349 lines
12 KiB
Go
349 lines
12 KiB
Go
package consul
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import (
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"fmt"
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"sort"
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"time"
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"github.com/armon/go-metrics"
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"github.com/hashicorp/consul/consul/structs"
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"github.com/hashicorp/consul/lib"
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)
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// aclIterator simplifies the algorithm below by providing a basic iterator that
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// moves through a list of ACLs and returns nil when it's exhausted. It also has
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// methods for pre-sorting the ACLs being iterated over by ID, which should
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// already be true, but since this is crucial for correctness and we are taking
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// input from other servers, we sort to make sure.
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type aclIterator struct {
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acls structs.ACLs
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// index is the current position of the iterator.
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index int
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}
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// newACLIterator returns a new ACL iterator.
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func newACLIterator(acls structs.ACLs) *aclIterator {
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return &aclIterator{acls: acls}
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}
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// See sort.Interface.
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func (a *aclIterator) Len() int {
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return len(a.acls)
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}
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// See sort.Interface.
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func (a *aclIterator) Swap(i, j int) {
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a.acls[i], a.acls[j] = a.acls[j], a.acls[i]
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}
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// See sort.Interface.
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func (a *aclIterator) Less(i, j int) bool {
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return a.acls[i].ID < a.acls[j].ID
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}
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// Front returns the item at index position, or nil if the list is exhausted.
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func (a *aclIterator) Front() *structs.ACL {
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if a.index < len(a.acls) {
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return a.acls[a.index]
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} else {
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return nil
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}
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}
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// Next advances the iterator to the next index.
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func (a *aclIterator) Next() {
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a.index++
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}
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// reconcileACLs takes the local and remote ACL state, and produces a list of
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// changes required in order to bring the local ACLs into sync with the remote
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// ACLs. You can supply lastRemoteIndex as a hint that replication has succeeded
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// up to that remote index and it will make this process more efficient by only
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// comparing ACL entries modified after that index. Setting this to 0 will force
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// a full compare of all existing ACLs.
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func reconcileACLs(local, remote structs.ACLs, lastRemoteIndex uint64) structs.ACLRequests {
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// Since sorting the lists is crucial for correctness, we are depending
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// on data coming from other servers potentially running a different,
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// version of Consul, and sorted-ness is kind of a subtle property of
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// the state store indexing, it's prudent to make sure things are sorted
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// before we begin.
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localIter, remoteIter := newACLIterator(local), newACLIterator(remote)
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sort.Sort(localIter)
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sort.Sort(remoteIter)
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// Run through both lists and reconcile them.
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var changes structs.ACLRequests
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for localIter.Front() != nil || remoteIter.Front() != nil {
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// If the local list is exhausted, then process this as a remote
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// add. We know from the loop condition that there's something
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// in the remote list.
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if localIter.Front() == nil {
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changes = append(changes, &structs.ACLRequest{
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Op: structs.ACLSet,
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ACL: *(remoteIter.Front()),
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})
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remoteIter.Next()
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continue
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}
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// If the remote list is exhausted, then process this as a local
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// delete. We know from the loop condition that there's something
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// in the local list.
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if remoteIter.Front() == nil {
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changes = append(changes, &structs.ACLRequest{
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Op: structs.ACLDelete,
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ACL: *(localIter.Front()),
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})
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localIter.Next()
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continue
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}
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// At this point we know there's something at the front of each
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// list we need to resolve.
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// If the remote list has something local doesn't, we add it.
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if localIter.Front().ID > remoteIter.Front().ID {
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changes = append(changes, &structs.ACLRequest{
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Op: structs.ACLSet,
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ACL: *(remoteIter.Front()),
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})
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remoteIter.Next()
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continue
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}
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// If local has something remote doesn't, we delete it.
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if localIter.Front().ID < remoteIter.Front().ID {
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changes = append(changes, &structs.ACLRequest{
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Op: structs.ACLDelete,
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ACL: *(localIter.Front()),
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})
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localIter.Next()
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continue
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}
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// Local and remote have an ACL with the same ID, so we might
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// need to compare them.
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l, r := localIter.Front(), remoteIter.Front()
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if r.RaftIndex.ModifyIndex > lastRemoteIndex && !r.IsSame(l) {
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changes = append(changes, &structs.ACLRequest{
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Op: structs.ACLSet,
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ACL: *r,
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})
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}
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localIter.Next()
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remoteIter.Next()
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}
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return changes
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}
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// FetchLocalACLs returns the ACLs in the local state store.
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func (s *Server) fetchLocalACLs() (structs.ACLs, error) {
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_, local, err := s.fsm.State().ACLList()
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if err != nil {
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return nil, err
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}
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return local, nil
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}
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// FetchRemoteACLs is used to get the remote set of ACLs from the ACL
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// datacenter. The lastIndex parameter is a hint about which remote index we
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// have replicated to, so this is expected to block until something changes.
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func (s *Server) fetchRemoteACLs(lastRemoteIndex uint64) (*structs.IndexedACLs, error) {
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defer metrics.MeasureSince([]string{"consul", "leader", "fetchRemoteACLs"}, time.Now())
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args := structs.DCSpecificRequest{
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Datacenter: s.config.ACLDatacenter,
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QueryOptions: structs.QueryOptions{
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Token: s.config.ACLReplicationToken,
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MinQueryIndex: lastRemoteIndex,
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AllowStale: true,
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},
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}
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var remote structs.IndexedACLs
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if err := s.RPC("ACL.List", &args, &remote); err != nil {
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return nil, err
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}
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return &remote, nil
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}
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// UpdateLocalACLs is given a list of changes to apply in order to bring the
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// local ACLs in-line with the remote ACLs from the ACL datacenter.
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func (s *Server) updateLocalACLs(changes structs.ACLRequests) error {
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defer metrics.MeasureSince([]string{"consul", "leader", "updateLocalACLs"}, time.Now())
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minTimePerOp := time.Second / time.Duration(s.config.ACLReplicationApplyLimit)
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for _, change := range changes {
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// Note that we are using the single ACL interface here and not
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// performing all this inside a single transaction. This is OK
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// for two reasons. First, there's nothing else other than this
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// replication routine that alters the local ACLs, so there's
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// nothing to contend with locally. Second, if an apply fails
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// in the middle (most likely due to losing leadership), the
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// next replication pass will clean up and check everything
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// again.
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var reply string
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start := time.Now()
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if err := aclApplyInternal(s, change, &reply); err != nil {
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return err
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}
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// Do a smooth rate limit to wait out the min time allowed for
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// each op. If this op took longer than the min, then the sleep
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// time will be negative and we will just move on.
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elapsed := time.Now().Sub(start)
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time.Sleep(minTimePerOp - elapsed)
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}
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return nil
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}
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// replicateACLs is a runs one pass of the algorithm for replicating ACLs from
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// a remote ACL datacenter to local state. If there's any error, this will return
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// 0 for the lastRemoteIndex, which will cause us to immediately do a full sync
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// next time.
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func (s *Server) replicateACLs(lastRemoteIndex uint64) (uint64, error) {
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remote, err := s.fetchRemoteACLs(lastRemoteIndex)
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if err != nil {
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return 0, fmt.Errorf("failed to retrieve remote ACLs: %v", err)
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}
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// This will be pretty common because we will be blocking for a long time
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// and may have lost leadership, so lets control the message here instead
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// of returning deeper error messages from from Raft.
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if !s.IsLeader() {
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return 0, fmt.Errorf("no longer cluster leader")
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}
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// Measure everything after the remote query, which can block for long
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// periods of time. This metric is a good measure of how expensive the
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// replication process is.
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defer metrics.MeasureSince([]string{"consul", "leader", "replicateACLs"}, time.Now())
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local, err := s.fetchLocalACLs()
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if err != nil {
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return 0, fmt.Errorf("failed to retrieve local ACLs: %v", err)
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}
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// If the remote index ever goes backwards, it's a good indication that
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// the remote side was rebuilt and we should do a full sync since we
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// can't make any assumptions about what's going on.
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if remote.QueryMeta.Index < lastRemoteIndex {
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s.logger.Printf("[WARN] consul: ACL replication remote index moved backwards (%d to %d), forcing a full ACL sync", lastRemoteIndex, remote.QueryMeta.Index)
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lastRemoteIndex = 0
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}
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// Calculate the changes required to bring the state into sync and then
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// apply them.
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changes := reconcileACLs(local, remote.ACLs, lastRemoteIndex)
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if err := s.updateLocalACLs(changes); err != nil {
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return 0, fmt.Errorf("failed to sync ACL changes: %v", err)
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}
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// Return the index we got back from the remote side, since we've synced
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// up with the remote state as of that index.
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return remote.QueryMeta.Index, nil
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}
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// IsACLReplicationEnabled returns true if ACL replication is enabled.
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func (s *Server) IsACLReplicationEnabled() bool {
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authDC := s.config.ACLDatacenter
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return len(authDC) > 0 && (authDC != s.config.Datacenter) &&
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len(s.config.ACLReplicationToken) > 0
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}
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// updateACLReplicationStatus safely updates the ACL replication status.
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func (s *Server) updateACLReplicationStatus(status structs.ACLReplicationStatus) {
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// Fixup the times to shed some useless precision to ease formattting,
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// and always report UTC.
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status.LastError = status.LastError.Round(time.Second).UTC()
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status.LastSuccess = status.LastSuccess.Round(time.Second).UTC()
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// Set the shared state.
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s.aclReplicationStatusLock.Lock()
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s.aclReplicationStatus = status
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s.aclReplicationStatusLock.Unlock()
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}
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// runACLReplication is a long-running goroutine that will attempt to replicate
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// ACLs while the server is the leader, until the shutdown channel closes.
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func (s *Server) runACLReplication() {
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var status structs.ACLReplicationStatus
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status.Enabled = true
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status.SourceDatacenter = s.config.ACLDatacenter
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s.updateACLReplicationStatus(status)
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// Show that it's not running on the way out.
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defer func() {
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status.Running = false
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s.updateACLReplicationStatus(status)
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}()
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// Give each server's replicator a random initial phase for good
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// measure.
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select {
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case <-s.shutdownCh:
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return
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case <-time.After(lib.RandomStagger(s.config.ACLReplicationInterval)):
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}
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// We are fairly conservative with the lastRemoteIndex so that after a
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// leadership change or an error we re-sync everything (we also don't
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// want to block the first time after one of these events so we can
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// show a successful sync in the status endpoint).
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var lastRemoteIndex uint64
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replicate := func() {
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if !status.Running {
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lastRemoteIndex = 0 // Re-sync everything.
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status.Running = true
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s.updateACLReplicationStatus(status)
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s.logger.Printf("[INFO] consul: ACL replication started")
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}
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index, err := s.replicateACLs(lastRemoteIndex)
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if err != nil {
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lastRemoteIndex = 0 // Re-sync everything.
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status.LastError = time.Now()
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s.updateACLReplicationStatus(status)
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s.logger.Printf("[WARN] consul: ACL replication error (will retry if still leader): %v", err)
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} else {
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lastRemoteIndex = index
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status.ReplicatedIndex = index
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status.LastSuccess = time.Now()
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s.updateACLReplicationStatus(status)
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s.logger.Printf("[DEBUG] consul: ACL replication completed through remote index %d", index)
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}
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}
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pause := func() {
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if status.Running {
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lastRemoteIndex = 0 // Re-sync everything.
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status.Running = false
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s.updateACLReplicationStatus(status)
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s.logger.Printf("[INFO] consul: ACL replication stopped (no longer leader)")
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}
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}
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// This will slowly poll to see if replication should be active. Once it
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// is and we've caught up, the replicate() call will begin to block and
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// only wake up when the query timer expires or there are new ACLs to
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// replicate. We've chosen this design so that the ACLReplicationInterval
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// is the lower bound for how quickly we will replicate, no matter how
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// much ACL churn is happening on the remote side.
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//
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// The blocking query inside replicate() respects the shutdown channel,
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// so we won't get stuck in here as things are torn down.
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for {
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select {
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case <-s.shutdownCh:
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return
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case <-time.After(s.config.ACLReplicationInterval):
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if s.IsLeader() {
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replicate()
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} else {
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pause()
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}
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}
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}
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}
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