If a module has multiple terraform.required_version constraints, any
failures would point at the last constraint in the error diagnostics. If
an earlier constraint was the actual problem, this leads to confusing
errors like this:
Error: Unsupported Terraform Core version
on main.tf line 6, in terraform:
6: required_version = ">= 0.13.0"
This configuration does not support Terraform version 0.13.0.
The error was due to storing the declaration range of the constraint as
a pointer to the contents of a loop variable, which was later
overwritten in later iterations of the loop. Instead we now use HCL's
handy Ptr() method to create a direct pointer to the range struct.
Include the import walk in the list of operations for which we create an
EvalModuleCallArgument node. This causes module call arguments to be
evaluated even if the module variables have defaults, ensuring that
invalid default values (such as the common "{}" for variables thought of
as maps) do not cause failures specific to import.
This fixes a bug where a child module evaluates an input variable in its
locals block, assuming that it is a nested object structure. The bug
report includes a default value of "{}", which is overridden by a root
variable value. Without the eval node added in this commit, the default
value is used and the local evaluation errors.
Builtin provider addrs (i.e. "terraform.io/builtin/terraform") should be
able to convert to legacy string form (i.e. "terraform"). This ensures
that we can safely round-trip through ParseLegacyAbsProviderConfig,
which can return either a legacy or a builtin provider addr.
* statemgr: add a NewUnlockErrorFull state manager for tests
I've frequently needed to coerce Unlock() errors for tests and it's been
awkward and fraught every time, so I decided to add a full state manger
that returns *mostly* errors. I intend to use this in conjunction with
the clistate.Locker interface, which first calls Lock() (to block if the
mutex is in use) at the start of Unlock(), so Lock() rather awkwardly needed to succeed.
In order to determine if we need to re-read a data source during plan,
we need to compare the newly evaluated configuration with the stored
state. To do that we create a ProposedNewVal, which if there are no
changes, should match the existing state exactly.
A problem arises if the remote data source contains any blocks, and they
are not set in the configuration. Terraform always decodes configuration
blocks as empty containers, however the legacy SDK cannot correctly
handle empty blocks and may return a null block which is saved to the
state. In order to correctly make the comparison for planning, we need
to reify those null blocks as empty containers in the cty value.
The createEmptyBlocks helper converts any null NestingList or NestingSet
blocks to empty list or set cty values. We only need to be concerned
with List and Set, because those are the only types that can be defined
with the legacy SDK. In hindsight these could have been normalized in
the legacy SDK shims had this problem been uncovered earlier, but for the
sake of compatibility we will now normalize these in core.
When working with a ConfigResource, the generalization of a
ModuleInstance to a Module was inadvertently dropped, and there was to
test coverage for that type of target.
Ensure we can target a specific module instance alone.
Before expansion happens, we only have expansion resource nodes that
know their ConfigResource address. In order to properly compare these to
targets within a module instance, we need to generalize the target to
also be a ConfigResource.
We can also remove the IgnoreIndices field from the transformer, since
we have addresses that are properly scoped and can compare them in the
correct context.
If somehow an invalid workspace has been selected, the Meta.Workspace
method should not return an error, to ensure that we don't break any
existing workflows with invalid workspace names.
We are validating the workspace name for all workspace commands. Due to
a bug with the TF_WORKSPACE environment variable, it has been possible
to accidentally create a workspace with an invalid name.
This commit removes the valid workspace name check for workspace delete
to allow users to clean up any invalid workspaces.
The workspace name can be overridden by setting a TF_WORKSPACE
environment variable. If this is done, we should still validate the
resulting workspace name; otherwise, we could end up with an invalid and
unselectable workspace.
This change updates the Meta.Workspace function to return an error, and
handles that error wherever necessary.
When moving a resource block with multiple instances to a new address
within the same module, we need to ensure that the target module is
present as late as possible. Otherwise, deleting the resource from the
original address triggers pruning, and the module is removed just before
we try to add the resource to it, which causes a crash.
Includes regression test which panics without this code change.
* upgrade go-cidr to v1.1.0
* lang/funcs: refactor Subnet and Host functions to support 64-bit systems
* add test cases and remove no-longer-needed validation
If a statefile had resources with the same name in different modules,
the sort order could be inconsistent between state refreshes. This adds
the module to the Less() function used in sorting and a minimal test to
verify consistent ordering.
Most of the state package has been deprecated by the states package.
This PR replaces all the references to the old state package that
can be done simply - the low-hanging fruit.
* states: move state.Locker to statemgr
The state.Locker interface was a wrapper around a statemgr.Full, so
moving this was relatively straightforward.
* command: remove unnecessary use of state package for writing local terraform state files
* move state.LocalState into terraform package
state.LocalState is responsible for managing terraform.States, so it
made sense (to me) to move it into the terraform package.
* slight change of heart: move state.LocalState into clistate instead of
terraform
* unlock the state if Context() has an error, exactly as backend/remote does today
* terraform console and terraform import will exit before unlocking state in case of error in Context()
* responsibility for unlocking state in the local backend is pushed down the stack, out of backend.go and into each individual state operation
* add tests confirming that state is not locked after apply and plan
* backend/local: add checks that the state is unlocked after operations
This adds tests to plan, apply and refresh which validate that the state
is unlocked after all operations, regardless of exit status. I've also
added specific tests that force Context() to fail during each operation
to verify that locking behavior specifically.