Explicit version strings are actually also version constraints! And the special
comparisons we were doing to allow a range of compatible versions can also be
expressed as version constraints.
Bonus: also simplify the way we handle version check errors, by composing the
messages inline and only extracting the repetitive parts into a function.
The cloud backend (and remote before it) previously expected a TFC workspace's
`terraform-version` attribute to be either the magic string `"latest"` or an
explicit semver value. But a workspace might have a version constraint instead
(like `~> 1.1.0`), in which case the version check would blow up.
This commit checks whether `terraform-version` is a valid version constraint
before erroring out, and if so, returns success if the local version meets the
constraint.
Because it's not practical to deeply introspect the slice of version space
defined by a constraint, this check is slightly less robust than the version
comparisons below it:
- It can give a false OK on open-ended constraints like `>= 1.1.0`. Say you're
running 1.3.0, it changed the state format, and the TFE instance admin has
not yet added any 1.3.x Terraform versions; your workspace will now break.
- It will give a false not-OK when using different minor versions within a range
that we know to be compatible, e.g. remote constraint of `~> 0.15.0` and local
version of 1.1.0.
- This would be totally useless with the pre-0.14 versions of Terraform, where
patch releases could change state format... but we're not going back in time
to add this feature to them anyway.
Still, in the most common likely case (`~> x.y.z`), it'll complain at you (with
an error you can choose to override) if you're not using the same minor version,
and that seems proportionate, useful, and expected.
When a user runs `terraform refresh` we give them an error message that
tells them to run `terraform apply -refresh-state`. We could just run
that command for them, though. That is what this PR does.
1. ParseDeclaredValues: parses unparsed variables into terraform.InputValues
2. ProbeUndeclaredVariableValues: compares variable declarations with unparsed values to warn/error about undeclared variables
* determining source or destination to cloud
* handling single to single state migrations to cloud,
using a name strategy or a tags strategy
* Add end-to-end tests for state migration.
These changes remove all of the preexisting version checking for
individual features, wiping the slate clean with an overall minimum
requirement of a future TFP-API-Version 2.5, which at the time of this
writing is expected to be TFE v202112-1.
It also actually provides that expected TFE version as an actionable
error message, rather than generically saying that it isn't supported or
using the somewhat opaque API version header.
The 'tfe' service was appended to with various versions to denote a new
'feature' implemented by a new 'service'. This quickly proved to not be
scalable, as adding an entry to the discovery document from every
feature is bad.
The new mechanism added was checking the TFP-API-Version header on
requests for a version, instead.
So we'll remove the separation here between different tfe service
'versions' and the separate 'state' service and Just Use TFE, as well as
the TFP-API-Version header for all feature versioning., as well as the
TFP-API-Version header for all feature versioning.
The previous conservative guarantee that we would not make backwards
incompatible changes to the state file format until at least Terraform
1.1 can now be extended. Terraform 0.14 through 1.1 will be able to
interoperably use state files, so we can update the remote backend
version compatibility check accordingly.
This is a port of https://github.com/hashicorp/terraform/pull/29645
This changes the 'name' strategy to always align the local configured
workspace name and the remote Terraform Cloud workspace, rather than the
implicit use of the 'default' unnamed workspace being used instead.
What this essentially means is that the Cloud integration does not fully
support workspaces when configured for a single TFC workspace (as was
the case with the 'remote' backend), but *does* use the
backend.Workspaces() interface to allow for normal local behaviors like
terraform.workspace to resolve to the correct name. It does this by
always setting the local workspace name when the 'name' strategy is
used, as a part of initialization.
Part of the diff here is exporting all the previously unexported types
for mapping workspaces. The command package (and init in particular)
needs to be able to handle setting the local workspace in this
particular scenario.
Implementing this test was quite a rabbithole, as in order to satisfy
backendTestBackendStates() the workspaces returned from
backend.Workspaces() must match exactly, and the shortcut taken to test
pagination in 3cc58813f0 created an
impossible circumstance that got plastered over with the fact that
prefix filtering is done clientside, not by the API as it should be.
Tagging does not rely on clientside filtering, and expects that the
request made to the TFC API returns exactly those workspaces with the
given tags.
These changes include a better way to test pagination, wherein we
actually create over a page worth of valid workspaces in the mock client
and implement a simplified pagination behavior to match how the TFC API
actually works.
A mostly cosemetic change; The fields 'workspace' and 'prefix' don't
really describe well what they are from a caller, so change these to use
a workspaceMapping struct to convey they are for implementing workspace
mapping strategies from CLI -> TFC
These changes include additions to fulfill the interface for the client
mock, plus moving all that logic (which needn't be duplicated across
both the remote and cloud packages) over to the cloud package under a
dedicated mock client file.
These changes allow cloud blocks to be overridden by backend blocks and
vice versa; the logic follows the current backend behavior of a block
overriding a preceding block in full, with no merges.
This restriction is temporary. Overrides should be allowed, but have the
added complexity of needing to also override a 'backend' block, so this
work is being deferred for now.
With the alternative block introduced in 7bf9b2c7b, this removes the
ability to explicitly declare the 'cloud' backend. The literal backend
interface is an implementation detail and no longer a user-level
concept when using Terraform Cloud.
This is a replacement declaration for using Terraform Cloud as a remote
backend, leaving the literal backend as an implementation detail and not
a user-level concept.
The cloud package intends to implement a new integration for
Terraform Cloud/Enterprise. The purpose of this integration is to better
support TFC users; it will shed some overly generic UX and architecture,
behavior changes that are otherwise backwards incompatible in the remote
backend, and technical debt - all of which are vestiges from before
Terraform Cloud existed.
This initial commit is largely a porting of the existing 'remote'
backend, which will serve as an underlying implementation detail and not
be a typical user-level backend. This is because to re-implement the
literal backend interface is orthogonal to the purpose of this
integration, and can always be migrated away from later.
As this backend is considered an implementation detail, it will not be
registered as a declarable backend. Within these changes it is, for easy
of initial development and a clean diff.
When running `terraform init` against a backend with multiple
workspaces, none of which are the currently indicated local workspace,
Terraform prompts the user to choose a workspace from the list. In
automation, using the `-input=false` argument should disable asking for
input, but previously would hang instead.
When an explicit backend is configured with a configuration which has
not yet been initialized, running `terraform init` performs a state
migration to fetch the remotely stored state in order to operate on it.
Like the previous bug introduced by the recent provider diagnostics
change, this code path was not correctly configured to enable init mode
for the backend, which resulted in a fatal error during init when the
cache dir is deleted.
Setting the `Init` backend option allows this code path to continue
without error when first initializing the backend for state migration.
The new e2e test fails without this change.
When migrating state to an existing Terraform Cloud workspace using the
remote backend, we check the remote version is compatible with the local
one by default.
This commit fixes two bugs in this code:
- If using the "name" strategy for the remote backend, the list of
destination workspaces is empty. This resulted in no version checking
of the remote workspace, and we fell back to the string equality
check.
- The user-specified CLI flag `-ignore-remote-version` was not being
applied for the state migration version checking.
The init command needs to initialize a backend, in order to access
state, in turn to derive provider requirements from state. The backend
initialization step requires building provider factories, which
previously would fail if a lockfile was present without a corresponding
local provider cache.
This commit ensures that in this situation only, errors with the
provider factories are temporarily ignored. This allows us to continue
to initialize the backend, fetch providers, and then report any errors
as necessary.
We test that a deleted provider cache results in an error when running
terraform plan, but previously did not test that running init (as
instructed) would resolve the issue. This (failing) e2e test adds that
step.