _, result := range results {
// Always accept the verified result as the result for the given ID.
if result.Verified {
idResults[result.Redacted] = result
continue
}
// Only include an unverified result if we don't already have a result for a given ID.
if _, exist := idResults[result.Redacted]; !exist {
idResults[result.Redacted] = result
}
}
out := []detectors.Result{}
for _, r := range idResults {
out = append(out, r)
}
return out
}
type identityRes struct {
GetCallerIdentityResponse struct {
GetCallerIdentityResult struct {
Account string `json:"Account"`
Arn string `json:"Arn"`
UserID string `json:"UserId"`
} `json:"GetCallerIdentityResult"`
ResponseMetadata struct {
RequestID string `json:"RequestId"`
} `json:"ResponseMetadata"`
} `json:"GetCallerIdentityResponse"`
}