mirror of
https://github.com/opentofu/opentofu.git
synced 2024-12-30 10:47:14 -06:00
552 lines
16 KiB
Go
552 lines
16 KiB
Go
package terraform
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import (
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"fmt"
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"reflect"
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"sort"
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"strconv"
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"strings"
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"github.com/mitchellh/copystructure"
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"github.com/mitchellh/reflectwalk"
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"github.com/zclconf/go-cty/cty"
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"github.com/hashicorp/terraform/addrs"
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"github.com/hashicorp/terraform/config"
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"github.com/hashicorp/terraform/configs/configschema"
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"github.com/hashicorp/terraform/configs/hcl2shim"
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)
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// Resource is a legacy way to identify a particular resource instance.
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//
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// New code should use addrs.ResourceInstance instead. This is still here
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// only for codepaths that haven't been updated yet.
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type Resource struct {
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// These are all used by the new EvalNode stuff.
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Name string
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Type string
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CountIndex int
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// These aren't really used anymore anywhere, but we keep them around
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// since we haven't done a proper cleanup yet.
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Id string
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Info *InstanceInfo
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Config *ResourceConfig
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Dependencies []string
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Diff *InstanceDiff
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Provider ResourceProvider
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State *InstanceState
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Flags ResourceFlag
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}
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// NewResource constructs a legacy Resource object from an
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// addrs.ResourceInstance value.
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//
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// This is provided to shim to old codepaths that haven't been updated away
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// from this type yet. Since this old type is not able to represent instances
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// that have string keys, this function will panic if given a resource address
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// that has a string key.
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func NewResource(addr addrs.ResourceInstance) *Resource {
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ret := &Resource{
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Name: addr.Resource.Name,
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Type: addr.Resource.Type,
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}
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if addr.Key != addrs.NoKey {
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switch tk := addr.Key.(type) {
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case addrs.IntKey:
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ret.CountIndex = int(tk)
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default:
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panic(fmt.Errorf("resource instance with key %#v is not supported", addr.Key))
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}
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}
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return ret
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}
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// ResourceKind specifies what kind of instance we're working with, whether
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// its a primary instance, a tainted instance, or an orphan.
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type ResourceFlag byte
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// InstanceInfo is used to hold information about the instance and/or
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// resource being modified.
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type InstanceInfo struct {
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// Id is a unique name to represent this instance. This is not related
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// to InstanceState.ID in any way.
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Id string
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// ModulePath is the complete path of the module containing this
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// instance.
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ModulePath []string
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// Type is the resource type of this instance
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Type string
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// uniqueExtra is an internal field that can be populated to supply
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// extra metadata that is used to identify a unique instance in
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// the graph walk. This will be appended to HumanID when uniqueId
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// is called.
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uniqueExtra string
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}
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// NewInstanceInfo constructs an InstanceInfo from an addrs.AbsResourceInstance.
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//
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// InstanceInfo is a legacy type, and uses of it should be gradually replaced
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// by direct use of addrs.AbsResource or addrs.AbsResourceInstance as
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// appropriate.
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//
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// The legacy InstanceInfo type cannot represent module instances with instance
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// keys, so this function will panic if given such a path. Uses of this type
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// should all be removed or replaced before implementing "count" and "for_each"
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// arguments on modules in order to avoid such panics.
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//
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// This legacy type also cannot represent resource instances with string
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// instance keys. It will panic if the given key is not either NoKey or an
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// IntKey.
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func NewInstanceInfo(addr addrs.AbsResourceInstance) *InstanceInfo {
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// We need an old-style []string module path for InstanceInfo.
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path := make([]string, len(addr.Module))
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for i, step := range addr.Module {
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if step.InstanceKey != addrs.NoKey {
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panic("NewInstanceInfo cannot convert module instance with key")
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}
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path[i] = step.Name
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}
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// This is a funny old meaning of "id" that is no longer current. It should
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// not be used for anything users might see. Note that it does not include
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// a representation of the resource mode, and so it's impossible to
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// determine from an InstanceInfo alone whether it is a managed or data
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// resource that is being referred to.
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id := fmt.Sprintf("%s.%s", addr.Resource.Resource.Type, addr.Resource.Resource.Name)
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if addr.Resource.Resource.Mode == addrs.DataResourceMode {
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id = "data." + id
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}
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if addr.Resource.Key != addrs.NoKey {
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switch k := addr.Resource.Key.(type) {
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case addrs.IntKey:
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id = id + fmt.Sprintf(".%d", int(k))
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default:
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panic(fmt.Sprintf("NewInstanceInfo cannot convert resource instance with %T instance key", addr.Resource.Key))
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}
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}
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return &InstanceInfo{
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Id: id,
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ModulePath: path,
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Type: addr.Resource.Resource.Type,
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}
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}
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// ResourceAddress returns the address of the resource that the receiver is describing.
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func (i *InstanceInfo) ResourceAddress() *ResourceAddress {
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// GROSS: for tainted and deposed instances, their status gets appended
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// to i.Id to create a unique id for the graph node. Historically these
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// ids were displayed to the user, so it's designed to be human-readable:
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// "aws_instance.bar.0 (deposed #0)"
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//
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// So here we detect such suffixes and try to interpret them back to
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// their original meaning so we can then produce a ResourceAddress
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// with a suitable InstanceType.
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id := i.Id
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instanceType := TypeInvalid
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if idx := strings.Index(id, " ("); idx != -1 {
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remain := id[idx:]
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id = id[:idx]
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switch {
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case strings.Contains(remain, "tainted"):
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instanceType = TypeTainted
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case strings.Contains(remain, "deposed"):
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instanceType = TypeDeposed
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}
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}
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addr, err := parseResourceAddressInternal(id)
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if err != nil {
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// should never happen, since that would indicate a bug in the
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// code that constructed this InstanceInfo.
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panic(fmt.Errorf("InstanceInfo has invalid Id %s", id))
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}
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if len(i.ModulePath) > 1 {
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addr.Path = i.ModulePath[1:] // trim off "root" prefix, which is implied
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}
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if instanceType != TypeInvalid {
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addr.InstanceTypeSet = true
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addr.InstanceType = instanceType
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}
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return addr
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}
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// ResourceConfig is a legacy type that was formerly used to represent
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// interpolatable configuration blocks. It is now only used to shim to old
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// APIs that still use this type, via NewResourceConfigShimmed.
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type ResourceConfig struct {
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ComputedKeys []string
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Raw map[string]interface{}
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Config map[string]interface{}
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raw *config.RawConfig
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}
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// NewResourceConfig creates a new ResourceConfig from a config.RawConfig.
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func NewResourceConfig(c *config.RawConfig) *ResourceConfig {
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result := &ResourceConfig{raw: c}
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result.interpolateForce()
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return result
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}
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// NewResourceConfigRaw constructs a ResourceConfig whose content is exactly
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// the given value.
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//
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// The given value may contain hcl2shim.UnknownVariableValue to signal that
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// something is computed, but it must not contain unprocessed interpolation
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// sequences as we might've seen in Terraform v0.11 and prior.
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func NewResourceConfigRaw(raw map[string]interface{}) *ResourceConfig {
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v := hcl2shim.HCL2ValueFromConfigValue(raw)
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// This is a little weird but we round-trip the value through the hcl2shim
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// package here for two reasons: firstly, because that reduces the risk
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// of it including something unlike what NewResourceConfigShimmed would
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// produce, and secondly because it creates a copy of "raw" just in case
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// something is relying on the fact that in the old world the raw and
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// config maps were always distinct, and thus you could in principle mutate
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// one without affecting the other. (I sure hope nobody was doing that, though!)
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cfg := hcl2shim.ConfigValueFromHCL2(v).(map[string]interface{})
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return &ResourceConfig{
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Raw: raw,
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Config: cfg,
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ComputedKeys: newResourceConfigShimmedComputedKeys(v, ""),
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}
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}
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// NewResourceConfigShimmed wraps a cty.Value of object type in a legacy
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// ResourceConfig object, so that it can be passed to older APIs that expect
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// this wrapping.
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//
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// The returned ResourceConfig is already interpolated and cannot be
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// re-interpolated. It is, therefore, useful only to functions that expect
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// an already-populated ResourceConfig which they then treat as read-only.
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//
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// If the given value is not of an object type that conforms to the given
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// schema then this function will panic.
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func NewResourceConfigShimmed(val cty.Value, schema *configschema.Block) *ResourceConfig {
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if !val.Type().IsObjectType() {
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panic(fmt.Errorf("NewResourceConfigShimmed given %#v; an object type is required", val.Type()))
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}
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ret := &ResourceConfig{}
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legacyVal := hcl2shim.ConfigValueFromHCL2Block(val, schema)
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if legacyVal != nil {
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ret.Config = legacyVal
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// Now we need to walk through our structure and find any unknown values,
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// producing the separate list ComputedKeys to represent these. We use the
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// schema here so that we can preserve the expected invariant
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// that an attribute is always either wholly known or wholly unknown, while
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// a child block can be partially unknown.
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ret.ComputedKeys = newResourceConfigShimmedComputedKeys(val, "")
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} else {
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ret.Config = make(map[string]interface{})
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}
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ret.Raw = ret.Config
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return ret
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}
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// Record the any config values in ComputedKeys. This field had been unused in
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// helper/schema, but in the new protocol we're using this so that the SDK can
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// now handle having an unknown collection. The legacy diff code doesn't
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// properly handle the unknown, because it can't be expressed in the same way
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// between the config and diff.
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func newResourceConfigShimmedComputedKeys(val cty.Value, path string) []string {
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var ret []string
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ty := val.Type()
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if val.IsNull() {
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return ret
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}
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if !val.IsKnown() {
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// we shouldn't have an entirely unknown resource, but prevent empty
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// strings just in case
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if len(path) > 0 {
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ret = append(ret, path)
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}
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return ret
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}
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if path != "" {
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path += "."
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}
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switch {
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case ty.IsListType(), ty.IsTupleType(), ty.IsSetType():
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i := 0
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for it := val.ElementIterator(); it.Next(); i++ {
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_, subVal := it.Element()
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keys := newResourceConfigShimmedComputedKeys(subVal, fmt.Sprintf("%s%d", path, i))
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ret = append(ret, keys...)
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}
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case ty.IsMapType(), ty.IsObjectType():
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for it := val.ElementIterator(); it.Next(); {
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subK, subVal := it.Element()
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keys := newResourceConfigShimmedComputedKeys(subVal, fmt.Sprintf("%s%s", path, subK.AsString()))
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ret = append(ret, keys...)
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}
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}
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return ret
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}
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// DeepCopy performs a deep copy of the configuration. This makes it safe
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// to modify any of the structures that are part of the resource config without
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// affecting the original configuration.
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func (c *ResourceConfig) DeepCopy() *ResourceConfig {
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// DeepCopying a nil should return a nil to avoid panics
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if c == nil {
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return nil
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}
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// Copy, this will copy all the exported attributes
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copy, err := copystructure.Config{Lock: true}.Copy(c)
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if err != nil {
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panic(err)
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}
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// Force the type
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result := copy.(*ResourceConfig)
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return result
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}
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// Equal checks the equality of two resource configs.
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func (c *ResourceConfig) Equal(c2 *ResourceConfig) bool {
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// If either are nil, then they're only equal if they're both nil
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if c == nil || c2 == nil {
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return c == c2
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}
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// Sort the computed keys so they're deterministic
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sort.Strings(c.ComputedKeys)
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sort.Strings(c2.ComputedKeys)
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// Two resource configs if their exported properties are equal.
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// We don't compare "raw" because it is never used again after
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// initialization and for all intents and purposes they are equal
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// if the exported properties are equal.
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check := [][2]interface{}{
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{c.ComputedKeys, c2.ComputedKeys},
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{c.Raw, c2.Raw},
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{c.Config, c2.Config},
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}
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for _, pair := range check {
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if !reflect.DeepEqual(pair[0], pair[1]) {
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return false
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}
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}
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return true
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}
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// CheckSet checks that the given list of configuration keys is
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// properly set. If not, errors are returned for each unset key.
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//
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// This is useful to be called in the Validate method of a ResourceProvider.
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func (c *ResourceConfig) CheckSet(keys []string) []error {
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var errs []error
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for _, k := range keys {
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if !c.IsSet(k) {
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errs = append(errs, fmt.Errorf("%s must be set", k))
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}
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}
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return errs
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}
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// Get looks up a configuration value by key and returns the value.
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//
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// The second return value is true if the get was successful. Get will
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// return the raw value if the key is computed, so you should pair this
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// with IsComputed.
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func (c *ResourceConfig) Get(k string) (interface{}, bool) {
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// We aim to get a value from the configuration. If it is computed,
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// then we return the pure raw value.
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source := c.Config
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if c.IsComputed(k) {
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source = c.Raw
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}
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return c.get(k, source)
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}
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// GetRaw looks up a configuration value by key and returns the value,
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// from the raw, uninterpolated config.
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//
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// The second return value is true if the get was successful. Get will
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// not succeed if the value is being computed.
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func (c *ResourceConfig) GetRaw(k string) (interface{}, bool) {
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return c.get(k, c.Raw)
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}
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// IsComputed returns whether the given key is computed or not.
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func (c *ResourceConfig) IsComputed(k string) bool {
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// The next thing we do is check the config if we get a computed
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// value out of it.
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v, ok := c.get(k, c.Config)
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if !ok {
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return false
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}
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// If value is nil, then it isn't computed
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if v == nil {
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return false
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}
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// Test if the value contains an unknown value
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var w unknownCheckWalker
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if err := reflectwalk.Walk(v, &w); err != nil {
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panic(err)
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}
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return w.Unknown
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}
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// IsSet checks if the key in the configuration is set. A key is set if
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// it has a value or the value is being computed (is unknown currently).
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//
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// This function should be used rather than checking the keys of the
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// raw configuration itself, since a key may be omitted from the raw
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// configuration if it is being computed.
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func (c *ResourceConfig) IsSet(k string) bool {
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if c == nil {
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return false
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}
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if c.IsComputed(k) {
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return true
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}
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if _, ok := c.Get(k); ok {
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return true
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}
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return false
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}
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func (c *ResourceConfig) get(
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k string, raw map[string]interface{}) (interface{}, bool) {
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parts := strings.Split(k, ".")
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if len(parts) == 1 && parts[0] == "" {
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parts = nil
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}
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var current interface{} = raw
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var previous interface{} = nil
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for i, part := range parts {
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if current == nil {
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return nil, false
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}
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cv := reflect.ValueOf(current)
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switch cv.Kind() {
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case reflect.Map:
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previous = current
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v := cv.MapIndex(reflect.ValueOf(part))
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if !v.IsValid() {
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if i > 0 && i != (len(parts)-1) {
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tryKey := strings.Join(parts[i:], ".")
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v := cv.MapIndex(reflect.ValueOf(tryKey))
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if !v.IsValid() {
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return nil, false
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}
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return v.Interface(), true
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}
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return nil, false
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}
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current = v.Interface()
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case reflect.Slice:
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previous = current
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if part == "#" {
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// If any value in a list is computed, this whole thing
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// is computed and we can't read any part of it.
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for i := 0; i < cv.Len(); i++ {
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if v := cv.Index(i).Interface(); v == hcl2shim.UnknownVariableValue {
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return v, true
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}
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}
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current = cv.Len()
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} else {
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i, err := strconv.ParseInt(part, 0, 0)
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if err != nil {
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return nil, false
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}
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if int(i) < 0 || int(i) >= cv.Len() {
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return nil, false
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}
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current = cv.Index(int(i)).Interface()
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}
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case reflect.String:
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// This happens when map keys contain "." and have a common
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// prefix so were split as path components above.
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actualKey := strings.Join(parts[i-1:], ".")
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if prevMap, ok := previous.(map[string]interface{}); ok {
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v, ok := prevMap[actualKey]
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return v, ok
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}
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return nil, false
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default:
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panic(fmt.Sprintf("Unknown kind: %s", cv.Kind()))
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}
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}
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return current, true
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}
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// interpolateForce is a temporary thing. We want to get rid of interpolate
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// above and likewise this, but it can only be done after the f-ast-graph
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// refactor is complete.
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func (c *ResourceConfig) interpolateForce() {
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if c.raw == nil {
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// If we don't have a lowercase "raw" but we _do_ have the uppercase
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// Raw populated then this indicates that we're recieving a shim
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// ResourceConfig created by NewResourceConfigShimmed, which is already
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// fully evaluated and thus this function doesn't need to do anything.
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if c.Raw != nil {
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return
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}
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var err error
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c.raw, err = config.NewRawConfig(make(map[string]interface{}))
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if err != nil {
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panic(err)
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}
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}
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|
c.ComputedKeys = c.raw.UnknownKeys()
|
|
c.Raw = c.raw.RawMap()
|
|
c.Config = c.raw.Config()
|
|
}
|
|
|
|
// unknownCheckWalker
|
|
type unknownCheckWalker struct {
|
|
Unknown bool
|
|
}
|
|
|
|
func (w *unknownCheckWalker) Primitive(v reflect.Value) error {
|
|
if v.Interface() == hcl2shim.UnknownVariableValue {
|
|
w.Unknown = true
|
|
}
|
|
|
|
return nil
|
|
}
|