This is a more specialized version of ConfigValueFromHCL2 which is
specifically for config values that represent the content of a block
body in the configuration.
By using the schema of that block we can more precisely emulate the old
HCL1/HIL behaviors by distinguishing attributes from blocks and applying
some slightly different behaviors for the handling of null values and
of empty collections that are representing the absense of blocks of a
particular type.
Make the function work specifically how we need for RequiresReplace.
Skip index changes, any set changes are only recorded as the set itself,
and filter out duplicate paths.
Add a few more tests to check for various nested structures.
Rather than try and make a generalized path function here, what we
really need in a function to generate the paths needed for
RequiresReplace. This needs to take into account that sets elements
don't need to be indexed themselves, and changes to collection index
values aren't needed.
PathFromFlatmapKey is used to convert a flatmap key to a cty.Path, and
ensures it conforms to the type schema.
This is used when handling Diffs, where the ResourceAttrDiffs are
indexed by the flatmapped key values, and we need to convert those to
addresses to apply to a cty.Value.
When creating a flatmap from a cty.Value, there may be Null collections
which don't need to be added to the flatmap at all. Skip over these to
avoid panicking in ElementIterator with a Null value.
A nil flatmap will be encoded as a NullVal of the correct type. When
Converting a NullVal back to a flatmap, return nil immediately rather
than attempting to build the values.
The "config" package is no longer used and will be removed as part
of the 0.12 release cleanup. Since configschema is part of the
"new world" of configuration modelling, it makes more sense for
it to live as a subdirectory of the newer "configs" package.
Previously unknown values were round-tripping through flatmap and coming
out as known strings containing the UnknownVariableValue. (The classic bug
that, ironically, was one of the big reasons to write cty!)
Now we properly handle unknown values in both directions: going in to
flatmap we write UnknownVariableValue at the appropriate key (as the count
for sequences or maps) and then coming out of flatmap we turn
UnknownVariableValue back into a cty unknown value of the requested type.
These particular shims will have a pretty limited lifetime in mainline
Terraform code (primarily to stub out the new expression evaluator against
the old state structs until the new format is implemented) but will live
on for some time in state migration and provider plugin compatibility
shims.
This is a rather-messy, complex change to get the "command" package
building again against the new backend API that was updated for
the new configuration loader.
A lot of this is mechanical rewriting to the new API, but
meta_config.go and meta_backend.go in particular saw some major
changes to interface with the new loader APIs and to deal with
the change in order of steps in the backend API.
The usual way to use a configschema.Block is to obtain a hcldec spec from
it and then decode an hcl.Body. There are inevitably situations though
where a body has already been decoded into a cty.Value before we know
which schema we need to use.
This new method CoerceValue is intended to deal with this case, applying
the schema to an already-decoded value in what should be an intuitive way
for most situations.
We will need access to this information in order to render interactive
input prompts, and it will also be useful in returning schema information
to external tools such as text editors that have autocomplete-like
functionality.
Absent values are omitted by the old code we are emulating in HCL, so we
must do the same here in order to avoid breaking assumptions in the
helper/schema layer.
By adding this method you now only have to pass a `*disco.Disco` object around in order to do discovery and use any configured credentials for the discovered hosts.
Of course you can also still pass around both a `*disco.Disco` and a `auth.CredentialsSource` object if there is a need or a reason for that!
Previously we would return the raw error from strconv.ParseInt, which
includes details in its text that expose implementation details and are
thus not helpful to the user.
Instead, we use a locally-defined error message that talks only about
what the caller is expected to know: that count should be parsable as
an integer.
Previously our error message here was confusing and redundant:
Error starting operation: provider.null: invalid version constraint "not valid": Malformed constraint: not valid
Instead, we'll generate a full HCL2 diagnostic here, which results in
something (subjectively) nicer:
Error: Invalid provider version constraint
The value "@ 1.0.0" given for provider.null is not a valid version
constraint.
At the moment this message is an outlier in that the other validation
errors are all still just plain Go errors, but over time we'll want to
adjust all of these to be full diagnostics so that we can embed source
range information in them to help the user find the offending
configuration.
* Verify discovery works without trailing slash on discovery URL
* Update registry API docs with browse and search endpoints
* Add sample request/responses
* Add comment to test to indicate expecations
* Fix typo
* Remove trailing slash weirdness
A common pattern is to conditionally assign to "count"
in a resource in order to decide dynamically whether it
should be created. In that situation it's necessary to
refer to attributes of the resource using the splat
syntax, but historically we didn't show errors in output
expressions and so people "got away with" incorrect usage
in that context.
The intent of this warning is to catch
potentially-problematic usage of attributes on such
resources even if the count happens to be currently
set dynamically to 1, which would not generate the
error. Then the user can quickly locate and fix the
incorrect usage regardless of the current value.
Validation is the best time to return detailed diagnostics
to the user since we're much more likely to have source
location information, etc than we are in later operations.
This change doesn't actually add any detail to the messages
yet, but it changes the interface so that we can gradually
introduce more detailed diagnostics over time.
While here there are some minor adjustments to some of the
messages to improve their consistency with terminology we
use elsewhere.
The level of abstraction that needs the "svchost" is the Module, not the
FriendlyHost. Us the new method in the module package for registry
interaction.
The "not found" error should use the raw string directly from the config
source, but the existing method was adding the default registry if there
was no host indicated.
Use the ResourceState.Provider field to store the full name of the
provider used during apply. This field is only used when a resource is
removed from the config, and will allow that resource to be removed by
the exact same provider with which it was created.
Modify the locations which might accept the alue of the
ResourceState.Provider field to detect that the name is resolved.
Now that resources can be connected to providers with different paths in
the core graph, handling the inheritance in config makes less sense.
Removing this to make room for core to walk the Tree and connect
resources directly to the proper provider instance.
Change "Downloading" to 'Initializing" to match the provider loading
dialog.
List each module being loaded.
If a regisry module is being downloaded, list the registry host, and the
version discovered.
Show the source string from the config that is being fetched, rather
than the go-getter url. The full source can be found in the logs for
debugging.
Add much more extensive logging