This command serves as an alternative to the human-oriented list of workspaces for scripting use-cases where it's useful to know the _current_ workspace name.
In practice, States must all implement the full interface, so checking
for each method set only leaves gaps where tests could be skipped.
Change the helper to only accept a full state.State implementation.
Add some Lineage, Version, and TFVersion checks to TestState to avoid
regressions.
Compare the copy test against the immediate State returnedm rather than
our previous "current" state.
Check that the states round-trip and still marhsal identically via
MarshalEqual.
Previously we relied on a constellation of coincidences for everything to
work out correctly with state serials. In particular, callers needed to
be very careful about mutating states (or not) because many different bits
of code shared pointers to the same objects.
Here we move to a model where all of the state managers always use
distinct instances of state, copied when WriteState is called. This means
that they are truly a snapshot of the state as it was at that call, even
if the caller goes on mutating the state that was passed.
We also adjust the handling of serials so that the state managers ignore
any serials in incoming states and instead just treat each Persist as
the next version after what was most recently Refreshed.
(An exception exists for when nothing has been refreshed, e.g. because
we are writing a state to a location for the first time. In that case
we _do_ trust the caller, since the given state is either a new state
or it's a copy of something we're migrating from elsewhere with its
state and lineage intact.)
The intent here is to allow the rest of Terraform to not worry about
serials and state identity, and instead just treat the state as a mutable
structure. We'll just snapshot it occasionally, when WriteState is called,
and deal with serials _only_ at persist time.
This is intended as a more robust version of #15423, which was a quick
hotfix to an issue that resulted from our previous slopping handling
of state serials but arguably makes the problem worse by depending on
an additional coincidental behavior of the local backend's apply
implementation.
Normally "terraform init" will download and install the plugins necessary
to work with a particular configuration, but sometimes Terraform is
deployed in a network that, for one reason or another, cannot access the
official plugin repository for automatic download.
terraform-bundle provides an alternative method, allowing the
auto-download process to be run out-of-band on a separate machine that
_does_ have access to the repository. The result is a zip file that can
be extracted onto the target system to install both the desired
Terraform version and a selection of providers, thus avoiding the need
for on-the-fly plugin installation.
This is provided as a separate tool from Terraform because it is not
something that most users will need. In the rare case where this is
needed, we will for the moment assume that users are able to build this
tool themselves. We may later release it in a pre-built form, if it proves
to be generally useful.
It uses the same API from the plugin/discovery package is is used by the
auto-install behavior in "terraform init", so plugin versions are resolved
in the same way. However, it's expected that several different Terraform
configurations will run from the same bundle, so this tool allows the
bundle to include potentially many versions of the same provider and thus
allows each Terraform configuration to select from the available versions
in the bundle, avoiding the need to upgrade all configurations to new
provider versions in lockstep.
Previously we forced only installing for the current GOOS and GOARCH. Now
we allow this to be optionally overridden, which allows building tools
that can, for example, populate a directory with plugins to run on a Linux
server while working on a Mac.
Skips checksum validation if the `TF_SKIP_PROVIDER_VERIFY` environment variable is set. Undocumented variable, as the primary goal is to significantly improve the local provider development workflow.
We need to release the lock just before deleting the state, in case the backend
can't remove the resource while holding the lock. This is currently true for
Windows local files.
TODO: While there is little safety in locking while deleting the state, it
might be nice to be able to coordinate processes around state deletion, i.e. in
a CI environment. Adding Delete() as a required method of States would allow
the removal of the resource to be delegated from the Backend to the State
itself.
A common reason to want to use `terraform plan` is to have a chance to
review and confirm a plan before running it. If in fact that is the
only reason you are running plan, this new `terraform apply -auto-approve=false`
flag provides an easier alternative to
P=$(mktemp -t plan)
terraform refresh
terraform plan -refresh=false -out=$P
terraform apply $P
rm $P
The flag defaults to true for now, but in a future version of Terraform it will
default to false.
The import command wasn't loading the full plugin path for discovery.
Run a basic plugin init sequence, and verify we can find a plugin (even
though the plugin is invalid and will fail).
The import command wasn't loading the plugin path at all, relying on the
local directory for binaries.
Load the plugin dir into Meta, and pass in ForceLocal for consistency.
The Backend returned was going to be a Local anyway, so the added check
wasn't ensuring anything.
The "confirm" method was directly checking the meta struct's input field,
but that only represents the -input command line flag, and doesn't
respect the TF_INPUT environment variable.
By calling the Input method instead, we check both.
This fixes#15338.
Added a new test that ensures that pre/post-diff hooks are not called
when EvalDiff is run with Stub set, tested through a full refresh run.
This helps test the expected behaviour of EvalDiff itself, versus the
end result of the diff being counted in a plan, which is what the
TestLocal_planScaleOutNoDupeCount test in backend/local checks.
Rather than overloading InstanceDiff with a "Stub" attribute that is
going to be largely meaningless, we are just going to skip
pre/post-diff hooks altogether. This is under the notion that we will
eventually not need to "stub" a diff for scale-out, stateless nodes on
refresh at all, so diff behaviour won't be necessary at that point, so
we should not assume that hooks will run at this stage anyway.
Also as part of this removed the CountHook test that is now failing
because CountHook is out of scope of the new behaviour.
We are changing the behaviour of the "stub" diff operation to just have
the pre/post-diff hooks skipped on eval, meaning that the test against
CountHook will ultimately be meaningless and fail, hence we need a
different test here that tests it on a more general level.
This should make things a bit more clear as to what we are doing in the
EvalTree scale-out test - ensuring that we get the correct eval sequence
for a node with no state through EvalTree.