terraform/configs/configupgrade/upgrade_body.go

package configupgrade

import (
	"bytes"
	"fmt"

	hcl1ast "github.com/hashicorp/hcl/hcl/ast"
	hcl1printer "github.com/hashicorp/hcl/hcl/printer"
	hcl1token "github.com/hashicorp/hcl/hcl/token"
	hcl2 "github.com/hashicorp/hcl2/hcl"
	hcl2syntax "github.com/hashicorp/hcl2/hcl/hclsyntax"
	"github.com/zclconf/go-cty/cty"

	"github.com/hashicorp/terraform/configs/configschema"
	"github.com/hashicorp/terraform/tfdiags"
)

// bodyContentRules is a mapping from item names (argument names and block type
// names) to a "rule" function defining what to do with an item of that type.
type bodyContentRules map[string]bodyItemRule

// bodyItemRule is just a function to write an upgraded representation of a
// particular given item to the given buffer. This is generic to handle various
// different mapping rules, though most values will be those constructed by
// other helper functions below.
type bodyItemRule func(buf *bytes.Buffer, blockAddr string, item *hcl1ast.ObjectItem) tfdiags.Diagnostics

func normalAttributeRule(filename string, wantTy cty.Type, an *analysis) bodyItemRule {
	exprRule := func(val interface{}) ([]byte, tfdiags.Diagnostics) {
		return upgradeExpr(val, filename, true, an)
	}
	return attributeRule(filename, wantTy, an, exprRule)
}

func noInterpAttributeRule(filename string, wantTy cty.Type, an *analysis) bodyItemRule {
	exprRule := func(val interface{}) ([]byte, tfdiags.Diagnostics) {
		return upgradeExpr(val, filename, false, an)
	}
	return attributeRule(filename, wantTy, an, exprRule)
}

func maybeBareKeywordAttributeRule(filename string, an *analysis, specials map[string]string) bodyItemRule {
	exprRule := func(val interface{}) ([]byte, tfdiags.Diagnostics) {
		// If the expression is a literal that would be valid as a naked keyword
		// then we'll turn it into one.
		if lit, isLit := val.(*hcl1ast.LiteralType); isLit {
			if lit.Token.Type == hcl1token.STRING {
				kw := lit.Token.Value().(string)
				if hcl2syntax.ValidIdentifier(kw) {

					// If we have a special mapping rule for this keyword,
					// we'll let that override what the user gave.
					if override := specials[kw]; override != "" {
						kw = override
					}

					return []byte(kw), nil
				}
			}
		}

		return upgradeExpr(val, filename, false, an)
	}
	return attributeRule(filename, cty.String, an, exprRule)
}

func maybeBareTraversalAttributeRule(filename string, an *analysis) bodyItemRule {
	exprRule := func(val interface{}) ([]byte, tfdiags.Diagnostics) {
		// If the expression is a literal that would be valid as a naked
		// absolute traversal then we'll turn it into one.
		if lit, isLit := val.(*hcl1ast.LiteralType); isLit {
			if lit.Token.Type == hcl1token.STRING {
				trStr := lit.Token.Value().(string)
				trSrc := []byte(trStr)
				_, trDiags := hcl2syntax.ParseTraversalAbs(trSrc, "", hcl2.Pos{})
				if !trDiags.HasErrors() {
					return trSrc, nil
				}
			}
		}

		return upgradeExpr(val, filename, false, an)
	}
	return attributeRule(filename, cty.String, an, exprRule)
}

func dependsOnAttributeRule(filename string, an *analysis) bodyItemRule {
	// FIXME: Should dig into the individual list items here and try to unwrap
	// them as naked references, as well as upgrading any legacy-style index
	// references like aws_instance.foo.0 to be aws_instance.foo[0] instead.
	exprRule := func(val interface{}) ([]byte, tfdiags.Diagnostics) {
		return upgradeExpr(val, filename, false, an)
	}
	return attributeRule(filename, cty.List(cty.String), an, exprRule)
}

func attributeRule(filename string, wantTy cty.Type, an *analysis, upgradeExpr func(val interface{}) ([]byte, tfdiags.Diagnostics)) bodyItemRule {
	return func(buf *bytes.Buffer, blockAddr string, item *hcl1ast.ObjectItem) tfdiags.Diagnostics {
		var diags tfdiags.Diagnostics

		name := item.Keys[0].Token.Value().(string)

		// We'll tolerate a block with no labels here as a degenerate
		// way to assign a map, but we can't migrate a block that has
		// labels. In practice this should never happen because
		// nested blocks in resource blocks did not accept labels
		// prior to v0.12.
		if len(item.Keys) != 1 {
			diags = diags.Append(&hcl2.Diagnostic{
				Severity: hcl2.DiagError,
				Summary:  "Block where attribute was expected",
				Detail:   fmt.Sprintf("Within %s the name %q is an attribute name, not a block type.", blockAddr, name),
				Subject:  hcl1PosRange(filename, item.Keys[0].Pos()).Ptr(),
			})
			return diags
		}

		valSrc, valDiags := upgradeExpr(item.Val)
		diags = diags.Append(valDiags)
		printAttribute(buf, item.Keys[0].Token.Value().(string), valSrc, item.LineComment)

		return diags
	}
}

func nestedBlockRule(filename string, nestedRules bodyContentRules, an *analysis) bodyItemRule {
	return func(buf *bytes.Buffer, blockAddr string, item *hcl1ast.ObjectItem) tfdiags.Diagnostics {
		// TODO: Deal with this.
		// In particular we need to handle the tricky case where
		// a user attempts to treat a block type name like it's
		// an attribute, by producing a "dynamic" block.
		hcl1printer.Fprint(buf, item)
		buf.WriteByte('\n')
		return nil
	}
}

// schemaDefaultBodyRules constructs standard body content rules for the given
// schema. Each call is guaranteed to produce a distinct object so that
// callers can safely mutate the result in order to impose custom rules
// in addition to or instead of those created by default, for situations
// where schema-based and predefined items mix in a single body.
func schemaDefaultBodyRules(filename string, schema *configschema.Block, an *analysis) bodyContentRules {
	ret := make(bodyContentRules)
	if schema == nil {
		// Shouldn't happen in any real case, but often crops up in tests
		// where the mock schemas tend to be incomplete.
		return ret
	}

	for name, attrS := range schema.Attributes {
		ret[name] = normalAttributeRule(filename, attrS.Type, an)
	}
	for name, blockS := range schema.BlockTypes {
		nestedRules := schemaDefaultBodyRules(filename, &blockS.Block, an)
		ret[name] = nestedBlockRule(filename, nestedRules, an)
	}

	return ret
}

// schemaNoInterpBodyRules constructs standard body content rules for the given
// schema. Each call is guaranteed to produce a distinct object so that
// callers can safely mutate the result in order to impose custom rules
// in addition to or instead of those created by default, for situations
// where schema-based and predefined items mix in a single body.
func schemaNoInterpBodyRules(filename string, schema *configschema.Block, an *analysis) bodyContentRules {
	ret := make(bodyContentRules)
	if schema == nil {
		// Shouldn't happen in any real case, but often crops up in tests
		// where the mock schemas tend to be incomplete.
		return ret
	}

	for name, attrS := range schema.Attributes {
		ret[name] = noInterpAttributeRule(filename, attrS.Type, an)
	}
	for name, blockS := range schema.BlockTypes {
		nestedRules := schemaDefaultBodyRules(filename, &blockS.Block, an)
		ret[name] = nestedBlockRule(filename, nestedRules, an)
	}

	return ret
}
configs/configupgrade: Generalize migration of block bodies The main area of interest in upgrading is dealing with special cases for individual block items, so this generalization allows us to use the same overall body-processing logic for everything but to specialize just how individual items are dealt with, which we match by their names as given in the original input source code. 2018-12-01 00:25:04 +01:00			`package configupgrade`

			`import (`
			`"bytes"`
			`"fmt"`

			`hcl1ast "github.com/hashicorp/hcl/hcl/ast"`
			`hcl1printer "github.com/hashicorp/hcl/hcl/printer"`
			`hcl1token "github.com/hashicorp/hcl/hcl/token"`
			`hcl2 "github.com/hashicorp/hcl2/hcl"`
			`hcl2syntax "github.com/hashicorp/hcl2/hcl/hclsyntax"`
			`"github.com/zclconf/go-cty/cty"`

			`"github.com/hashicorp/terraform/configs/configschema"`
			`"github.com/hashicorp/terraform/tfdiags"`
			`)`

			`// bodyContentRules is a mapping from item names (argument names and block type`
			`// names) to a "rule" function defining what to do with an item of that type.`
			`type bodyContentRules map[string]bodyItemRule`

			`// bodyItemRule is just a function to write an upgraded representation of a`
			`// particular given item to the given buffer. This is generic to handle various`
			`// different mapping rules, though most values will be those constructed by`
			`// other helper functions below.`
			`type bodyItemRule func(buf bytes.Buffer, blockAddr string, item hcl1ast.ObjectItem) tfdiags.Diagnostics`

			`func normalAttributeRule(filename string, wantTy cty.Type, an *analysis) bodyItemRule {`
			`exprRule := func(val interface{}) ([]byte, tfdiags.Diagnostics) {`
			`return upgradeExpr(val, filename, true, an)`
			`}`
			`return attributeRule(filename, wantTy, an, exprRule)`
			`}`

			`func noInterpAttributeRule(filename string, wantTy cty.Type, an *analysis) bodyItemRule {`
			`exprRule := func(val interface{}) ([]byte, tfdiags.Diagnostics) {`
			`return upgradeExpr(val, filename, false, an)`
			`}`
			`return attributeRule(filename, wantTy, an, exprRule)`
			`}`

			`func maybeBareKeywordAttributeRule(filename string, an *analysis, specials map[string]string) bodyItemRule {`
			`exprRule := func(val interface{}) ([]byte, tfdiags.Diagnostics) {`
			`// If the expression is a literal that would be valid as a naked keyword`
			`// then we'll turn it into one.`
			`if lit, isLit := val.(*hcl1ast.LiteralType); isLit {`
			`if lit.Token.Type == hcl1token.STRING {`
			`kw := lit.Token.Value().(string)`
			`if hcl2syntax.ValidIdentifier(kw) {`

			`// If we have a special mapping rule for this keyword,`
			`// we'll let that override what the user gave.`
			`if override := specials[kw]; override != "" {`
			`kw = override`
			`}`

			`return []byte(kw), nil`
			`}`
			`}`
			`}`

			`return upgradeExpr(val, filename, false, an)`
			`}`
			`return attributeRule(filename, cty.String, an, exprRule)`
			`}`

			`func maybeBareTraversalAttributeRule(filename string, an *analysis) bodyItemRule {`
			`exprRule := func(val interface{}) ([]byte, tfdiags.Diagnostics) {`
			`// If the expression is a literal that would be valid as a naked`
			`// absolute traversal then we'll turn it into one.`
			`if lit, isLit := val.(*hcl1ast.LiteralType); isLit {`
			`if lit.Token.Type == hcl1token.STRING {`
			`trStr := lit.Token.Value().(string)`
			`trSrc := []byte(trStr)`
			`_, trDiags := hcl2syntax.ParseTraversalAbs(trSrc, "", hcl2.Pos{})`
			`if !trDiags.HasErrors() {`
			`return trSrc, nil`
			`}`
			`}`
			`}`

			`return upgradeExpr(val, filename, false, an)`
			`}`
			`return attributeRule(filename, cty.String, an, exprRule)`
			`}`

			`func dependsOnAttributeRule(filename string, an *analysis) bodyItemRule {`
			`// FIXME: Should dig into the individual list items here and try to unwrap`
			`// them as naked references, as well as upgrading any legacy-style index`
			`// references like aws_instance.foo.0 to be aws_instance.foo[0] instead.`
			`exprRule := func(val interface{}) ([]byte, tfdiags.Diagnostics) {`
			`return upgradeExpr(val, filename, false, an)`
			`}`
			`return attributeRule(filename, cty.List(cty.String), an, exprRule)`
			`}`

			`func attributeRule(filename string, wantTy cty.Type, an *analysis, upgradeExpr func(val interface{}) ([]byte, tfdiags.Diagnostics)) bodyItemRule {`
			`return func(buf bytes.Buffer, blockAddr string, item hcl1ast.ObjectItem) tfdiags.Diagnostics {`
			`var diags tfdiags.Diagnostics`

			`name := item.Keys[0].Token.Value().(string)`

			`// We'll tolerate a block with no labels here as a degenerate`
			`// way to assign a map, but we can't migrate a block that has`
			`// labels. In practice this should never happen because`
			`// nested blocks in resource blocks did not accept labels`
			`// prior to v0.12.`
			`if len(item.Keys) != 1 {`
			`diags = diags.Append(&hcl2.Diagnostic{`
			`Severity: hcl2.DiagError,`
			`Summary: "Block where attribute was expected",`
			`Detail: fmt.Sprintf("Within %s the name %q is an attribute name, not a block type.", blockAddr, name),`
			`Subject: hcl1PosRange(filename, item.Keys[0].Pos()).Ptr(),`
			`})`
			`return diags`
			`}`

			`valSrc, valDiags := upgradeExpr(item.Val)`
			`diags = diags.Append(valDiags)`
			`printAttribute(buf, item.Keys[0].Token.Value().(string), valSrc, item.LineComment)`

			`return diags`
			`}`
			`}`

			`func nestedBlockRule(filename string, nestedRules bodyContentRules, an *analysis) bodyItemRule {`
			`return func(buf bytes.Buffer, blockAddr string, item hcl1ast.ObjectItem) tfdiags.Diagnostics {`
			`// TODO: Deal with this.`
			`// In particular we need to handle the tricky case where`
			`// a user attempts to treat a block type name like it's`
			`// an attribute, by producing a "dynamic" block.`
			`hcl1printer.Fprint(buf, item)`
			`buf.WriteByte('\n')`
			`return nil`
			`}`
			`}`

			`// schemaDefaultBodyRules constructs standard body content rules for the given`
			`// schema. Each call is guaranteed to produce a distinct object so that`
			`// callers can safely mutate the result in order to impose custom rules`
			`// in addition to or instead of those created by default, for situations`
			`// where schema-based and predefined items mix in a single body.`
			`func schemaDefaultBodyRules(filename string, schema configschema.Block, an analysis) bodyContentRules {`
			`ret := make(bodyContentRules)`
			`if schema == nil {`
			`// Shouldn't happen in any real case, but often crops up in tests`
			`// where the mock schemas tend to be incomplete.`
			`return ret`
			`}`

			`for name, attrS := range schema.Attributes {`
			`ret[name] = normalAttributeRule(filename, attrS.Type, an)`
			`}`
			`for name, blockS := range schema.BlockTypes {`
			`nestedRules := schemaDefaultBodyRules(filename, &blockS.Block, an)`
			`ret[name] = nestedBlockRule(filename, nestedRules, an)`
			`}`

			`return ret`
			`}`
configs/configupgrade: Upgrade rules for the "terraform" block type This includes the backend configuration, so we need to load the requested backend and migrate the included configuration per that schema. 2018-12-01 00:56:03 +01:00
			`// schemaNoInterpBodyRules constructs standard body content rules for the given`
			`// schema. Each call is guaranteed to produce a distinct object so that`
			`// callers can safely mutate the result in order to impose custom rules`
			`// in addition to or instead of those created by default, for situations`
			`// where schema-based and predefined items mix in a single body.`
			`func schemaNoInterpBodyRules(filename string, schema configschema.Block, an analysis) bodyContentRules {`
			`ret := make(bodyContentRules)`
			`if schema == nil {`
			`// Shouldn't happen in any real case, but often crops up in tests`
			`// where the mock schemas tend to be incomplete.`
			`return ret`
			`}`

			`for name, attrS := range schema.Attributes {`
			`ret[name] = noInterpAttributeRule(filename, attrS.Type, an)`
			`}`
			`for name, blockS := range schema.BlockTypes {`
			`nestedRules := schemaDefaultBodyRules(filename, &blockS.Block, an)`
			`ret[name] = nestedBlockRule(filename, nestedRules, an)`
			`}`

			`return ret`
			`}`