// Copyright (C) 2018 Storj Labs, Inc. // See LICENSE for copying information. package identity import ( "bytes" "context" "crypto" "crypto/tls" "crypto/x509" "io/ioutil" "github.com/zeebo/errs" "golang.org/x/crypto/sha3" "google.golang.org/grpc" "google.golang.org/grpc/credentials" "google.golang.org/grpc/peer" "storj.io/storj/pkg/peertls" "storj.io/storj/pkg/storj" "storj.io/storj/pkg/utils" ) // PeerIdentity represents another peer on the network. type PeerIdentity struct { RestChain []*x509.Certificate // CA represents the peer's self-signed CA CA *x509.Certificate // Leaf represents the leaf they're currently using. The leaf should be // signed by the CA. The leaf is what is used for communication. Leaf *x509.Certificate // The ID taken from the CA public key ID storj.NodeID } // FullIdentity represents you on the network. In addition to a PeerIdentity, // a FullIdentity also has a Key, which a PeerIdentity doesn't have. type FullIdentity struct { RestChain []*x509.Certificate // CA represents the peer's self-signed CA. The ID is taken from this cert. CA *x509.Certificate // Leaf represents the leaf they're currently using. The leaf should be // signed by the CA. The leaf is what is used for communication. Leaf *x509.Certificate // The ID taken from the CA public key ID storj.NodeID // Key is the key this identity uses with the leaf for communication. Key crypto.PrivateKey } // SetupConfig allows you to run a set of Responsibilities with the given // identity. You can also just load an Identity from disk. type SetupConfig struct { CertPath string `help:"path to the certificate chain for this identity" default:"$CONFDIR/identity.cert"` KeyPath string `help:"path to the private key for this identity" default:"$CONFDIR/identity.key"` Overwrite bool `help:"if true, existing identity certs AND keys will overwritten for" default:"false"` Version string `help:"semantic version of identity storage format" default:"0"` } // Config allows you to run a set of Responsibilities with the given // identity. You can also just load an Identity from disk. type Config struct { CertPath string `help:"path to the certificate chain for this identity" default:"$CONFDIR/identity.cert"` KeyPath string `help:"path to the private key for this identity" default:"$CONFDIR/identity.key"` } // FullIdentityFromPEM loads a FullIdentity from a certificate chain and // private key PEM-encoded bytes func FullIdentityFromPEM(chainPEM, keyPEM []byte) (*FullIdentity, error) { chain, err := DecodeAndParseChainPEM(chainPEM) if err != nil { return nil, errs.Wrap(err) } keysBytes, err := decodePEM(keyPEM) if err != nil { return nil, errs.Wrap(err) } // NB: there shouldn't be multiple keys in the key file but if there // are, this uses the first one key, err := x509.ParseECPrivateKey(keysBytes[0]) if err != nil { return nil, errs.New("unable to parse EC private key: %v", err) } nodeID, err := NodeIDFromKey(chain[peertls.CAIndex].PublicKey) if err != nil { return nil, err } return &FullIdentity{ RestChain: chain[peertls.CAIndex+1:], CA: chain[peertls.CAIndex], Leaf: chain[peertls.LeafIndex], Key: key, ID: nodeID, }, nil } // ParseCertChain converts a chain of certificate bytes into x509 certs func ParseCertChain(chain [][]byte) ([]*x509.Certificate, error) { c := make([]*x509.Certificate, len(chain)) for i, ct := range chain { cp, err := x509.ParseCertificate(ct) if err != nil { return nil, errs.Wrap(err) } c[i] = cp } return c, nil } // PeerIdentityFromCerts loads a PeerIdentity from a pair of leaf and ca x509 certificates func PeerIdentityFromCerts(leaf, ca *x509.Certificate, rest []*x509.Certificate) (*PeerIdentity, error) { i, err := NodeIDFromKey(ca.PublicKey.(crypto.PublicKey)) if err != nil { return nil, err } return &PeerIdentity{ RestChain: rest, CA: ca, ID: i, Leaf: leaf, }, nil } // PeerIdentityFromPeer loads a PeerIdentity from a peer connection func PeerIdentityFromPeer(peer *peer.Peer) (*PeerIdentity, error) { tlsInfo := peer.AuthInfo.(credentials.TLSInfo) c := tlsInfo.State.PeerCertificates if len(c) < 2 { return nil, Error.New("invalid certificate chain") } pi, err := PeerIdentityFromCerts(c[0], c[1], c[2:]) if err != nil { return nil, err } return pi, nil } // PeerIdentityFromContext loads a PeerIdentity from a ctx TLS credentials func PeerIdentityFromContext(ctx context.Context) (*PeerIdentity, error) { p, ok := peer.FromContext(ctx) if !ok { return nil, Error.New("unable to get grpc peer from contex") } return PeerIdentityFromPeer(p) } // NodeIDFromKey hashes a publc key and creates a node ID from it func NodeIDFromKey(k crypto.PublicKey) (storj.NodeID, error) { kb, err := x509.MarshalPKIXPublicKey(k) if err != nil { return storj.NodeID{}, storj.ErrNodeID.Wrap(err) } hash := make([]byte, len(storj.NodeID{})) sha3.ShakeSum256(hash, kb) return storj.NodeIDFromBytes(hash) } // NewFullIdentity creates a new ID for nodes with difficulty and concurrency params func NewFullIdentity(ctx context.Context, difficulty uint16, concurrency uint) (*FullIdentity, error) { ca, err := NewCA(ctx, NewCAOptions{ Difficulty: difficulty, Concurrency: concurrency, }) if err != nil { return nil, err } identity, err := ca.NewIdentity() if err != nil { return nil, err } return identity, err } // Status returns the status of the identity cert/key files for the config func (is SetupConfig) Status() TLSFilesStatus { return statTLSFiles(is.CertPath, is.KeyPath) } // Create generates and saves a CA using the config func (is SetupConfig) Create(ca *FullCertificateAuthority) (*FullIdentity, error) { fi, err := ca.NewIdentity() if err != nil { return nil, err } fi.CA = ca.Cert ic := Config{ CertPath: is.CertPath, KeyPath: is.KeyPath, } return fi, ic.Save(fi) } // Load loads a FullIdentity from the config func (ic Config) Load() (*FullIdentity, error) { c, err := ioutil.ReadFile(ic.CertPath) if err != nil { return nil, peertls.ErrNotExist.Wrap(err) } k, err := ioutil.ReadFile(ic.KeyPath) if err != nil { return nil, peertls.ErrNotExist.Wrap(err) } fi, err := FullIdentityFromPEM(c, k) if err != nil { return nil, errs.New("failed to load identity %#v, %#v: %v", ic.CertPath, ic.KeyPath, err) } return fi, nil } // Save saves a FullIdentity according to the config func (ic Config) Save(fi *FullIdentity) error { var ( certData, keyData bytes.Buffer writeChainErr, writeChainDataErr, writeKeyErr, writeKeyDataErr error ) chain := []*x509.Certificate{fi.Leaf, fi.CA} chain = append(chain, fi.RestChain...) if ic.CertPath != "" { writeChainErr = peertls.WriteChain(&certData, chain...) writeChainDataErr = writeChainData(ic.CertPath, certData.Bytes()) } if ic.KeyPath != "" { writeKeyErr = peertls.WriteKey(&keyData, fi.Key) writeKeyDataErr = writeKeyData(ic.KeyPath, keyData.Bytes()) } writeErr := utils.CombineErrors(writeChainErr, writeKeyErr) if writeErr != nil { return writeErr } return utils.CombineErrors( writeChainDataErr, writeKeyDataErr, ) } // RestChainRaw returns the rest (excluding leaf and CA) of the certficate chain as a 2d byte slice func (fi *FullIdentity) RestChainRaw() [][]byte { var chain [][]byte for _, cert := range fi.RestChain { chain = append(chain, cert.Raw) } return chain } // ServerOption returns a grpc `ServerOption` for incoming connections // to the node with this full identity func (fi *FullIdentity) ServerOption(pcvFuncs ...peertls.PeerCertVerificationFunc) (grpc.ServerOption, error) { ch := [][]byte{fi.Leaf.Raw, fi.CA.Raw} ch = append(ch, fi.RestChainRaw()...) c, err := peertls.TLSCert(ch, fi.Leaf, fi.Key) if err != nil { return nil, err } pcvFuncs = append( []peertls.PeerCertVerificationFunc{peertls.VerifyPeerCertChains}, pcvFuncs..., ) tlsConfig := &tls.Config{ Certificates: []tls.Certificate{*c}, InsecureSkipVerify: true, ClientAuth: tls.RequireAnyClientCert, VerifyPeerCertificate: peertls.VerifyPeerFunc( pcvFuncs..., ), } return grpc.Creds(credentials.NewTLS(tlsConfig)), nil } // DialOption returns a grpc `DialOption` for making outgoing connections // to the node with this peer identity // id is an optional id of the node we are dialing func (fi *FullIdentity) DialOption(id storj.NodeID) (grpc.DialOption, error) { ch := [][]byte{fi.Leaf.Raw, fi.CA.Raw} ch = append(ch, fi.RestChainRaw()...) c, err := peertls.TLSCert(ch, fi.Leaf, fi.Key) if err != nil { return nil, err } tlsConfig := &tls.Config{ Certificates: []tls.Certificate{*c}, InsecureSkipVerify: true, VerifyPeerCertificate: peertls.VerifyPeerFunc( peertls.VerifyPeerCertChains, verifyIdentity(id), ), } return grpc.WithTransportCredentials(credentials.NewTLS(tlsConfig)), nil } func verifyIdentity(id storj.NodeID) peertls.PeerCertVerificationFunc { return func(_ [][]byte, parsedChains [][]*x509.Certificate) (err error) { defer mon.TaskNamed("verifyIdentity")(nil)(&err) if id == (storj.NodeID{}) { return nil } peer, err := PeerIdentityFromCerts(parsedChains[0][0], parsedChains[0][1], parsedChains[0][2:]) if err != nil { return err } if peer.ID.String() != id.String() { return Error.New("peer ID did not match requested ID") } return nil } }