2018-12-19 20:08:25 +01:00
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package jsonconfig
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import (
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"bytes"
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"encoding/json"
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"fmt"
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2019-09-10 00:58:44 +02:00
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"github.com/hashicorp/hcl/v2"
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"github.com/hashicorp/hcl/v2/hcldec"
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"github.com/hashicorp/terraform/internal/addrs"
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"github.com/hashicorp/terraform/internal/configs/configschema"
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"github.com/hashicorp/terraform/internal/lang"
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"github.com/zclconf/go-cty/cty"
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ctyjson "github.com/zclconf/go-cty/cty/json"
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)
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// expression represents any unparsed expression
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type expression struct {
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// "constant_value" is set only if the expression contains no references to
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// other objects, in which case it gives the resulting constant value. This
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// is mapped as for the individual values in the common value
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// representation.
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ConstantValue json.RawMessage `json:"constant_value,omitempty"`
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// Alternatively, "references" will be set to a list of references in the
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// expression. Multi-step references will be unwrapped and duplicated for
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// each significant traversal step, allowing callers to more easily
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// recognize the objects they care about without attempting to parse the
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// expressions. Callers should only use string equality checks here, since
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// the syntax may be extended in future releases.
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References []string `json:"references,omitempty"`
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}
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func marshalExpression(ex hcl.Expression) expression {
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var ret expression
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if ex == nil {
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return ret
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}
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val, _ := ex.Value(nil)
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if val != cty.NilVal {
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valJSON, _ := ctyjson.Marshal(val, val.Type())
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ret.ConstantValue = valJSON
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}
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refs, _ := lang.ReferencesInExpr(ex)
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if len(refs) > 0 {
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var varString []string
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for _, ref := range refs {
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// We work backwards here, starting with the full reference +
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// reamining traversal, and then unwrapping the remaining traversals
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// into parts until we end up at the smallest referencable address.
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remains := ref.Remaining
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for len(remains) > 0 {
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varString = append(varString, fmt.Sprintf("%s%s", ref.Subject, traversalStr(remains)))
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remains = remains[:(len(remains) - 1)]
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}
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varString = append(varString, ref.Subject.String())
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switch ref.Subject.(type) {
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case addrs.ModuleCallInstance:
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if ref.Subject.(addrs.ModuleCallInstance).Key != addrs.NoKey {
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// Include the module call, without the key
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varString = append(varString, ref.Subject.(addrs.ModuleCallInstance).Call.String())
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}
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case addrs.ResourceInstance:
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if ref.Subject.(addrs.ResourceInstance).Key != addrs.NoKey {
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// Include the resource, without the key
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varString = append(varString, ref.Subject.(addrs.ResourceInstance).Resource.String())
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}
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case addrs.AbsModuleCallOutput:
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// Include the module name, without the output name
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varString = append(varString, ref.Subject.(addrs.AbsModuleCallOutput).Call.String())
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}
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}
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ret.References = varString
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}
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return ret
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}
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func (e *expression) Empty() bool {
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return e.ConstantValue == nil && e.References == nil
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}
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// expressions is used to represent the entire content of a block. Attribute
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// arguments are mapped directly with the attribute name as key and an
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// expression as value.
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type expressions map[string]interface{}
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func marshalExpressions(body hcl.Body, schema *configschema.Block) expressions {
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// Since we want the raw, un-evaluated expressions we need to use the
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// low-level HCL API here, rather than the hcldec decoder API. That means we
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// need the low-level schema.
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lowSchema := hcldec.ImpliedSchema(schema.DecoderSpec())
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// (lowSchema is an hcl.BodySchema:
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// https://godoc.org/github.com/hashicorp/hcl/v2/hcl#BodySchema )
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// Use the low-level schema with the body to decode one level We'll just
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// ignore any additional content that's not covered by the schema, which
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// will effectively ignore "dynamic" blocks, and may also ignore other
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// unknown stuff but anything else would get flagged by Terraform as an
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// error anyway, and so we wouldn't end up in here.
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content, _, _ := body.PartialContent(lowSchema)
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if content == nil {
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// Should never happen for a valid body, but we'll just generate empty
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// if there were any problems.
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return nil
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}
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ret := make(expressions)
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// Any attributes we encode directly as expression objects.
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for name, attr := range content.Attributes {
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ret[name] = marshalExpression(attr.Expr) // note: singular expression for this one
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}
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// Any nested blocks require a recursive call to produce nested expressions
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// objects.
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for _, block := range content.Blocks {
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typeName := block.Type
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blockS, exists := schema.BlockTypes[typeName]
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if !exists {
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// Should never happen since only block types in the schema would be
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// put in blocks list
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continue
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}
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switch blockS.Nesting {
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case configschema.NestingSingle, configschema.NestingGroup:
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ret[typeName] = marshalExpressions(block.Body, &blockS.Block)
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case configschema.NestingList, configschema.NestingSet:
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if _, exists := ret[typeName]; !exists {
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ret[typeName] = make([]map[string]interface{}, 0, 1)
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}
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ret[typeName] = append(ret[typeName].([]map[string]interface{}), marshalExpressions(block.Body, &blockS.Block))
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case configschema.NestingMap:
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if _, exists := ret[typeName]; !exists {
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ret[typeName] = make(map[string]map[string]interface{})
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}
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// NestingMap blocks always have the key in the first (and only) label
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key := block.Labels[0]
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retMap := ret[typeName].(map[string]map[string]interface{})
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retMap[key] = marshalExpressions(block.Body, &blockS.Block)
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}
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}
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return ret
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}
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// traversalStr produces a representation of an HCL traversal that is compact,
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// resembles HCL native syntax, and is suitable for display in the UI.
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//
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// This was copied (and simplified) from internal/command/views/json/diagnostic.go.
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func traversalStr(traversal hcl.Traversal) string {
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var buf bytes.Buffer
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for _, step := range traversal {
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switch tStep := step.(type) {
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case hcl.TraverseRoot:
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buf.WriteString(tStep.Name)
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case hcl.TraverseAttr:
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buf.WriteByte('.')
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buf.WriteString(tStep.Name)
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case hcl.TraverseIndex:
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buf.WriteByte('[')
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switch tStep.Key.Type() {
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case cty.String:
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buf.WriteString(fmt.Sprintf("%q", tStep.Key.AsString()))
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case cty.Number:
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bf := tStep.Key.AsBigFloat()
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buf.WriteString(bf.Text('g', 10))
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}
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buf.WriteByte(']')
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}
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}
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return buf.String()
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}
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