431 lines
12 KiB
Go
431 lines
12 KiB
Go
package hcl2template
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import (
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"fmt"
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"strings"
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"github.com/hashicorp/hcl/v2"
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"github.com/hashicorp/hcl/v2/ext/typeexpr"
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"github.com/hashicorp/hcl/v2/gohcl"
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"github.com/hashicorp/hcl/v2/hclsyntax"
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"github.com/zclconf/go-cty/cty"
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"github.com/zclconf/go-cty/cty/convert"
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)
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// Local represents a single entry from a "locals" block in a module or file.
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// The "locals" block itself is not represented, because it serves only to
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// provide context for us to interpret its contents.
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type LocalBlock struct {
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Name string
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Expr hcl.Expression
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}
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type Variable struct {
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// CmdValue, VarfileValue, EnvValue, DefaultValue are possible values of
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// the variable; The first value set from these will be the one used. If
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// none is set; an error will be returned if a user tries to use the
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// Variable.
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CmdValue cty.Value
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VarfileValue cty.Value
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EnvValue cty.Value
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DefaultValue cty.Value
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// Cty Type of the variable. If the default value or a collected value is
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// not of this type nor can be converted to this type an error diagnostic
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// will show up. This allows us to assume that values are valid later in
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// code.
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//
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// When a default value - and no type - is passed in the variable
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// declaration, the type of the default variable will be used. This will
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// allow to ensure that users set this variable correctly.
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Type cty.Type
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// Common name of the variable
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Name string
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// Description of the variable
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Description string
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// When Sensitive is set to true Packer will try it best to hide/obfuscate
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// the variable from the output stream. By replacing the text.
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Sensitive bool
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Range hcl.Range
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}
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func (v *Variable) GoString() string {
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return fmt.Sprintf("{Type:%s,CmdValue:%s,VarfileValue:%s,EnvValue:%s,DefaultValue:%s}",
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v.Type.GoString(),
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PrintableCtyValue(v.CmdValue),
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PrintableCtyValue(v.VarfileValue),
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PrintableCtyValue(v.EnvValue),
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PrintableCtyValue(v.DefaultValue),
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)
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}
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func (v *Variable) Value() (cty.Value, *hcl.Diagnostic) {
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for _, value := range []cty.Value{
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v.CmdValue,
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v.VarfileValue,
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v.EnvValue,
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v.DefaultValue,
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} {
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if value != cty.NilVal {
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return value, nil
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}
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}
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value := cty.NullVal(cty.DynamicPseudoType)
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return value, &hcl.Diagnostic{
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Severity: hcl.DiagError,
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Summary: fmt.Sprintf("Unset variable %q", v.Name),
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Detail: "A used variable must be set or have a default value; see " +
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"https://packer.io/docs/configuration/from-1.5/syntax for " +
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"details.",
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Context: v.Range.Ptr(),
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}
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}
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type Variables map[string]*Variable
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func (variables Variables) Values() (map[string]cty.Value, hcl.Diagnostics) {
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res := map[string]cty.Value{}
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var diags hcl.Diagnostics
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for k, v := range variables {
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value, diag := v.Value()
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if diag != nil {
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diags = append(diags, diag)
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continue
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}
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res[k] = value
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}
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return res, diags
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}
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// decodeVariable decodes a variable key and value into Variables
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func (variables *Variables) decodeVariable(key string, attr *hcl.Attribute, ectx *hcl.EvalContext) hcl.Diagnostics {
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var diags hcl.Diagnostics
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if (*variables) == nil {
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(*variables) = Variables{}
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}
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if _, found := (*variables)[key]; found {
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diags = append(diags, &hcl.Diagnostic{
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Severity: hcl.DiagError,
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Summary: "Duplicate variable",
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Detail: "Duplicate " + key + " variable definition found.",
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Subject: attr.NameRange.Ptr(),
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})
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return diags
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}
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value, moreDiags := attr.Expr.Value(ectx)
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diags = append(diags, moreDiags...)
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if moreDiags.HasErrors() {
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return diags
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}
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(*variables)[key] = &Variable{
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Name: key,
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DefaultValue: value,
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Type: value.Type(),
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Range: attr.Range,
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}
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return diags
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}
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// decodeVariableBlock decodes a "variables" section the way packer 1 used to
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func (variables *Variables) decodeVariableBlock(block *hcl.Block, ectx *hcl.EvalContext) hcl.Diagnostics {
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if (*variables) == nil {
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(*variables) = Variables{}
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}
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if _, found := (*variables)[block.Labels[0]]; found {
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return []*hcl.Diagnostic{{
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Severity: hcl.DiagError,
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Summary: "Duplicate variable",
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Detail: "Duplicate " + block.Labels[0] + " variable definition found.",
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Context: block.DefRange.Ptr(),
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}}
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}
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var b struct {
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Description string `hcl:"description,optional"`
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Sensitive bool `hcl:"sensitive,optional"`
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Rest hcl.Body `hcl:",remain"`
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}
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diags := gohcl.DecodeBody(block.Body, nil, &b)
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if diags.HasErrors() {
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return diags
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}
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name := block.Labels[0]
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res := &Variable{
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Name: name,
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Description: b.Description,
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Sensitive: b.Sensitive,
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Range: block.DefRange,
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}
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attrs, moreDiags := b.Rest.JustAttributes()
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diags = append(diags, moreDiags...)
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if t, ok := attrs["type"]; ok {
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delete(attrs, "type")
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tp, moreDiags := typeexpr.Type(t.Expr)
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diags = append(diags, moreDiags...)
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if moreDiags.HasErrors() {
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return diags
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}
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res.Type = tp
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}
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if def, ok := attrs["default"]; ok {
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delete(attrs, "default")
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defaultValue, moreDiags := def.Expr.Value(ectx)
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diags = append(diags, moreDiags...)
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if moreDiags.HasErrors() {
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return diags
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}
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if res.Type != cty.NilType {
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var err error
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defaultValue, err = convert.Convert(defaultValue, res.Type)
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if err != nil {
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diags = append(diags, &hcl.Diagnostic{
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Severity: hcl.DiagError,
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Summary: "Invalid default value for variable",
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Detail: fmt.Sprintf("This default value is not compatible with the variable's type constraint: %s.", err),
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Subject: def.Expr.Range().Ptr(),
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})
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defaultValue = cty.DynamicVal
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}
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}
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res.DefaultValue = defaultValue
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// It's possible no type attribute was assigned so lets make
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// sure we have a valid type otherwise there will be issues parsing the value.
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if res.Type == cty.NilType {
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res.Type = res.DefaultValue.Type()
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}
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}
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if len(attrs) > 0 {
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keys := []string{}
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for k := range attrs {
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keys = append(keys, k)
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}
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diags = append(diags, &hcl.Diagnostic{
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Severity: hcl.DiagWarning,
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Summary: "Unknown keys",
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Detail: fmt.Sprintf("unknown variable setting(s): %s", keys),
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Context: block.DefRange.Ptr(),
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})
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}
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(*variables)[name] = res
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return diags
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}
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// Prefix your environment variables with VarEnvPrefix so that Packer can see
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// them.
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const VarEnvPrefix = "PKR_VAR_"
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func (cfg *PackerConfig) collectInputVariableValues(env []string, files []*hcl.File, argv map[string]string) hcl.Diagnostics {
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var diags hcl.Diagnostics
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variables := cfg.InputVariables
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for _, raw := range env {
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if !strings.HasPrefix(raw, VarEnvPrefix) {
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continue
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}
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raw = raw[len(VarEnvPrefix):] // trim the prefix
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eq := strings.Index(raw, "=")
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if eq == -1 {
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// Seems invalid, so we'll ignore it.
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continue
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}
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name := raw[:eq]
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value := raw[eq+1:]
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variable, found := variables[name]
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if !found {
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// this variable was not defined in the hcl files, let's skip it !
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continue
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}
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fakeFilename := fmt.Sprintf("<value for var.%s from env>", name)
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expr, moreDiags := expressionFromVariableDefinition(fakeFilename, value, variable.Type)
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diags = append(diags, moreDiags...)
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if moreDiags.HasErrors() {
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continue
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}
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val, valDiags := expr.Value(nil)
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diags = append(diags, valDiags...)
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if variable.Type != cty.NilType {
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var err error
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val, err = convert.Convert(val, variable.Type)
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if err != nil {
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diags = append(diags, &hcl.Diagnostic{
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Severity: hcl.DiagError,
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Summary: "Invalid value for variable",
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Detail: fmt.Sprintf("The value for %s is not compatible with the variable's type constraint: %s.", name, err),
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Subject: expr.Range().Ptr(),
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})
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val = cty.DynamicVal
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}
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}
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variable.EnvValue = val
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}
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// files will contain files found in the folder then files passed as
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// arguments.
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for _, file := range files {
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// Before we do our real decode, we'll probe to see if there are any
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// blocks of type "variable" in this body, since it's a common mistake
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// for new users to put variable declarations in pkrvars rather than
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// variable value definitions, and otherwise our error message for that
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// case is not so helpful.
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{
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content, _, _ := file.Body.PartialContent(&hcl.BodySchema{
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Blocks: []hcl.BlockHeaderSchema{
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{
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Type: "variable",
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LabelNames: []string{"name"},
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},
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},
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})
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for _, block := range content.Blocks {
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name := block.Labels[0]
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diags = diags.Append(&hcl.Diagnostic{
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Severity: hcl.DiagError,
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Summary: "Variable declaration in a .pkrvar file",
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Detail: fmt.Sprintf("A .pkrvar file is used to assign "+
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"values to variables that have already been declared "+
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"in .pkr files, not to declare new variables. To "+
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"declare variable %q, place this block in one of your"+
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" .pkr files, such as variables.pkr.hcl\n\nTo set a "+
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"value for this variable in %s, use the definition "+
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"syntax instead:\n %s = <value>",
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name, block.TypeRange.Filename, name),
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Subject: &block.TypeRange,
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})
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}
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if diags.HasErrors() {
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// If we already found problems then JustAttributes below will find
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// the same problems with less-helpful messages, so we'll bail for
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// now to let the user focus on the immediate problem.
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return diags
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}
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}
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attrs, moreDiags := file.Body.JustAttributes()
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diags = append(diags, moreDiags...)
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for name, attr := range attrs {
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variable, found := variables[name]
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if !found {
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sev := hcl.DiagWarning
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if cfg.ValidationOptions.Strict {
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sev = hcl.DiagError
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}
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diags = append(diags, &hcl.Diagnostic{
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Severity: sev,
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Summary: "Undefined variable",
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Detail: fmt.Sprintf("A %q variable was set but was "+
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"not found in known variables. To declare "+
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"variable %q, place this block in one of your "+
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".pkr files, such as variables.pkr.hcl",
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name, name),
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Context: attr.Range.Ptr(),
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})
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continue
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}
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val, moreDiags := attr.Expr.Value(nil)
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diags = append(diags, moreDiags...)
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if variable.Type != cty.NilType {
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var err error
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val, err = convert.Convert(val, variable.Type)
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if err != nil {
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diags = append(diags, &hcl.Diagnostic{
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Severity: hcl.DiagError,
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Summary: "Invalid value for variable",
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Detail: fmt.Sprintf("The value for %s is not compatible with the variable's type constraint: %s.", name, err),
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Subject: attr.Expr.Range().Ptr(),
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})
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val = cty.DynamicVal
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}
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}
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variable.VarfileValue = val
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}
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}
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// Finally we process values given explicitly on the command line.
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for name, value := range argv {
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variable, found := variables[name]
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if !found {
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diags = append(diags, &hcl.Diagnostic{
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Severity: hcl.DiagError,
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Summary: "Undefined -var variable",
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Detail: fmt.Sprintf("A %q variable was passed in the command "+
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"line but was not found in known variables. "+
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"To declare variable %q, place this block in one of your"+
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" .pkr files, such as variables.pkr.hcl",
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name, name),
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})
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continue
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}
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fakeFilename := fmt.Sprintf("<value for var.%s from arguments>", name)
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expr, moreDiags := expressionFromVariableDefinition(fakeFilename, value, variable.Type)
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diags = append(diags, moreDiags...)
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if moreDiags.HasErrors() {
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continue
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}
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val, valDiags := expr.Value(nil)
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diags = append(diags, valDiags...)
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if variable.Type != cty.NilType {
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var err error
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val, err = convert.Convert(val, variable.Type)
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if err != nil {
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diags = append(diags, &hcl.Diagnostic{
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Severity: hcl.DiagError,
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Summary: "Invalid argument value for -var variable",
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Detail: fmt.Sprintf("The received arg value for %s is not compatible with the variable's type constraint: %s.", name, err),
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Subject: expr.Range().Ptr(),
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})
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val = cty.DynamicVal
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}
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}
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variable.CmdValue = val
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}
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return diags
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}
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// expressionFromVariableDefinition creates an hclsyntax.Expression that is capable of evaluating the specified value for a given cty.Type.
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// The specified filename is to identify the source of where value originated from in the diagnostics report, if there is an error.
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func expressionFromVariableDefinition(filename string, value string, variableType cty.Type) (hclsyntax.Expression, hcl.Diagnostics) {
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switch variableType {
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case cty.String, cty.Number:
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return &hclsyntax.LiteralValueExpr{Val: cty.StringVal(value)}, nil
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default:
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return hclsyntax.ParseExpression([]byte(value), filename, hcl.Pos{Line: 1, Column: 1})
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}
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}
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