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Add copies of code to fix dependency issues
Signed-off-by: Hayden Blauzvern <hblauzvern@google.com>
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| Original file line number | Diff line number | Diff line change |
|---|---|---|
| @@ -0,0 +1,37 @@ | ||
| // Copyright 2016 Google LLC. All Rights Reserved. | ||
| // | ||
| // Licensed under the Apache License, Version 2.0 (the "License"); | ||
| // you may not use this file except in compliance with the License. | ||
| // You may obtain a copy of the License at | ||
| // | ||
| // http://www.apache.org/licenses/LICENSE-2.0 | ||
| // | ||
| // Unless required by applicable law or agreed to in writing, software | ||
| // distributed under the License is distributed on an "AS IS" BASIS, | ||
| // WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. | ||
| // See the License for the specific language governing permissions and | ||
| // limitations under the License. | ||
|
|
||
| package ctfe | ||
|
|
||
| // Code to handle encoding / decoding various data structures used in RFC 6962. Does not | ||
| // contain the low level serialization. | ||
|
|
||
| import ( | ||
| "crypto" | ||
| "crypto/sha256" | ||
|
|
||
| "github.com/google/certificate-transparency-go/x509" | ||
| ) | ||
|
|
||
| const millisPerNano int64 = 1000 * 1000 | ||
|
|
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| // GetCTLogID takes the key manager for a log and returns the LogID. (see RFC 6962 S3.2) | ||
| // In CT V1 the log id is a hash of the public key. | ||
| func GetCTLogID(pk crypto.PublicKey) ([sha256.Size]byte, error) { | ||
| pubBytes, err := x509.MarshalPKIXPublicKey(pk) | ||
| if err != nil { | ||
| return [sha256.Size]byte{}, err | ||
| } | ||
| return sha256.Sum256(pubBytes), nil | ||
| } |
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| Original file line number | Diff line number | Diff line change |
|---|---|---|
| @@ -0,0 +1,211 @@ | ||
| // Copyright 2018 Google LLC. All Rights Reserved. | ||
| // | ||
| // Licensed under the Apache License, Version 2.0 (the "License"); | ||
| // you may not use this file except in compliance with the License. | ||
| // You may obtain a copy of the License at | ||
| // | ||
| // http://www.apache.org/licenses/LICENSE-2.0 | ||
| // | ||
| // Unless required by applicable law or agreed to in writing, software | ||
| // distributed under the License is distributed on an "AS IS" BASIS, | ||
| // WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. | ||
| // See the License for the specific language governing permissions and | ||
| // limitations under the License. | ||
|
|
||
| // Package ctutil contains utilities for Certificate Transparency. | ||
| package ctutil | ||
|
|
||
| import ( | ||
| "bytes" | ||
| "crypto" | ||
| "crypto/sha256" | ||
| "encoding/base64" | ||
| "errors" | ||
| "fmt" | ||
|
|
||
| ct "github.com/google/certificate-transparency-go" | ||
| "github.com/google/certificate-transparency-go/tls" | ||
| "github.com/google/certificate-transparency-go/x509" | ||
| ) | ||
|
|
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| var emptyHash = [sha256.Size]byte{} | ||
|
|
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| // LeafHashB64 does as LeafHash does, but returns the leaf hash base64-encoded. | ||
| // The base64-encoded leaf hash returned by B64LeafHash can be used with the | ||
| // get-proof-by-hash API endpoint of Certificate Transparency Logs. | ||
| func LeafHashB64(chain []*x509.Certificate, sct *ct.SignedCertificateTimestamp, embedded bool) (string, error) { | ||
| hash, err := LeafHash(chain, sct, embedded) | ||
| if err != nil { | ||
| return "", err | ||
| } | ||
| return base64.StdEncoding.EncodeToString(hash[:]), nil | ||
| } | ||
|
|
||
| // LeafHash calculates the leaf hash of the certificate or precertificate at | ||
| // chain[0] that sct was issued for. | ||
| // | ||
| // sct is required because the SCT timestamp is used to calculate the leaf hash. | ||
| // Leaf hashes are unique to (pre)certificate-SCT pairs. | ||
| // | ||
| // This function can be used with three different types of leaf certificate: | ||
| // - X.509 Certificate: | ||
| // If using this function to calculate the leaf hash for a normal X.509 | ||
| // certificate then it is enough to just provide the end entity | ||
| // certificate in chain. This case assumes that the SCT being provided is | ||
| // not embedded within the leaf certificate provided, i.e. the certificate | ||
| // is what was submitted to the Certificate Transparency Log in order to | ||
| // obtain the SCT. For this case, set embedded to false. | ||
| // - Precertificate: | ||
| // If using this function to calculate the leaf hash for a precertificate | ||
| // then the issuing certificate must also be provided in chain. The | ||
| // precertificate should be at chain[0], and its issuer at chain[1]. For | ||
| // this case, set embedded to false. | ||
| // - X.509 Certificate containing the SCT embedded within it: | ||
| // If using this function to calculate the leaf hash for a certificate | ||
| // where the SCT provided is embedded within the certificate you | ||
| // are providing at chain[0], set embedded to true. LeafHash will | ||
| // calculate the leaf hash by building the corresponding precertificate. | ||
| // LeafHash will return an error if the provided SCT cannot be found | ||
| // embedded within chain[0]. As with the precertificate case, the issuing | ||
| // certificate must also be provided in chain. The certificate containing | ||
| // the embedded SCT should be at chain[0], and its issuer at chain[1]. | ||
| // | ||
| // Note: LeafHash doesn't check that the provided SCT verifies for the given | ||
| // chain. It simply calculates what the leaf hash would be for the given | ||
| // (pre)certificate-SCT pair. | ||
| func LeafHash(chain []*x509.Certificate, sct *ct.SignedCertificateTimestamp, embedded bool) ([sha256.Size]byte, error) { | ||
| leaf, err := createLeaf(chain, sct, embedded) | ||
| if err != nil { | ||
| return emptyHash, err | ||
| } | ||
| return ct.LeafHashForLeaf(leaf) | ||
| } | ||
|
|
||
| // VerifySCT takes the public key of a Certificate Transparency Log, a | ||
| // certificate chain, and an SCT and verifies whether the SCT is a valid SCT for | ||
| // the certificate at chain[0], signed by the Log that the public key belongs | ||
| // to. If the SCT does not verify, an error will be returned. | ||
| // | ||
| // This function can be used with three different types of leaf certificate: | ||
| // - X.509 Certificate: | ||
| // If using this function to verify an SCT for a normal X.509 certificate | ||
| // then it is enough to just provide the end entity certificate in chain. | ||
| // This case assumes that the SCT being provided is not embedded within | ||
| // the leaf certificate provided, i.e. the certificate is what was | ||
| // submitted to the Certificate Transparency Log in order to obtain the | ||
| // SCT. For this case, set embedded to false. | ||
| // - Precertificate: | ||
| // If using this function to verify an SCT for a precertificate then the | ||
| // issuing certificate must also be provided in chain. The precertificate | ||
| // should be at chain[0], and its issuer at chain[1]. For this case, set | ||
| // embedded to false. | ||
| // - X.509 Certificate containing the SCT embedded within it: | ||
| // If the SCT you wish to verify is embedded within the certificate you | ||
| // are providing at chain[0], set embedded to true. VerifySCT will | ||
| // verify the provided SCT by building the corresponding precertificate. | ||
| // VerifySCT will return an error if the provided SCT cannot be found | ||
| // embedded within chain[0]. As with the precertificate case, the issuing | ||
| // certificate must also be provided in chain. The certificate containing | ||
| // the embedded SCT should be at chain[0], and its issuer at chain[1]. | ||
| func VerifySCT(pubKey crypto.PublicKey, chain []*x509.Certificate, sct *ct.SignedCertificateTimestamp, embedded bool) error { | ||
| s, err := ct.NewSignatureVerifier(pubKey) | ||
| if err != nil { | ||
| return fmt.Errorf("error creating signature verifier: %s", err) | ||
| } | ||
|
|
||
| return VerifySCTWithVerifier(s, chain, sct, embedded) | ||
| } | ||
|
|
||
| // VerifySCTWithVerifier takes a ct.SignatureVerifier, a certificate chain, and | ||
| // an SCT and verifies whether the SCT is a valid SCT for the certificate at | ||
| // chain[0], signed by the Log whose public key was used to set up the | ||
| // ct.SignatureVerifier. If the SCT does not verify, an error will be returned. | ||
| // | ||
| // This function can be used with three different types of leaf certificate: | ||
| // - X.509 Certificate: | ||
| // If using this function to verify an SCT for a normal X.509 certificate | ||
| // then it is enough to just provide the end entity certificate in chain. | ||
| // This case assumes that the SCT being provided is not embedded within | ||
| // the leaf certificate provided, i.e. the certificate is what was | ||
| // submitted to the Certificate Transparency Log in order to obtain the | ||
| // SCT. For this case, set embedded to false. | ||
| // - Precertificate: | ||
| // If using this function to verify an SCT for a precertificate then the | ||
| // issuing certificate must also be provided in chain. The precertificate | ||
| // should be at chain[0], and its issuer at chain[1]. For this case, set | ||
| // embedded to false. | ||
| // - X.509 Certificate containing the SCT embedded within it: | ||
| // If the SCT you wish to verify is embedded within the certificate you | ||
| // are providing at chain[0], set embedded to true. VerifySCT will | ||
| // verify the provided SCT by building the corresponding precertificate. | ||
| // VerifySCT will return an error if the provided SCT cannot be found | ||
| // embedded within chain[0]. As with the precertificate case, the issuing | ||
| // certificate must also be provided in chain. The certificate containing | ||
| // the embedded SCT should be at chain[0], and its issuer at chain[1]. | ||
| func VerifySCTWithVerifier(sv *ct.SignatureVerifier, chain []*x509.Certificate, sct *ct.SignedCertificateTimestamp, embedded bool) error { | ||
| if sv == nil { | ||
| return errors.New("ct.SignatureVerifier is nil") | ||
| } | ||
|
|
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| leaf, err := createLeaf(chain, sct, embedded) | ||
| if err != nil { | ||
| return err | ||
| } | ||
|
|
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| return sv.VerifySCTSignature(*sct, ct.LogEntry{Leaf: *leaf}) | ||
| } | ||
|
|
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| func createLeaf(chain []*x509.Certificate, sct *ct.SignedCertificateTimestamp, embedded bool) (*ct.MerkleTreeLeaf, error) { | ||
| if len(chain) == 0 { | ||
| return nil, errors.New("chain is empty") | ||
| } | ||
| if sct == nil { | ||
| return nil, errors.New("sct is nil") | ||
| } | ||
|
|
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| if embedded { | ||
| sctPresent, err := ContainsSCT(chain[0], sct) | ||
| if err != nil { | ||
| return nil, fmt.Errorf("error checking for SCT in leaf certificate: %s", err) | ||
| } | ||
| if !sctPresent { | ||
| return nil, errors.New("SCT provided is not embedded within leaf certificate") | ||
| } | ||
| } | ||
|
|
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| certType := ct.X509LogEntryType | ||
| if chain[0].IsPrecertificate() || embedded { | ||
| certType = ct.PrecertLogEntryType | ||
| } | ||
|
|
||
| var leaf *ct.MerkleTreeLeaf | ||
| var err error | ||
| if embedded { | ||
| leaf, err = ct.MerkleTreeLeafForEmbeddedSCT(chain, sct.Timestamp) | ||
| } else { | ||
| leaf, err = ct.MerkleTreeLeafFromChain(chain, certType, sct.Timestamp) | ||
| } | ||
| if err != nil { | ||
| return nil, fmt.Errorf("error creating MerkleTreeLeaf: %s", err) | ||
| } | ||
| return leaf, nil | ||
| } | ||
|
|
||
| // ContainsSCT checks to see whether the given SCT is embedded within the given | ||
| // certificate. | ||
| func ContainsSCT(cert *x509.Certificate, sct *ct.SignedCertificateTimestamp) (bool, error) { | ||
| if cert == nil || sct == nil { | ||
| return false, nil | ||
| } | ||
|
|
||
| sctBytes, err := tls.Marshal(*sct) | ||
| if err != nil { | ||
| return false, fmt.Errorf("error tls.Marshalling SCT: %s", err) | ||
| } | ||
| for _, s := range cert.SCTList.SCTList { | ||
| if bytes.Equal(sctBytes, s.Val) { | ||
| return true, nil | ||
| } | ||
| } | ||
| return false, nil | ||
| } |
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