gotosocial/vendor/github.com/go-fed/httpsig/httpsig.go
Tobi Smethurst 98263a7de6
Grand test fixup (#138)
* start fixing up tests

* fix up tests + automate with drone

* fiddle with linting

* messing about with drone.yml

* some more fiddling

* hmmm

* add cache

* add vendor directory

* verbose

* ci updates

* update some little things

* update sig
2021-08-12 21:03:24 +02:00

361 lines
14 KiB
Go

// Implements HTTP request and response signing and verification. Supports the
// major MAC and asymmetric key signature algorithms. It has several safety
// restrictions: One, none of the widely known non-cryptographically safe
// algorithms are permitted; Two, the RSA SHA256 algorithms must be available in
// the binary (and it should, barring export restrictions); Finally, the library
// assumes either the 'Authorizationn' or 'Signature' headers are to be set (but
// not both).
package httpsig
import (
"crypto"
"fmt"
"net/http"
"strings"
"time"
"golang.org/x/crypto/ssh"
)
// Algorithm specifies a cryptography secure algorithm for signing HTTP requests
// and responses.
type Algorithm string
const (
// MAC-based algoirthms.
HMAC_SHA224 Algorithm = hmacPrefix + "-" + sha224String
HMAC_SHA256 Algorithm = hmacPrefix + "-" + sha256String
HMAC_SHA384 Algorithm = hmacPrefix + "-" + sha384String
HMAC_SHA512 Algorithm = hmacPrefix + "-" + sha512String
HMAC_RIPEMD160 Algorithm = hmacPrefix + "-" + ripemd160String
HMAC_SHA3_224 Algorithm = hmacPrefix + "-" + sha3_224String
HMAC_SHA3_256 Algorithm = hmacPrefix + "-" + sha3_256String
HMAC_SHA3_384 Algorithm = hmacPrefix + "-" + sha3_384String
HMAC_SHA3_512 Algorithm = hmacPrefix + "-" + sha3_512String
HMAC_SHA512_224 Algorithm = hmacPrefix + "-" + sha512_224String
HMAC_SHA512_256 Algorithm = hmacPrefix + "-" + sha512_256String
HMAC_BLAKE2S_256 Algorithm = hmacPrefix + "-" + blake2s_256String
HMAC_BLAKE2B_256 Algorithm = hmacPrefix + "-" + blake2b_256String
HMAC_BLAKE2B_384 Algorithm = hmacPrefix + "-" + blake2b_384String
HMAC_BLAKE2B_512 Algorithm = hmacPrefix + "-" + blake2b_512String
BLAKE2S_256 Algorithm = blake2s_256String
BLAKE2B_256 Algorithm = blake2b_256String
BLAKE2B_384 Algorithm = blake2b_384String
BLAKE2B_512 Algorithm = blake2b_512String
// RSA-based algorithms.
RSA_SHA1 Algorithm = rsaPrefix + "-" + sha1String
RSA_SHA224 Algorithm = rsaPrefix + "-" + sha224String
// RSA_SHA256 is the default algorithm.
RSA_SHA256 Algorithm = rsaPrefix + "-" + sha256String
RSA_SHA384 Algorithm = rsaPrefix + "-" + sha384String
RSA_SHA512 Algorithm = rsaPrefix + "-" + sha512String
RSA_RIPEMD160 Algorithm = rsaPrefix + "-" + ripemd160String
// ECDSA algorithms
ECDSA_SHA224 Algorithm = ecdsaPrefix + "-" + sha224String
ECDSA_SHA256 Algorithm = ecdsaPrefix + "-" + sha256String
ECDSA_SHA384 Algorithm = ecdsaPrefix + "-" + sha384String
ECDSA_SHA512 Algorithm = ecdsaPrefix + "-" + sha512String
ECDSA_RIPEMD160 Algorithm = ecdsaPrefix + "-" + ripemd160String
// ED25519 algorithms
// can only be SHA512
ED25519 Algorithm = ed25519Prefix
// Just because you can glue things together, doesn't mean they will
// work. The following options are not supported.
rsa_SHA3_224 Algorithm = rsaPrefix + "-" + sha3_224String
rsa_SHA3_256 Algorithm = rsaPrefix + "-" + sha3_256String
rsa_SHA3_384 Algorithm = rsaPrefix + "-" + sha3_384String
rsa_SHA3_512 Algorithm = rsaPrefix + "-" + sha3_512String
rsa_SHA512_224 Algorithm = rsaPrefix + "-" + sha512_224String
rsa_SHA512_256 Algorithm = rsaPrefix + "-" + sha512_256String
rsa_BLAKE2S_256 Algorithm = rsaPrefix + "-" + blake2s_256String
rsa_BLAKE2B_256 Algorithm = rsaPrefix + "-" + blake2b_256String
rsa_BLAKE2B_384 Algorithm = rsaPrefix + "-" + blake2b_384String
rsa_BLAKE2B_512 Algorithm = rsaPrefix + "-" + blake2b_512String
)
// HTTP Signatures can be applied to different HTTP headers, depending on the
// expected application behavior.
type SignatureScheme string
const (
// Signature will place the HTTP Signature into the 'Signature' HTTP
// header.
Signature SignatureScheme = "Signature"
// Authorization will place the HTTP Signature into the 'Authorization'
// HTTP header.
Authorization SignatureScheme = "Authorization"
)
const (
// The HTTP Signatures specification uses the "Signature" auth-scheme
// for the Authorization header. This is coincidentally named, but not
// semantically the same, as the "Signature" HTTP header value.
signatureAuthScheme = "Signature"
)
// There are subtle differences to the values in the header. The Authorization
// header has an 'auth-scheme' value that must be prefixed to the rest of the
// key and values.
func (s SignatureScheme) authScheme() string {
switch s {
case Authorization:
return signatureAuthScheme
default:
return ""
}
}
// Signers will sign HTTP requests or responses based on the algorithms and
// headers selected at creation time.
//
// Signers are not safe to use between multiple goroutines.
//
// Note that signatures do set the deprecated 'algorithm' parameter for
// backwards compatibility.
type Signer interface {
// SignRequest signs the request using a private key. The public key id
// is used by the HTTP server to identify which key to use to verify the
// signature.
//
// If the Signer was created using a MAC based algorithm, then the key
// is expected to be of type []byte. If the Signer was created using an
// RSA based algorithm, then the private key is expected to be of type
// *rsa.PrivateKey.
//
// A Digest (RFC 3230) will be added to the request. The body provided
// must match the body used in the request, and is allowed to be nil.
// The Digest ensures the request body is not tampered with in flight,
// and if the signer is created to also sign the "Digest" header, the
// HTTP Signature will then ensure both the Digest and body are not both
// modified to maliciously represent different content.
SignRequest(pKey crypto.PrivateKey, pubKeyId string, r *http.Request, body []byte) error
// SignResponse signs the response using a private key. The public key
// id is used by the HTTP client to identify which key to use to verify
// the signature.
//
// If the Signer was created using a MAC based algorithm, then the key
// is expected to be of type []byte. If the Signer was created using an
// RSA based algorithm, then the private key is expected to be of type
// *rsa.PrivateKey.
//
// A Digest (RFC 3230) will be added to the response. The body provided
// must match the body written in the response, and is allowed to be
// nil. The Digest ensures the response body is not tampered with in
// flight, and if the signer is created to also sign the "Digest"
// header, the HTTP Signature will then ensure both the Digest and body
// are not both modified to maliciously represent different content.
SignResponse(pKey crypto.PrivateKey, pubKeyId string, r http.ResponseWriter, body []byte) error
}
// NewSigner creates a new Signer with the provided algorithm preferences to
// make HTTP signatures. Only the first available algorithm will be used, which
// is returned by this function along with the Signer. If none of the preferred
// algorithms were available, then the default algorithm is used. The headers
// specified will be included into the HTTP signatures.
//
// The Digest will also be calculated on a request's body using the provided
// digest algorithm, if "Digest" is one of the headers listed.
//
// The provided scheme determines which header is populated with the HTTP
// Signature.
//
// An error is returned if an unknown or a known cryptographically insecure
// Algorithm is provided.
func NewSigner(prefs []Algorithm, dAlgo DigestAlgorithm, headers []string, scheme SignatureScheme, expiresIn int64) (Signer, Algorithm, error) {
for _, pref := range prefs {
s, err := newSigner(pref, dAlgo, headers, scheme, expiresIn)
if err != nil {
continue
}
return s, pref, err
}
s, err := newSigner(defaultAlgorithm, dAlgo, headers, scheme, expiresIn)
return s, defaultAlgorithm, err
}
// Signers will sign HTTP requests or responses based on the algorithms and
// headers selected at creation time.
//
// Signers are not safe to use between multiple goroutines.
//
// Note that signatures do set the deprecated 'algorithm' parameter for
// backwards compatibility.
type SSHSigner interface {
// SignRequest signs the request using ssh.Signer.
// The public key id is used by the HTTP server to identify which key to use
// to verify the signature.
//
// A Digest (RFC 3230) will be added to the request. The body provided
// must match the body used in the request, and is allowed to be nil.
// The Digest ensures the request body is not tampered with in flight,
// and if the signer is created to also sign the "Digest" header, the
// HTTP Signature will then ensure both the Digest and body are not both
// modified to maliciously represent different content.
SignRequest(pubKeyId string, r *http.Request, body []byte) error
// SignResponse signs the response using ssh.Signer. The public key
// id is used by the HTTP client to identify which key to use to verify
// the signature.
//
// A Digest (RFC 3230) will be added to the response. The body provided
// must match the body written in the response, and is allowed to be
// nil. The Digest ensures the response body is not tampered with in
// flight, and if the signer is created to also sign the "Digest"
// header, the HTTP Signature will then ensure both the Digest and body
// are not both modified to maliciously represent different content.
SignResponse(pubKeyId string, r http.ResponseWriter, body []byte) error
}
// NewwSSHSigner creates a new Signer using the specified ssh.Signer
// At the moment only ed25519 ssh keys are supported.
// The headers specified will be included into the HTTP signatures.
//
// The Digest will also be calculated on a request's body using the provided
// digest algorithm, if "Digest" is one of the headers listed.
//
// The provided scheme determines which header is populated with the HTTP
// Signature.
func NewSSHSigner(s ssh.Signer, dAlgo DigestAlgorithm, headers []string, scheme SignatureScheme, expiresIn int64) (SSHSigner, Algorithm, error) {
sshAlgo := getSSHAlgorithm(s.PublicKey().Type())
if sshAlgo == "" {
return nil, "", fmt.Errorf("key type: %s not supported yet.", s.PublicKey().Type())
}
signer, err := newSSHSigner(s, sshAlgo, dAlgo, headers, scheme, expiresIn)
if err != nil {
return nil, "", err
}
return signer, sshAlgo, nil
}
func getSSHAlgorithm(pkType string) Algorithm {
switch {
case strings.HasPrefix(pkType, sshPrefix+"-"+ed25519Prefix):
return ED25519
case strings.HasPrefix(pkType, sshPrefix+"-"+rsaPrefix):
return RSA_SHA1
}
return ""
}
// Verifier verifies HTTP Signatures.
//
// It will determine which of the supported headers has the parameters
// that define the signature.
//
// Verifiers are not safe to use between multiple goroutines.
//
// Note that verification ignores the deprecated 'algorithm' parameter.
type Verifier interface {
// KeyId gets the public key id that the signature is signed with.
//
// Note that the application is expected to determine the algorithm
// used based on metadata or out-of-band information for this key id.
KeyId() string
// Verify accepts the public key specified by KeyId and returns an
// error if verification fails or if the signature is malformed. The
// algorithm must be the one used to create the signature in order to
// pass verification. The algorithm is determined based on metadata or
// out-of-band information for the key id.
//
// If the signature was created using a MAC based algorithm, then the
// key is expected to be of type []byte. If the signature was created
// using an RSA based algorithm, then the public key is expected to be
// of type *rsa.PublicKey.
Verify(pKey crypto.PublicKey, algo Algorithm) error
}
const (
// host is treated specially because golang may not include it in the
// request header map on the server side of a request.
hostHeader = "Host"
)
// NewVerifier verifies the given request. It returns an error if the HTTP
// Signature parameters are not present in any headers, are present in more than
// one header, are malformed, or are missing required parameters. It ignores
// unknown HTTP Signature parameters.
func NewVerifier(r *http.Request) (Verifier, error) {
h := r.Header
if _, hasHostHeader := h[hostHeader]; len(r.Host) > 0 && !hasHostHeader {
h[hostHeader] = []string{r.Host}
}
return newVerifier(h, func(h http.Header, toInclude []string, created int64, expires int64) (string, error) {
return signatureString(h, toInclude, addRequestTarget(r), created, expires)
})
}
// NewResponseVerifier verifies the given response. It returns errors under the
// same conditions as NewVerifier.
func NewResponseVerifier(r *http.Response) (Verifier, error) {
return newVerifier(r.Header, func(h http.Header, toInclude []string, created int64, expires int64) (string, error) {
return signatureString(h, toInclude, requestTargetNotPermitted, created, expires)
})
}
func newSSHSigner(sshSigner ssh.Signer, algo Algorithm, dAlgo DigestAlgorithm, headers []string, scheme SignatureScheme, expiresIn int64) (SSHSigner, error) {
var expires, created int64 = 0, 0
if expiresIn != 0 {
created = time.Now().Unix()
expires = created + expiresIn
}
s, err := signerFromSSHSigner(sshSigner, string(algo))
if err != nil {
return nil, fmt.Errorf("no crypto implementation available for ssh algo %q", algo)
}
a := &asymmSSHSigner{
asymmSigner: &asymmSigner{
s: s,
dAlgo: dAlgo,
headers: headers,
targetHeader: scheme,
prefix: scheme.authScheme(),
created: created,
expires: expires,
},
}
return a, nil
}
func newSigner(algo Algorithm, dAlgo DigestAlgorithm, headers []string, scheme SignatureScheme, expiresIn int64) (Signer, error) {
var expires, created int64 = 0, 0
if expiresIn != 0 {
created = time.Now().Unix()
expires = created + expiresIn
}
s, err := signerFromString(string(algo))
if err == nil {
a := &asymmSigner{
s: s,
dAlgo: dAlgo,
headers: headers,
targetHeader: scheme,
prefix: scheme.authScheme(),
created: created,
expires: expires,
}
return a, nil
}
m, err := macerFromString(string(algo))
if err != nil {
return nil, fmt.Errorf("no crypto implementation available for %q", algo)
}
c := &macSigner{
m: m,
dAlgo: dAlgo,
headers: headers,
targetHeader: scheme,
prefix: scheme.authScheme(),
created: created,
expires: expires,
}
return c, nil
}