ct

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Published: Feb 9, 2018 License: Apache-2.0 Imports: 14 Imported by: 0

README

Certificate Transparency: Go Code

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This repository holds Go code related to Certificate Transparency (CT). The repository requires Go version 1.9.

Repository Structure

The main parts of the repository are:

  • Encoding libraries:
    • asn1/ and x509/ are forks of the upstream Go encoding/asn1 and crypto/x509 libraries. We maintain separate forks of these packages because CT is intended to act as an observatory of certificates across the ecosystem; as such, we need to be able to process somewhat-malformed certificates that the stricter upstream code would (correctly) reject. Our x509 fork also includes code for working with the pre-certificates defined in RFC 6962.
    • tls holds a library for processing TLS-encoded data as described in RFC 5246.
    • x509util provides additional utilities for dealing with x509.Certificates.
  • CT client libraries:
    • The top-level ct package (in .) holds types and utilities for working with CT data structures defined in RFC 6962.
    • client/ and jsonclient/ hold libraries that allow access to CT Logs via entrypoints described in section 4 of RFC 6962.
    • scanner/ holds a library for scanning the entire contents of an existing CT Log.
  • Command line tools:
    • ./client/ctclient allows interaction with a CT Log
    • ./scanner/scanlog allows an existing CT Log to be scanned for certificates of interest; please be polite when running this tool against a Log.
    • ./x509util/certcheck allows display and verification of certificates
    • ./x509util/crlcheck allows display and verification of certificate revocation lists (CRLs).
  • CT Personality for Trillian:
    • trillian/ holds code that allows a Certificate Transparency Log to be run using a Trillian Log as its back-end -- see below.

Trillian CT Personality

The trillian/ subdirectory holds code and scripts for running a CT Log based on the Trillian general transparency Log.

The main code for the CT personality is held in trillian/ctfe; this code responds to HTTP requests on the CT API paths and translates them to the equivalent gRPC API requests to the Trillian Log.

This obviously relies on the gRPC API definitions at github.com/google/trillian; the code also uses common libraries from the Trillian project for:

  • exposing monitoring and statistics via an interface and corresponding Prometheus implementation (github.com/google/trillian/monitoring/...)
  • dealing with cryptographic keys (github.com/google/trillian/crypto/...).

The trillian/integration/ directory holds scripts and tests for running the whole system locally. In particular:

  • trillian/integration/ct_integration_test.sh brings up local processes running a Trillian Log server, signer and a CT personality, and exercises the complete set of RFC 6962 API entrypoints.
  • trillian/integration/ct_hammer_test.sh brings up a complete system and runs a continuous randomized test of the CT entrypoints.

These scripts require a local database instance to be configured as described in the Trillian instructions.

Working on the Code

Developers who want to make changes to the codebase need some additional dependencies and tools, described in the following sections. The Travis configuration for the codebase is also useful reference for the required tools and scripts, as it may be more up-to-date than this document.

Rebuilding Generated Code

Some of the CT Go code is autogenerated from other files:

  • Protocol buffer message definitions are converted to .pb.go implementations.
  • A mock implementation of the Trillian gRPC API (in trillian/mockclient) is created with GoMock.

Re-generating mock or protobuffer files is only needed if you're changing the original files; if you do, you'll need to install the prerequisites:

and run the following:

go generate -x ./...  # hunts for //go:generate comments and runs them
Updating Vendor Code

The codebase includes a couple of external projects under the vendor/ subdirectory, to ensure that builds use a fixed version (typically because the upstream repository does not guarantee back-compatibility between the tip master branch and the current stable release). See instructions in the Trillian repo for how to update vendored subtrees.

Running Codebase Checks

The scripts/presubmit.sh script runs various tools and tests over the codebase.

# Install gometalinter and all linters
go get -u github.com/alecthomas/gometalinter
gometalinter --install

# Run code generation, build, test and linters
./scripts/presubmit.sh

# Run build, test and linters but skip code generation
./scripts/presubmit.sh  --no-generate

# Or just run the linters alone:
gometalinter --config=gometalinter.json ./...

Documentation

Overview

Package ct holds core types and utilities for Certificate Transparency.

Index

Constants

View Source
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
)

URI paths for Log requests; see section 4.

Variables

This section is empty.

Functions

func IsPreIssuer

func IsPreIssuer(issuer *x509.Certificate) bool

IsPreIssuer indicates whether a certificate is a pre-cert issuer with the specific certificate transparency extended key usage.

func SerializeSCTSignatureInput

func SerializeSCTSignatureInput(sct SignedCertificateTimestamp, entry LogEntry) ([]byte, error)

SerializeSCTSignatureInput serializes the passed in sct and log entry into the correct format for signing.

func SerializeSTHSignatureInput

func SerializeSTHSignatureInput(sth SignedTreeHead) ([]byte, error)

SerializeSTHSignatureInput serializes the passed in STH into the correct format for signing.

Types

type ASN1Cert

type ASN1Cert struct {
	Data []byte `tls:"minlen:1,maxlen:16777215"`
}

ASN1Cert type for holding the raw DER bytes of an ASN.1 Certificate (section 3.1).

type AddChainRequest

type AddChainRequest struct {
	Chain [][]byte `json:"chain"`
}

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 AddChainResponse

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
}

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 AddJSONRequest

type AddJSONRequest struct {
	Data interface{} `json:"data"`
}

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 AuditPath

type AuditPath []MerkleTreeNode

AuditPath represents a CT inclusion proof (see sections 2.1.1 and 4.5).

type CTExtensions

type CTExtensions []byte // tls:"minlen:0,maxlen:65535"`

CTExtensions is a representation of the raw bytes of any CtExtension structure (see section 3.2). nolint: golint

type CertificateChain

type CertificateChain struct {
	Entries []ASN1Cert `tls:"minlen:0,maxlen:16777215"`
}

CertificateChain holds a chain of certificates, as returned as extra data for get-entries (section 4.6).

type CertificateTimestamp

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"`
}

CertificateTimestamp is the collection of data that the signature in an SCT is over; see section 3.2.

type ConsistencyProof

type ConsistencyProof []MerkleTreeNode

ConsistencyProof represents a CT consistency proof (see sections 2.1.2 and 4.4).

type DigitallySigned

type DigitallySigned tls.DigitallySigned

DigitallySigned is a local alias for tls.DigitallySigned so that we can attach a MarshalJSON method.

func (DigitallySigned) Base64String

func (d DigitallySigned) Base64String() (string, error)

Base64String returns the base64 representation of the DigitallySigned struct.

func (*DigitallySigned) FromBase64String

func (d *DigitallySigned) FromBase64String(b64 string) error

FromBase64String populates the DigitallySigned structure from the base64 data passed in. Returns an error if the base64 data is invalid.

func (DigitallySigned) MarshalJSON

func (d DigitallySigned) MarshalJSON() ([]byte, error)

MarshalJSON implements the json.Marshaller interface.

func (*DigitallySigned) UnmarshalJSON

func (d *DigitallySigned) UnmarshalJSON(b []byte) error

UnmarshalJSON implements the json.Unmarshaler interface.

type GetEntriesResponse

type GetEntriesResponse struct {
	Entries []LeafEntry `json:"entries"` // the list of returned entries
}

GetEntriesResponse respresents the JSON response to the get-entries GET method from section 4.6.

type GetEntryAndProofResponse

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
}

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 GetProofByHashResponse

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.
}

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 GetRootsResponse

type GetRootsResponse struct {
	Certificates []string `json:"certificates"`
}

GetRootsResponse represents the JSON response to the get-roots GET method from section 4.7.

type GetSTHConsistencyResponse

type GetSTHConsistencyResponse struct {
	Consistency [][]byte `json:"consistency"`
}

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 GetSTHResponse

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
}

GetSTHResponse respresents the JSON response to the get-sth GET method from section 4.3.

type JSONDataEntry

type JSONDataEntry struct {
	Data []byte `tls:"minlen:0,maxlen:1677215"`
}

JSONDataEntry holds arbitrary data.

type LeafEntry

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"`
}

LeafEntry represents a leaf in the Log's Merkle tree, as returned by the get-entries GET method from section 4.6.

type LeafInput

type LeafInput []byte

LeafInput represents a serialized MerkleTreeLeaf structure.

type LogEntry

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
}

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).

func LogEntryFromLeaf

func LogEntryFromLeaf(index int64, leafEntry *LeafEntry) (*LogEntry, error)

LogEntryFromLeaf converts a LeafEntry object (which has the raw leaf data after JSON parsing) into a LogEntry object (which includes x509.Certificate objects, after TLS and ASN.1 parsing). Note that this function may return a valid LogEntry object and a non-nil error value, when the error indicates a non-fatal parsing error (of type x509.NonFatalErrors).

type LogEntryType

type LogEntryType tls.Enum // tls:"maxval:65535"

LogEntryType represents the LogEntryType enum from section 3.1:

enum { x509_entry(0), precert_entry(1), (65535) } LogEntryType;
const (
	X509LogEntryType    LogEntryType = 0
	PrecertLogEntryType LogEntryType = 1
	XJSONLogEntryType   LogEntryType = 0x8000 // Experimental.  Don't rely on this!
)

LogEntryType constants from section 3.1.

func (LogEntryType) String

func (e LogEntryType) String() string

type LogID

type LogID struct {
	KeyID [sha256.Size]byte
}

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 MerkleLeafType

type MerkleLeafType tls.Enum // tls:"maxval:255"

MerkleLeafType represents the MerkleLeafType enum from section 3.4:

enum { timestamped_entry(0), (255) } MerkleLeafType;
const TimestampedEntryLeafType MerkleLeafType = 0 // Entry type for an SCT

TimestampedEntryLeafType is the only defined MerkleLeafType constant from section 3.4.

func (MerkleLeafType) String

func (m MerkleLeafType) String() string

type MerkleTreeLeaf

type MerkleTreeLeaf struct {
	Version          Version           `tls:"maxval:255"`
	LeafType         MerkleLeafType    `tls:"maxval:255"`
	TimestampedEntry *TimestampedEntry `tls:"selector:LeafType,val:0"`
}

MerkleTreeLeaf represents the deserialized structure of the hash input for the leaves of a log's Merkle tree; see section 3.4.

func CreateJSONMerkleTreeLeaf

func CreateJSONMerkleTreeLeaf(data interface{}, timestamp uint64) *MerkleTreeLeaf

CreateJSONMerkleTreeLeaf creates the merkle tree leaf for json data.

func CreateX509MerkleTreeLeaf

func CreateX509MerkleTreeLeaf(cert ASN1Cert, timestamp uint64) *MerkleTreeLeaf

CreateX509MerkleTreeLeaf generates a MerkleTreeLeaf for an X509 cert

func MerkleTreeLeafFromChain

func MerkleTreeLeafFromChain(chain []*x509.Certificate, etype LogEntryType, timestamp uint64) (*MerkleTreeLeaf, error)

MerkleTreeLeafFromChain generates a MerkleTreeLeaf from a chain and timestamp.

func MerkleTreeLeafFromRawChain

func MerkleTreeLeafFromRawChain(rawChain []ASN1Cert, etype LogEntryType, timestamp uint64) (*MerkleTreeLeaf, error)

MerkleTreeLeafFromRawChain generates a MerkleTreeLeaf from a chain (in DER-encoded form) and timestamp.

func (*MerkleTreeLeaf) Precertificate

func (m *MerkleTreeLeaf) Precertificate() (*x509.Certificate, error)

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 (*MerkleTreeLeaf) X509Certificate

func (m *MerkleTreeLeaf) X509Certificate() (*x509.Certificate, error)

X509Certificate returns the X.509 Certificate contained within the MerkleTreeLeaf.

type MerkleTreeNode

type MerkleTreeNode []byte

MerkleTreeNode represents an internal node in the CT tree.

type PreCert

type PreCert struct {
	IssuerKeyHash  [sha256.Size]byte
	TBSCertificate []byte `tls:"minlen:1,maxlen:16777215"` // DER-encoded TBSCertificate
}

PreCert represents a Precertificate (section 3.2).

type PrecertChainEntry

type PrecertChainEntry struct {
	PreCertificate   ASN1Cert   `tls:"minlen:1,maxlen:16777215"`
	CertificateChain []ASN1Cert `tls:"minlen:0,maxlen:16777215"`
}

PrecertChainEntry holds an precertificate together with a validation chain for it; see section 3.1.

type Precertificate

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
}

Precertificate represents the parsed CT Precertificate structure.

type SHA256Hash

type SHA256Hash [sha256.Size]byte

SHA256Hash represents the output from the SHA256 hash function.

func PublicKeyFromPEM

func PublicKeyFromPEM(b []byte) (crypto.PublicKey, SHA256Hash, []byte, error)

PublicKeyFromPEM parses a PEM formatted block and returns the public key contained within and any remaining unread bytes, or an error.

func (SHA256Hash) Base64String

func (s SHA256Hash) Base64String() string

Base64String returns the base64 representation of this SHA256Hash.

func (*SHA256Hash) FromBase64String

func (s *SHA256Hash) FromBase64String(b64 string) error

FromBase64String populates the SHA256 struct with the contents of the base64 data passed in.

func (SHA256Hash) MarshalJSON

func (s SHA256Hash) MarshalJSON() ([]byte, error)

MarshalJSON implements the json.Marshaller interface for SHA256Hash.

func (*SHA256Hash) UnmarshalJSON

func (s *SHA256Hash) UnmarshalJSON(b []byte) error

UnmarshalJSON implements the json.Unmarshaller interface.

type SignatureType

type SignatureType tls.Enum // tls:"maxval:255"

SignatureType differentiates STH signatures from SCT signatures, see section 3.2.

enum { certificate_timestamp(0), tree_hash(1), (255) } SignatureType;
const (
	CertificateTimestampSignatureType SignatureType = 0
	TreeHashSignatureType             SignatureType = 1
)

SignatureType constants from section 3.2.

func (SignatureType) String

func (st SignatureType) String() string

type SignatureVerifier

type SignatureVerifier struct {
	// contains filtered or unexported fields
}

SignatureVerifier can verify signatures on SCTs and STHs

func NewSignatureVerifier

func NewSignatureVerifier(pk crypto.PublicKey) (*SignatureVerifier, error)

NewSignatureVerifier creates a new SignatureVerifier using the passed in PublicKey.

func (SignatureVerifier) VerifySCTSignature

func (s SignatureVerifier) VerifySCTSignature(sct SignedCertificateTimestamp, entry LogEntry) error

VerifySCTSignature verifies that the SCT's signature is valid for the given LogEntry.

func (SignatureVerifier) VerifySTHSignature

func (s SignatureVerifier) VerifySTHSignature(sth SignedTreeHead) error

VerifySTHSignature verifies that the STH's signature is valid.

func (SignatureVerifier) VerifySignature

func (s SignatureVerifier) VerifySignature(data []byte, sig tls.DigitallySigned) error

VerifySignature verifies the given signature sig matches the data.

type SignedCertificateTimestamp

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
}

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.

func (SignedCertificateTimestamp) String

type SignedTreeHead

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
}

SignedTreeHead represents the structure returned by the get-sth CT method after base64 decoding; see sections 3.5 and 4.3.

type TimestampedEntry

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"`
}

TimestampedEntry is part of the MerkleTreeLeaf structure; see section 3.4.

type TreeHeadSignature

type TreeHeadSignature struct {
	Version        Version       `tls:"maxval:255"`
	SignatureType  SignatureType `tls:"maxval:255"` // == TreeHashSignatureType
	Timestamp      uint64
	TreeSize       uint64
	SHA256RootHash SHA256Hash
}

TreeHeadSignature holds the data over which the signature in an STH is generated; see section 3.5

type Version

type Version tls.Enum // tls:"maxval:255"

Version represents the Version enum from section 3.2:

enum { v1(0), (255) } Version;
const (
	V1 Version = 0
)

CT Version constants from section 3.2.

func (Version) String

func (v Version) String() string

Directories

Path Synopsis
Package asn1 implements parsing of DER-encoded ASN.1 data structures, as defined in ITU-T Rec X.690.
Package asn1 implements parsing of DER-encoded ASN.1 data structures, as defined in ITU-T Rec X.690.
Package client is a CT log client implementation and contains types and code for interacting with RFC6962-compliant CT Log instances.
Package client is a CT log client implementation and contains types and code for interacting with RFC6962-compliant CT Log instances.
configpb
Package configpb is a generated protocol buffer package.
Package configpb is a generated protocol buffer package.
ctclient
ctclient is a command-line utility for interacting with CT logs.
ctclient is a command-line utility for interacting with CT logs.
Package fixchain holds code to help fix the validation chains for certificates.
Package fixchain holds code to help fix the validation chains for certificates.
chainfix
chainfix is a utility program for fixing the validation chains for certificates.
chainfix is a utility program for fixing the validation chains for certificates.
ratelimiter
Package ratelimiter provides an exceedingly simple rate limiter.
Package ratelimiter provides an exceedingly simple rate limiter.
Package gossip holds code for spreading CT log information via a gossip protocol.
Package gossip holds code for spreading CT log information via a gossip protocol.
ingestor
ranges
Package ranges provides tools to track the completeness of a range composed of a number of sub-ranges which may be added in any order.
Package ranges provides tools to track the completeness of a range composed of a number of sub-ranges which may be added in any order.
Package logid provides a type and accompanying helpers for manipulating log IDs.
Package logid provides a type and accompanying helpers for manipulating log IDs.
Package merkletree holds code to manipulate Merkle trees.
Package merkletree holds code to manipulate Merkle trees.
Package preload holds code for adding batches of certificates to CT logs.
Package preload holds code for adding batches of certificates to CT logs.
Package scanner holds code for iterating through the contents of a CT log.
Package scanner holds code for iterating through the contents of a CT log.
Package tls implements functionality for dealing with TLS-encoded data, as defined in RFC 5246.
Package tls implements functionality for dealing with TLS-encoded data, as defined in RFC 5246.
trillian
ctfe
Package ctfe contains a usage example by providing an implementation of an RFC6962 compatible CT log server using a Trillian log server as backend storage via its GRPC API.
Package ctfe contains a usage example by providing an implementation of an RFC6962 compatible CT log server using a Trillian log server as backend storage via its GRPC API.
ctfe/configpb
Package configpb is a generated protocol buffer package.
Package configpb is a generated protocol buffer package.
ctfe/ct_server
The ct_server binary runs the CT personality.
The ct_server binary runs the CT personality.
ctfe/testonly
Package testonly contains code and data that should only be used by tests.
Package testonly contains code and data that should only be used by tests.
integration
Package integration holds test-only code for running tests on an integrated system of the CT personality and a Trillian log.
Package integration holds test-only code for running tests on an integrated system of the CT personality and a Trillian log.
integration/ct_hammer
ct_hammer is a stress/load test for a CT log.
ct_hammer is a stress/load test for a CT log.
mockclient
Package mockclient provides a mockable version of the Trillian log client API.
Package mockclient provides a mockable version of the Trillian log client API.
util
Package util provides general utility functions for the CT personality.
Package util provides general utility functions for the CT personality.
Package x509 parses X.509-encoded keys and certificates.
Package x509 parses X.509-encoded keys and certificates.
pkix
Package pkix contains shared, low level structures used for ASN.1 parsing and serialization of X.509 certificates, CRL and OCSP.
Package pkix contains shared, low level structures used for ASN.1 parsing and serialization of X.509 certificates, CRL and OCSP.
Package x509util includes utility code for working with X.509 certificates from the x509 package.
Package x509util includes utility code for working with X.509 certificates from the x509 package.
certcheck
certcheck is a utility to show and check the contents of certificates.
certcheck is a utility to show and check the contents of certificates.
crlcheck
crlcheck is a utility to show and check the contents of certificate revocation lists (CRLs).
crlcheck is a utility to show and check the contents of certificate revocation lists (CRLs).

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