package connect import ( "bytes" "crypto/rand" "crypto/x509" "crypto/x509/pkix" "encoding/pem" "fmt" "math/big" "net/url" "sync" "time" "github.com/hashicorp/consul/agent/connect" "github.com/hashicorp/consul/agent/consul/state" "github.com/hashicorp/consul/agent/structs" "github.com/mitchellh/mapstructure" ) type ConsulProvider struct { config *structs.ConsulCAProviderConfig id string delegate ConsulProviderStateDelegate sync.RWMutex } type ConsulProviderStateDelegate interface { State() *state.Store ApplyCARequest(*structs.CARequest) error } // NewConsulProvider returns a new instance of the Consul CA provider, // bootstrapping its state in the state store necessary func NewConsulProvider(rawConfig map[string]interface{}, delegate ConsulProviderStateDelegate) (*ConsulProvider, error) { conf, err := ParseConsulCAConfig(rawConfig) if err != nil { return nil, err } provider := &ConsulProvider{ config: conf, delegate: delegate, id: fmt.Sprintf("%s,%s", conf.PrivateKey, conf.RootCert), } // Check if this configuration of the provider has already been // initialized in the state store. state := delegate.State() _, providerState, err := state.CAProviderState(provider.id) if err != nil { return nil, err } // Exit early if the state store has already been populated for this config. if providerState != nil { return provider, nil } newState := structs.CAConsulProviderState{ ID: provider.id, } // Write the initial provider state to get the index to use for the // CA serial number. { args := &structs.CARequest{ Op: structs.CAOpSetProviderState, ProviderState: &newState, } if err := delegate.ApplyCARequest(args); err != nil { return nil, err } } idx, _, err := state.CAProviderState(provider.id) if err != nil { return nil, err } // Generate a private key if needed if conf.PrivateKey == "" { pk, err := connect.GeneratePrivateKey() if err != nil { return nil, err } newState.PrivateKey = pk } else { newState.PrivateKey = conf.PrivateKey } // Generate the root CA if necessary if conf.RootCert == "" { ca, err := provider.generateCA(newState.PrivateKey, idx+1) if err != nil { return nil, fmt.Errorf("error generating CA: %v", err) } newState.RootCert = ca } else { newState.RootCert = conf.RootCert } // Write the provider state args := &structs.CARequest{ Op: structs.CAOpSetProviderState, ProviderState: &newState, } if err := delegate.ApplyCARequest(args); err != nil { return nil, err } return provider, nil } func ParseConsulCAConfig(raw map[string]interface{}) (*structs.ConsulCAProviderConfig, error) { var config structs.ConsulCAProviderConfig if err := mapstructure.WeakDecode(raw, &config); err != nil { return nil, fmt.Errorf("error decoding config: %s", err) } if config.PrivateKey == "" && config.RootCert != "" { return nil, fmt.Errorf("must provide a private key when providing a root cert") } return &config, nil } // Return the active root CA and generate a new one if needed func (c *ConsulProvider) ActiveRoot() (string, error) { state := c.delegate.State() _, providerState, err := state.CAProviderState(c.id) if err != nil { return "", err } return providerState.RootCert, nil } // We aren't maintaining separate root/intermediate CAs for the builtin // provider, so just return the root. func (c *ConsulProvider) ActiveIntermediate() (string, error) { return c.ActiveRoot() } // We aren't maintaining separate root/intermediate CAs for the builtin // provider, so just generate a CSR for the active root. func (c *ConsulProvider) GenerateIntermediate() (string, error) { ca, err := c.ActiveIntermediate() if err != nil { return "", err } // todo(kyhavlov): make a new intermediate here return ca, err } // Remove the state store entry for this provider instance. func (c *ConsulProvider) Cleanup() error { args := &structs.CARequest{ Op: structs.CAOpDeleteProviderState, ProviderState: &structs.CAConsulProviderState{ID: c.id}, } if err := c.delegate.ApplyCARequest(args); err != nil { return err } return nil } // Sign returns a new certificate valid for the given SpiffeIDService // using the current CA. func (c *ConsulProvider) Sign(csr *x509.CertificateRequest) (string, error) { // Lock during the signing so we don't use the same index twice // for different cert serial numbers. c.Lock() defer c.Unlock() // Get the provider state state := c.delegate.State() idx, providerState, err := state.CAProviderState(c.id) if err != nil { return "", err } // Create the keyId for the cert from the signing private key. signer, err := connect.ParseSigner(providerState.PrivateKey) if err != nil { return "", err } if signer == nil { return "", fmt.Errorf("error signing cert: Consul CA not initialized yet") } keyId, err := connect.KeyId(signer.Public()) if err != nil { return "", err } // Parse the SPIFFE ID spiffeId, err := connect.ParseCertURI(csr.URIs[0]) if err != nil { return "", err } serviceId, ok := spiffeId.(*connect.SpiffeIDService) if !ok { return "", fmt.Errorf("SPIFFE ID in CSR must be a service ID") } // Parse the CA cert caCert, err := connect.ParseCert(providerState.RootCert) if err != nil { return "", fmt.Errorf("error parsing CA cert: %s", err) } // Cert template for generation sn := &big.Int{} sn.SetUint64(idx + 1) template := x509.Certificate{ SerialNumber: sn, Subject: pkix.Name{CommonName: serviceId.Service}, URIs: csr.URIs, Signature: csr.Signature, SignatureAlgorithm: csr.SignatureAlgorithm, PublicKeyAlgorithm: csr.PublicKeyAlgorithm, PublicKey: csr.PublicKey, BasicConstraintsValid: true, KeyUsage: x509.KeyUsageDataEncipherment | x509.KeyUsageKeyAgreement | x509.KeyUsageDigitalSignature | x509.KeyUsageKeyEncipherment, ExtKeyUsage: []x509.ExtKeyUsage{ x509.ExtKeyUsageClientAuth, x509.ExtKeyUsageServerAuth, }, // todo(kyhavlov): add a way to set the cert lifetime here from the CA config NotAfter: time.Now().Add(3 * 24 * time.Hour), NotBefore: time.Now(), AuthorityKeyId: keyId, SubjectKeyId: keyId, } // Create the certificate, PEM encode it and return that value. var buf bytes.Buffer bs, err := x509.CreateCertificate( rand.Reader, &template, caCert, csr.PublicKey, signer) if err != nil { return "", fmt.Errorf("error generating certificate: %s", err) } err = pem.Encode(&buf, &pem.Block{Type: "CERTIFICATE", Bytes: bs}) if err != nil { return "", fmt.Errorf("error encoding private key: %s", err) } err = c.incrementProviderIndex(providerState) if err != nil { return "", err } // Set the response return buf.String(), nil } // CrossSignCA returns the given intermediate CA cert signed by the current active root. func (c *ConsulProvider) CrossSignCA(cert *x509.Certificate) (string, error) { c.Lock() defer c.Unlock() // Get the provider state state := c.delegate.State() idx, providerState, err := state.CAProviderState(c.id) if err != nil { return "", err } privKey, err := connect.ParseSigner(providerState.PrivateKey) if err != nil { return "", fmt.Errorf("error parsing private key %q: %s", providerState.PrivateKey, err) } rootCA, err := connect.ParseCert(providerState.RootCert) if err != nil { return "", err } keyId, err := connect.KeyId(privKey.Public()) if err != nil { return "", err } // Create the cross-signing template from the existing root CA serialNum := &big.Int{} serialNum.SetUint64(idx + 1) template := *cert template.SerialNumber = serialNum template.SignatureAlgorithm = rootCA.SignatureAlgorithm template.SubjectKeyId = keyId template.AuthorityKeyId = keyId bs, err := x509.CreateCertificate( rand.Reader, &template, rootCA, cert.PublicKey, privKey) if err != nil { return "", fmt.Errorf("error generating CA certificate: %s", err) } var buf bytes.Buffer err = pem.Encode(&buf, &pem.Block{Type: "CERTIFICATE", Bytes: bs}) if err != nil { return "", fmt.Errorf("error encoding private key: %s", err) } err = c.incrementProviderIndex(providerState) if err != nil { return "", err } return buf.String(), nil } // incrementProviderIndex does a write to increment the provider state store table index // used for serial numbers when generating certificates. func (c *ConsulProvider) incrementProviderIndex(providerState *structs.CAConsulProviderState) error { newState := *providerState args := &structs.CARequest{ Op: structs.CAOpSetProviderState, ProviderState: &newState, } if err := c.delegate.ApplyCARequest(args); err != nil { return err } return nil } // generateCA makes a new root CA using the current private key func (c *ConsulProvider) generateCA(privateKey string, sn uint64) (string, error) { state := c.delegate.State() _, config, err := state.CAConfig() if err != nil { return "", err } privKey, err := connect.ParseSigner(privateKey) if err != nil { return "", fmt.Errorf("error parsing private key %q: %s", privateKey, err) } name := fmt.Sprintf("Consul CA %d", sn) // The URI (SPIFFE compatible) for the cert id := connect.SpiffeIDSigningForCluster(config) keyId, err := connect.KeyId(privKey.Public()) if err != nil { return "", err } // Create the CA cert serialNum := &big.Int{} serialNum.SetUint64(sn) template := x509.Certificate{ SerialNumber: serialNum, Subject: pkix.Name{CommonName: name}, URIs: []*url.URL{id.URI()}, PermittedDNSDomainsCritical: true, PermittedDNSDomains: []string{id.URI().Hostname()}, BasicConstraintsValid: true, KeyUsage: x509.KeyUsageCertSign | x509.KeyUsageCRLSign | x509.KeyUsageDigitalSignature, IsCA: true, NotAfter: time.Now().Add(10 * 365 * 24 * time.Hour), NotBefore: time.Now(), AuthorityKeyId: keyId, SubjectKeyId: keyId, } bs, err := x509.CreateCertificate( rand.Reader, &template, &template, privKey.Public(), privKey) if err != nil { return "", fmt.Errorf("error generating CA certificate: %s", err) } var buf bytes.Buffer err = pem.Encode(&buf, &pem.Block{Type: "CERTIFICATE", Bytes: bs}) if err != nil { return "", fmt.Errorf("error encoding private key: %s", err) } return buf.String(), nil }