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71e989ba3e
The value-conversion machinery is also needed in the main "terraform" package to help us populate our HCL2 evaluation scope, so a subset of the shim functions move here into a new package where they can be public. Some of them remain private within the config package since they depend on some other symbols in the config package, and they are not needed by outside callers anyway.
177 lines
3.5 KiB
Go
177 lines
3.5 KiB
Go
package config
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import (
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"testing"
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hcl2 "github.com/hashicorp/hcl2/hcl"
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hcl2syntax "github.com/hashicorp/hcl2/hcl/hclsyntax"
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"github.com/zclconf/go-cty/cty"
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)
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func TestHCL2InterpolationFuncs(t *testing.T) {
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// This is not a comprehensive test of all the functions (they are tested
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// in interpolation_funcs_test.go already) but rather just calling a
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// representative set via the HCL2 API to verify that the HCL2-to-HIL
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// function shim is working as expected.
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tests := []struct {
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Expr string
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Want cty.Value
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Err bool
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}{
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{
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`upper("hello")`,
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cty.StringVal("HELLO"),
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false,
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},
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{
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`abs(-2)`,
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cty.NumberIntVal(2),
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false,
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},
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{
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`abs(-2.5)`,
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cty.NumberFloatVal(2.5),
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false,
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},
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{
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`cidrsubnet("")`,
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cty.DynamicVal,
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true, // not enough arguments
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},
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{
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`cidrsubnet("10.1.0.0/16", 8, 2)`,
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cty.StringVal("10.1.2.0/24"),
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false,
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},
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{
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`concat([])`,
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// Since HIL doesn't maintain element type information for list
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// types, HCL2 can't either without elements to sniff.
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cty.ListValEmpty(cty.DynamicPseudoType),
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false,
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},
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{
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`concat([], [])`,
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cty.ListValEmpty(cty.DynamicPseudoType),
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false,
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},
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{
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`concat(["a"], ["b", "c"])`,
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cty.ListVal([]cty.Value{
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cty.StringVal("a"),
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cty.StringVal("b"),
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cty.StringVal("c"),
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}),
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false,
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},
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{
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`list()`,
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cty.ListValEmpty(cty.DynamicPseudoType),
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false,
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},
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{
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`list("a", "b", "c")`,
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cty.ListVal([]cty.Value{
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cty.StringVal("a"),
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cty.StringVal("b"),
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cty.StringVal("c"),
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}),
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false,
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},
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{
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`list(list("a"), list("b"), list("c"))`,
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// The types emerge here in a bit of a strange tangle because of
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// the guesswork we do when trying to recover lost information from
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// HIL, but the rest of the language doesn't really care whether
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// we use lists or tuples here as long as we are consistent with
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// the type system invariants.
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cty.ListVal([]cty.Value{
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cty.TupleVal([]cty.Value{cty.StringVal("a")}),
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cty.TupleVal([]cty.Value{cty.StringVal("b")}),
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cty.TupleVal([]cty.Value{cty.StringVal("c")}),
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}),
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false,
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},
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{
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`list(list("a"), "b")`,
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cty.DynamicVal,
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true, // inconsistent types
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},
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{
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`length([])`,
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cty.NumberIntVal(0),
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false,
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},
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{
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`length([2])`,
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cty.NumberIntVal(1),
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false,
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},
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{
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`jsonencode(2)`,
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cty.StringVal(`2`),
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false,
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},
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{
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`jsonencode(true)`,
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cty.StringVal(`true`),
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false,
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},
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{
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`jsonencode("foo")`,
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cty.StringVal(`"foo"`),
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false,
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},
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{
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`jsonencode({})`,
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cty.StringVal(`{}`),
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false,
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},
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{
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`jsonencode([1])`,
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cty.StringVal(`[1]`),
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false,
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},
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{
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`jsondecode("{}")`,
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cty.EmptyObjectVal,
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false,
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},
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{
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`jsondecode("[5, true]")[0]`,
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cty.NumberIntVal(5),
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false,
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},
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}
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for _, test := range tests {
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t.Run(test.Expr, func(t *testing.T) {
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expr, diags := hcl2syntax.ParseExpression([]byte(test.Expr), "", hcl2.Pos{Line: 1, Column: 1})
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if len(diags) != 0 {
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for _, diag := range diags {
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t.Logf("- %s", diag)
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}
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t.Fatalf("unexpected diagnostics while parsing expression")
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}
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got, diags := expr.Value(&hcl2.EvalContext{
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Functions: hcl2InterpolationFuncs(),
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})
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gotErr := diags.HasErrors()
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if gotErr != test.Err {
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if test.Err {
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t.Errorf("expected errors but got none")
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} else {
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t.Errorf("unexpected errors")
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for _, diag := range diags {
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t.Logf("- %s", diag)
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}
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}
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}
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if !got.RawEquals(test.Want) {
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t.Errorf("wrong result\nexpr: %s\ngot: %#v\nwant: %#v", test.Expr, got, test.Want)
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}
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})
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}
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}
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