mirror of https://github.com/databricks/cli.git
194 lines
5.8 KiB
Go
194 lines
5.8 KiB
Go
package mutator
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import (
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"context"
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"fmt"
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"github.com/databricks/cli/bundle"
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"github.com/databricks/cli/bundle/config/variable"
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"github.com/databricks/cli/libs/diag"
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"github.com/databricks/cli/libs/dyn"
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"github.com/databricks/cli/libs/dyn/convert"
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"github.com/databricks/cli/libs/dyn/dynvar"
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"github.com/databricks/cli/libs/log"
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)
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type resolveVariableReferences struct {
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prefixes []string
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pattern dyn.Pattern
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lookupFn func(dyn.Value, dyn.Path) (dyn.Value, error)
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skipFn func(dyn.Value) bool
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}
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func ResolveVariableReferences(prefixes ...string) bundle.Mutator {
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return &resolveVariableReferences{prefixes: prefixes, lookupFn: lookup}
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}
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func ResolveVariableReferencesInLookup() bundle.Mutator {
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return &resolveVariableReferences{prefixes: []string{
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"bundle",
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"workspace",
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"variables",
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}, pattern: dyn.NewPattern(dyn.Key("variables"), dyn.AnyKey(), dyn.Key("lookup")), lookupFn: lookupForVariables}
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}
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func ResolveVariableReferencesInComplexVariables() bundle.Mutator {
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return &resolveVariableReferences{prefixes: []string{
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"bundle",
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"workspace",
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"variables",
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},
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pattern: dyn.NewPattern(dyn.Key("variables"), dyn.AnyKey(), dyn.Key("value")),
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lookupFn: lookupForComplexVariables,
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skipFn: skipResolvingInNonComplexVariables,
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}
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}
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func lookup(v dyn.Value, path dyn.Path) (dyn.Value, error) {
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// Future opportunity: if we lookup this path in both the given root
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// and the synthesized root, we know if it was explicitly set or implied to be empty.
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// Then we can emit a warning if it was not explicitly set.
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return dyn.GetByPath(v, path)
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}
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func lookupForComplexVariables(v dyn.Value, path dyn.Path) (dyn.Value, error) {
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if path[0].Key() != "variables" {
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return lookup(v, path)
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}
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varV, err := dyn.GetByPath(v, path[:len(path)-1])
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if err != nil {
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return dyn.InvalidValue, err
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}
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var vv variable.Variable
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err = convert.ToTyped(&vv, varV)
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if err != nil {
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return dyn.InvalidValue, err
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}
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if vv.Type == variable.VariableTypeComplex {
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return dyn.InvalidValue, fmt.Errorf("complex variables cannot contain references to another complex variables")
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}
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return lookup(v, path)
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}
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func skipResolvingInNonComplexVariables(v dyn.Value) bool {
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switch v.Kind() {
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case dyn.KindMap, dyn.KindSequence:
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return false
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default:
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return true
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}
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}
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func lookupForVariables(v dyn.Value, path dyn.Path) (dyn.Value, error) {
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if path[0].Key() != "variables" {
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return lookup(v, path)
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}
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varV, err := dyn.GetByPath(v, path[:len(path)-1])
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if err != nil {
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return dyn.InvalidValue, err
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}
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var vv variable.Variable
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err = convert.ToTyped(&vv, varV)
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if err != nil {
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return dyn.InvalidValue, err
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}
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if vv.Lookup != nil && vv.Lookup.String() != "" {
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return dyn.InvalidValue, fmt.Errorf("lookup variables cannot contain references to another lookup variables")
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}
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return lookup(v, path)
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}
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func (*resolveVariableReferences) Name() string {
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return "ResolveVariableReferences"
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}
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func (m *resolveVariableReferences) Validate(ctx context.Context, b *bundle.Bundle) error {
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return nil
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}
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func (m *resolveVariableReferences) Apply(ctx context.Context, b *bundle.Bundle) diag.Diagnostics {
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prefixes := make([]dyn.Path, len(m.prefixes))
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for i, prefix := range m.prefixes {
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prefixes[i] = dyn.MustPathFromString(prefix)
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}
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// The path ${var.foo} is a shorthand for ${variables.foo.value}.
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// We rewrite it here to make the resolution logic simpler.
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varPath := dyn.NewPath(dyn.Key("var"))
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err := b.Config.Mutate(func(root dyn.Value) (dyn.Value, error) {
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// Synthesize a copy of the root that has all fields that are present in the type
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// but not set in the dynamic value set to their corresponding empty value.
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// This enables users to interpolate variable references to fields that haven't
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// been explicitly set in the dynamic value.
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//
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// For example: ${bundle.git.origin_url} should resolve to an empty string
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// if a bundle isn't located in a Git repository (yet).
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//
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// This is consistent with the behavior prior to using the dynamic value system.
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//
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// We can ignore the diagnostics return value because we know that the dynamic value
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// has already been normalized when it was first loaded from the configuration file.
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//
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normalized, _ := convert.Normalize(b.Config, root, convert.IncludeMissingFields)
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// If the pattern is nil, we resolve references in the entire configuration.
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root, err := dyn.MapByPattern(root, m.pattern, func(p dyn.Path, v dyn.Value) (dyn.Value, error) {
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// Resolve variable references in all values.
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return dynvar.Resolve(v, func(path dyn.Path) (dyn.Value, error) {
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// Rewrite the shorthand path ${var.foo} into ${variables.foo.value}.
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if path.HasPrefix(varPath) {
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newPath := dyn.NewPath(
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dyn.Key("variables"),
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path[1],
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dyn.Key("value"),
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)
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if len(path) > 2 {
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newPath = newPath.Append(path[2:]...)
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}
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path = newPath
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}
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// Perform resolution only if the path starts with one of the specified prefixes.
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for _, prefix := range prefixes {
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if path.HasPrefix(prefix) {
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// Skip resolution if there is a skip function and it returns true.
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if m.skipFn != nil && m.skipFn(v) {
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return dyn.InvalidValue, dynvar.ErrSkipResolution
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}
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return m.lookupFn(normalized, path)
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}
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}
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return dyn.InvalidValue, dynvar.ErrSkipResolution
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})
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})
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if err != nil {
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return dyn.InvalidValue, err
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}
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// Normalize the result because variable resolution may have been applied to non-string fields.
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// For example, a variable reference may have been resolved to a integer.
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root, diags := convert.Normalize(b.Config, root)
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for _, diag := range diags {
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// This occurs when a variable's resolved value is incompatible with the field's type.
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// Log a warning until we have a better way to surface these diagnostics to the user.
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log.Warnf(ctx, "normalization diagnostic: %s", diag.Summary)
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}
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return root, nil
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})
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return diag.FromErr(err)
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}
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