fix: replication of placeholder filesystems (#744)

fixes https://github.com/zrepl/zrepl/issues/742

Before this PR, when chaining replication from
A => B => C, if B had placeholders and the `filesystems`
included these placeholders, we'd incorrectly
fail the planning phase with error
`sender does not have any versions`.

The non-placeholder child filesystems of these placeholders
would then fail to replicate because of the
initial-replication-dependency-tracking that we do, i.e.,
their parent failed to initially replication, hence
they fail to replicate as well
(`parent(s) failed during initial replication`).

We can do better than that because we have the information
whether a sender-side filesystem is a placeholder.
This PR makes the planner act on that information.
The outcome is that placeholders are replicated as
placeholders (albeit the receiver remains in control
of how these placeholders are created, i.e., `recv.placeholders`)
The mechanism to do it is:
1. Don't plan any replication steps for filesystems that
   are placeholders on the sender.
2. Ensure that, if a receiving-side filesystem exists, it
   is indeed a placeholder.

Check (2) may seem overly restrictive, but, the goal here
is not just to mirror all non-placeholder filesystems, but
also to mirror the hierarchy.

Testing performed:
- [x] confirm with issue reporter that this PR fixes their issue
- [x] add a regression test that fails without the changes in this PR
This commit is contained in:
Christian Schwarz 2024-09-05 23:26:42 +02:00 committed by GitHub
parent 440b07443f
commit 5615f4929a
No known key found for this signature in database
GPG Key ID: B5690EEEBB952194
5 changed files with 159 additions and 24 deletions

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@ -104,13 +104,28 @@ func (s *Sender) ListFilesystems(ctx context.Context, r *pdu.ListFilesystemReq)
if err != nil { if err != nil {
return nil, err return nil, err
} }
rfss := make([]*pdu.Filesystem, len(fss)) rfss := make([]*pdu.Filesystem, 0, len(fss))
for i := range fss { for _, a := range fss {
rfss[i] = &pdu.Filesystem{ // TODO: dedup code with Receiver.ListFilesystems
Path: fss[i].ToString(), l := getLogger(ctx).WithField("fs", a)
// ResumeToken does not make sense from Sender ph, err := zfs.ZFSGetFilesystemPlaceholderState(ctx, a)
IsPlaceholder: false, // sender FSs are never placeholders if err != nil {
l.WithError(err).Error("error getting placeholder state")
return nil, errors.Wrapf(err, "cannot get placeholder state for fs %q", a)
} }
l.WithField("placeholder_state", fmt.Sprintf("%#v", ph)).Debug("placeholder state")
if !ph.FSExists {
l.Error("inconsistent placeholder state: filesystem must exists")
err := errors.Errorf("inconsistent placeholder state: filesystem %q must exist in this context", a.ToString())
return nil, err
}
fs := &pdu.Filesystem{
Path: a.ToString(),
// ResumeToken does not make sense from Sender
IsPlaceholder: ph.IsPlaceholder,
}
rfss = append(rfss, fs)
} }
res := &pdu.ListFilesystemRes{Filesystems: rfss} res := &pdu.ListFilesystemRes{Filesystems: rfss}
return res, nil return res, nil

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@ -28,6 +28,7 @@ var Cases = []Case{BatchDestroy,
ReplicationIsResumableFullSend__both_GuaranteeResumability, ReplicationIsResumableFullSend__both_GuaranteeResumability,
ReplicationIsResumableFullSend__initial_GuaranteeIncrementalReplication_incremental_GuaranteeIncrementalReplication, ReplicationIsResumableFullSend__initial_GuaranteeIncrementalReplication_incremental_GuaranteeIncrementalReplication,
ReplicationIsResumableFullSend__initial_GuaranteeResumability_incremental_GuaranteeIncrementalReplication, ReplicationIsResumableFullSend__initial_GuaranteeResumability_incremental_GuaranteeIncrementalReplication,
ReplicationOfPlaceholderFilesystemsInChainedReplicationScenario,
ReplicationPlaceholderEncryption__EncryptOnReceiverUseCase__WorksIfConfiguredWithInherit, ReplicationPlaceholderEncryption__EncryptOnReceiverUseCase__WorksIfConfiguredWithInherit,
ReplicationPlaceholderEncryption__UnspecifiedIsOkForClientIdentityPlaceholder, ReplicationPlaceholderEncryption__UnspecifiedIsOkForClientIdentityPlaceholder,
ReplicationPlaceholderEncryption__UnspecifiedLeadsToFailureAtRuntimeWhenCreatingPlaceholders, ReplicationPlaceholderEncryption__UnspecifiedLeadsToFailureAtRuntimeWhenCreatingPlaceholders,

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@ -1483,3 +1483,100 @@ func ReplicationInitialFail(ctx *platformtest.Context) {
require.NotNil(ctx, report.Attempts[0].Filesystems[0].PlanError) require.NotNil(ctx, report.Attempts[0].Filesystems[0].PlanError)
require.Contains(ctx, report.Attempts[0].Filesystems[0].PlanError.Err, "automatic conflict resolution for initial replication is disabled in config") require.Contains(ctx, report.Attempts[0].Filesystems[0].PlanError.Err, "automatic conflict resolution for initial replication is disabled in config")
} }
// https://github.com/zrepl/zrepl/issues/742
func ReplicationOfPlaceholderFilesystemsInChainedReplicationScenario(ctx *platformtest.Context) {
//
// Setup datasets
//
platformtest.Run(ctx, platformtest.PanicErr, ctx.RootDataset, `
CREATEROOT
+ "host1"
+ "host1/a"
+ "host1/a/b"
+ "host1/a/b@1"
+ "host2"
+ "host2/sink"
+ "host3"
+ "host3/sink"
`)
// Replicate host1/a to host2/sink
host1_a := ctx.RootDataset + "/host1/a"
host1_b := ctx.RootDataset + "/host1/a/b"
host2_sink := ctx.RootDataset + "/host2/sink"
host2_a := host2_sink + "/" + host1_a
host2_b := host2_sink + "/" + host1_b
host3_sink := ctx.RootDataset + "/host3/sink"
host3_a := host3_sink + "/" + host2_a
host3_b := host3_sink + "/" + host2_b
type job struct {
sender, receiver endpoint.JobID
receiver_root string
sender_filesystems_filter map[string]bool
}
h1_to_h2 := job{
sender: endpoint.MustMakeJobID("h1-to-h2-sender"),
receiver: endpoint.MustMakeJobID("h1-to-h2-receiver"),
sender_filesystems_filter: map[string]bool{
// omit host1_a so that it becomes a placeholder on host2
host1_b: true,
},
receiver_root: host2_sink,
}
h2_to_h3 := job{
sender: endpoint.MustMakeJobID("h2-to-h3-sender"),
receiver: endpoint.MustMakeJobID("h2-to-h3-receiver"),
sender_filesystems_filter: map[string]bool{
host2_sink: false,
host2_sink + "<": true,
},
receiver_root: host3_sink,
}
do_repl := func(j job) {
sfilter := filters.NewDatasetMapFilter(len(j.sender_filesystems_filter), true)
for lhs, rhs := range j.sender_filesystems_filter {
var err error
if rhs {
err = sfilter.Add(lhs, filters.MapFilterResultOk)
} else {
err = sfilter.Add(lhs, filters.MapFilterResultOmit)
}
require.NoError(ctx, err)
}
rep := replicationInvocation{
sjid: j.sender,
rjid: j.receiver,
sfilter: sfilter,
rfsRoot: j.receiver_root,
guarantee: pdu.ReplicationConfigProtectionWithKind(pdu.ReplicationGuaranteeKind_GuaranteeResumability),
receiverConfigHook: func(rc *endpoint.ReceiverConfig) {
rc.PlaceholderEncryption = endpoint.PlaceholderCreationEncryptionPropertyOff
},
}
r := rep.Do(ctx)
ctx.Logf("\n%s", pretty.Sprint(r))
}
do_repl(h1_to_h2)
do_repl(h2_to_h3)
// assert that the replication worked
mustGetFilesystemVersion(ctx, host3_b+"@1")
// assert placeholder status
for _, fs := range []string{host2_a, host3_a} {
st, err := zfs.ZFSGetFilesystemPlaceholderState(ctx, mustDatasetPath(fs))
require.NoError(ctx, err)
require.True(ctx, st.IsPlaceholder)
}
}

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@ -529,27 +529,31 @@ func (f *fs) do(ctx context.Context, pq *stepQueue, prev *fs) {
// find the highest of the previously uncompleted steps for which we can also find a step // find the highest of the previously uncompleted steps for which we can also find a step
// in our current plan // in our current plan
prevUncompleted := prev.planned.steps[prev.planned.step:] prevUncompleted := prev.planned.steps[prev.planned.step:]
var target struct{ prev, cur int } if len(prevUncompleted) == 0 || len(f.planned.steps) == 0 {
target.prev = -1 f.debug("no steps planned in previous attempt or this attempt, no correlation necessary len(prevUncompleted)=%d len(f.planned.steps)=%d", len(prevUncompleted), len(f.planned.steps))
target.cur = -1 } else {
out: var target struct{ prev, cur int }
for p := len(prevUncompleted) - 1; p >= 0; p-- { target.prev = -1
for q := len(f.planned.steps) - 1; q >= 0; q-- { target.cur = -1
if prevUncompleted[p].step.TargetEquals(f.planned.steps[q].step) { out:
target.prev = p for p := len(prevUncompleted) - 1; p >= 0; p-- {
target.cur = q for q := len(f.planned.steps) - 1; q >= 0; q-- {
break out if prevUncompleted[p].step.TargetEquals(f.planned.steps[q].step) {
target.prev = p
target.cur = q
break out
}
} }
} }
} if target.prev == -1 || target.cur == -1 {
if target.prev == -1 || target.cur == -1 { f.debug("no correlation possible between previous attempt and this attempt's plan")
f.debug("no correlation possible between previous attempt and this attempt's plan") f.planning.err = newTimedError(fmt.Errorf("cannot correlate previously failed attempt to current plan"), time.Now())
f.planning.err = newTimedError(fmt.Errorf("cannot correlate previously failed attempt to current plan"), time.Now()) return
return }
}
f.planned.steps = f.planned.steps[0:target.cur] f.planned.steps = f.planned.steps[0:target.cur]
f.debug("found correlation, new steps are len(fs.planned.steps) = %d", len(f.planned.steps)) f.debug("found correlation, new steps are len(fs.planned.steps) = %d", len(f.planned.steps))
}
} else { } else {
f.debug("previous attempt does not exist or did not finish planning, no correlation possible, taking this attempt's plan as is") f.debug("previous attempt does not exist or did not finish planning, no correlation possible, taking this attempt's plan as is")
} }
@ -600,6 +604,8 @@ func (f *fs) do(ctx context.Context, pq *stepQueue, prev *fs) {
f.debug("parentHasNoSteps=%v parentFirstStepIsIncremental=%v parentHasTakenAtLeastOneSuccessfulStep=%v", f.debug("parentHasNoSteps=%v parentFirstStepIsIncremental=%v parentHasTakenAtLeastOneSuccessfulStep=%v",
parentHasNoSteps, parentFirstStepIsIncremental, parentHasTakenAtLeastOneSuccessfulStep) parentHasNoSteps, parentFirstStepIsIncremental, parentHasTakenAtLeastOneSuccessfulStep)
// If the parent is a placeholder on the sender, `parentHasNoSteps` is true because we plan no steps for sender placeholders.
// The receiver will create the necessary placeholders when they start receiving the first non-placeholder child filesystem.
parentPresentOnReceiver := parentHasNoSteps || parentFirstStepIsIncremental || parentHasTakenAtLeastOneSuccessfulStep parentPresentOnReceiver := parentHasNoSteps || parentFirstStepIsIncremental || parentHasTakenAtLeastOneSuccessfulStep
allParentsPresentOnReceiver = allParentsPresentOnReceiver && parentPresentOnReceiver // no shadow allParentsPresentOnReceiver = allParentsPresentOnReceiver && parentPresentOnReceiver // no shadow

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@ -333,6 +333,22 @@ func (fs *Filesystem) doPlanning(ctx context.Context) ([]*Step, error) {
log(ctx).Debug("assessing filesystem") log(ctx).Debug("assessing filesystem")
if fs.senderFS.IsPlaceholder {
log(ctx).Debug("sender filesystem is placeholder")
if fs.receiverFS != nil {
if fs.receiverFS.IsPlaceholder {
// all good, fall through
log(ctx).Debug("receiver filesystem is placeholder")
} else {
err := fmt.Errorf("sender filesystem is placeholder, but receiver filesystem is not")
log(ctx).Error(err.Error())
return nil, err
}
}
log(ctx).Debug("no steps required for replicating placeholders, the endpoint.Receiver will create a placeholder when we receive the first non-placeholder child filesystem")
return nil, nil
}
sfsvsres, err := fs.sender.ListFilesystemVersions(ctx, &pdu.ListFilesystemVersionsReq{Filesystem: fs.Path}) sfsvsres, err := fs.sender.ListFilesystemVersions(ctx, &pdu.ListFilesystemVersionsReq{Filesystem: fs.Path})
if err != nil { if err != nil {
log(ctx).WithError(err).Error("cannot get remote filesystem versions") log(ctx).WithError(err).Error("cannot get remote filesystem versions")