timestamp.go 4.38 KB
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package irma

import (
	"crypto/sha256"
	"encoding/asn1"
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	gobig "math/big"
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	"github.com/bwesterb/go-atum"
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	"github.com/go-errors/errors"
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	"github.com/privacybydesign/gabi"
	"github.com/privacybydesign/gabi/big"
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)

// GetTimestamp GETs a signed timestamp (a signature over the current time and the parameters)
// over the message to be signed, the randomized signatures over the attributes, and the disclosed
// attributes, for in attribute-based signature sessions.
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func GetTimestamp(message string, sigs []*big.Int, disclosed [][]*big.Int, conf *Configuration) (*atum.Timestamp, error) {
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	nonce, timestampServerUrl, err := TimestampRequest(message, sigs, disclosed, true, conf)
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	if err != nil {
		return nil, err
	}
	alg := atum.Ed25519
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	return atum.SendRequest(timestampServerUrl, atum.Request{
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		Nonce:           nonce,
		PreferredSigAlg: &alg,
	})
}

// TimestampRequest computes the nonce to be signed by a timestamp server, given a message to be signed
// in an attribute-based signature session along with the randomized signatures over the attributes
// and the disclosed attributes.
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func TimestampRequest(message string, sigs []*big.Int, disclosed [][]*big.Int, new bool, conf *Configuration) (
	nonceToSign []byte, timestampServerUrl string, err error) {
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	msgHash := sha256.Sum256([]byte(message))

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	// Convert the sigs and disclosed (double) slices to (double) slices of gobig.Int's for asn1
	sigsint := make([]*gobig.Int, len(sigs))
	for i, k := range sigs {
		sigsint[i] = k.Value()
	}
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	timestampServerUrl = ""
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	disclosedint := make([][]*gobig.Int, len(disclosed))
	dlreps := make([]*gobig.Int, len(disclosed))
	var d interface{} = disclosedint
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	for i, _ := range disclosed {
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		meta := MetadataFromInt(disclosed[i][1], conf)
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		if !new {
			disclosedint[i] = make([]*gobig.Int, len(disclosed[i]))
			for j, k := range disclosed[i] {
				disclosedint[i][j] = k.Value()
			}
		} else {
			if len(disclosed[i]) < 2 || disclosed[i][1].Cmp(bigZero) == 0 {
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				return nil, "", errors.Errorf("metadata attribute of credential %d not disclosed", i)
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			}
			pk, err := conf.PublicKey(meta.CredentialType().IssuerIdentifier(), meta.KeyCounter())
			if err != nil {
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				return nil, "", err
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			}
			dlreps[i] = gabi.RepresentToPublicKey(pk, disclosed[i]).Value()
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		}
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		// Determine timestamp server that should be used
		schemeId := meta.CredentialType().SchemeManagerIdentifier()
		tss := conf.SchemeManagers[schemeId].TimestampServer
		if tss == "" {
			return nil, "", errors.Errorf("No timestamp server specified in scheme %s", schemeId.String())
		}
		if timestampServerUrl != "" && timestampServerUrl != tss {
			return nil, "", errors.New("No support for multiple timestamp servers in timestamp format")
		}
		timestampServerUrl = tss
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	}
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	if new {
		d = dlreps
	}

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	bts, err := asn1.Marshal(struct {
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		Sigs      []*gobig.Int
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		MsgHash   []byte
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		Disclosed interface{}
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	}{
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		sigsint, msgHash[:], d,
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	})
	if err != nil {
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		return nil, "", err
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	}

	hashed := sha256.Sum256(bts)
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	return hashed[:], timestampServerUrl, nil
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}

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// Given an SignedMessage, verify the timestamp over the signed message, disclosed attributes,
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// and rerandomized CL-signatures.
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func (sm *SignedMessage) VerifyTimestamp(message string, conf *Configuration) error {
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	// Extract the disclosed attributes and randomized CL-signatures from the proofs in order to
	// construct the nonce that should be signed by the timestamp server.
	zero := big.NewInt(0)
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	size := len(sm.Signature)
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	sigs := make([]*big.Int, size)
	disclosed := make([][]*big.Int, size)
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	for i, proof := range sm.Signature {
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		proofd := proof.(*gabi.ProofD)
		sigs[i] = proofd.A
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		ct := MetadataFromInt(proofd.ADisclosed[1], conf).CredentialType()
		if ct == nil {
			return errors.New("Cannot verify timestamp: signature contains attributes from unknown credential type")
		}
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		attrcount := len(ct.AttributeTypes) + 2 // plus secret key and metadata
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		disclosed[i] = make([]*big.Int, attrcount)
		for j := 0; j < attrcount; j++ {
			val, ok := proofd.ADisclosed[j]
			if !ok {
				disclosed[i][j] = zero
			} else {
				disclosed[i][j] = val
			}
		}
	}

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	bts, timestampServerUrl, err := TimestampRequest(message, sigs, disclosed, sm.Version() >= 2, conf)
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	if err != nil {
		return err
	}
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	sm.Timestamp.ServerUrl = timestampServerUrl // Timestamp server could be moved to other url
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	valid, err := sm.Timestamp.Verify(bts)
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	if err != nil {
		return err
	}
	if !valid {
		return errors.New("Timestamp signature invalid")
	}
	return nil
}