mirror of
https://github.com/ceph/ceph-csi.git
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156 lines
5.4 KiB
Go
156 lines
5.4 KiB
Go
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// Copyright 2019 The etcd Authors
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//
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// Licensed under the Apache License, Version 2.0 (the "License");
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// you may not use this file except in compliance with the License.
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// You may obtain a copy of the License at
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//
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// http://www.apache.org/licenses/LICENSE-2.0
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//
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// Unless required by applicable law or agreed to in writing, software
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// distributed under the License is distributed on an "AS IS" BASIS,
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// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
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// See the License for the specific language governing permissions and
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// limitations under the License.
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package confchange
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import (
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pb "go.etcd.io/etcd/raft/raftpb"
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"go.etcd.io/etcd/raft/tracker"
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)
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// toConfChangeSingle translates a conf state into 1) a slice of operations creating
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// first the config that will become the outgoing one, and then the incoming one, and
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// b) another slice that, when applied to the config resulted from 1), represents the
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// ConfState.
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func toConfChangeSingle(cs pb.ConfState) (out []pb.ConfChangeSingle, in []pb.ConfChangeSingle) {
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// Example to follow along this code:
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// voters=(1 2 3) learners=(5) outgoing=(1 2 4 6) learners_next=(4)
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//
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// This means that before entering the joint config, the configuration
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// had voters (1 2 4) and perhaps some learners that are already gone.
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// The new set of voters is (1 2 3), i.e. (1 2) were kept around, and (4 6)
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// are no longer voters; however 4 is poised to become a learner upon leaving
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// the joint state.
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// We can't tell whether 5 was a learner before entering the joint config,
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// but it doesn't matter (we'll pretend that it wasn't).
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//
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// The code below will construct
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// outgoing = add 1; add 2; add 4; add 6
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// incoming = remove 1; remove 2; remove 4; remove 6
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// add 1; add 2; add 3;
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// add-learner 5;
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// add-learner 4;
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//
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// So, when starting with an empty config, after applying 'outgoing' we have
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//
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// quorum=(1 2 4 6)
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//
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// From which we enter a joint state via 'incoming'
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//
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// quorum=(1 2 3)&&(1 2 4 6) learners=(5) learners_next=(4)
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//
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// as desired.
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for _, id := range cs.VotersOutgoing {
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// If there are outgoing voters, first add them one by one so that the
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// (non-joint) config has them all.
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out = append(out, pb.ConfChangeSingle{
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Type: pb.ConfChangeAddNode,
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NodeID: id,
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})
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}
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// We're done constructing the outgoing slice, now on to the incoming one
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// (which will apply on top of the config created by the outgoing slice).
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// First, we'll remove all of the outgoing voters.
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for _, id := range cs.VotersOutgoing {
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in = append(in, pb.ConfChangeSingle{
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Type: pb.ConfChangeRemoveNode,
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NodeID: id,
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})
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}
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// Then we'll add the incoming voters and learners.
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for _, id := range cs.Voters {
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in = append(in, pb.ConfChangeSingle{
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Type: pb.ConfChangeAddNode,
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NodeID: id,
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})
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}
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for _, id := range cs.Learners {
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in = append(in, pb.ConfChangeSingle{
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Type: pb.ConfChangeAddLearnerNode,
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NodeID: id,
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})
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}
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// Same for LearnersNext; these are nodes we want to be learners but which
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// are currently voters in the outgoing config.
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for _, id := range cs.LearnersNext {
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in = append(in, pb.ConfChangeSingle{
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Type: pb.ConfChangeAddLearnerNode,
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NodeID: id,
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})
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}
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return out, in
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}
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func chain(chg Changer, ops ...func(Changer) (tracker.Config, tracker.ProgressMap, error)) (tracker.Config, tracker.ProgressMap, error) {
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for _, op := range ops {
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cfg, prs, err := op(chg)
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if err != nil {
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return tracker.Config{}, nil, err
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}
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chg.Tracker.Config = cfg
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chg.Tracker.Progress = prs
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}
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return chg.Tracker.Config, chg.Tracker.Progress, nil
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}
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// Restore takes a Changer (which must represent an empty configuration), and
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// runs a sequence of changes enacting the configuration described in the
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// ConfState.
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//
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// TODO(tbg) it's silly that this takes a Changer. Unravel this by making sure
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// the Changer only needs a ProgressMap (not a whole Tracker) at which point
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// this can just take LastIndex and MaxInflight directly instead and cook up
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// the results from that alone.
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func Restore(chg Changer, cs pb.ConfState) (tracker.Config, tracker.ProgressMap, error) {
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outgoing, incoming := toConfChangeSingle(cs)
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var ops []func(Changer) (tracker.Config, tracker.ProgressMap, error)
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if len(outgoing) == 0 {
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// No outgoing config, so just apply the incoming changes one by one.
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for _, cc := range incoming {
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cc := cc // loop-local copy
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ops = append(ops, func(chg Changer) (tracker.Config, tracker.ProgressMap, error) {
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return chg.Simple(cc)
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})
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}
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} else {
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// The ConfState describes a joint configuration.
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//
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// First, apply all of the changes of the outgoing config one by one, so
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// that it temporarily becomes the incoming active config. For example,
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// if the config is (1 2 3)&(2 3 4), this will establish (2 3 4)&().
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for _, cc := range outgoing {
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cc := cc // loop-local copy
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ops = append(ops, func(chg Changer) (tracker.Config, tracker.ProgressMap, error) {
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return chg.Simple(cc)
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})
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}
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// Now enter the joint state, which rotates the above additions into the
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// outgoing config, and adds the incoming config in. Continuing the
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// example above, we'd get (1 2 3)&(2 3 4), i.e. the incoming operations
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// would be removing 2,3,4 and then adding in 1,2,3 while transitioning
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// into a joint state.
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ops = append(ops, func(chg Changer) (tracker.Config, tracker.ProgressMap, error) {
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return chg.EnterJoint(cs.AutoLeave, incoming...)
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})
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}
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return chain(chg, ops...)
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}
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