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hcl/ext/userfunc/decode.go

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package userfunc
import (
"github.com/hashicorp/hcl/v2"
"github.com/zclconf/go-cty/cty"
"github.com/zclconf/go-cty/cty/function"
)
var funcBodySchema = &hcl.BodySchema{
Attributes: []hcl.AttributeSchema{
{
Name: "params",
Required: true,
},
{
Name: "variadic_param",
Required: false,
},
{
Name: "result",
Required: true,
},
},
}
func decodeUserFunctions(body hcl.Body, blockType string, contextFunc ContextFunc) (funcs map[string]function.Function, remain hcl.Body, diags hcl.Diagnostics) {
schema := &hcl.BodySchema{
Blocks: []hcl.BlockHeaderSchema{
{
Type: blockType,
LabelNames: []string{"name"},
},
},
}
content, remain, diags := body.PartialContent(schema)
if diags.HasErrors() {
return nil, remain, diags
}
// first call to getBaseCtx will populate context, and then the same
// context will be used for all subsequent calls. It's assumed that
// all functions in a given body should see an identical context.
var baseCtx *hcl.EvalContext
getBaseCtx := func() *hcl.EvalContext {
if baseCtx == nil {
if contextFunc != nil {
baseCtx = contextFunc()
}
}
// baseCtx might still be nil here, and that's okay
return baseCtx
}
funcs = make(map[string]function.Function)
Blocks:
for _, block := range content.Blocks {
name := block.Labels[0]
funcContent, funcDiags := block.Body.Content(funcBodySchema)
diags = append(diags, funcDiags...)
if funcDiags.HasErrors() {
continue
}
paramsExpr := funcContent.Attributes["params"].Expr
resultExpr := funcContent.Attributes["result"].Expr
var varParamExpr hcl.Expression
if funcContent.Attributes["variadic_param"] != nil {
varParamExpr = funcContent.Attributes["variadic_param"].Expr
}
var params []string
var varParam string
paramExprs, paramsDiags := hcl.ExprList(paramsExpr)
diags = append(diags, paramsDiags...)
if paramsDiags.HasErrors() {
continue
}
for _, paramExpr := range paramExprs {
param := hcl.ExprAsKeyword(paramExpr)
if param == "" {
diags = append(diags, &hcl.Diagnostic{
Severity: hcl.DiagError,
Summary: "Invalid param element",
Detail: "Each parameter name must be an identifier.",
Subject: paramExpr.Range().Ptr(),
})
continue Blocks
}
params = append(params, param)
}
if varParamExpr != nil {
varParam = hcl.ExprAsKeyword(varParamExpr)
if varParam == "" {
diags = append(diags, &hcl.Diagnostic{
Severity: hcl.DiagError,
Summary: "Invalid variadic_param",
Detail: "The variadic parameter name must be an identifier.",
Subject: varParamExpr.Range().Ptr(),
})
continue
}
}
spec := &function.Spec{}
for _, paramName := range params {
spec.Params = append(spec.Params, function.Parameter{
Name: paramName,
Type: cty.DynamicPseudoType,
})
}
if varParamExpr != nil {
spec.VarParam = &function.Parameter{
Name: varParam,
Type: cty.DynamicPseudoType,
}
}
impl := func(args []cty.Value) (cty.Value, error) {
ctx := getBaseCtx()
ctx = ctx.NewChild()
ctx.Variables = make(map[string]cty.Value)
// The cty function machinery guarantees that we have at least
// enough args to fill all of our params.
for i, paramName := range params {
ctx.Variables[paramName] = args[i]
}
if spec.VarParam != nil {
varArgs := args[len(params):]
ctx.Variables[varParam] = cty.TupleVal(varArgs)
}
result, diags := resultExpr.Value(ctx)
if diags.HasErrors() {
// Smuggle the diagnostics out via the error channel, since
// a diagnostics sequence implements error. Caller can
// type-assert this to recover the individual diagnostics
// if desired.
return cty.DynamicVal, diags
}
return result, nil
}
spec.Type = func(args []cty.Value) (cty.Type, error) {
val, err := impl(args)
return val.Type(), err
}
spec.Impl = func(args []cty.Value, retType cty.Type) (cty.Value, error) {
return impl(args)
}
funcs[name] = function.New(spec)
}
return funcs, remain, diags
}
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