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* Introduce "Local" terminology for non-absolute provider config addresses In a future change AbsProviderConfig and LocalProviderConfig are going to become two entirely distinct types, rather than Abs embedding Local as written here. This naming change is in preparation for that subsequent work, which will also include introducing a new "ProviderConfig" type that is an interface that AbsProviderConfig and LocalProviderConfig both implement. This is intended to be largely just a naming change to get started, so we can deal with all of the messy renaming. However, this did also require a slight change in modeling where the Resource.DefaultProviderConfig method has become Resource.DefaultProvider returning a Provider address directly, because this method doesn't have enough information to construct a true and accurate LocalProviderConfig -- it would need to refer to the configuration to know what this module is calling the provider it has selected. In order to leave a trail to follow for subsequent work, all of the changes here are intended to ensure that remaining work will become obvious via compile-time errors when all of the following changes happen: - The concept of "legacy" provider addresses is removed from the addrs package, including removing addrs.NewLegacyProvider and addrs.Provider.LegacyString. - addrs.AbsProviderConfig stops having addrs.LocalProviderConfig embedded in it and has an addrs.Provider and a string alias directly instead. - The provider-schema-handling parts of Terraform core are updated to work with addrs.Provider to identify providers, rather than legacy strings. In particular, there are still several codepaths here making legacy provider address assumptions (in order to limit the scope of this change) but I've made sure each one is doing something that relies on at least one of the above changes not having been made yet. * addrs: ProviderConfig interface In a (very) few special situations in the main "terraform" package we need to make runtime decisions about whether a provider config is absolute or local. We currently do that by exploiting the fact that AbsProviderConfig has LocalProviderConfig nested inside of it and so in the local case we can just ignore the wrapping AbsProviderConfig and use the embedded value. In a future change we'll be moving away from that embedding and making these two types distinct in order to represent that mapping between them requires consulting a lookup table in the configuration, and so here we introduce a new interface type ProviderConfig that can represent either AbsProviderConfig or LocalProviderConfig decided dynamically at runtime. This also includes the Config.ResolveAbsProviderAddr method that will eventually be responsible for that local-to-absolute translation, so that callers with access to the configuration can normalize to an addrs.AbsProviderConfig given a non-nil addrs.ProviderConfig. That's currently unused because existing callers are still relying on the simplistic structural transform, but we'll switch them over in a later commit. * rename LocalType to LocalName Co-authored-by: Kristin Laemmert <mildwonkey@users.noreply.github.com>
108 lines
4.5 KiB
Go
108 lines
4.5 KiB
Go
package terraform
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import (
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"fmt"
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"log"
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"github.com/hashicorp/terraform/addrs"
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"github.com/hashicorp/terraform/configs/configschema"
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"github.com/hashicorp/terraform/providers"
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"github.com/hashicorp/terraform/states"
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"github.com/hashicorp/terraform/tfdiags"
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)
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// UpgradeResourceState will, if necessary, run the provider-defined upgrade
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// logic against the given state object to make it compliant with the
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// current schema version. This is a no-op if the given state object is
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// already at the latest version.
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//
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// If any errors occur during upgrade, error diagnostics are returned. In that
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// case it is not safe to proceed with using the original state object.
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func UpgradeResourceState(addr addrs.AbsResourceInstance, provider providers.Interface, src *states.ResourceInstanceObjectSrc, currentSchema *configschema.Block, currentVersion uint64) (*states.ResourceInstanceObjectSrc, tfdiags.Diagnostics) {
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if addr.Resource.Resource.Mode != addrs.ManagedResourceMode {
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// We only do state upgrading for managed resources.
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return src, nil
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}
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stateIsFlatmap := len(src.AttrsJSON) == 0
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// TODO: This should eventually use a proper FQN.
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providerType := addr.Resource.Resource.DefaultProvider().LegacyString()
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if src.SchemaVersion > currentVersion {
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log.Printf("[TRACE] UpgradeResourceState: can't downgrade state for %s from version %d to %d", addr, src.SchemaVersion, currentVersion)
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var diags tfdiags.Diagnostics
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diags = diags.Append(tfdiags.Sourceless(
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tfdiags.Error,
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"Resource instance managed by newer provider version",
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// This is not a very good error message, but we don't retain enough
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// information in state to give good feedback on what provider
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// version might be required here. :(
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fmt.Sprintf("The current state of %s was created by a newer provider version than is currently selected. Upgrade the %s provider to work with this state.", addr, providerType),
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))
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return nil, diags
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}
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// If we get down here then we need to upgrade the state, with the
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// provider's help.
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// If this state was originally created by a version of Terraform prior to
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// v0.12, this also includes translating from legacy flatmap to new-style
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// representation, since only the provider has enough information to
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// understand a flatmap built against an older schema.
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if src.SchemaVersion != currentVersion {
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log.Printf("[TRACE] UpgradeResourceState: upgrading state for %s from version %d to %d using provider %q", addr, src.SchemaVersion, currentVersion, providerType)
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} else {
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log.Printf("[TRACE] UpgradeResourceState: schema version of %s is still %d; calling provider %q for any other minor fixups", addr, currentVersion, providerType)
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}
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req := providers.UpgradeResourceStateRequest{
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TypeName: addr.Resource.Resource.Type,
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// TODO: The internal schema version representations are all using
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// uint64 instead of int64, but unsigned integers aren't friendly
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// to all protobuf target languages so in practice we use int64
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// on the wire. In future we will change all of our internal
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// representations to int64 too.
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Version: int64(src.SchemaVersion),
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}
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if stateIsFlatmap {
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req.RawStateFlatmap = src.AttrsFlat
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} else {
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req.RawStateJSON = src.AttrsJSON
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}
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resp := provider.UpgradeResourceState(req)
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diags := resp.Diagnostics
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if diags.HasErrors() {
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return nil, diags
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}
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// After upgrading, the new value must conform to the current schema. When
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// going over RPC this is actually already ensured by the
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// marshaling/unmarshaling of the new value, but we'll check it here
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// anyway for robustness, e.g. for in-process providers.
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newValue := resp.UpgradedState
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if errs := newValue.Type().TestConformance(currentSchema.ImpliedType()); len(errs) > 0 {
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for _, err := range errs {
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diags = diags.Append(tfdiags.Sourceless(
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tfdiags.Error,
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"Invalid resource state upgrade",
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fmt.Sprintf("The %s provider upgraded the state for %s from a previous version, but produced an invalid result: %s.", providerType, addr, tfdiags.FormatError(err)),
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))
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}
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return nil, diags
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}
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new, err := src.CompleteUpgrade(newValue, currentSchema.ImpliedType(), uint64(currentVersion))
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if err != nil {
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// We already checked for type conformance above, so getting into this
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// codepath should be rare and is probably a bug somewhere under CompleteUpgrade.
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diags = diags.Append(tfdiags.Sourceless(
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tfdiags.Error,
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"Failed to encode result of resource state upgrade",
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fmt.Sprintf("Failed to encode state for %s after resource schema upgrade: %s.", addr, tfdiags.FormatError(err)),
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))
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}
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return new, diags
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}
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