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types.go
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// Copyright 2015 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 ct holds core types and utilities for Certificate Transparency.
package ct
import (
"crypto/sha256"
"encoding/base64"
"encoding/json"
"fmt"
"github.com/rarimo/certificate-transparency-go/tls"
"github.com/rarimo/certificate-transparency-go/x509"
)
///////////////////////////////////////////////////////////////////////////////
// The following structures represent those outlined in RFC6962; any section
// numbers mentioned refer to that RFC.
///////////////////////////////////////////////////////////////////////////////
// LogEntryType represents the LogEntryType enum from section 3.1:
//
// enum { x509_entry(0), precert_entry(1), (65535) } LogEntryType;
type LogEntryType tls.Enum // tls:"maxval:65535"
// LogEntryType constants from section 3.1.
const (
X509LogEntryType LogEntryType = 0
PrecertLogEntryType LogEntryType = 1
)
func (e LogEntryType) String() string {
switch e {
case X509LogEntryType:
return "X509LogEntryType"
case PrecertLogEntryType:
return "PrecertLogEntryType"
default:
return fmt.Sprintf("UnknownEntryType(%d)", e)
}
}
// RFC6962 section 2.1 requires a prefix byte on hash inputs for second preimage resistance.
const (
TreeLeafPrefix = byte(0x00)
TreeNodePrefix = byte(0x01)
)
// MerkleLeafType represents the MerkleLeafType enum from section 3.4:
//
// enum { timestamped_entry(0), (255) } MerkleLeafType;
type MerkleLeafType tls.Enum // tls:"maxval:255"
// TimestampedEntryLeafType is the only defined MerkleLeafType constant from section 3.4.
const TimestampedEntryLeafType MerkleLeafType = 0 // Entry type for an SCT
func (m MerkleLeafType) String() string {
switch m {
case TimestampedEntryLeafType:
return "TimestampedEntryLeafType"
default:
return fmt.Sprintf("UnknownLeafType(%d)", m)
}
}
// Version represents the Version enum from section 3.2:
//
// enum { v1(0), (255) } Version;
type Version tls.Enum // tls:"maxval:255"
// CT Version constants from section 3.2.
const (
V1 Version = 0
)
func (v Version) String() string {
switch v {
case V1:
return "V1"
default:
return fmt.Sprintf("UnknownVersion(%d)", v)
}
}
// SignatureType differentiates STH signatures from SCT signatures, see section 3.2.
//
// enum { certificate_timestamp(0), tree_hash(1), (255) } SignatureType;
type SignatureType tls.Enum // tls:"maxval:255"
// SignatureType constants from section 3.2.
const (
CertificateTimestampSignatureType SignatureType = 0
TreeHashSignatureType SignatureType = 1
)
func (st SignatureType) String() string {
switch st {
case CertificateTimestampSignatureType:
return "CertificateTimestamp"
case TreeHashSignatureType:
return "TreeHash"
default:
return fmt.Sprintf("UnknownSignatureType(%d)", st)
}
}
// ASN1Cert type for holding the raw DER bytes of an ASN.1 Certificate
// (section 3.1).
type ASN1Cert struct {
Data []byte `tls:"minlen:1,maxlen:16777215"`
}
// LogID holds the hash of the Log's public key (section 3.2).
// TODO(pphaneuf): Users should be migrated to the one in the logid package.
type LogID struct {
KeyID [sha256.Size]byte
}
// PreCert represents a Precertificate (section 3.2).
type PreCert struct {
IssuerKeyHash [sha256.Size]byte
TBSCertificate []byte `tls:"minlen:1,maxlen:16777215"` // DER-encoded TBSCertificate
}
// CTExtensions is a representation of the raw bytes of any CtExtension
// structure (see section 3.2).
// nolint: revive
type CTExtensions []byte // tls:"minlen:0,maxlen:65535"`
// MerkleTreeNode represents an internal node in the CT tree.
type MerkleTreeNode []byte
// ConsistencyProof represents a CT consistency proof (see sections 2.1.2 and
// 4.4).
type ConsistencyProof []MerkleTreeNode
// AuditPath represents a CT inclusion proof (see sections 2.1.1 and 4.5).
type AuditPath []MerkleTreeNode
// LeafInput represents a serialized MerkleTreeLeaf structure.
type LeafInput []byte
// DigitallySigned is a local alias for tls.DigitallySigned so that we can
// attach a MarshalJSON method.
type DigitallySigned tls.DigitallySigned
// FromBase64String populates the DigitallySigned structure from the base64 data passed in.
// Returns an error if the base64 data is invalid.
func (d *DigitallySigned) FromBase64String(b64 string) error {
raw, err := base64.StdEncoding.DecodeString(b64)
if err != nil {
return fmt.Errorf("failed to unbase64 DigitallySigned: %v", err)
}
var ds tls.DigitallySigned
if rest, err := tls.Unmarshal(raw, &ds); err != nil {
return fmt.Errorf("failed to unmarshal DigitallySigned: %v", err)
} else if len(rest) > 0 {
return fmt.Errorf("trailing data (%d bytes) after DigitallySigned", len(rest))
}
*d = DigitallySigned(ds)
return nil
}
// Base64String returns the base64 representation of the DigitallySigned struct.
func (d DigitallySigned) Base64String() (string, error) {
b, err := tls.Marshal(d)
if err != nil {
return "", err
}
return base64.StdEncoding.EncodeToString(b), nil
}
// MarshalJSON implements the json.Marshaller interface.
func (d DigitallySigned) MarshalJSON() ([]byte, error) {
b64, err := d.Base64String()
if err != nil {
return []byte{}, err
}
return []byte(`"` + b64 + `"`), nil
}
// UnmarshalJSON implements the json.Unmarshaler interface.
func (d *DigitallySigned) UnmarshalJSON(b []byte) error {
var content string
if err := json.Unmarshal(b, &content); err != nil {
return fmt.Errorf("failed to unmarshal DigitallySigned: %v", err)
}
return d.FromBase64String(content)
}
// RawLogEntry represents the (TLS-parsed) contents of an entry in a CT log.
type RawLogEntry struct {
// Index is a position of the entry in the log.
Index int64
// Leaf is a parsed Merkle leaf hash input.
Leaf MerkleTreeLeaf
// Cert is:
// - A certificate if Leaf.TimestampedEntry.EntryType is X509LogEntryType.
// - A precertificate if Leaf.TimestampedEntry.EntryType is
// PrecertLogEntryType, in the form of a DER-encoded Certificate as
// originally added (which includes the poison extension and a signature
// generated over the pre-cert by the pre-cert issuer).
// - Empty otherwise.
Cert ASN1Cert
// Chain is the issuing certificate chain starting with the issuer of Cert,
// or an empty slice if Cert is empty.
Chain []ASN1Cert
}
// LogEntry represents the (parsed) contents of an entry in a CT log. This is described
// in section 3.1, but note that this structure does *not* match the TLS structure
// defined there (the TLS structure is never used directly in RFC6962).
type LogEntry struct {
Index int64
Leaf MerkleTreeLeaf
// Exactly one of the following three fields should be non-empty.
X509Cert *x509.Certificate // Parsed X.509 certificate
Precert *Precertificate // Extracted precertificate
JSONData []byte
// Chain holds the issuing certificate chain, starting with the
// issuer of the leaf certificate / pre-certificate.
Chain []ASN1Cert
}
// PrecertChainEntry holds an precertificate together with a validation chain
// for it; see section 3.1.
type PrecertChainEntry struct {
PreCertificate ASN1Cert `tls:"minlen:1,maxlen:16777215"`
CertificateChain []ASN1Cert `tls:"minlen:0,maxlen:16777215"`
}
// CertificateChain holds a chain of certificates, as returned as extra data
// for get-entries (section 4.6).
type CertificateChain struct {
Entries []ASN1Cert `tls:"minlen:0,maxlen:16777215"`
}
// JSONDataEntry holds arbitrary data.
type JSONDataEntry struct {
Data []byte `tls:"minlen:0,maxlen:1677215"`
}
// SHA256Hash represents the output from the SHA256 hash function.
type SHA256Hash [sha256.Size]byte
// FromBase64String populates the SHA256 struct with the contents of the base64 data passed in.
func (s *SHA256Hash) FromBase64String(b64 string) error {
bs, err := base64.StdEncoding.DecodeString(b64)
if err != nil {
return fmt.Errorf("failed to unbase64 LogID: %v", err)
}
if len(bs) != sha256.Size {
return fmt.Errorf("invalid SHA256 length, expected 32 but got %d", len(bs))
}
copy(s[:], bs)
return nil
}
// Base64String returns the base64 representation of this SHA256Hash.
func (s SHA256Hash) Base64String() string {
return base64.StdEncoding.EncodeToString(s[:])
}
// MarshalJSON implements the json.Marshaller interface for SHA256Hash.
func (s SHA256Hash) MarshalJSON() ([]byte, error) {
return []byte(`"` + s.Base64String() + `"`), nil
}
// UnmarshalJSON implements the json.Unmarshaller interface.
func (s *SHA256Hash) UnmarshalJSON(b []byte) error {
var content string
if err := json.Unmarshal(b, &content); err != nil {
return fmt.Errorf("failed to unmarshal SHA256Hash: %v", err)
}
return s.FromBase64String(content)
}
// SignedTreeHead represents the structure returned by the get-sth CT method
// after base64 decoding; see sections 3.5 and 4.3.
type SignedTreeHead struct {
Version Version `json:"sth_version"` // The version of the protocol to which the STH conforms
TreeSize uint64 `json:"tree_size"` // The number of entries in the new tree
Timestamp uint64 `json:"timestamp"` // The time at which the STH was created
SHA256RootHash SHA256Hash `json:"sha256_root_hash"` // The root hash of the log's Merkle tree
TreeHeadSignature DigitallySigned `json:"tree_head_signature"` // Log's signature over a TLS-encoded TreeHeadSignature
LogID SHA256Hash `json:"log_id"` // The SHA256 hash of the log's public key
}
func (s SignedTreeHead) String() string {
sigStr, err := s.TreeHeadSignature.Base64String()
if err != nil {
sigStr = tls.DigitallySigned(s.TreeHeadSignature).String()
}
// If the LogID field in the SignedTreeHead is empty, don't include it in
// the string.
var logIDStr string
if id, empty := s.LogID, (SHA256Hash{}); id != empty {
logIDStr = fmt.Sprintf("LogID:%s, ", id.Base64String())
}
return fmt.Sprintf("{%sTreeSize:%d, Timestamp:%d, SHA256RootHash:%q, TreeHeadSignature:%q}",
logIDStr, s.TreeSize, s.Timestamp, s.SHA256RootHash.Base64String(), sigStr)
}
// TreeHeadSignature holds the data over which the signature in an STH is
// generated; see section 3.5
type TreeHeadSignature struct {
Version Version `tls:"maxval:255"`
SignatureType SignatureType `tls:"maxval:255"` // == TreeHashSignatureType
Timestamp uint64
TreeSize uint64
SHA256RootHash SHA256Hash
}
// SignedCertificateTimestamp represents the structure returned by the
// add-chain and add-pre-chain methods after base64 decoding; see sections
// 3.2, 4.1 and 4.2.
type SignedCertificateTimestamp struct {
SCTVersion Version `tls:"maxval:255"`
LogID LogID
Timestamp uint64
Extensions CTExtensions `tls:"minlen:0,maxlen:65535"`
Signature DigitallySigned // Signature over TLS-encoded CertificateTimestamp
}
// CertificateTimestamp is the collection of data that the signature in an
// SCT is over; see section 3.2.
type CertificateTimestamp struct {
SCTVersion Version `tls:"maxval:255"`
SignatureType SignatureType `tls:"maxval:255"`
Timestamp uint64
EntryType LogEntryType `tls:"maxval:65535"`
X509Entry *ASN1Cert `tls:"selector:EntryType,val:0"`
PrecertEntry *PreCert `tls:"selector:EntryType,val:1"`
JSONEntry *JSONDataEntry `tls:"selector:EntryType,val:32768"`
Extensions CTExtensions `tls:"minlen:0,maxlen:65535"`
}
func (s SignedCertificateTimestamp) String() string {
return fmt.Sprintf("{Version:%d LogId:%s Timestamp:%d Extensions:'%s' Signature:%v}", s.SCTVersion,
base64.StdEncoding.EncodeToString(s.LogID.KeyID[:]),
s.Timestamp,
s.Extensions,
s.Signature)
}
// TimestampedEntry is part of the MerkleTreeLeaf structure; see section 3.4.
type TimestampedEntry struct {
Timestamp uint64
EntryType LogEntryType `tls:"maxval:65535"`
X509Entry *ASN1Cert `tls:"selector:EntryType,val:0"`
PrecertEntry *PreCert `tls:"selector:EntryType,val:1"`
JSONEntry *JSONDataEntry `tls:"selector:EntryType,val:32768"`
Extensions CTExtensions `tls:"minlen:0,maxlen:65535"`
}
// MerkleTreeLeaf represents the deserialized structure of the hash input for the
// leaves of a log's Merkle tree; see section 3.4.
type MerkleTreeLeaf struct {
Version Version `tls:"maxval:255"`
LeafType MerkleLeafType `tls:"maxval:255"`
TimestampedEntry *TimestampedEntry `tls:"selector:LeafType,val:0"`
}
// Precertificate represents the parsed CT Precertificate structure.
type Precertificate struct {
// DER-encoded pre-certificate as originally added, which includes a
// poison extension and a signature generated over the pre-cert by
// the pre-cert issuer (which might differ from the issuer of the final
// cert, see RFC6962 s3.1).
Submitted ASN1Cert
// SHA256 hash of the issuing key
IssuerKeyHash [sha256.Size]byte
// Parsed TBSCertificate structure, held in an x509.Certificate for convenience.
TBSCertificate *x509.Certificate
}
// X509Certificate returns the X.509 Certificate contained within the
// MerkleTreeLeaf.
func (m *MerkleTreeLeaf) X509Certificate() (*x509.Certificate, error) {
if m.TimestampedEntry.EntryType != X509LogEntryType {
return nil, fmt.Errorf("cannot call X509Certificate on a MerkleTreeLeaf that is not an X509 entry")
}
return x509.ParseCertificate(m.TimestampedEntry.X509Entry.Data)
}
// Precertificate returns the X.509 Precertificate contained within the MerkleTreeLeaf.
//
// The returned precertificate is embedded in an x509.Certificate, but is in the
// form stored internally in the log rather than the original submitted form
// (i.e. it does not include the poison extension and any changes to reflect the
// final certificate's issuer have been made; see x509.BuildPrecertTBS).
func (m *MerkleTreeLeaf) Precertificate() (*x509.Certificate, error) {
if m.TimestampedEntry.EntryType != PrecertLogEntryType {
return nil, fmt.Errorf("cannot call Precertificate on a MerkleTreeLeaf that is not a precert entry")
}
return x509.ParseTBSCertificate(m.TimestampedEntry.PrecertEntry.TBSCertificate)
}
// APIEndpoint is a string that represents one of the Certificate Transparency
// Log API endpoints.
type APIEndpoint string
// Certificate Transparency Log API endpoints; see section 4.
// WARNING: Should match the URI paths without the "/ct/v1/" prefix. If
// changing these constants, may need to change those too.
const (
AddChainStr APIEndpoint = "add-chain"
AddPreChainStr APIEndpoint = "add-pre-chain"
GetSTHStr APIEndpoint = "get-sth"
GetEntriesStr APIEndpoint = "get-entries"
GetProofByHashStr APIEndpoint = "get-proof-by-hash"
GetSTHConsistencyStr APIEndpoint = "get-sth-consistency"
GetRootsStr APIEndpoint = "get-roots"
GetEntryAndProofStr APIEndpoint = "get-entry-and-proof"
)
// URI paths for Log requests; see section 4.
// WARNING: Should match the API endpoints, with the "/ct/v1/" prefix. If
// changing these constants, may need to change those too.
const (
AddChainPath = "/ct/v1/add-chain"
AddPreChainPath = "/ct/v1/add-pre-chain"
GetSTHPath = "/ct/v1/get-sth"
GetEntriesPath = "/ct/v1/get-entries"
GetProofByHashPath = "/ct/v1/get-proof-by-hash"
GetSTHConsistencyPath = "/ct/v1/get-sth-consistency"
GetRootsPath = "/ct/v1/get-roots"
GetEntryAndProofPath = "/ct/v1/get-entry-and-proof"
AddJSONPath = "/ct/v1/add-json" // Experimental addition
)
// AddChainRequest represents the JSON request body sent to the add-chain and
// add-pre-chain POST methods from sections 4.1 and 4.2.
type AddChainRequest struct {
Chain [][]byte `json:"chain"`
}
// AddChainResponse represents the JSON response to the add-chain and
// add-pre-chain POST methods.
// An SCT represents a Log's promise to integrate a [pre-]certificate into the
// log within a defined period of time.
type AddChainResponse struct {
SCTVersion Version `json:"sct_version"` // SCT structure version
ID []byte `json:"id"` // Log ID
Timestamp uint64 `json:"timestamp"` // Timestamp of issuance
Extensions string `json:"extensions"` // Holder for any CT extensions
Signature []byte `json:"signature"` // Log signature for this SCT
}
// ToSignedCertificateTimestamp creates a SignedCertificateTimestamp from the
// AddChainResponse.
func (r *AddChainResponse) ToSignedCertificateTimestamp() (*SignedCertificateTimestamp, error) {
sct := SignedCertificateTimestamp{
SCTVersion: r.SCTVersion,
Timestamp: r.Timestamp,
}
if len(r.ID) != sha256.Size {
return nil, fmt.Errorf("id is invalid length, expected %d got %d", sha256.Size, len(r.ID))
}
copy(sct.LogID.KeyID[:], r.ID)
exts, err := base64.StdEncoding.DecodeString(r.Extensions)
if err != nil {
return nil, fmt.Errorf("invalid base64 data in Extensions (%q): %v", r.Extensions, err)
}
sct.Extensions = CTExtensions(exts)
var ds DigitallySigned
if rest, err := tls.Unmarshal(r.Signature, &ds); err != nil {
return nil, fmt.Errorf("tls.Unmarshal(): %s", err)
} else if len(rest) > 0 {
return nil, fmt.Errorf("trailing data (%d bytes) after DigitallySigned", len(rest))
}
sct.Signature = ds
return &sct, nil
}
// AddJSONRequest represents the JSON request body sent to the add-json POST method.
// The corresponding response re-uses AddChainResponse.
// This is an experimental addition not covered by RFC6962.
type AddJSONRequest struct {
Data interface{} `json:"data"`
}
// GetSTHResponse represents the JSON response to the get-sth GET method from section 4.3.
type GetSTHResponse struct {
TreeSize uint64 `json:"tree_size"` // Number of certs in the current tree
Timestamp uint64 `json:"timestamp"` // Time that the tree was created
SHA256RootHash []byte `json:"sha256_root_hash"` // Root hash of the tree
TreeHeadSignature []byte `json:"tree_head_signature"` // Log signature for this STH
}
// ToSignedTreeHead creates a SignedTreeHead from the GetSTHResponse.
func (r *GetSTHResponse) ToSignedTreeHead() (*SignedTreeHead, error) {
sth := SignedTreeHead{
TreeSize: r.TreeSize,
Timestamp: r.Timestamp,
}
if len(r.SHA256RootHash) != sha256.Size {
return nil, fmt.Errorf("sha256_root_hash is invalid length, expected %d got %d", sha256.Size, len(r.SHA256RootHash))
}
copy(sth.SHA256RootHash[:], r.SHA256RootHash)
var ds DigitallySigned
if rest, err := tls.Unmarshal(r.TreeHeadSignature, &ds); err != nil {
return nil, fmt.Errorf("tls.Unmarshal(): %s", err)
} else if len(rest) > 0 {
return nil, fmt.Errorf("trailing data (%d bytes) after DigitallySigned", len(rest))
}
sth.TreeHeadSignature = ds
return &sth, nil
}
// GetSTHConsistencyResponse represents the JSON response to the get-sth-consistency
// GET method from section 4.4. (The corresponding GET request has parameters 'first' and
// 'second'.)
type GetSTHConsistencyResponse struct {
Consistency [][]byte `json:"consistency"`
}
// GetProofByHashResponse represents the JSON response to the get-proof-by-hash GET
// method from section 4.5. (The corresponding GET request has parameters 'hash'
// and 'tree_size'.)
type GetProofByHashResponse struct {
LeafIndex int64 `json:"leaf_index"` // The 0-based index of the end entity corresponding to the "hash" parameter.
AuditPath [][]byte `json:"audit_path"` // An array of base64-encoded Merkle Tree nodes proving the inclusion of the chosen certificate.
}
// LeafEntry represents a leaf in the Log's Merkle tree, as returned by the get-entries
// GET method from section 4.6.
type LeafEntry struct {
// LeafInput is a TLS-encoded MerkleTreeLeaf
LeafInput []byte `json:"leaf_input"`
// ExtraData holds (unsigned) extra data, normally the cert validation chain.
ExtraData []byte `json:"extra_data"`
}
// GetEntriesResponse represents the JSON response to the get-entries GET method
// from section 4.6.
type GetEntriesResponse struct {
Entries []LeafEntry `json:"entries"` // the list of returned entries
}
// GetRootsResponse represents the JSON response to the get-roots GET method from section 4.7.
type GetRootsResponse struct {
Certificates []string `json:"certificates"`
}
// GetEntryAndProofResponse represents the JSON response to the get-entry-and-proof
// GET method from section 4.8. (The corresponding GET request has parameters 'leaf_index'
// and 'tree_size'.)
type GetEntryAndProofResponse struct {
LeafInput []byte `json:"leaf_input"` // the entry itself
ExtraData []byte `json:"extra_data"` // any chain provided when the entry was added to the log
AuditPath [][]byte `json:"audit_path"` // the corresponding proof
}