2020-06-29 19:52:47 +00:00
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package consul
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import (
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2020-07-24 14:00:51 +00:00
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"context"
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"crypto/x509"
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"fmt"
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"net/url"
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2020-06-29 19:52:47 +00:00
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"sync"
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2021-06-25 18:00:00 +00:00
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memdb "github.com/hashicorp/go-memdb"
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"golang.org/x/time/rate"
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2020-07-24 14:00:51 +00:00
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"github.com/hashicorp/consul/agent/connect"
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"github.com/hashicorp/consul/agent/connect/ca"
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"github.com/hashicorp/consul/agent/consul/state"
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"github.com/hashicorp/consul/agent/structs"
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2020-06-29 19:52:47 +00:00
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"github.com/hashicorp/consul/lib/semaphore"
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)
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type connectSignRateLimiter struct {
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// csrRateLimiter limits the rate of signing new certs if configured. Lazily
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// initialized from current config to support dynamic changes.
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// csrRateLimiterMu must be held while dereferencing the pointer or storing a
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// new one, but methods can be called on the limiter object outside of the
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// locked section. This is done only in the getCSRRateLimiterWithLimit method.
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csrRateLimiter *rate.Limiter
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csrRateLimiterMu sync.RWMutex
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// csrConcurrencyLimiter is a dynamically resizable semaphore used to limit
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// Sign RPC concurrency if configured. The zero value is usable as soon as
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// SetSize is called which we do dynamically in the RPC handler to avoid
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// having to hook elaborate synchronization mechanisms through the CA config
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// endpoint and config reload etc.
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csrConcurrencyLimiter semaphore.Dynamic
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}
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// getCSRRateLimiterWithLimit returns a rate.Limiter with the desired limit set.
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// It uses the shared server-wide limiter unless the limit has been changed in
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// config or the limiter has not been setup yet in which case it just-in-time
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// configures the new limiter. We assume that limit changes are relatively rare
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// and that all callers (there is currently only one) use the same config value
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// as the limit. There might be some flapping if there are multiple concurrent
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// requests in flight at the time the config changes where A sees the new value
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// and updates, B sees the old but then gets this lock second and changes back.
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// Eventually though and very soon (once all current RPCs are complete) we are
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// guaranteed to have the correct limit set by the next RPC that comes in so I
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// assume this is fine. If we observe strange behavior because of it, we could
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// add hysteresis that prevents changes too soon after a previous change but
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// that seems unnecessary for now.
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func (l *connectSignRateLimiter) getCSRRateLimiterWithLimit(limit rate.Limit) *rate.Limiter {
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l.csrRateLimiterMu.RLock()
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lim := l.csrRateLimiter
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l.csrRateLimiterMu.RUnlock()
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// If there is a current limiter with the same limit, return it. This should
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// be the common case.
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if lim != nil && lim.Limit() == limit {
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return lim
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}
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// Need to change limiter, get write lock
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l.csrRateLimiterMu.Lock()
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defer l.csrRateLimiterMu.Unlock()
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// No limiter yet, or limit changed in CA config, reconfigure a new limiter.
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// We use burst of 1 for a hard limit. Note that either bursting or waiting is
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// necessary to get expected behavior in fact of random arrival times, but we
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// don't need both and we use Wait with a small delay to smooth noise. See
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// https://github.com/banks/sim-rate-limit-backoff/blob/master/README.md.
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l.csrRateLimiter = rate.NewLimiter(limit, 1)
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return l.csrRateLimiter
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}
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2020-07-24 14:00:51 +00:00
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// GetCARoots will retrieve
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func (s *Server) GetCARoots() (*structs.IndexedCARoots, error) {
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return s.getCARoots(nil, s.fsm.State())
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}
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func (s *Server) getCARoots(ws memdb.WatchSet, state *state.Store) (*structs.IndexedCARoots, error) {
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index, roots, config, err := state.CARootsAndConfig(ws)
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if err != nil {
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return nil, err
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}
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indexedRoots := &structs.IndexedCARoots{}
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if config != nil {
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// Build TrustDomain based on the ClusterID stored.
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signingID := connect.SpiffeIDSigningForCluster(config)
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if signingID == nil {
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// If CA is bootstrapped at all then this should never happen but be
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// defensive.
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return nil, fmt.Errorf("no cluster trust domain setup")
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}
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indexedRoots.TrustDomain = signingID.Host()
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}
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indexedRoots.Index, indexedRoots.Roots = index, roots
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if indexedRoots.Roots == nil {
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indexedRoots.Roots = make(structs.CARoots, 0)
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}
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// The response should not contain all fields as there are sensitive
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// data such as key material stored within the struct. So here we
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// pull out some of the fields and copy them into
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for i, r := range indexedRoots.Roots {
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2021-07-01 00:48:29 +00:00
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var intermediates []string
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if r.IntermediateCerts != nil {
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intermediates = make([]string, len(r.IntermediateCerts))
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for i, intermediate := range r.IntermediateCerts {
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intermediates[i] = intermediate
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}
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}
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2020-07-24 14:00:51 +00:00
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// IMPORTANT: r must NEVER be modified, since it is a pointer
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// directly to the structure in the memdb store.
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indexedRoots.Roots[i] = &structs.CARoot{
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ID: r.ID,
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Name: r.Name,
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SerialNumber: r.SerialNumber,
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SigningKeyID: r.SigningKeyID,
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ExternalTrustDomain: r.ExternalTrustDomain,
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NotBefore: r.NotBefore,
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NotAfter: r.NotAfter,
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2021-07-01 00:48:29 +00:00
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RootCert: ca.EnsureTrailingNewline(r.RootCert),
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IntermediateCerts: intermediates,
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RaftIndex: r.RaftIndex,
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Active: r.Active,
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PrivateKeyType: r.PrivateKeyType,
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PrivateKeyBits: r.PrivateKeyBits,
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}
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if r.Active {
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indexedRoots.ActiveRootID = r.ID
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}
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}
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return indexedRoots, nil
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}
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func (s *Server) SignCertificate(csr *x509.CertificateRequest, spiffeID connect.CertURI) (*structs.IssuedCert, error) {
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provider, caRoot := s.caManager.getCAProvider()
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2020-07-24 14:00:51 +00:00
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if provider == nil {
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2021-01-15 18:20:27 +00:00
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return nil, fmt.Errorf("CA is uninitialized and unable to sign certificates yet: provider is nil")
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2020-07-24 14:00:51 +00:00
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} else if caRoot == nil {
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return nil, fmt.Errorf("CA is uninitialized and unable to sign certificates yet: no root certificate")
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2020-07-24 14:00:51 +00:00
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}
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// Verify that the CSR entity is in the cluster's trust domain
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state := s.fsm.State()
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_, config, err := state.CAConfig(nil)
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if err != nil {
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return nil, err
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}
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signingID := connect.SpiffeIDSigningForCluster(config)
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serviceID, isService := spiffeID.(*connect.SpiffeIDService)
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agentID, isAgent := spiffeID.(*connect.SpiffeIDAgent)
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if !isService && !isAgent {
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return nil, fmt.Errorf("SPIFFE ID in CSR must be a service or agent ID")
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}
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var entMeta structs.EnterpriseMeta
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if isService {
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if !signingID.CanSign(spiffeID) {
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return nil, fmt.Errorf("SPIFFE ID in CSR from a different trust domain: %s, "+
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"we are %s", serviceID.Host, signingID.Host())
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}
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entMeta.Merge(serviceID.GetEnterpriseMeta())
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} else {
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// isAgent - if we support more ID types then this would need to be an else if
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// here we are just automatically fixing the trust domain. For auto-encrypt and
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// auto-config they make certificate requests before learning about the roots
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// so they will have a dummy trust domain in the CSR.
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trustDomain := signingID.Host()
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if agentID.Host != trustDomain {
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originalURI := agentID.URI()
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agentID.Host = trustDomain
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// recreate the URIs list
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uris := make([]*url.URL, len(csr.URIs))
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for i, uri := range csr.URIs {
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if originalURI.String() == uri.String() {
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uris[i] = agentID.URI()
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} else {
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uris[i] = uri
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}
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}
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csr.URIs = uris
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}
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entMeta.Merge(structs.DefaultEnterpriseMeta())
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}
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commonCfg, err := config.GetCommonConfig()
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if err != nil {
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return nil, err
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}
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if commonCfg.CSRMaxPerSecond > 0 {
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lim := s.caLeafLimiter.getCSRRateLimiterWithLimit(rate.Limit(commonCfg.CSRMaxPerSecond))
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// Wait up to the small threshold we allow for a token.
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ctx, cancel := context.WithTimeout(context.Background(), csrLimitWait)
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defer cancel()
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if lim.Wait(ctx) != nil {
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return nil, ErrRateLimited
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}
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} else if commonCfg.CSRMaxConcurrent > 0 {
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s.caLeafLimiter.csrConcurrencyLimiter.SetSize(int64(commonCfg.CSRMaxConcurrent))
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ctx, cancel := context.WithTimeout(context.Background(), csrLimitWait)
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defer cancel()
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if err := s.caLeafLimiter.csrConcurrencyLimiter.Acquire(ctx); err != nil {
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return nil, ErrRateLimited
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}
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defer s.caLeafLimiter.csrConcurrencyLimiter.Release()
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}
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2021-06-25 18:00:00 +00:00
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connect.HackSANExtensionForCSR(csr)
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2020-07-24 14:00:51 +00:00
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// All seems to be in order, actually sign it.
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2021-06-25 18:00:00 +00:00
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2020-07-24 14:00:51 +00:00
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pem, err := provider.Sign(csr)
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if err == ca.ErrRateLimited {
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return nil, ErrRateLimited
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}
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if err != nil {
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return nil, err
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}
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// Append any intermediates needed by this root.
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for _, p := range caRoot.IntermediateCerts {
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pem = pem + ca.EnsureTrailingNewline(p)
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2020-07-24 14:00:51 +00:00
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}
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// Append our local CA's intermediate if there is one.
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inter, err := provider.ActiveIntermediate()
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if err != nil {
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return nil, err
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}
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root, err := provider.ActiveRoot()
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if err != nil {
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return nil, err
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}
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if inter != root {
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2021-07-01 00:48:29 +00:00
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pem = pem + ca.EnsureTrailingNewline(inter)
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2020-07-24 14:00:51 +00:00
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}
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// TODO(banks): when we implement IssuedCerts table we can use the insert to
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// that as the raft index to return in response.
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//
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// UPDATE(mkeeler): The original implementation relied on updating the CAConfig
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// and using its index as the ModifyIndex for certs. This was buggy. The long
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// term goal is still to insert some metadata into raft about the certificates
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// and use that raft index for the ModifyIndex. This is a partial step in that
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// direction except that we only are setting an index and not storing the
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// metadata.
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req := structs.CALeafRequest{
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Op: structs.CALeafOpIncrementIndex,
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Datacenter: s.config.Datacenter,
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}
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resp, err := s.raftApply(structs.ConnectCALeafRequestType|structs.IgnoreUnknownTypeFlag, &req)
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if err != nil {
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return nil, err
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}
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modIdx, ok := resp.(uint64)
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if !ok {
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return nil, fmt.Errorf("Invalid response from updating the leaf cert index")
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}
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cert, err := connect.ParseCert(pem)
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if err != nil {
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return nil, err
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}
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// Set the response
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reply := structs.IssuedCert{
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SerialNumber: connect.EncodeSerialNumber(cert.SerialNumber),
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CertPEM: pem,
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ValidAfter: cert.NotBefore,
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ValidBefore: cert.NotAfter,
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EnterpriseMeta: entMeta,
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RaftIndex: structs.RaftIndex{
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ModifyIndex: modIdx,
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CreateIndex: modIdx,
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},
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}
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if isService {
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reply.Service = serviceID.Service
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reply.ServiceURI = cert.URIs[0].String()
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} else if isAgent {
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reply.Agent = agentID.Agent
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reply.AgentURI = cert.URIs[0].String()
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}
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return &reply, nil
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}
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