Commit Graph

58 Commits

Author SHA1 Message Date
He Guimin 3f44dd9dec Add tablestore config to store state lock 2019-04-11 07:11:10 +08:00
Sander van Harmelen 21cca34716 Fixup the docs for WriteStateForMigration 2019-03-27 17:41:11 +01:00
Sander van Harmelen 57f6e01830 backend/local: preserve serial and lineage on failure
When failing to write the state, the local backend writes the state to a local file called `errrored.tfstate`. Previously it would do so by creating a new state file which would use a new serial and lineage. By exorting the existing state file and directly assigning the new state, the serial and lineage are preserved.
2019-03-27 16:15:16 +01:00
Martin Atkins c39905e1a8 command: Fix various issues in the "terraform state ..." subcommands
In earlier refactoring we updated these commands to support the new
address and state types, but attempted to partially retain the old-style
"StateFilter" abstraction that originally lived in the Terraform package,
even though that was no longer being used for any other functionality.

Unfortunately the adaptation of the existing filtering to the new types
wasn't exact and so these commands ended up having a few bugs that were
not covered by the existing tests.

Since the old StateFilter behavior was the source of various misbehavior
anyway, here it's removed altogether and replaced with some simpler
functions in the state_meta.go file that are tailored to the use-cases of
these sub-commands.

As well as just generally behaving more consistently with the other
parts of Terraform that use the new resource address types, this commit
fixes the following bugs:

- A resource address of aws_instance.foo would previously match an
  resource of that type and name in any module, which disagreed with the
  expected interpretation elsewhere of meaning a single resource in the
  root module.

- The "terraform state mv" command was not supporting moves from a single
  resource address to an indexed address and vice-versa, because the old
  logic didn't need to make that distinction while they are two separate
  address types in the new logic. Now we allow resources that do not have
  count/for_each to be treated as if they are instances for the purposes
  of this command, which is a better match for likely user intent and for
  the old behavior.

Finally, we also clean up a little some of the usage output from these
commands, which hasn't been updated for some time and so had both some
stale information and some inaccurate terminology.
2019-03-18 09:19:55 -07:00
Andriy Borodiychuk a0f3a2daa0 Update doc.go, fix typo (#20529) 2019-03-01 08:59:01 -08:00
Radek Simko ea05da89cb
states/statemgr: Avoid HTML escaping when printing LockInfo 2019-01-15 10:57:31 +00:00
James Bardin 292535820d ResourceInstanceObject needs to return a copy 2018-12-17 16:37:18 -05:00
Martin Atkins e8f9fad0e3 states/statemgr: use -mod=vendor to run the state locking helper
This ensures that we test using the same source as we're using everywhere
else, and more tactically also ensures that when running in Travis-CI we
won't try to download all of the dependencies of Terraform during this
test.

In the long run we will look for a more global solution to this, rather
than adding this to all of our embedded "go" command calls directly, but
this is intended as a low-risk solution to get the build working again in
the mean time.
2018-12-06 16:50:06 -08:00
Martin Atkins 12572e97bc core: Automatically upgrade resource instance states on read
If an instance object in state has an earlier schema version number then
it is likely that the schema we're holding won't be able to decode the
raw data that is stored. Instead, we must ask the provider to upgrade it
for us first, which might also include translating it from flatmap form
if it was last updated with a Terraform version earlier than v0.12.

This ends up being a "seam" between our use of int64 for schema versions
in the providers package and uint64 everywhere else. We intend to
standardize on int64 everywhere eventually, but for now this remains
consistent with existing usage in each layer to keep the type conversion
noise contained here and avoid mass-updates to other Terraform components
at this time.

This also includes a minor change to the test helpers for the
backend/local package, which were inexplicably setting a SchemaVersion of
1 on the basic test state but setting the mock schema version to zero,
creating an invalid situation where the state would need to be downgraded.
2018-11-30 11:22:39 -08:00
James Bardin f375691819 add missing key-value from test 2018-11-19 18:58:29 -05:00
Martin Atkins 5255e85238 "go fmt" fixups
Apparently my editor is still not reliably formatting on save, so I missed
a few formatting quirks in these files.
2018-11-19 09:02:35 -08:00
Martin Atkins 6cb3b0f4cf states/statemgr: Local locks meta is near output path, not input path
This was a mistake while adapting this code from the old state.LocalState.
Since the lock is held on the output file (s.path) the metadata should
live adjacent to that rather than being built from the read path
(s.readPath) that is used only as the initial snapshot on first
instantiation.

This also includes more logging, continuing the trend of other recent
commits in these files. The local state behavior is sufficiently complex
that these trace logs are a great help in debugging issues such as this
one with the wrong files being used or actions being taken in the wrong
order.
2018-11-19 09:02:35 -08:00
Martin Atkins 48601d261d states/statemgr: In Filesystem, back up output file, not input file
The filesystem backend has the option of using a different file for its
initial read.

Previously we were incorrectly writing the contents of that file out into
the backup file, rather than the prior contents of the output file. Now
we will always read the output file in RefreshState in order to decide
what we will back up but then we will optionally additionally read the
input file and prefer its content as the "current" state snapshot.

This is verified by command.TestMetaBackend_planLocalStatePath and
TestMetaBackend_configureNew, which are both now passing.
2018-11-19 09:02:35 -08:00
Martin Atkins ec27526cc3 command: Fix TestMetaBackend_configuredChangeCopy_multiToMulti
This was failing because we now handle the settings for the local backend
a little differently as a result of decoding it with the HCL2 machinery.

Specifically, the backend.State* fields are now assumed to be what is
given in configuration, and any CLI overrides are maintained separately
in OverrideState* fields so that they can be imposed "just in time" in
StatePaths.

This is particularly important because OverrideStatePath (when set) is
used regardless of workspace name, while StatePath is a suitable value
only for the "default" workspace, with others needing to be constructed
from StateWorkspaceDir instead.
2018-11-19 09:02:35 -08:00
Martin Atkins 22c84c71a4 command: Use statemgr.Import and statemgr.Export for state push and pull
We previously hacked around the import/export functionality being missing
in the statemgr layer after refactoring, but now it's been reintroduced
to fix functionality elsewhere we should use the centralized Import and
Export functions to ensure consistent behavior.

In particular, this pushes the logic for checking lineage and serial
during push down into the state manager itself, which is better because
all other details about lineage and serial are managed within the state
managers.
2018-11-19 09:02:35 -08:00
Martin Atkins 985b414dca states/statemgr: Fix the Filesystem state manager tests
Now that we're verifying the Terraform version during state loading, we
need to force a particular Terraform version to use during these tests.
2018-11-19 09:02:35 -08:00
Martin Atkins 94510bc1b9 states/statemgr: Migrate, Import, and Export functions
In our recent refactoring of the state manager interfaces we made serial
and lineage management the responsibility of the state managers
themselves, not exposing them at all to most callers, and allowing for
simple state managers that don't implement them at all.

However, we do have some specific cases where we need to preserve these
properly when available, such as migration between backends, and the
"terraform state push" and "terraform state pull" commands.

These new functions and their associated optional interface allow the
logic here to be captured in one place and access via some simple
calls. Separating this from the main interface leaves things simple for
the normal uses of state managers.

Since these functions are mostly just thin wrappers around other
functionality, they are not yet well-tested directly, but will be
indirectly tested through the tests of their callers. A subsequent commit
will add more unit tests here.
2018-11-19 09:02:35 -08:00
Sander van Harmelen 634430ebb2 Fix wildcard dependencies when upgrading states
Fixes #19347
2018-11-15 13:17:15 +01:00
Martin Atkins 9ba399bca8 command: Fix TestInit_getProvider
After all of the refactoring we were no longer checking the Terraform
version field in a state file, causing this test to fail.

This restores that check, though with a slightly different error message.
2018-11-12 15:19:55 -08:00
Sander van Harmelen 5458a91985 command/state: update and fix the state show command 2018-10-27 15:15:25 +02:00
Sander van Harmelen 7ec3f96e3a command/state: update and fix the state mv command 2018-10-27 15:01:07 +02:00
Sander van Harmelen 19c1241a50 command/state: update and fix the state rm command 2018-10-24 10:59:33 +02:00
Sander van Harmelen 5e11de460a
Merge pull request #19130 from hashicorp/f-state-push-pull
command/state: update and fix the state push and pull
2018-10-19 19:16:00 +02:00
Sander van Harmelen 7fbd93b5cd command/state: update and fix the state push and pull 2018-10-19 19:12:23 +02:00
Sander van Harmelen af1a471a05 command/state: update and fix the state list command 2018-10-19 16:31:12 +02:00
Martin Atkins ec57927ea3 build: Take protoc out of the "go generate" path
Since protoc is not go-gettable, and most development tasks in Terraform
won't involve recompiling protoc files anyway, we'll use a separate
mechanism for these.

This way "go generate" only depends on things we can "go get" in the
"make tools" target.

In a later commit we should also in some way specify a particular version
of protoc to use so that we don't get "flapping" regenerations as
developers work with different versions, but the priority here is just to
make "make generate" minimally usable again to restore the dev workflow
documented in the README.

This also includes some updates that resulted from running "make generate"
and "make protobuf" after those Makefile changes were in place.
2018-10-18 10:39:20 -07:00
James Bardin d707049f72 don't make a backup of a nil state
This makes sure we don't create a backup of an intermediate state if the
first read state was empty.
2018-10-17 09:42:08 -04:00
Martin Atkins 66f96cf842 command: Un-stub and reimplement "terraform state rm"
This was previously targeting the old state manager and state types, so it
needed some considerable rework to get it working again with the new state
types.

Since our new resource address syntax lacks the weird extra .deposed
special case we had before, we instead interpret addresses as
whole-instance addresses here and remove the deposed objects along with
the current one (if present), since this is more likely to match with
user expectations because we don't consider deposed objects to be
independently addressable in any other situation.

With that said, to be more explicit about what is going on we do now have
a -dry-run mode and maintain separate counts of current and deposed
instances so that we can expose that in the UI where relevant.
2018-10-16 19:14:11 -07:00
Martin Atkins 331cb07a05 states/statefile: Tolerate nil state in statefile.New
For historical reasons sometimes we have nil state in situations where
we'd still like to persist state snapshots to a store. To make life easier
for those callers, we'll substitute an empty state if we are given a nil
one, thus allowing us to still generate a valid serialization that will
load back in as an empty state.
2018-10-16 19:14:11 -07:00
Martin Atkins b0016e9cf6 command: Allow tests to run to completion without panics or hangs
There are still 160 test failures as of this commit, but at least the test
program can run to completion and list out all the failures.
2018-10-16 19:14:11 -07:00
Martin Atkins ec2e6cb06f terraform: Prune resource husks at the end of "terraform destroy"
When we're being asked to destroy everything, we ideally want to end up
with a totally empty state. Normally we will conservatively keep around
the "husks" of resources (what's left after all of the instances have been
destroyed) unless they are configured without count or for_each, but in
this special case we'll prune those out.

The implication of this is that in "weird" expression contexts that happen
before the next "terraform plan", such as evaluation in
"terraform console" or expressions in data resources and provider blocks
that get evaluated during the refresh walk, we will see these results
as unknown rather than as empty lists of objects. We accept that weirdness
for now because in a future release we are likely to remove "refresh" as
a separate walk anyway, doing all of that work during the plan walk where
we can ensure that these values are properly re-populated before trying
to use them.
2018-10-16 19:14:11 -07:00
Martin Atkins 2b5d9506b1 states: Fix TestResourceInstanceDeposeCurrentObject
This was missed when changing the signature of deposeCurrentObject in an
earlier commit.
2018-10-16 19:14:11 -07:00
Martin Atkins 2eea07750a core: Clean up resource states when they are orphaned
We previously had mechanisms to clean up only individual instance states,
leaving behind empty resource husks in the state after they were all
destroyed.

This takes care of it in the "orphan" case. It does not yet do it in the
"terraform destroy" or "terraform plan -destroy" cases because we don't
have anywhere to record in the plan that we're actually destroying and so
the resource configurations should be ignored and _everything_ should be
cleaned. We'll let the state be not-quite-empty in that case for now,
since it doesn't really hurt; cleaning up orphans is the main case because
the state will live on afterwards and so leftover cruft will accumulate
over the course of many changes.
2018-10-16 19:14:11 -07:00
Martin Atkins faddb83a92 core: If create leg of create_before_destroy fails, restore deposed
I misunderstood the logic here on the first pass of porting to the new
provider and state types: EvalUndeposeState is supposed to return the
deposed object back to being current again, so we can undo the deposing
in the case where the create leg fails.

If we don't do this, we end up leaving the instance with no current object
at all and with its prior object deposed, and then the later destroy
node deletes that deposed object, leaving the user with no object at all.

For safety we skip this restoration if there _is_ a new current object,
since a failed create can still produce a partial result which we need
to keep to avoid losing track of any remote objects that were successfully
created.
2018-10-16 19:14:11 -07:00
Martin Atkins 334c6f1c2c core: Be more explicit in how we handle create_before_destroy
Previously our handling of create_before_destroy -- and of deposed objects
in particular -- was rather "implicit" and spread over various different
subsystems. We'd quietly just destroy every deposed object during a
destroy operation, without any user-visible plan to do so.

Here we make things more explicit by tracking each deposed object
individually by its pseudorandomly-allocated key. There are two different
mechanisms at play here, building on the same concepts:

- During a replace operation with create_before_destroy, we *pre-allocate*
  a DeposedKey to use for the prior object in the "apply" node and then
  pass that exact id to the destroy node, ensuring that we only destroy
  the single object we planned to destroy. In the happy path here the
  user never actually sees the allocated deposed key because we use it and
  then immediately destroy it within the same operation. However, that
  destroy may fail, which brings us to the second mechanism:

- If any deposed objects are already present in state during _plan_, we
  insert a destroy change for them into the plan so that it's explicit to
  the user that we are going to destroy these additional objects, and then
  create an individual graph node for each one in DiffTransformer.

The main motivation here is to be more careful in how we handle these
destroys so that from a user's standpoint we never destroy something
without the user knowing about it ahead of time.

However, this new organization also hopefully makes the code itself a
little easier to follow because the connection between the create and
destroy steps of a Replace is reprseented in a single place (in
DiffTransformer) and deposed instances each have their own explicit graph
node rather than being secretly handled as part of the main instance-level
graph node.
2018-10-16 19:14:11 -07:00
Martin Atkins 9eb32c4536 core: Reinstaint instance tainting, but without mutating objects
Our previous mechanism for dealing with tainting relied on directly
mutating the InstanceState object to mark it as such. In our new state
models we consider the instance objects to be immutable by convention, and
so we frequently copy them. As a result, the taint flagging was no longer
making it all the way through the apply evaluation process.

Here we now implement tainting as a separate step in the evaluation
process, creating a copy of the object with a tainted status if there were
any errors during creation.

This introduces a new behavior where any provider-level errors during
creation will also cause an instance to be marked as tainted if any object
is returned at all. Create-time errors _normally_ result in no object at
all, but the provider might return an object if the failure occurred at
a subsequent step of a multi-step creation process and so left behind a
remote object that needs to be cleaned up on a future run.
2018-10-16 19:14:11 -07:00
Martin Atkins d48f3600fe states: In Module.testString, use incrementing ids for deposed
In our old world we always used 1-based indices into a slice of deposed
objects. The new models instead use a map keyed by pseudorandom strings,
so that deposed objects will have a consistent identity across multiple
operations.

However, having that pseudo-random string in our test comparison output
is not helpful, since such strings can never match hard-coded expectation
strings. Therefore for the purposes of generating this test comparison
output we'll revert back to using 1-based indexes.

This should avoid problems for tests that only create one deposed object
per instance, but those which create more than one will need to do some
more work since the _ordering_ of these objects in the output is still
pseudorandom as a result of it coming from a map rather than a slice.
2018-10-16 19:14:11 -07:00
Martin Atkins 83066cd57f states: Support non-string primitives in state string representation 2018-10-16 19:14:11 -07:00
Martin Atkins 5faf027ea7 states: In State.String, use colon suffix only after all module names 2018-10-16 19:14:11 -07:00
Martin Atkins 60718efc8e states: DeepCopy for ResourceInstanceObject
Also a fix for not actually deep-copying "Private", since when this was
originally written it was a cty.Value but then later became a []byte.
2018-10-16 19:14:11 -07:00
Martin Atkins edc0ce6333 states: Prune empty modules after possibly removing resources
Also includes a new log message for the situation where we _do_ prune,
since this seems helpful during debugging.
2018-10-16 19:14:11 -07:00
Martin Atkins 8003b3408f states: Fix incorrect ResourceInstanceObjectSrc.DeepCopy
Accidental shadowing of the top-level attrsFlat variable meant that the
flatmap portion of these objects was getting lost in the DeepCopy result.
2018-10-16 19:14:11 -07:00
James Bardin 6f429cc81b make state output match legacy output 2018-10-16 19:14:11 -07:00
Martin Atkins 9af67806fc core: Prune placeholder objects from state after refresh
Prior to our refactoring here, we were relying on a lucky coincidence for
correct behavior of the plan walk following a refresh in the same run:

- The refresh phase created placeholder objects in the state to represent
  any resource instance pending creation, to allow the interpolator to
  read attributes from them when evaluating "provider" and "data" blocks.
  In effect, the refresh walk is creating a partial plan that only covers
  creation actions, but was immediately discarding the actual diff entries
  and storing only the planned new state.

- It happened that objects pending creation showed up in state with an
  empty ID value, since that only gets assigned by the provider during
  apply.

- The Refresh function concluded by calling terraform.State.Prune, which
  deletes from the state any objects that have an empty ID value, which
  therefore prevented these temporary objects from surviving into the
  plan phase.

After refactoring, we no longer have this special ID field on instance
object state, and we instead rely on the Status field for tracking such
things. We also no longer have an explicit "prune" step on state, since
the state mutation methods themselves keep the structure pruned.

To address this, here we introduce a new instance object status "planned",
which is equivalent to having an empty ID value in the old world. We also
introduce a new method on states.SyncState that deletes from the state
any planned objects, which therefore replaces that portion of the old
State.prune operation just for this refresh use-case.

Finally, we are now expecting the expression evaluator to pull pending
objects from the planned changeset rather than from the state directly,
and so for correct results these placeholder resource creation changes
must also be reported in a throwaway changeset during the refresh walk.

The addition of states.ObjectPlanned also permits a previously-missing
safety check in the expression evaluator to prevent us from relying on the
incomplete value stored in state for a pending object, in the event that
some bug prevents the real pending object from being written into the
planned changeset.
2018-10-16 19:14:11 -07:00
Martin Atkins 20adb9d9b7 core: Evaluate resource references from plan where possible
Our state representation is not able to preserve unknown values, so it's
not suitable for retaining the transient incomplete values we produce
during planning.

Instead, we'll discard the unknown values when writing to state and have
the expression evaluator prefer an object from the plan where possible.
We still use the shape of the transient state to inform things like the
resource's "each mode", so the plan only masks the object values
themselves.
2018-10-16 19:14:11 -07:00
Martin Atkins 03e6771536 states/statemgr: don't panic if no state file is present on first write 2018-10-16 19:14:11 -07:00
Martin Atkins 44bc7519a6 terraform: More wiring in of new provider types
This doesn't actually work yet, but it builds and then panics in a pretty
satisfying way.
2018-10-16 19:12:54 -07:00
Martin Atkins fb57801dfe states: object Private data is []byte, not cty.Value
We're going to allow the provider to encode whatever it wants in here, so
a provider can use whatever is most convenient for its implementation
language and to avoid some of the bugs we saw with the prior model where
the forced round-trip through JSON and back into interface{} would cause
some loss of fidelity, leading to bugs.
2018-10-16 19:11:09 -07:00
Martin Atkins a3403f2766 terraform: Ugly huge change to weave in new State and Plan types
Due to how often the state and plan types are referenced throughout
Terraform, there isn't a great way to switch them out gradually. As a
consequence, this huge commit gets us from the old world to a _compilable_
new world, but still has a large number of known test failures due to
key functionality being stubbed out.

The stubs here are for anything that interacts with providers, since we
now need to do the follow-up work to similarly replace the old
terraform.ResourceProvider interface with its replacement in the new
"providers" package. That work, along with work to fix the remaining
failing tests, will follow in subsequent commits.

The aim here was to replace all references to terraform.State and its
downstream types with states.State, terraform.Plan with plans.Plan,
state.State with statemgr.State, and switch to the new implementations of
the state and plan file formats. However, due to the number of times those
types are used, this also ended up affecting numerous other parts of core
such as terraform.Hook, the backend.Backend interface, and most of the CLI
commands.

Just as with 5861dbf3fc49b19587a31816eb06f511ab861bb4 before, I apologize
in advance to the person who inevitably just found this huge commit while
spelunking through the commit history.
2018-10-16 19:11:09 -07:00
Martin Atkins cf6892275a states: Port stringer implementation from terraform.State
Our existing core tests make extensive use of the string representation
of a state for comparison purposes, because they were written before we
began making use of helper packages like "cmp".

To avoid the need to rewrite all of those tests and potentially break
them, we will instead port that particular rendering as closely as
possible but mark it with a comment sternly warning not to use it for
anything new.

We don't want to use this moving forward for a number of reasons, but
most notably:

 - printing out whole before and after state representations makes it
   hard to find a subtle difference in outcome when a test fails, while
   "cmp" can provide us with a real diff.

 - this string serialization is constrained by the capabilities of
   Terraform prior to our new state models, and so it does not
   comprehensively represent all possibilities in the new world.

 - it will probably behave oddly/poorly when given states containing
   features that arrived after it was written, even though I made a
   best effort here to make it do something reasonable in situations
   I thought about.
2018-10-16 18:58:49 -07:00