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verify.go
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verify.go
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package irma
import (
"crypto/rsa"
"slices"
"time"
"github.com/go-errors/errors"
"github.com/golang-jwt/jwt/v4"
"github.com/privacybydesign/gabi"
"github.com/privacybydesign/gabi/big"
"github.com/privacybydesign/gabi/gabikeys"
"github.com/privacybydesign/gabi/revocation"
)
// ProofStatus is the status of the complete proof
type ProofStatus string
// AttributeProofStatus is the proof status of a single attribute
type AttributeProofStatus string
const (
ProofStatusValid = ProofStatus("VALID") // Proof is valid
ProofStatusInvalid = ProofStatus("INVALID") // Proof is invalid
ProofStatusInvalidTimestamp = ProofStatus("INVALID_TIMESTAMP") // Attribute-based signature had invalid timestamp
ProofStatusUnmatchedRequest = ProofStatus("UNMATCHED_REQUEST") // Proof does not correspond to a specified request
ProofStatusMissingAttributes = ProofStatus("MISSING_ATTRIBUTES") // Proof does not contain all requested attributes
ProofStatusExpired = ProofStatus("EXPIRED") // Attributes were expired at proof creation time (now, or according to timestamp in case of abs)
AttributeProofStatusPresent = AttributeProofStatus("PRESENT") // Attribute is disclosed and matches the value
AttributeProofStatusExtra = AttributeProofStatus("EXTRA") // Attribute is disclosed, but wasn't requested in request
AttributeProofStatusNull = AttributeProofStatus("NULL") // Attribute is disclosed but is null
)
// DisclosedAttribute represents a disclosed attribute.
type DisclosedAttribute struct {
RawValue *string `json:"rawvalue"`
Value TranslatedString `json:"value"` // Value of the disclosed attribute
Identifier AttributeTypeIdentifier `json:"id"`
Status AttributeProofStatus `json:"status"`
IssuanceTime Timestamp `json:"issuancetime"`
NotRevoked bool `json:"notrevoked,omitempty"`
NotRevokedBefore *Timestamp `json:"notrevokedbefore,omitempty"`
}
// ProofList is a gabi.ProofList with some extra methods.
type ProofList gabi.ProofList
var ErrMissingPublicKey = errors.New("Missing public key")
// ExtractPublicKeys returns the public keys of each proof in the proofList, in the same order,
// for later use in verification of the proofList. If one of the proofs is not a ProofD
// an error is returned.
func (pl ProofList) ExtractPublicKeys(configuration *Configuration) ([]*gabikeys.PublicKey, error) {
var publicKeys = make([]*gabikeys.PublicKey, 0, len(pl))
for _, v := range pl {
if proof, ok := v.(*gabi.ProofD); ok {
metadata := MetadataFromInt(proof.ADisclosed[1], configuration) // index 1 is metadata attribute
publicKey, err := metadata.PublicKey()
if err != nil {
return nil, err
}
if publicKey == nil {
return nil, ErrMissingPublicKey
}
publicKeys = append(publicKeys, publicKey)
} else {
return nil, errors.New("Cannot extract public key, not a disclosure proofD")
}
}
return publicKeys, nil
}
// Expired returns true if any of the contained disclosure proofs is specified at the specified time,
// or now, when the specified time is nil.
func (pl ProofList) Expired(configuration *Configuration, t *time.Time, skipExpiryCheck []CredentialTypeIdentifier) (bool, error) {
if t == nil {
temp := time.Now()
t = &temp
}
for _, proof := range pl {
proofd, ok := proof.(*gabi.ProofD)
if !ok {
continue
}
metadata := MetadataFromInt(proofd.ADisclosed[1], configuration) // index 1 is metadata attribute
skipCheck := slices.Contains(skipExpiryCheck, metadata.CredentialType().Identifier())
if !skipCheck && metadata.Expiry().Before(*t) {
return true, nil
}
pk, err := metadata.PublicKey()
if err != nil {
return false, err
}
if metadata.SigningDate().Unix() > pk.ExpiryDate {
return true, nil
}
}
return false, nil
}
func extractAttribute(pl gabi.ProofList, index *DisclosedAttributeIndex, notrevoked *time.Time, conf *Configuration) (*DisclosedAttribute, *string, error) {
if len(pl) < index.CredentialIndex {
return nil, nil, errors.New("Credential index out of range")
}
proofd, ok := pl[index.CredentialIndex].(*gabi.ProofD)
if !ok {
// If with the index the user told us to look for the required attribute at this specific location,
// and the proof here is not a disclosure proof, then reject
return nil, nil, errors.New("ProofList contained proof of invalid type")
}
metadata := MetadataFromInt(proofd.ADisclosed[1], conf) // index 1 is metadata attribute
attr, str, err := parseAttribute(index.AttributeIndex, metadata, proofd.ADisclosed[index.AttributeIndex])
if err != nil {
return nil, nil, err
}
attr.NotRevokedBefore = (*Timestamp)(notrevoked)
attr.NotRevoked = proofd.NonRevocationProof != nil
return attr, str, nil
}
// VerifyProofs verifies the proofs cryptographically.
func (pl ProofList) VerifyProofs(
configuration *Configuration,
request SessionRequest,
context *big.Int, nonce *big.Int,
publickeys []*gabikeys.PublicKey,
validAt *time.Time,
isSig bool,
) (bool, map[int]*time.Time, error) {
// Empty proof lists are allowed (if consistent with the session request, which is checked elsewhere)
if len(pl) == 0 {
return true, nil, nil
}
if publickeys == nil {
var err error
publickeys, err = pl.ExtractPublicKeys(configuration)
if err != nil {
return false, nil, err
}
}
if len(pl) != len(publickeys) {
return false, nil, errors.New("Insufficient public keys to verify the proofs")
}
// Compute slice to inform gabi of which proofs should be verified to share the same secret key
keyshareServers := make([]string, len(pl))
for i := range pl {
schemeID := NewIssuerIdentifier(publickeys[i].Issuer).SchemeManagerIdentifier()
if !configuration.SchemeManagers[schemeID].Distributed() {
keyshareServers[i] = "." // dummy value: no IRMA scheme will ever have this name
} else {
keyshareServers[i] = schemeID.Name()
}
}
if !gabi.ProofList(pl).Verify(publickeys, context, nonce, isSig, keyshareServers) {
return false, nil, nil
}
// Perform per-proof verifications for each proof:
// - verify that any singleton credential occurs at most once in the prooflist
// - verify that all required nonrevocation proofs are present
singletons := map[CredentialTypeIdentifier]bool{}
revocationtime := map[int]*time.Time{} // per proof, stores up to what time it is known to be not revoked
var revParams NonRevocationParameters
if request != nil {
revParams = request.Base().Revocation
}
for i, proof := range pl {
proofd, ok := proof.(*gabi.ProofD)
if !ok {
continue
}
typ := MetadataFromInt(proofd.ADisclosed[1], configuration).CredentialType()
if typ == nil {
return false, nil, errors.New("Received unknown credential type")
}
id := typ.Identifier()
if typ.IsSingleton {
if !singletons[id] { // Seen for the first time
singletons[id] = true
} else { // Seen for the second time
return false, nil, nil
}
}
// The cryptographic validity of all included nonrevocation proofs has already been checked
// by ProofList.Verify() above, so all that remains here is to check if all expected
// nonrevocation proofs are present, and against the expected accumulator value:
// the last one in the update message set we provided along with the session request,
// OR a newer one included in the proofs itself.
if !proofd.HasNonRevocationProof() {
if revParams[id] != nil {
// no nonrevocation proof is included but one was required in the session request
return false, nil, nil
} else {
continue
}
}
sig := proofd.NonRevocationProof.SignedAccumulator
pk, err := RevocationKeys{configuration}.PublicKey(typ.IssuerIdentifier(), sig.PKCounter)
if err != nil {
return false, nil, nil
}
acc, err := proofd.NonRevocationProof.SignedAccumulator.UnmarshalVerify(pk)
if err != nil {
return false, nil, nil
}
theirs := acc.Index
acctime := time.Unix(acc.Time, 0)
settings := configuration.Revocation.settings.Get(id)
var ours uint64
var updates map[uint]*revocation.Update
if revParams[id] != nil {
updates = revParams[id].Updates
}
if u := updates[sig.PKCounter]; u != nil {
ours = u.Events[len(u.Events)-1].Index
}
if ours > theirs {
return false, nil, nil
}
if ours == theirs {
if settings.updated.After(acctime) {
acctime = settings.updated
}
}
if validAt == nil {
t := time.Now()
validAt = &t
}
tolerance := settings.Tolerance
if s := revParams[id]; s != nil && s.Tolerance != 0 {
tolerance = s.Tolerance
}
if uint64(validAt.Sub(acctime).Seconds()) > tolerance {
revocationtime[i] = &acctime
}
}
return true, revocationtime, nil
}
func (d *Disclosure) extraIndices(condiscon AttributeConDisCon) []*DisclosedAttributeIndex {
disclosed := make([]map[int]struct{}, len(d.Proofs))
for i, proof := range d.Proofs {
proofd, ok := proof.(*gabi.ProofD)
if !ok {
continue
}
disclosed[i] = map[int]struct{}{}
for j := range proofd.ADisclosed {
if j <= 1 {
continue
}
disclosed[i][j] = struct{}{}
}
}
for i, set := range d.Indices {
if len(condiscon) <= i {
continue
}
for _, index := range set {
delete(disclosed[index.CredentialIndex], index.AttributeIndex)
}
}
var extra []*DisclosedAttributeIndex
for i, attrs := range disclosed {
for j := range attrs {
extra = append(extra, &DisclosedAttributeIndex{CredentialIndex: i, AttributeIndex: j})
}
}
return extra
}
// DisclosedAttributes returns a slice containing for each item in the conjunction the disclosed
// attributes that are present in the proof list. If a non-empty and non-nil AttributeDisjunctionList
// is included, then the first attributes in the returned slice match with the disjunction list in
// the disjunction list. The first return parameter of this function indicates whether or not all
// disjunctions (if present) are satisfied.
func (d *Disclosure) DisclosedAttributes(configuration *Configuration, condiscon AttributeConDisCon, revtimes map[int]*time.Time) (bool, [][]*DisclosedAttribute, error) {
if revtimes == nil {
revtimes = map[int]*time.Time{}
}
complete, list, err := condiscon.Satisfy(d, revtimes, configuration)
if err != nil {
return false, nil, err
}
var extra []*DisclosedAttribute
indices := d.extraIndices(condiscon)
for _, index := range indices {
attr, _, err := extractAttribute(d.Proofs, index, revtimes[index.CredentialIndex], configuration)
if err != nil {
return false, nil, err
}
attr.Status = AttributeProofStatusExtra
extra = append(extra, attr)
}
if len(extra) > 0 {
list = append(list, extra)
}
return complete, list, nil
}
func parseAttribute(index int, metadata *MetadataAttribute, attr *big.Int) (*DisclosedAttribute, *string, error) {
var attrid AttributeTypeIdentifier
var attrval *string
credtype := metadata.CredentialType()
if credtype == nil {
return nil, nil, errors.New("ProofList contained a disclosure proof of an unknown credential type")
}
if index == 1 {
attrid = NewAttributeTypeIdentifier(credtype.Identifier().String())
p := "present"
attrval = &p
} else {
attrid = credtype.AttributeTypes[index-2].GetAttributeTypeIdentifier()
if credtype.AttributeTypes[index-2].RandomBlind {
attrval = decodeRandomBlind(attr)
} else {
attrval = decodeAttribute(attr, metadata.Version())
}
}
status := AttributeProofStatusPresent
if attrval == nil {
status = AttributeProofStatusNull
}
return &DisclosedAttribute{
Identifier: attrid,
RawValue: attrval,
Value: NewTranslatedString(attrval),
Status: status,
IssuanceTime: Timestamp(metadata.SigningDate()),
}, attrval, nil
}
func (d *Disclosure) VerifyAgainstRequest(
configuration *Configuration,
request SessionRequest,
context, nonce *big.Int,
publickeys []*gabikeys.PublicKey,
validAt *time.Time,
issig bool,
) ([][]*DisclosedAttribute, ProofStatus, error) {
// Cryptographically verify all included IRMA proofs
valid, revtimes, err := ProofList(d.Proofs).VerifyProofs(configuration, request, context, nonce, publickeys, validAt, issig)
if !valid || err != nil {
return nil, ProofStatusInvalid, err
}
// Next extract the contained attributes from the proofs, and match them to the signature request if present
var required AttributeConDisCon
var skipExpiryCheck []CredentialTypeIdentifier
if request != nil {
disclosureRequest := request.Disclosure()
required = disclosureRequest.Disclose
skipExpiryCheck = disclosureRequest.SkipExpiryCheck
}
allmatched, list, err := d.DisclosedAttributes(configuration, required, revtimes)
if err != nil {
return nil, ProofStatusInvalid, err
}
// Return MISSING_ATTRIBUTES as proofstatus if one of the disjunctions in the request (if present) is not satisfied
if !allmatched {
return list, ProofStatusMissingAttributes, nil
}
// Check that all credentials were unexpired
expired, err := ProofList(d.Proofs).Expired(configuration, validAt, skipExpiryCheck)
if err != nil {
return nil, ProofStatusInvalid, err
}
if expired {
return list, ProofStatusExpired, nil
}
return list, ProofStatusValid, nil
}
func (d *Disclosure) Verify(configuration *Configuration, request *DisclosureRequest) ([][]*DisclosedAttribute, ProofStatus, error) {
return d.VerifyAgainstRequest(configuration, request, request.GetContext(), request.GetNonce(nil), nil, nil, false)
}
// Verify the attribute-based signature, optionally against a corresponding signature request. If the request is present
// (i.e. not nil), then the first attributes in the returned result match with the disjunction list in the request
// (that is, the i'th attribute in the result should satisfy the i'th disjunction in the request). If the request is not
// fully satisfied in this fashion, the Status of the result is ProofStatusMissingAttributes. Any remaining attributes
// (i.e. not asked for by the request) are also included in the result, after the attributes that match disjunctions
// in the request.
//
// The signature request is optional; if it is nil then the attribute-based signature is still verified, and all
// containing attributes returned in the result.
func (sm *SignedMessage) Verify(configuration *Configuration, request *SignatureRequest) ([][]*DisclosedAttribute, ProofStatus, error) {
var message string
if len(sm.Signature) == 0 {
return nil, ProofStatusInvalid, nil
}
// First check if this signature matches the request
if request != nil {
if !sm.MatchesNonceAndContext(request) {
return nil, ProofStatusUnmatchedRequest, nil
}
// If there is a request, then the signed message must be that of the request
message = request.Message
} else {
// If not, we just verify that the signed message is a valid signature over its contained message
message = sm.Message
}
// Next, verify the timestamp so we can safely use its time
t := time.Now()
if sm.Timestamp != nil {
if err := sm.VerifyTimestamp(message, configuration); err != nil {
return nil, ProofStatusInvalidTimestamp, nil
}
t = time.Unix(sm.Timestamp.Time, 0)
}
// Finally, cryptographically verify the IRMA disclosure proofs in the signature
// and verify that it satisfies the signature request, if present
var r SessionRequest // wrapper for request to avoid avoid https://golang.org/doc/faq#nil_error
if request != nil {
r = request
}
return sm.Disclosure().VerifyAgainstRequest(configuration, r, sm.Context, sm.GetNonce(), nil, &t, true)
}
// ExpiredError indicates that something (e.g. a JWT) has expired.
type ExpiredError struct {
Err error // underlying error
}
func (e ExpiredError) Error() string {
return "irmago: expired (" + e.Err.Error() + ")"
}
// ParseApiServerJwt verifies and parses a JWT as returned by an irma_api_server after a disclosure request into a key-value pair.
func ParseApiServerJwt(inputJwt string, signingKey *rsa.PublicKey) (map[AttributeTypeIdentifier]*DisclosedAttribute, error) {
claims := struct {
jwt.StandardClaims
Attributes map[AttributeTypeIdentifier]string `json:"attributes"`
}{}
_, err := jwt.ParseWithClaims(inputJwt, claims, func(token *jwt.Token) (interface{}, error) {
return signingKey, nil
})
if err != nil {
if err, ok := err.(*jwt.ValidationError); ok && (err.Errors&jwt.ValidationErrorExpired) != 0 {
return nil, ExpiredError{err}
} else {
return nil, err
}
}
if claims.Subject != "disclosure_result" {
return nil, errors.New("JWT is not a disclosure result")
}
disclosedAttributes := make(map[AttributeTypeIdentifier]*DisclosedAttribute, len(claims.Attributes))
for id, value := range claims.Attributes {
disclosedAttributes[id] = &DisclosedAttribute{
Identifier: id,
RawValue: &value,
Value: NewTranslatedString(&value),
Status: AttributeProofStatusPresent,
}
}
return disclosedAttributes, nil
}