314 lines
9.8 KiB
Go
314 lines
9.8 KiB
Go
package terraform
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import (
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"fmt"
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"github.com/hashicorp/hcl2/hcl"
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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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"github.com/hashicorp/terraform/configs"
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"github.com/hashicorp/terraform/tfdiags"
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)
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// InputValue represents a value for a variable in the root module, provided
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// as part of the definition of an operation.
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type InputValue struct {
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Value cty.Value
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SourceType ValueSourceType
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// SourceRange provides source location information for values whose
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// SourceType is either ValueFromConfig or ValueFromFile. It is not
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// populated for other source types, and so should not be used.
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SourceRange tfdiags.SourceRange
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}
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// ValueSourceType describes what broad category of source location provided
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// a particular value.
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type ValueSourceType rune
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const (
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// ValueFromUnknown is the zero value of ValueSourceType and is not valid.
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ValueFromUnknown ValueSourceType = 0
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// ValueFromConfig indicates that a value came from a .tf or .tf.json file,
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// e.g. the default value defined for a variable.
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ValueFromConfig ValueSourceType = 'C'
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// ValueFromAutoFile indicates that a value came from a "values file", like
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// a .tfvars file, that was implicitly loaded by naming convention.
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ValueFromAutoFile ValueSourceType = 'F'
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// ValueFromNamedFile indicates that a value came from a named "values file",
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// like a .tfvars file, that was passed explicitly on the command line (e.g.
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// -var-file=foo.tfvars).
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ValueFromNamedFile ValueSourceType = 'N'
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// ValueFromCLIArg indicates that the value was provided directly in
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// a CLI argument. The name of this argument is not recorded and so it must
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// be inferred from context.
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ValueFromCLIArg ValueSourceType = 'A'
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// ValueFromEnvVar indicates that the value was provided via an environment
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// variable. The name of the variable is not recorded and so it must be
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// inferred from context.
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ValueFromEnvVar ValueSourceType = 'E'
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// ValueFromInput indicates that the value was provided at an interactive
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// input prompt.
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ValueFromInput ValueSourceType = 'I'
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// ValueFromPlan indicates that the value was retrieved from a stored plan.
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ValueFromPlan ValueSourceType = 'P'
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// ValueFromCaller indicates that the value was explicitly overridden by
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// a caller to Context.SetVariable after the context was constructed.
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ValueFromCaller ValueSourceType = 'S'
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)
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func (v *InputValue) GoString() string {
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if (v.SourceRange != tfdiags.SourceRange{}) {
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return fmt.Sprintf("&terraform.InputValue{Value: %#v, SourceType: %#v, SourceRange: %#v}", v.Value, v.SourceType, v.SourceRange)
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} else {
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return fmt.Sprintf("&terraform.InputValue{Value: %#v, SourceType: %#v}", v.Value, v.SourceType)
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}
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}
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func (v ValueSourceType) GoString() string {
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return fmt.Sprintf("terraform.%s", v)
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}
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//go:generate stringer -type ValueSourceType
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// InputValues is a map of InputValue instances.
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type InputValues map[string]*InputValue
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// InputValuesFromCaller turns the given map of naked values into an
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// InputValues that attributes each value to "a caller", using the source
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// type ValueFromCaller. This is primarily useful for testing purposes.
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//
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// This should not be used as a general way to convert map[string]cty.Value
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// into InputValues, since in most real cases we want to set a suitable
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// other SourceType and possibly SourceRange value.
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func InputValuesFromCaller(vals map[string]cty.Value) InputValues {
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ret := make(InputValues, len(vals))
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for k, v := range vals {
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ret[k] = &InputValue{
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Value: v,
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SourceType: ValueFromCaller,
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}
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}
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return ret
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}
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// Override merges the given value maps with the receiver, overriding any
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// conflicting keys so that the latest definition wins.
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func (vv InputValues) Override(others ...InputValues) InputValues {
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// FIXME: This should check to see if any of the values are maps and
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// merge them if so, in order to preserve the behavior from prior to
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// Terraform 0.12.
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ret := make(InputValues)
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for k, v := range vv {
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ret[k] = v
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}
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for _, other := range others {
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for k, v := range other {
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ret[k] = v
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}
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}
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return ret
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}
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// JustValues returns a map that just includes the values, discarding the
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// source information.
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func (vv InputValues) JustValues() map[string]cty.Value {
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ret := make(map[string]cty.Value, len(vv))
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for k, v := range vv {
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ret[k] = v.Value
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}
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return ret
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}
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// DefaultVariableValues returns an InputValues map representing the default
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// values specified for variables in the given configuration map.
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func DefaultVariableValues(configs map[string]*configs.Variable) InputValues {
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ret := make(InputValues)
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for k, c := range configs {
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if c.Default == cty.NilVal {
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continue
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}
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ret[k] = &InputValue{
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Value: c.Default,
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SourceType: ValueFromConfig,
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SourceRange: tfdiags.SourceRangeFromHCL(c.DeclRange),
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}
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}
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return ret
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}
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// SameValues returns true if the given InputValues has the same values as
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// the receiever, disregarding the source types and source ranges.
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//
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// Values are compared using the cty "RawEquals" method, which means that
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// unknown values can be considered equal to one another if they are of the
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// same type.
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func (vv InputValues) SameValues(other InputValues) bool {
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if len(vv) != len(other) {
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return false
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}
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for k, v := range vv {
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ov, exists := other[k]
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if !exists {
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return false
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}
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if !v.Value.RawEquals(ov.Value) {
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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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// HasValues returns true if the reciever has the same values as in the given
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// map, disregarding the source types and source ranges.
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//
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// Values are compared using the cty "RawEquals" method, which means that
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// unknown values can be considered equal to one another if they are of the
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// same type.
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func (vv InputValues) HasValues(vals map[string]cty.Value) bool {
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if len(vv) != len(vals) {
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return false
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}
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for k, v := range vv {
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oVal, exists := vals[k]
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if !exists {
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return false
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}
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if !v.Value.RawEquals(oVal) {
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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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// Identical returns true if the given InputValues has the same values,
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// source types, and source ranges as the receiver.
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//
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// Values are compared using the cty "RawEquals" method, which means that
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// unknown values can be considered equal to one another if they are of the
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// same type.
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//
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// This method is primarily for testing. For most practical purposes, it's
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// better to use SameValues or HasValues.
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func (vv InputValues) Identical(other InputValues) bool {
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if len(vv) != len(other) {
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return false
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}
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for k, v := range vv {
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ov, exists := other[k]
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if !exists {
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return false
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}
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if !v.Value.RawEquals(ov.Value) {
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return false
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}
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if v.SourceType != ov.SourceType {
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return false
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}
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if v.SourceRange != ov.SourceRange {
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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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// checkInputVariables ensures that variable values supplied at the UI conform
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// to their corresponding declarations in configuration.
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//
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// The set of values is considered valid only if the returned diagnostics
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// does not contain errors. A valid set of values may still produce warnings,
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// which should be returned to the user.
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func checkInputVariables(vcs map[string]*configs.Variable, vs InputValues) tfdiags.Diagnostics {
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var diags tfdiags.Diagnostics
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for name, vc := range vcs {
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val, isSet := vs[name]
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if !isSet {
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// Always an error, since the caller should already have included
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// default values from the configuration in the values map.
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diags = diags.Append(tfdiags.Sourceless(
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tfdiags.Error,
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"Unassigned variable",
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fmt.Sprintf("The input variable %q has not been assigned a value. This is a bug in Terraform; please report it in a GitHub issue.", name),
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))
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continue
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}
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wantType := vc.Type
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// A given value is valid if it can convert to the desired type.
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_, err := convert.Convert(val.Value, wantType)
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if err != nil {
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switch val.SourceType {
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case ValueFromConfig, ValueFromAutoFile, ValueFromNamedFile:
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// We have source location information for these.
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diags = diags.Append(&hcl.Diagnostic{
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Severity: hcl.DiagError,
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Summary: "Invalid value for input variable",
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Detail: fmt.Sprintf("The given value is not valid for variable %q: %s.", name, err),
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Subject: val.SourceRange.ToHCL().Ptr(),
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})
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case ValueFromEnvVar:
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diags = diags.Append(tfdiags.Sourceless(
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tfdiags.Error,
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"Invalid value for input variable",
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fmt.Sprintf("The environment variable TF_VAR_%s does not contain a valid value for variable %q: %s.", name, name, err),
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))
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case ValueFromCLIArg:
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diags = diags.Append(tfdiags.Sourceless(
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tfdiags.Error,
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"Invalid value for input variable",
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fmt.Sprintf("The argument -var=\"%s=...\" does not contain a valid value for variable %q: %s.", name, name, err),
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))
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case ValueFromInput:
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diags = diags.Append(tfdiags.Sourceless(
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tfdiags.Error,
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"Invalid value for input variable",
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fmt.Sprintf("The value entered for variable %q is not valid: %s.", name, err),
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))
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default:
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// The above gets us good coverage for the situations users
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// are likely to encounter with their own inputs. The other
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// cases are generally implementation bugs, so we'll just
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// use a generic error for these.
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diags = diags.Append(tfdiags.Sourceless(
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tfdiags.Error,
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"Invalid value for input variable",
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fmt.Sprintf("The value provided for variable %q is not valid: %s.", name, err),
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))
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}
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}
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}
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// Check for any variables that are assigned without being configured.
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// This is always an implementation error in the caller, because we
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// expect undefined variables to be caught during context construction
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// where there is better context to report it well.
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for name := range vs {
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if _, defined := vcs[name]; !defined {
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diags = diags.Append(tfdiags.Sourceless(
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tfdiags.Error,
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"Value assigned to undeclared variable",
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fmt.Sprintf("A value was assigned to an undeclared input variable %q.", name),
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))
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}
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}
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return diags
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}
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