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/* * The following code tries to reverse engineer the Amazon S3 APIs, * and is mostly copied from minio implementation. */
// 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 s3api
import ( "bytes" "crypto/hmac" "crypto/sha256" "crypto/subtle" "encoding/hex" "github.com/chrislusf/seaweedfs/weed/s3api/s3err" "io/ioutil" "net/http" "net/url" "regexp" "sort" "strconv" "strings" "time" "unicode/utf8")
func (iam *IdentityAccessManagement) reqSignatureV4Verify(r *http.Request) (*Identity, s3err.ErrorCode) { sha256sum := getContentSha256Cksum(r) switch { case isRequestSignatureV4(r): return iam.doesSignatureMatch(sha256sum, r) case isRequestPresignedSignatureV4(r): return iam.doesPresignedSignatureMatch(sha256sum, r) } return nil, s3err.ErrAccessDenied}
// Streaming AWS Signature Version '4' constants.
const ( emptySHA256 = "e3b0c44298fc1c149afbf4c8996fb92427ae41e4649b934ca495991b7852b855" streamingContentSHA256 = "STREAMING-AWS4-HMAC-SHA256-PAYLOAD" signV4ChunkedAlgorithm = "AWS4-HMAC-SHA256-PAYLOAD"
// http Header "x-amz-content-sha256" == "UNSIGNED-PAYLOAD" indicates that the
// client did not calculate sha256 of the payload.
unsignedPayload = "UNSIGNED-PAYLOAD")
// Returns SHA256 for calculating canonical-request.
func getContentSha256Cksum(r *http.Request) string { var ( defaultSha256Cksum string v []string ok bool )
// For a presigned request we look at the query param for sha256.
if isRequestPresignedSignatureV4(r) { // X-Amz-Content-Sha256, if not set in presigned requests, checksum
// will default to 'UNSIGNED-PAYLOAD'.
defaultSha256Cksum = unsignedPayload v, ok = r.URL.Query()["X-Amz-Content-Sha256"] if !ok { v, ok = r.Header["X-Amz-Content-Sha256"] } } else { // X-Amz-Content-Sha256, if not set in signed requests, checksum
// will default to sha256([]byte("")).
defaultSha256Cksum = emptySHA256 v, ok = r.Header["X-Amz-Content-Sha256"] }
// We found 'X-Amz-Content-Sha256' return the captured value.
if ok { return v[0] }
// We couldn't find 'X-Amz-Content-Sha256'.
return defaultSha256Cksum}
// Verify authorization header - http://docs.aws.amazon.com/AmazonS3/latest/API/sig-v4-authenticating-requests.html
func (iam *IdentityAccessManagement) doesSignatureMatch(hashedPayload string, r *http.Request) (*Identity, s3err.ErrorCode) {
// Copy request.
req := *r
// Save authorization header.
v4Auth := req.Header.Get("Authorization")
// Parse signature version '4' header.
signV4Values, err := parseSignV4(v4Auth) if err != s3err.ErrNone { return nil, err }
// Extract all the signed headers along with its values.
extractedSignedHeaders, errCode := extractSignedHeaders(signV4Values.SignedHeaders, r) if errCode != s3err.ErrNone { return nil, errCode }
// Verify if the access key id matches.
identity, cred, found := iam.lookupByAccessKey(signV4Values.Credential.accessKey) if !found { return nil, s3err.ErrInvalidAccessKeyID }
// Extract date, if not present throw error.
var date string if date = req.Header.Get(http.CanonicalHeaderKey("X-Amz-Date")); date == "" { if date = r.Header.Get("Date"); date == "" { return nil, s3err.ErrMissingDateHeader } } // Parse date header.
t, e := time.Parse(iso8601Format, date) if e != nil { return nil, s3err.ErrMalformedDate }
// Query string.
queryStr := req.URL.Query().Encode()
// Get hashed Payload
if signV4Values.Credential.scope.service != "s3" && hashedPayload == emptySHA256 && r.Body != nil { buf, _ := ioutil.ReadAll(r.Body) r.Body = ioutil.NopCloser(bytes.NewBuffer(buf)) b, _ := ioutil.ReadAll(bytes.NewBuffer(buf)) if len(b) != 0 { bodyHash := sha256.Sum256(b) hashedPayload = hex.EncodeToString(bodyHash[:]) } }
// Get canonical request.
canonicalRequest := getCanonicalRequest(extractedSignedHeaders, hashedPayload, queryStr, req.URL.Path, req.Method)
// Get string to sign from canonical request.
stringToSign := getStringToSign(canonicalRequest, t, signV4Values.Credential.getScope())
// Get hmac signing key.
signingKey := getSigningKey(cred.SecretKey, signV4Values.Credential.scope.date, signV4Values.Credential.scope.region, signV4Values.Credential.scope.service)
// Calculate signature.
newSignature := getSignature(signingKey, stringToSign)
// Verify if signature match.
if !compareSignatureV4(newSignature, signV4Values.Signature) { return nil, s3err.ErrSignatureDoesNotMatch }
// Return error none.
return identity, s3err.ErrNone}
// credentialHeader data type represents structured form of Credential
// string from authorization header.
type credentialHeader struct { accessKey string scope struct { date time.Time region string service string request string }}
// signValues data type represents structured form of AWS Signature V4 header.
type signValues struct { Credential credentialHeader SignedHeaders []string Signature string}
// Return scope string.
func (c credentialHeader) getScope() string { return strings.Join([]string{ c.scope.date.Format(yyyymmdd), c.scope.region, c.scope.service, c.scope.request, }, "/")}
// Authorization: algorithm Credential=accessKeyID/credScope, \
// SignedHeaders=signedHeaders, Signature=signature
//
func parseSignV4(v4Auth string) (sv signValues, aec s3err.ErrorCode) { // Replace all spaced strings, some clients can send spaced
// parameters and some won't. So we pro-actively remove any spaces
// to make parsing easier.
v4Auth = strings.Replace(v4Auth, " ", "", -1) if v4Auth == "" { return sv, s3err.ErrAuthHeaderEmpty }
// Verify if the header algorithm is supported or not.
if !strings.HasPrefix(v4Auth, signV4Algorithm) { return sv, s3err.ErrSignatureVersionNotSupported }
// Strip off the Algorithm prefix.
v4Auth = strings.TrimPrefix(v4Auth, signV4Algorithm) authFields := strings.Split(strings.TrimSpace(v4Auth), ",") if len(authFields) != 3 { return sv, s3err.ErrMissingFields }
// Initialize signature version '4' structured header.
signV4Values := signValues{}
var err s3err.ErrorCode // Save credentail values.
signV4Values.Credential, err = parseCredentialHeader(authFields[0]) if err != s3err.ErrNone { return sv, err }
// Save signed headers.
signV4Values.SignedHeaders, err = parseSignedHeader(authFields[1]) if err != s3err.ErrNone { return sv, err }
// Save signature.
signV4Values.Signature, err = parseSignature(authFields[2]) if err != s3err.ErrNone { return sv, err }
// Return the structure here.
return signV4Values, s3err.ErrNone}
// parse credentialHeader string into its structured form.
func parseCredentialHeader(credElement string) (ch credentialHeader, aec s3err.ErrorCode) { creds := strings.Split(strings.TrimSpace(credElement), "=") if len(creds) != 2 { return ch, s3err.ErrMissingFields } if creds[0] != "Credential" { return ch, s3err.ErrMissingCredTag } credElements := strings.Split(strings.TrimSpace(creds[1]), "/") if len(credElements) != 5 { return ch, s3err.ErrCredMalformed } // Save access key id.
cred := credentialHeader{ accessKey: credElements[0], } var e error cred.scope.date, e = time.Parse(yyyymmdd, credElements[1]) if e != nil { return ch, s3err.ErrMalformedCredentialDate }
cred.scope.region = credElements[2] cred.scope.service = credElements[3] // "s3"
cred.scope.request = credElements[4] // "aws4_request"
return cred, s3err.ErrNone}
// Parse slice of signed headers from signed headers tag.
func parseSignedHeader(signedHdrElement string) ([]string, s3err.ErrorCode) { signedHdrFields := strings.Split(strings.TrimSpace(signedHdrElement), "=") if len(signedHdrFields) != 2 { return nil, s3err.ErrMissingFields } if signedHdrFields[0] != "SignedHeaders" { return nil, s3err.ErrMissingSignHeadersTag } if signedHdrFields[1] == "" { return nil, s3err.ErrMissingFields } signedHeaders := strings.Split(signedHdrFields[1], ";") return signedHeaders, s3err.ErrNone}
// Parse signature from signature tag.
func parseSignature(signElement string) (string, s3err.ErrorCode) { signFields := strings.Split(strings.TrimSpace(signElement), "=") if len(signFields) != 2 { return "", s3err.ErrMissingFields } if signFields[0] != "Signature" { return "", s3err.ErrMissingSignTag } if signFields[1] == "" { return "", s3err.ErrMissingFields } signature := signFields[1] return signature, s3err.ErrNone}
// doesPolicySignatureMatch - Verify query headers with post policy
// - http://docs.aws.amazon.com/AmazonS3/latest/API/sigv4-HTTPPOSTConstructPolicy.html
// returns ErrNone if the signature matches.
func (iam *IdentityAccessManagement) doesPolicySignatureV4Match(formValues http.Header) s3err.ErrorCode {
// Parse credential tag.
credHeader, err := parseCredentialHeader("Credential=" + formValues.Get("X-Amz-Credential")) if err != s3err.ErrNone { return s3err.ErrMissingFields }
_, cred, found := iam.lookupByAccessKey(credHeader.accessKey) if !found { return s3err.ErrInvalidAccessKeyID }
// Get signing key.
signingKey := getSigningKey(cred.SecretKey, credHeader.scope.date, credHeader.scope.region, credHeader.scope.service)
// Get signature.
newSignature := getSignature(signingKey, formValues.Get("Policy"))
// Verify signature.
if !compareSignatureV4(newSignature, formValues.Get("X-Amz-Signature")) { return s3err.ErrSignatureDoesNotMatch }
// Success.
return s3err.ErrNone}
// check query headers with presigned signature
// - http://docs.aws.amazon.com/AmazonS3/latest/API/sigv4-query-string-auth.html
func (iam *IdentityAccessManagement) doesPresignedSignatureMatch(hashedPayload string, r *http.Request) (*Identity, s3err.ErrorCode) {
// Copy request
req := *r
// Parse request query string.
pSignValues, err := parsePreSignV4(req.URL.Query()) if err != s3err.ErrNone { return nil, err }
// Verify if the access key id matches.
identity, cred, found := iam.lookupByAccessKey(pSignValues.Credential.accessKey) if !found { return nil, s3err.ErrInvalidAccessKeyID }
// Extract all the signed headers along with its values.
extractedSignedHeaders, errCode := extractSignedHeaders(pSignValues.SignedHeaders, r) if errCode != s3err.ErrNone { return nil, errCode } // Construct new query.
query := make(url.Values) if req.URL.Query().Get("X-Amz-Content-Sha256") != "" { query.Set("X-Amz-Content-Sha256", hashedPayload) }
query.Set("X-Amz-Algorithm", signV4Algorithm)
now := time.Now().UTC()
// If the host which signed the request is slightly ahead in time (by less than globalMaxSkewTime) the
// request should still be allowed.
if pSignValues.Date.After(now.Add(15 * time.Minute)) { return nil, s3err.ErrRequestNotReadyYet }
if now.Sub(pSignValues.Date) > pSignValues.Expires { return nil, s3err.ErrExpiredPresignRequest }
// Save the date and expires.
t := pSignValues.Date expireSeconds := int(pSignValues.Expires / time.Second)
// Construct the query.
query.Set("X-Amz-Date", t.Format(iso8601Format)) query.Set("X-Amz-Expires", strconv.Itoa(expireSeconds)) query.Set("X-Amz-SignedHeaders", getSignedHeaders(extractedSignedHeaders)) query.Set("X-Amz-Credential", cred.AccessKey+"/"+getScope(t, pSignValues.Credential.scope.region))
// Save other headers available in the request parameters.
for k, v := range req.URL.Query() {
// Handle the metadata in presigned put query string
if strings.Contains(strings.ToLower(k), "x-amz-meta-") { query.Set(k, v[0]) }
if strings.HasPrefix(strings.ToLower(k), "x-amz") { continue } query[k] = v }
// Get the encoded query.
encodedQuery := query.Encode()
// Verify if date query is same.
if req.URL.Query().Get("X-Amz-Date") != query.Get("X-Amz-Date") { return nil, s3err.ErrSignatureDoesNotMatch } // Verify if expires query is same.
if req.URL.Query().Get("X-Amz-Expires") != query.Get("X-Amz-Expires") { return nil, s3err.ErrSignatureDoesNotMatch } // Verify if signed headers query is same.
if req.URL.Query().Get("X-Amz-SignedHeaders") != query.Get("X-Amz-SignedHeaders") { return nil, s3err.ErrSignatureDoesNotMatch } // Verify if credential query is same.
if req.URL.Query().Get("X-Amz-Credential") != query.Get("X-Amz-Credential") { return nil, s3err.ErrSignatureDoesNotMatch } // Verify if sha256 payload query is same.
if req.URL.Query().Get("X-Amz-Content-Sha256") != "" { if req.URL.Query().Get("X-Amz-Content-Sha256") != query.Get("X-Amz-Content-Sha256") { return nil, s3err.ErrContentSHA256Mismatch } }
/// Verify finally if signature is same.
// Get canonical request.
presignedCanonicalReq := getCanonicalRequest(extractedSignedHeaders, hashedPayload, encodedQuery, req.URL.Path, req.Method)
// Get string to sign from canonical request.
presignedStringToSign := getStringToSign(presignedCanonicalReq, t, pSignValues.Credential.getScope())
// Get hmac presigned signing key.
presignedSigningKey := getSigningKey(cred.SecretKey, pSignValues.Credential.scope.date, pSignValues.Credential.scope.region, pSignValues.Credential.scope.service)
// Get new signature.
newSignature := getSignature(presignedSigningKey, presignedStringToSign)
// Verify signature.
if !compareSignatureV4(req.URL.Query().Get("X-Amz-Signature"), newSignature) { return nil, s3err.ErrSignatureDoesNotMatch } return identity, s3err.ErrNone}
func contains(list []string, elem string) bool { for _, t := range list { if t == elem { return true } } return false}
// preSignValues data type represents structued form of AWS Signature V4 query string.
type preSignValues struct { signValues Date time.Time Expires time.Duration}
// Parses signature version '4' query string of the following form.
//
// querystring = X-Amz-Algorithm=algorithm
// querystring += &X-Amz-Credential= urlencode(accessKey + '/' + credential_scope)
// querystring += &X-Amz-Date=date
// querystring += &X-Amz-Expires=timeout interval
// querystring += &X-Amz-SignedHeaders=signed_headers
// querystring += &X-Amz-Signature=signature
//
// verifies if any of the necessary query params are missing in the presigned request.
func doesV4PresignParamsExist(query url.Values) s3err.ErrorCode { v4PresignQueryParams := []string{"X-Amz-Algorithm", "X-Amz-Credential", "X-Amz-Signature", "X-Amz-Date", "X-Amz-SignedHeaders", "X-Amz-Expires"} for _, v4PresignQueryParam := range v4PresignQueryParams { if _, ok := query[v4PresignQueryParam]; !ok { return s3err.ErrInvalidQueryParams } } return s3err.ErrNone}
// Parses all the presigned signature values into separate elements.
func parsePreSignV4(query url.Values) (psv preSignValues, aec s3err.ErrorCode) { var err s3err.ErrorCode // verify whether the required query params exist.
err = doesV4PresignParamsExist(query) if err != s3err.ErrNone { return psv, err }
// Verify if the query algorithm is supported or not.
if query.Get("X-Amz-Algorithm") != signV4Algorithm { return psv, s3err.ErrInvalidQuerySignatureAlgo }
// Initialize signature version '4' structured header.
preSignV4Values := preSignValues{}
// Save credential.
preSignV4Values.Credential, err = parseCredentialHeader("Credential=" + query.Get("X-Amz-Credential")) if err != s3err.ErrNone { return psv, err }
var e error // Save date in native time.Time.
preSignV4Values.Date, e = time.Parse(iso8601Format, query.Get("X-Amz-Date")) if e != nil { return psv, s3err.ErrMalformedPresignedDate }
// Save expires in native time.Duration.
preSignV4Values.Expires, e = time.ParseDuration(query.Get("X-Amz-Expires") + "s") if e != nil { return psv, s3err.ErrMalformedExpires }
if preSignV4Values.Expires < 0 { return psv, s3err.ErrNegativeExpires }
// Check if Expiry time is less than 7 days (value in seconds).
if preSignV4Values.Expires.Seconds() > 604800 { return psv, s3err.ErrMaximumExpires }
// Save signed headers.
preSignV4Values.SignedHeaders, err = parseSignedHeader("SignedHeaders=" + query.Get("X-Amz-SignedHeaders")) if err != s3err.ErrNone { return psv, err }
// Save signature.
preSignV4Values.Signature, err = parseSignature("Signature=" + query.Get("X-Amz-Signature")) if err != s3err.ErrNone { return psv, err }
// Return structed form of signature query string.
return preSignV4Values, s3err.ErrNone}
// extractSignedHeaders extract signed headers from Authorization header
func extractSignedHeaders(signedHeaders []string, r *http.Request) (http.Header, s3err.ErrorCode) { reqHeaders := r.Header // find whether "host" is part of list of signed headers.
// if not return ErrUnsignedHeaders. "host" is mandatory.
if !contains(signedHeaders, "host") { return nil, s3err.ErrUnsignedHeaders } extractedSignedHeaders := make(http.Header) for _, header := range signedHeaders { // `host` will not be found in the headers, can be found in r.Host.
// but its alway necessary that the list of signed headers containing host in it.
val, ok := reqHeaders[http.CanonicalHeaderKey(header)] if ok { for _, enc := range val { extractedSignedHeaders.Add(header, enc) } continue } switch header { case "expect": // Golang http server strips off 'Expect' header, if the
// client sent this as part of signed headers we need to
// handle otherwise we would see a signature mismatch.
// `aws-cli` sets this as part of signed headers.
//
// According to
// http://www.w3.org/Protocols/rfc2616/rfc2616-sec14.html#sec14.20
// Expect header is always of form:
//
// Expect = "Expect" ":" 1#expectation
// expectation = "100-continue" | expectation-extension
//
// So it safe to assume that '100-continue' is what would
// be sent, for the time being keep this work around.
// Adding a *TODO* to remove this later when Golang server
// doesn't filter out the 'Expect' header.
extractedSignedHeaders.Set(header, "100-continue") case "host": // Go http server removes "host" from Request.Header
extractedSignedHeaders.Set(header, r.Host) case "transfer-encoding": for _, enc := range r.TransferEncoding { extractedSignedHeaders.Add(header, enc) } case "content-length": // Signature-V4 spec excludes Content-Length from signed headers list for signature calculation.
// But some clients deviate from this rule. Hence we consider Content-Length for signature
// calculation to be compatible with such clients.
extractedSignedHeaders.Set(header, strconv.FormatInt(r.ContentLength, 10)) default: return nil, s3err.ErrUnsignedHeaders } } return extractedSignedHeaders, s3err.ErrNone}
// getSignedHeaders generate a string i.e alphabetically sorted, semicolon-separated list of lowercase request header names
func getSignedHeaders(signedHeaders http.Header) string { var headers []string for k := range signedHeaders { headers = append(headers, strings.ToLower(k)) } sort.Strings(headers) return strings.Join(headers, ";")}
// getScope generate a string of a specific date, an AWS region, and a service.
func getScope(t time.Time, region string) string { scope := strings.Join([]string{ t.Format(yyyymmdd), region, "s3", "aws4_request", }, "/") return scope}
// getCanonicalRequest generate a canonical request of style
//
// canonicalRequest =
// <HTTPMethod>\n
// <CanonicalURI>\n
// <CanonicalQueryString>\n
// <CanonicalHeaders>\n
// <SignedHeaders>\n
// <HashedPayload>
//
func getCanonicalRequest(extractedSignedHeaders http.Header, payload, queryStr, urlPath, method string) string { rawQuery := strings.Replace(queryStr, "+", "%20", -1) encodedPath := encodePath(urlPath) canonicalRequest := strings.Join([]string{ method, encodedPath, rawQuery, getCanonicalHeaders(extractedSignedHeaders), getSignedHeaders(extractedSignedHeaders), payload, }, "\n") return canonicalRequest}
// getStringToSign a string based on selected query values.
func getStringToSign(canonicalRequest string, t time.Time, scope string) string { stringToSign := signV4Algorithm + "\n" + t.Format(iso8601Format) + "\n" stringToSign = stringToSign + scope + "\n" canonicalRequestBytes := sha256.Sum256([]byte(canonicalRequest)) stringToSign = stringToSign + hex.EncodeToString(canonicalRequestBytes[:]) return stringToSign}
// sumHMAC calculate hmac between two input byte array.
func sumHMAC(key []byte, data []byte) []byte { hash := hmac.New(sha256.New, key) hash.Write(data) return hash.Sum(nil)}
// getSigningKey hmac seed to calculate final signature.
func getSigningKey(secretKey string, t time.Time, region string, service string) []byte { date := sumHMAC([]byte("AWS4"+secretKey), []byte(t.Format(yyyymmdd))) regionBytes := sumHMAC(date, []byte(region)) serviceBytes := sumHMAC(regionBytes, []byte(service)) signingKey := sumHMAC(serviceBytes, []byte("aws4_request")) return signingKey}
// getSignature final signature in hexadecimal form.
func getSignature(signingKey []byte, stringToSign string) string { return hex.EncodeToString(sumHMAC(signingKey, []byte(stringToSign)))}
// getCanonicalHeaders generate a list of request headers with their values
func getCanonicalHeaders(signedHeaders http.Header) string { var headers []string vals := make(http.Header) for k, vv := range signedHeaders { headers = append(headers, strings.ToLower(k)) vals[strings.ToLower(k)] = vv } sort.Strings(headers)
var buf bytes.Buffer for _, k := range headers { buf.WriteString(k) buf.WriteByte(':') for idx, v := range vals[k] { if idx > 0 { buf.WriteByte(',') } buf.WriteString(signV4TrimAll(v)) } buf.WriteByte('\n') } return buf.String()}
// Trim leading and trailing spaces and replace sequential spaces with one space, following Trimall()
// in http://docs.aws.amazon.com/general/latest/gr/sigv4-create-canonical-request.html
func signV4TrimAll(input string) string { // Compress adjacent spaces (a space is determined by
// unicode.IsSpace() internally here) to one space and return
return strings.Join(strings.Fields(input), " ")}
// if object matches reserved string, no need to encode them
var reservedObjectNames = regexp.MustCompile("^[a-zA-Z0-9-_.~/]+$")
// EncodePath encode the strings from UTF-8 byte representations to HTML hex escape sequences
//
// This is necessary since regular url.Parse() and url.Encode() functions do not support UTF-8
// non english characters cannot be parsed due to the nature in which url.Encode() is written
//
// This function on the other hand is a direct replacement for url.Encode() technique to support
// pretty much every UTF-8 character.
func encodePath(pathName string) string { if reservedObjectNames.MatchString(pathName) { return pathName } var encodedPathname string for _, s := range pathName { if 'A' <= s && s <= 'Z' || 'a' <= s && s <= 'z' || '0' <= s && s <= '9' { // §2.3 Unreserved characters (mark)
encodedPathname = encodedPathname + string(s) continue } switch s { case '-', '_', '.', '~', '/': // §2.3 Unreserved characters (mark)
encodedPathname = encodedPathname + string(s) continue default: len := utf8.RuneLen(s) if len < 0 { // if utf8 cannot convert return the same string as is
return pathName } u := make([]byte, len) utf8.EncodeRune(u, s) for _, r := range u { hex := hex.EncodeToString([]byte{r}) encodedPathname = encodedPathname + "%" + strings.ToUpper(hex) } } } return encodedPathname}
// compareSignatureV4 returns true if and only if both signatures
// are equal. The signatures are expected to be HEX encoded strings
// according to the AWS S3 signature V4 spec.
func compareSignatureV4(sig1, sig2 string) bool { // The CTC using []byte(str) works because the hex encoding
// is unique for a sequence of bytes. See also compareSignatureV2.
return subtle.ConstantTimeCompare([]byte(sig1), []byte(sig2)) == 1}
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