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hcl2_shim_util.go
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hcl2_shim_util.go
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package config
import (
"fmt"
"github.com/zclconf/go-cty/cty/function/stdlib"
"github.com/hashicorp/hil/ast"
"github.com/hashicorp/terraform/config/hcl2shim"
hcl2 "github.com/hashicorp/hcl2/hcl"
"github.com/zclconf/go-cty/cty"
"github.com/zclconf/go-cty/cty/convert"
"github.com/zclconf/go-cty/cty/function"
)
// ---------------------------------------------------------------------------
// This file contains some helper functions that are used to shim between
// HCL2 concepts and HCL/HIL concepts, to help us mostly preserve the existing
// public API that was built around HCL/HIL-oriented approaches.
// ---------------------------------------------------------------------------
func hcl2InterpolationFuncs() map[string]function.Function {
hcl2Funcs := map[string]function.Function{}
for name, hilFunc := range Funcs() {
hcl2Funcs[name] = hcl2InterpolationFuncShim(hilFunc)
}
// Some functions in the old world are dealt with inside langEvalConfig
// due to their legacy reliance on direct access to the symbol table.
// Since 0.7 they don't actually need it anymore and just ignore it,
// so we're cheating a bit here and exploiting that detail by passing nil.
hcl2Funcs["lookup"] = hcl2InterpolationFuncShim(interpolationFuncLookup(nil))
hcl2Funcs["keys"] = hcl2InterpolationFuncShim(interpolationFuncKeys(nil))
hcl2Funcs["values"] = hcl2InterpolationFuncShim(interpolationFuncValues(nil))
// As a bonus, we'll provide the JSON-handling functions from the cty
// function library since its "jsonencode" is more complete (doesn't force
// weird type conversions) and HIL's type system can't represent
// "jsondecode" at all. The result of jsondecode will eventually be forced
// to conform to the HIL type system on exit into the rest of Terraform due
// to our shimming right now, but it should be usable for decoding _within_
// an expression.
hcl2Funcs["jsonencode"] = stdlib.JSONEncodeFunc
hcl2Funcs["jsondecode"] = stdlib.JSONDecodeFunc
return hcl2Funcs
}
func hcl2InterpolationFuncShim(hilFunc ast.Function) function.Function {
spec := &function.Spec{}
for i, hilArgType := range hilFunc.ArgTypes {
spec.Params = append(spec.Params, function.Parameter{
Type: hcl2shim.HCL2TypeForHILType(hilArgType),
Name: fmt.Sprintf("arg%d", i+1), // HIL args don't have names, so we'll fudge it
})
}
if hilFunc.Variadic {
spec.VarParam = &function.Parameter{
Type: hcl2shim.HCL2TypeForHILType(hilFunc.VariadicType),
Name: "varargs", // HIL args don't have names, so we'll fudge it
}
}
spec.Type = func(args []cty.Value) (cty.Type, error) {
return hcl2shim.HCL2TypeForHILType(hilFunc.ReturnType), nil
}
spec.Impl = func(args []cty.Value, retType cty.Type) (cty.Value, error) {
hilArgs := make([]interface{}, len(args))
for i, arg := range args {
hilV := hcl2shim.HILVariableFromHCL2Value(arg)
// Although the cty function system does automatic type conversions
// to match the argument types, cty doesn't distinguish int and
// float and so we may need to adjust here to ensure that the
// wrapped function gets exactly the Go type it was expecting.
var wantType ast.Type
if i < len(hilFunc.ArgTypes) {
wantType = hilFunc.ArgTypes[i]
} else {
wantType = hilFunc.VariadicType
}
switch {
case hilV.Type == ast.TypeInt && wantType == ast.TypeFloat:
hilV.Type = wantType
hilV.Value = float64(hilV.Value.(int))
case hilV.Type == ast.TypeFloat && wantType == ast.TypeInt:
hilV.Type = wantType
hilV.Value = int(hilV.Value.(float64))
}
// HIL functions actually expect to have the outermost variable
// "peeled" but any nested values (in lists or maps) will
// still have their ast.Variable wrapping.
hilArgs[i] = hilV.Value
}
hilResult, err := hilFunc.Callback(hilArgs)
if err != nil {
return cty.DynamicVal, err
}
// Just as on the way in, we get back a partially-peeled ast.Variable
// which we need to re-wrap in order to convert it back into what
// we're calling a "config value".
rv := hcl2shim.HCL2ValueFromHILVariable(ast.Variable{
Type: hilFunc.ReturnType,
Value: hilResult,
})
return convert.Convert(rv, retType) // if result is unknown we'll force the correct type here
}
return function.New(spec)
}
func hcl2EvalWithUnknownVars(expr hcl2.Expression) (cty.Value, hcl2.Diagnostics) {
trs := expr.Variables()
vars := map[string]cty.Value{}
val := cty.DynamicVal
for _, tr := range trs {
name := tr.RootName()
vars[name] = val
}
ctx := &hcl2.EvalContext{
Variables: vars,
Functions: hcl2InterpolationFuncs(),
}
return expr.Value(ctx)
}