mirror of
https://github.com/opentofu/opentofu.git
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261 lines
8.1 KiB
Go
261 lines
8.1 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/hcl/v2"
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"github.com/hashicorp/terraform/addrs"
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"github.com/hashicorp/terraform/configs"
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"github.com/hashicorp/terraform/dag"
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"github.com/hashicorp/terraform/instances"
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"github.com/hashicorp/terraform/lang"
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"github.com/hashicorp/terraform/tfdiags"
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"github.com/zclconf/go-cty/cty"
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"github.com/zclconf/go-cty/cty/convert"
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)
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// nodeExpandModuleVariable is the placeholder for an variable that has not yet had
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// its module path expanded.
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type nodeExpandModuleVariable struct {
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Addr addrs.InputVariable
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Module addrs.Module
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Config *configs.Variable
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Expr hcl.Expression
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}
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var (
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_ GraphNodeDynamicExpandable = (*nodeExpandModuleVariable)(nil)
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_ GraphNodeReferenceOutside = (*nodeExpandModuleVariable)(nil)
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_ GraphNodeReferenceable = (*nodeExpandModuleVariable)(nil)
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_ GraphNodeReferencer = (*nodeExpandModuleVariable)(nil)
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_ graphNodeTemporaryValue = (*nodeExpandModuleVariable)(nil)
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_ graphNodeExpandsInstances = (*nodeExpandModuleVariable)(nil)
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)
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func (n *nodeExpandModuleVariable) expandsInstances() {}
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func (n *nodeExpandModuleVariable) temporaryValue() bool {
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return true
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}
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func (n *nodeExpandModuleVariable) DynamicExpand(ctx EvalContext) (*Graph, error) {
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var g Graph
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expander := ctx.InstanceExpander()
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for _, module := range expander.ExpandModule(n.Module) {
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o := &nodeModuleVariable{
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Addr: n.Addr.Absolute(module),
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Config: n.Config,
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Expr: n.Expr,
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ModuleInstance: module,
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}
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g.Add(o)
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}
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return &g, nil
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}
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func (n *nodeExpandModuleVariable) Name() string {
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return fmt.Sprintf("%s.%s (expand)", n.Module, n.Addr.String())
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}
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// GraphNodeModulePath
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func (n *nodeExpandModuleVariable) ModulePath() addrs.Module {
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return n.Module
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}
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// GraphNodeReferencer
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func (n *nodeExpandModuleVariable) References() []*addrs.Reference {
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// If we have no value expression, we cannot depend on anything.
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if n.Expr == nil {
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return nil
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}
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// Variables in the root don't depend on anything, because their values
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// are gathered prior to the graph walk and recorded in the context.
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if len(n.Module) == 0 {
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return nil
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}
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// Otherwise, we depend on anything referenced by our value expression.
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// We ignore diagnostics here under the assumption that we'll re-eval
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// all these things later and catch them then; for our purposes here,
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// we only care about valid references.
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//
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// Due to our GraphNodeReferenceOutside implementation, the addresses
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// returned by this function are interpreted in the _parent_ module from
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// where our associated variable was declared, which is correct because
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// our value expression is assigned within a "module" block in the parent
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// module.
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refs, _ := lang.ReferencesInExpr(n.Expr)
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return refs
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}
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// GraphNodeReferenceOutside implementation
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func (n *nodeExpandModuleVariable) ReferenceOutside() (selfPath, referencePath addrs.Module) {
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return n.Module, n.Module.Parent()
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}
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// GraphNodeReferenceable
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func (n *nodeExpandModuleVariable) ReferenceableAddrs() []addrs.Referenceable {
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return []addrs.Referenceable{n.Addr}
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}
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// nodeModuleVariable represents a module variable input during
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// the apply step.
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type nodeModuleVariable struct {
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Addr addrs.AbsInputVariableInstance
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Config *configs.Variable // Config is the var in the config
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Expr hcl.Expression // Expr is the value expression given in the call
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// ModuleInstance in order to create the appropriate context for evaluating
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// ModuleCallArguments, ex. so count.index and each.key can resolve
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ModuleInstance addrs.ModuleInstance
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}
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// Ensure that we are implementing all of the interfaces we think we are
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// implementing.
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var (
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_ GraphNodeModuleInstance = (*nodeModuleVariable)(nil)
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_ GraphNodeExecutable = (*nodeModuleVariable)(nil)
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_ graphNodeTemporaryValue = (*nodeModuleVariable)(nil)
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_ dag.GraphNodeDotter = (*nodeModuleVariable)(nil)
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)
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func (n *nodeModuleVariable) temporaryValue() bool {
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return true
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}
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func (n *nodeModuleVariable) Name() string {
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return n.Addr.String()
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}
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// GraphNodeModuleInstance
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func (n *nodeModuleVariable) Path() addrs.ModuleInstance {
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// We execute in the parent scope (above our own module) because
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// expressions in our value are resolved in that context.
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return n.Addr.Module.Parent()
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}
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// GraphNodeModulePath
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func (n *nodeModuleVariable) ModulePath() addrs.Module {
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return n.Addr.Module.Module()
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}
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// GraphNodeExecutable
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func (n *nodeModuleVariable) Execute(ctx EvalContext, op walkOperation) (diags tfdiags.Diagnostics) {
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// If we have no value, do nothing
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if n.Expr == nil {
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return nil
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}
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// Otherwise, interpolate the value of this variable and set it
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// within the variables mapping.
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var vals map[string]cty.Value
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var err error
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switch op {
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case walkValidate:
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vals, err = n.EvalModuleCallArgument(ctx, true)
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diags = diags.Append(err)
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if diags.HasErrors() {
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return diags
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}
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default:
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vals, err = n.EvalModuleCallArgument(ctx, false)
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diags = diags.Append(err)
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if diags.HasErrors() {
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return diags
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}
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}
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// Set values for arguments of a child module call, for later retrieval
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// during expression evaluation.
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_, call := n.Addr.Module.CallInstance()
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ctx.SetModuleCallArguments(call, vals)
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return evalVariableValidations(n.Addr, n.Config, n.Expr, ctx)
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}
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// dag.GraphNodeDotter impl.
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func (n *nodeModuleVariable) DotNode(name string, opts *dag.DotOpts) *dag.DotNode {
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return &dag.DotNode{
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Name: name,
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Attrs: map[string]string{
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"label": n.Name(),
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"shape": "note",
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},
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}
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}
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// EvalModuleCallArgument produces the value for a particular variable as will
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// be used by a child module instance.
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//
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// The result is written into a map, with its key set to the local name of the
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// variable, disregarding the module instance address. A map is returned instead
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// of a single value as a result of trying to be convenient for use with
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// EvalContext.SetModuleCallArguments, which expects a map to merge in with any
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// existing arguments.
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//
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// validateOnly indicates that this evaluation is only for config
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// validation, and we will not have any expansion module instance
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// repetition data.
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func (n *nodeModuleVariable) EvalModuleCallArgument(ctx EvalContext, validateOnly bool) (map[string]cty.Value, error) {
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wantType := n.Config.Type
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name := n.Addr.Variable.Name
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expr := n.Expr
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if expr == nil {
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// Should never happen, but we'll bail out early here rather than
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// crash in case it does. We set no value at all in this case,
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// making a subsequent call to EvalContext.SetModuleCallArguments
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// a no-op.
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log.Printf("[ERROR] attempt to evaluate %s with nil expression", n.Addr.String())
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return nil, nil
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}
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var moduleInstanceRepetitionData instances.RepetitionData
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switch {
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case validateOnly:
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// the instance expander does not track unknown expansion values, so we
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// have to assume all RepetitionData is unknown.
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moduleInstanceRepetitionData = instances.RepetitionData{
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CountIndex: cty.UnknownVal(cty.Number),
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EachKey: cty.UnknownVal(cty.String),
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EachValue: cty.DynamicVal,
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}
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default:
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// Get the repetition data for this module instance,
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// so we can create the appropriate scope for evaluating our expression
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moduleInstanceRepetitionData = ctx.InstanceExpander().GetModuleInstanceRepetitionData(n.ModuleInstance)
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}
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scope := ctx.EvaluationScope(nil, moduleInstanceRepetitionData)
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val, diags := scope.EvalExpr(expr, cty.DynamicPseudoType)
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// We intentionally passed DynamicPseudoType to EvalExpr above because
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// now we can do our own local type conversion and produce an error message
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// with better context if it fails.
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var convErr error
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val, convErr = convert.Convert(val, wantType)
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if convErr != nil {
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diags = diags.Append(&hcl.Diagnostic{
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Severity: hcl.DiagError,
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Summary: "Invalid value for module argument",
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Detail: fmt.Sprintf(
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"The given value is not suitable for child module variable %q defined at %s: %s.",
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name, n.Config.DeclRange.String(), convErr,
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),
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Subject: expr.Range().Ptr(),
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})
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// We'll return a placeholder unknown value to avoid producing
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// redundant downstream errors.
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val = cty.UnknownVal(wantType)
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}
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vals := make(map[string]cty.Value)
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vals[name] = val
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return vals, diags.ErrWithWarnings()
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}
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