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v4.go
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v4.go
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package sig
import (
"bufio"
"crypto/hmac"
"crypto/sha256"
"encoding/hex"
"fmt"
"io"
"net/http"
"net/url"
"regexp"
"sort"
"strconv"
"strings"
"time"
"unicode"
"github.com/treeverse/lakefs/pkg/auth/model"
"github.com/treeverse/lakefs/pkg/gateway/errors"
)
const (
V4authHeaderName = "Authorization"
V4authHeaderPrefix = "AWS4-HMAC-SHA256"
AmzDecodedContentLength = "X-Amz-Decoded-Content-Length"
v4StreamingPayloadHash = "STREAMING-AWS4-HMAC-SHA256-PAYLOAD"
v4UnsignedPayload = "UNSIGNED-PAYLOAD"
v4authHeaderPayload = "x-amz-content-sha256"
v4scopeTerminator = "aws4_request"
v4timeFormat = "20060102T150405Z"
v4shortTimeFormat = "20060102"
v4SignatureHeader = "X-Amz-Signature"
)
var (
V4AuthHeaderRegexp = regexp.MustCompile(`AWS4-HMAC-SHA256 Credential=(?P<AccessKeyId>.{3,20})/(?P<Date>\d{8})/(?P<Region>[\w\-]+)/(?P<Service>[\w\-]+)/aws4_request,\s*SignedHeaders=(?P<SignatureHeaders>[\w\-\;]+),\s*Signature=(?P<Signature>[abcdef0123456789]{64})`)
V4CredentialScopeRegexp = regexp.MustCompile(`(?P<AccessKeyId>.{3,20})/(?P<Date>\d{8})/(?P<Region>[\w\-]+)/(?P<Service>[\w\-]+)/aws4_request`)
)
type V4Auth struct {
AccessKeyID string
Date string
Region string
Service string
SignedHeaders []string
SignedHeadersString string
Signature string
}
func (a V4Auth) GetAccessKeyID() string {
return a.AccessKeyID
}
func splitHeaders(headers string) []string {
headerValues := strings.Split(headers, ";")
sort.Strings(headerValues)
return headerValues
}
func ParseV4AuthContext(r *http.Request) (V4Auth, error) {
var ctx V4Auth
// start by trying to extract the data from the Authorization header
headerValue := r.Header.Get(V4authHeaderName)
if len(headerValue) > 0 {
match := V4AuthHeaderRegexp.FindStringSubmatch(headerValue)
if len(match) == 0 {
return ctx, ErrHeaderMalformed
}
result := make(map[string]string)
for i, name := range V4AuthHeaderRegexp.SubexpNames() {
if i != 0 && name != "" {
result[name] = match[i]
}
}
headers := splitHeaders(result["SignatureHeaders"])
ctx.AccessKeyID = result["AccessKeyId"]
ctx.Date = result["Date"]
ctx.Region = result["Region"]
ctx.Service = result["Service"]
ctx.Signature = result["Signature"]
ctx.SignedHeaders = headers
ctx.SignedHeadersString = result["SignatureHeaders"]
return ctx, nil
}
// otherwise, see if we have all the required query parameters
query := r.URL.Query()
algorithm := query.Get("X-Amz-Algorithm")
if len(algorithm) == 0 || !strings.EqualFold(algorithm, V4authHeaderPrefix) {
return ctx, errors.ErrInvalidQuerySignatureAlgo
}
credentialScope := query.Get("X-Amz-Credential")
if len(credentialScope) == 0 {
return ctx, errors.ErrMissingCredTag
}
credsMatch := V4CredentialScopeRegexp.FindStringSubmatch(credentialScope)
if len(credsMatch) == 0 {
return ctx, errors.ErrCredMalformed
}
credsResult := make(map[string]string)
for i, name := range V4CredentialScopeRegexp.SubexpNames() {
if i != 0 && name != "" {
credsResult[name] = credsMatch[i]
}
}
ctx.AccessKeyID = credsResult["AccessKeyId"]
ctx.Date = credsResult["Date"]
ctx.Region = credsResult["Region"]
ctx.Service = credsResult["Service"]
ctx.SignedHeadersString = query.Get("X-Amz-SignedHeaders")
headers := splitHeaders(ctx.SignedHeadersString)
ctx.SignedHeaders = headers
ctx.Signature = query.Get(v4SignatureHeader)
return ctx, nil
}
func V4Verify(auth V4Auth, credentials *model.Credential, r *http.Request) error {
ctx := &verificationCtx{
Request: r,
Query: r.URL.Query(),
AuthValue: auth,
}
canonicalRequest := ctx.buildCanonicalRequest()
stringToSign, err := ctx.buildSignedString(canonicalRequest)
if err != nil {
return err
}
// sign
signingKey := createSignature(credentials.SecretAccessKey, auth.Date, auth.Region, auth.Service)
signature := hex.EncodeToString(sign(signingKey, stringToSign))
// compare signatures
if !Equal([]byte(signature), []byte(auth.Signature)) {
return errors.ErrSignatureDoesNotMatch
}
// wrap body with verifier
reader, err := ctx.reader(r.Body, credentials)
if err != nil {
return err
}
r.Body = reader
// update to decoded content length
contentLength, err := ctx.contentLength()
if err != nil {
return err
}
r.ContentLength = contentLength
return nil
}
type verificationCtx struct {
Request *http.Request
Query url.Values
AuthValue V4Auth
}
func (ctx *verificationCtx) queryEscape(str string) string {
return strings.ReplaceAll(url.QueryEscape(str), "+", "%20")
}
func (ctx *verificationCtx) canonicalizeQueryString() string {
queryNames := make([]string, 0, len(ctx.Query))
for k := range ctx.Query {
if k == v4SignatureHeader {
continue
}
queryNames = append(queryNames, k)
}
sort.Strings(queryNames)
buf := make([]string, len(queryNames))
for i, key := range queryNames {
buf[i] = fmt.Sprintf("%s=%s", ctx.queryEscape(key), ctx.queryEscape(ctx.Query.Get(key)))
}
return strings.Join(buf, "&")
}
func (ctx *verificationCtx) canonicalizeHeaders(headers []string) string {
var buf strings.Builder
for _, header := range headers {
var value string
if strings.EqualFold(strings.ToLower(header), "host") {
// in Go, Host is removed from the headers and is promoted to request.Host for some reason
value = ctx.Request.Host
} else {
value = getInsensitiveHeader(ctx.Request, header)
}
buf.WriteString(header)
buf.WriteString(":")
buf.WriteString(ctx.trimAll(value))
buf.WriteString("\n")
}
return buf.String()
}
func (ctx *verificationCtx) trimAll(str string) string {
str = strings.TrimSpace(str)
inSpace := false
var buf strings.Builder
for _, ch := range str {
if unicode.IsSpace(ch) {
if !inSpace {
// first space to appear
buf.WriteRune(ch)
inSpace = true
}
} else {
// not a space
buf.WriteRune(ch)
inSpace = false
}
}
return buf.String()
}
func getInsensitiveHeader(r *http.Request, headerName string) string {
for k, v := range r.Header {
if strings.EqualFold(k, headerName) {
return v[0]
}
}
return ""
}
func (ctx *verificationCtx) payloadHash() string {
payloadHash := getInsensitiveHeader(ctx.Request, v4authHeaderPayload)
if payloadHash == "" {
return v4UnsignedPayload
}
return payloadHash
}
func (ctx *verificationCtx) buildCanonicalRequest() string {
// Step 1: Canonical request
method := ctx.Request.Method
canonicalURI := EncodePath(ctx.Request.URL.Path)
canonicalQueryString := ctx.canonicalizeQueryString()
canonicalHeaders := ctx.canonicalizeHeaders(ctx.AuthValue.SignedHeaders)
signedHeaders := ctx.AuthValue.SignedHeadersString
payloadHash := ctx.payloadHash()
canonicalRequest := strings.Join([]string{
method,
canonicalURI,
canonicalQueryString,
canonicalHeaders,
signedHeaders,
payloadHash,
}, "\n")
return canonicalRequest
}
func (ctx *verificationCtx) getAmzDate() (string, error) {
// https://docs.aws.amazon.com/general/latest/gr/sigv4-date-handling.html
amzDate := ctx.Request.URL.Query().Get("X-Amz-Date")
if len(amzDate) == 0 {
amzDate = ctx.Request.Header.Get("x-amz-date")
if len(amzDate) == 0 {
amzDate = ctx.Request.Header.Get("date")
if len(amzDate) == 0 {
return "", errors.ErrMissingDateHeader
}
}
}
// parse date
ts, err := time.Parse(v4timeFormat, amzDate)
if err != nil {
return "", errors.ErrMalformedDate
}
// parse signature date
sigTS, err := time.Parse(v4shortTimeFormat, ctx.AuthValue.Date)
if err != nil {
return "", errors.ErrMalformedCredentialDate
}
// ensure same date
if sigTS.Year() != ts.Year() || sigTS.Month() != ts.Month() || sigTS.Day() != ts.Day() {
return "", errors.ErrMalformedCredentialDate
}
return amzDate, nil
}
func sign(key []byte, msg string) []byte {
h := hmac.New(sha256.New, key)
_, _ = h.Write([]byte(msg))
return h.Sum(nil)
}
func createSignature(key, dateStamp, region, service string) []byte {
kDate := sign([]byte(fmt.Sprintf("AWS4%s", key)), dateStamp)
kRegion := sign(kDate, region)
kService := sign(kRegion, service)
kSigning := sign(kService, v4scopeTerminator)
return kSigning
}
func (ctx *verificationCtx) buildSignedString(canonicalRequest string) (string, error) {
// Step 2: Create string to sign
algorithm := V4authHeaderPrefix
credentialScope := strings.Join([]string{
ctx.AuthValue.Date,
ctx.AuthValue.Region,
ctx.AuthValue.Service,
v4scopeTerminator,
}, "/")
amzDate, err := ctx.getAmzDate()
if err != nil {
return "", err
}
h := sha256.New()
if _, err := h.Write([]byte(canonicalRequest)); err != nil {
return "", err
}
hashedCanonicalRequest := hex.EncodeToString(h.Sum(nil))
stringToSign := strings.Join([]string{
algorithm,
amzDate,
credentialScope,
hashedCanonicalRequest,
}, "\n")
return stringToSign, nil
}
func (ctx *verificationCtx) isStreaming() bool {
payloadHash := ctx.payloadHash()
return strings.EqualFold(payloadHash, v4StreamingPayloadHash)
}
func (ctx *verificationCtx) isUnsigned() bool {
return strings.EqualFold(ctx.payloadHash(), v4UnsignedPayload)
}
func (ctx *verificationCtx) contentLength() (int64, error) {
size := ctx.Request.ContentLength
if ctx.isStreaming() {
if sizeStr, ok := ctx.Request.Header[AmzDecodedContentLength]; ok {
if sizeStr[0] == "" {
return 0, errors.ErrMissingContentLength
}
var err error
size, err = strconv.ParseInt(sizeStr[0], 10, 64) //nolint: gomnd
if err != nil {
return 0, err
}
}
}
return size, nil
}
func (ctx *verificationCtx) reader(reader io.ReadCloser, creds *model.Credential) (io.ReadCloser, error) {
if ctx.isStreaming() {
amzDate, err := ctx.getAmzDate()
if err != nil {
return nil, err
}
chunkReader, err := newSignV4ChunkedReader(bufio.NewReader(reader), amzDate, ctx.AuthValue, creds)
if err != nil {
return nil, err
}
return chunkReader, nil
}
if ctx.isUnsigned() {
return reader, nil
}
return NewSha265Reader(reader, ctx.payloadHash())
}
type V4Authenticator struct {
request *http.Request
ctx V4Auth
}
func (a *V4Authenticator) Parse() (SigContext, error) {
var ctx V4Auth
var err error
ctx, err = ParseV4AuthContext(a.request)
if err != nil {
return ctx, err
}
a.ctx = ctx
return a.ctx, nil
}
func (a *V4Authenticator) String() string {
return "sigv4"
}
func (a *V4Authenticator) Verify(creds *model.Credential, _ string) error {
err := V4Verify(a.ctx, creds, a.request)
return err
}
func NewV4Authenticator(r *http.Request) SigAuthenticator {
return &V4Authenticator{
request: r,
ctx: V4Auth{},
}
}