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/*
GoToSocial
Copyright (C) 2021-2022 GoToSocial Authors admin@gotosocial.org
This program is free software: you can redistribute it and/or modify
it under the terms of the GNU Affero General Public License as published by
the Free Software Foundation, either version 3 of the License, or
(at your option) any later version.
This program is distributed in the hope that it will be useful,
but WITHOUT ANY WARRANTY; without even the implied warranty of
MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
GNU Affero General Public License for more details.
You should have received a copy of the GNU Affero General Public License
along with this program. If not, see <http://www.gnu.org/licenses/>.
*/
package federation
import (
"context"
"crypto/x509"
"encoding/json"
"encoding/pem"
"errors"
"fmt"
"net/url"
"strings"
"github.com/go-fed/httpsig"
"github.com/superseriousbusiness/activity/pub"
"github.com/superseriousbusiness/activity/streams"
"github.com/superseriousbusiness/activity/streams/vocab"
"github.com/superseriousbusiness/gotosocial/internal/ap"
"github.com/superseriousbusiness/gotosocial/internal/config"
"github.com/superseriousbusiness/gotosocial/internal/gtserror"
"github.com/superseriousbusiness/gotosocial/internal/gtsmodel"
"github.com/superseriousbusiness/gotosocial/internal/log"
"github.com/superseriousbusiness/gotosocial/internal/transport"
)
/*
publicKeyer is BORROWED DIRECTLY FROM https://github.com/go-fed/apcore/blob/master/ap/util.go
Thank you @cj@mastodon.technology ! <3
*/
type publicKeyer interface {
GetW3IDSecurityV1PublicKey() vocab.W3IDSecurityV1PublicKeyProperty
}
/*
getPublicKeyFromResponse is adapted from https://github.com/go-fed/apcore/blob/master/ap/util.go
Thank you @cj@mastodon.technology ! <3
*/
func getPublicKeyFromResponse(c context.Context, b []byte, keyID *url.URL) (vocab.W3IDSecurityV1PublicKey, error) {
m := make(map[string]interface{})
if err := json.Unmarshal(b, &m); err != nil {
return nil, err
}
t, err := streams.ToType(c, m)
if err != nil {
return nil, err
}
pker, ok := t.(publicKeyer)
if !ok {
return nil, fmt.Errorf("ActivityStreams type cannot be converted to one known to have publicKey property: %T", t)
}
pkp := pker.GetW3IDSecurityV1PublicKey()
if pkp == nil {
return nil, errors.New("publicKey property is not provided")
}
var pkpFound vocab.W3IDSecurityV1PublicKey
for pkpIter := pkp.Begin(); pkpIter != pkp.End(); pkpIter = pkpIter.Next() {
if !pkpIter.IsW3IDSecurityV1PublicKey() {
continue
}
pkValue := pkpIter.Get()
var pkID *url.URL
pkID, err = pub.GetId(pkValue)
if err != nil {
return nil, err
}
if pkID.String() != keyID.String() {
continue
}
pkpFound = pkValue
break
}
if pkpFound == nil {
return nil, fmt.Errorf("cannot find publicKey with id: %s", keyID)
}
return pkpFound, nil
}
// AuthenticateFederatedRequest authenticates any kind of incoming federated request from a remote server. This includes things like
// GET requests for dereferencing our users or statuses etc, and POST requests for delivering new Activities. The function returns
// the URL of the owner of the public key used in the requesting http signature.
//
// Authenticate in this case is defined as making sure that the http request is actually signed by whoever claims
// to have signed it, by fetching the public key from the signature and checking it against the remote public key.
//
// The provided username will be used to generate a transport for making remote requests/derefencing the public key ID of the request signature.
// Ideally you should pass in the username of the user *being requested*, so that the remote server can decide how to handle the request based on who's making it.
// Ie., if the request on this server is for https://example.org/users/some_username then you should pass in the username 'some_username'.
// The remote server will then know that this is the user making the dereferencing request, and they can decide to allow or deny the request depending on their settings.
//
// Note that it is also valid to pass in an empty string here, in which case the keys of the instance account will be used.
//
// Also note that this function *does not* dereference the remote account that the signature key is associated with.
// Other functions should use the returned URL to dereference the remote account, if required.
func (f *federator) AuthenticateFederatedRequest(ctx context.Context, requestedUsername string) (*url.URL, gtserror.WithCode) {
var publicKey interface{}
var pkOwnerURI *url.URL
var err error
// thanks to signaturecheck.go in the security package, we should already have a signature verifier set on the context
vi := ctx.Value(ap.ContextRequestingPublicKeyVerifier)
if vi == nil {
err := errors.New("http request wasn't signed or http signature was invalid")
errWithCode := gtserror.NewErrorUnauthorized(err, err.Error())
log.Debug(errWithCode)
return nil, errWithCode
}
verifier, ok := vi.(httpsig.Verifier)
if !ok {
err := errors.New("http request wasn't signed or http signature was invalid")
errWithCode := gtserror.NewErrorUnauthorized(err, err.Error())
log.Debug(errWithCode)
return nil, errWithCode
}
// we should have the signature itself set too
si := ctx.Value(ap.ContextRequestingPublicKeySignature)
if si == nil {
err := errors.New("http request wasn't signed or http signature was invalid")
errWithCode := gtserror.NewErrorUnauthorized(err, err.Error())
log.Debug(errWithCode)
return nil, errWithCode
}
signature, ok := si.(string)
if !ok {
err := errors.New("http request wasn't signed or http signature was invalid")
errWithCode := gtserror.NewErrorUnauthorized(err, err.Error())
log.Debug(errWithCode)
return nil, errWithCode
}
// now figure out who actually signed it
requestingPublicKeyID, err := url.Parse(verifier.KeyId())
if err != nil {
errWithCode := gtserror.NewErrorBadRequest(err, fmt.Sprintf("couldn't parse public key URL %s", verifier.KeyId()))
log.Debug(errWithCode)
return nil, errWithCode
}
var (
requestingLocalAccount *gtsmodel.Account
requestingRemoteAccount *gtsmodel.Account
requestingHost = requestingPublicKeyID.Host
)
if host := config.GetHost(); strings.EqualFold(requestingHost, host) {
// LOCAL ACCOUNT REQUEST
// the request is coming from INSIDE THE HOUSE so skip the remote dereferencing
log.Tracef("proceeding without dereference for local public key %s", requestingPublicKeyID)
requestingLocalAccount, err = f.db.GetAccountByPubkeyID(ctx, requestingPublicKeyID.String())
if err != nil {
errWithCode := gtserror.NewErrorInternalError(fmt.Errorf("couldn't get account with public key uri %s from the database: %s", requestingPublicKeyID.String(), err))
log.Debug(errWithCode)
return nil, errWithCode
}
publicKey = requestingLocalAccount.PublicKey
pkOwnerURI, err = url.Parse(requestingLocalAccount.URI)
if err != nil {
errWithCode := gtserror.NewErrorBadRequest(err, fmt.Sprintf("couldn't parse public key owner URL %s", requestingLocalAccount.URI))
log.Debug(errWithCode)
return nil, errWithCode
}
} else if requestingRemoteAccount, err = f.db.GetAccountByPubkeyID(ctx, requestingPublicKeyID.String()); err == nil {
// REMOTE ACCOUNT REQUEST WITH KEY CACHED LOCALLY
// this is a remote account and we already have the public key for it so use that
log.Tracef("proceeding without dereference for cached public key %s", requestingPublicKeyID)
publicKey = requestingRemoteAccount.PublicKey
pkOwnerURI, err = url.Parse(requestingRemoteAccount.URI)
if err != nil {
errWithCode := gtserror.NewErrorBadRequest(err, fmt.Sprintf("couldn't parse public key owner URL %s", requestingRemoteAccount.URI))
log.Debug(errWithCode)
return nil, errWithCode
}
} else {
// REMOTE ACCOUNT REQUEST WITHOUT KEY CACHED LOCALLY
// the request is remote and we don't have the public key yet,
// so we need to authenticate the request properly by dereferencing the remote key
gone, err := f.CheckGone(ctx, requestingPublicKeyID)
if err != nil {
errWithCode := gtserror.NewErrorInternalError(fmt.Errorf("error checking for tombstone for %s: %s", requestingPublicKeyID, err))
log.Debug(errWithCode)
return nil, errWithCode
}
if gone {
errWithCode := gtserror.NewErrorGone(fmt.Errorf("account with public key %s is gone", requestingPublicKeyID))
log.Debug(errWithCode)
return nil, errWithCode
}
log.Tracef("proceeding with dereference for uncached public key %s", requestingPublicKeyID)
trans, err := f.transportController.NewTransportForUsername(transport.WithFastfail(ctx), requestedUsername)
if err != nil {
errWithCode := gtserror.NewErrorInternalError(fmt.Errorf("error creating transport for %s: %s", requestedUsername, err))
log.Debug(errWithCode)
return nil, errWithCode
}
// The actual http call to the remote server is made right here in the Dereference function.
b, err := trans.Dereference(ctx, requestingPublicKeyID)
if err != nil {
if errors.Is(err, transport.ErrGone) {
// if we get a 410 error it means the account that owns this public key has been deleted;
// we should add a tombstone to our database so that we can avoid trying to deref it in future
if err := f.HandleGone(ctx, requestingPublicKeyID); err != nil {
errWithCode := gtserror.NewErrorInternalError(fmt.Errorf("error marking account with public key %s as gone: %s", requestingPublicKeyID, err))
log.Debug(errWithCode)
return nil, errWithCode
}
errWithCode := gtserror.NewErrorGone(fmt.Errorf("account with public key %s is gone", requestingPublicKeyID))
log.Debug(errWithCode)
return nil, errWithCode
}
errWithCode := gtserror.NewErrorUnauthorized(fmt.Errorf("error dereferencing public key %s: %s", requestingPublicKeyID, err))
log.Debug(errWithCode)
return nil, errWithCode
}
// if the key isn't in the response, we can't authenticate the request
requestingPublicKey, err := getPublicKeyFromResponse(ctx, b, requestingPublicKeyID)
if err != nil {
errWithCode := gtserror.NewErrorUnauthorized(fmt.Errorf("error parsing public key %s: %s", requestingPublicKeyID, err))
log.Debug(errWithCode)
return nil, errWithCode
}
// we should be able to get the actual key embedded in the vocab.W3IDSecurityV1PublicKey
pkPemProp := requestingPublicKey.GetW3IDSecurityV1PublicKeyPem()
if pkPemProp == nil || !pkPemProp.IsXMLSchemaString() {
errWithCode := gtserror.NewErrorUnauthorized(errors.New("publicKeyPem property is not provided or it is not embedded as a value"))
log.Debug(errWithCode)
return nil, errWithCode
}
// and decode the PEM so that we can parse it as a golang public key
pubKeyPem := pkPemProp.Get()
block, _ := pem.Decode([]byte(pubKeyPem))
if block == nil || block.Type != "PUBLIC KEY" {
errWithCode := gtserror.NewErrorUnauthorized(errors.New("could not decode publicKeyPem to PUBLIC KEY pem block type"))
log.Debug(errWithCode)
return nil, errWithCode
}
publicKey, err = x509.ParsePKIXPublicKey(block.Bytes)
if err != nil {
errWithCode := gtserror.NewErrorUnauthorized(fmt.Errorf("could not parse public key %s from block bytes: %s", requestingPublicKeyID, err))
log.Debug(errWithCode)
return nil, errWithCode
}
// all good! we just need the URI of the key owner to return
pkOwnerProp := requestingPublicKey.GetW3IDSecurityV1Owner()
if pkOwnerProp == nil || !pkOwnerProp.IsIRI() {
errWithCode := gtserror.NewErrorUnauthorized(errors.New("publicKeyOwner property is not provided or it is not embedded as a value"))
log.Debug(errWithCode)
return nil, errWithCode
}
pkOwnerURI = pkOwnerProp.GetIRI()
}
// after all that, public key should be defined
if publicKey == nil {
errWithCode := gtserror.NewErrorInternalError(errors.New("returned public key was empty"))
log.Debug(errWithCode)
return nil, errWithCode
}
// do the actual authentication here!
algos := []httpsig.Algorithm{
httpsig.RSA_SHA256,
httpsig.RSA_SHA512,
httpsig.ED25519,
}
for _, algo := range algos {
log.Tracef("trying algo: %s", algo)
err := verifier.Verify(publicKey, algo)
if err == nil {
log.Tracef("authentication for %s PASSED with algorithm %s", pkOwnerURI, algo)
return pkOwnerURI, nil
}
log.Tracef("authentication for %s NOT PASSED with algorithm %s: %s", pkOwnerURI, algo, err)
}
errWithCode := gtserror.NewErrorUnauthorized(fmt.Errorf("authentication not passed for public key owner %s; signature value was '%s'", pkOwnerURI, signature))
log.Debug(errWithCode)
return nil, errWithCode
}
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