217 lines
4.9 KiB
Go
217 lines
4.9 KiB
Go
package schema
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import (
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"fmt"
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"strconv"
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)
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// FieldReaders are responsible for decoding fields out of data into
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// the proper typed representation. ResourceData uses this to query data
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// out of multiple sources: config, state, diffs, etc.
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type FieldReader interface {
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ReadField([]string) (FieldReadResult, error)
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}
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// FieldReadResult encapsulates all the resulting data from reading
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// a field.
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type FieldReadResult struct {
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// Value is the actual read value. NegValue is the _negative_ value
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// or the items that should be removed (if they existed). NegValue
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// doesn't make sense for primitives but is important for any
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// container types such as maps, sets, lists.
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Value interface{}
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ValueProcessed interface{}
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// Exists is true if the field was found in the data. False means
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// it wasn't found if there was no error.
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Exists bool
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// Computed is true if the field was found but the value
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// is computed.
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Computed bool
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}
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// ValueOrZero returns the value of this result or the zero value of the
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// schema type, ensuring a consistent non-nil return value.
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func (r *FieldReadResult) ValueOrZero(s *Schema) interface{} {
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if r.Value != nil {
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return r.Value
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}
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return s.ZeroValue()
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}
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// addrToSchema finds the final element schema for the given address
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// and the given schema. It returns all the schemas that led to the final
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// schema. These are in order of the address (out to in).
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func addrToSchema(addr []string, schemaMap map[string]*Schema) []*Schema {
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current := &Schema{
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Type: typeObject,
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Elem: schemaMap,
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}
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// If we aren't given an address, then the user is requesting the
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// full object, so we return the special value which is the full object.
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if len(addr) == 0 {
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return []*Schema{current}
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}
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result := make([]*Schema, 0, len(addr))
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for len(addr) > 0 {
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k := addr[0]
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addr = addr[1:]
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REPEAT:
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// We want to trim off the first "typeObject" since its not a
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// real lookup that people do. i.e. []string{"foo"} in a structure
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// isn't {typeObject, typeString}, its just a {typeString}.
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if len(result) > 0 || current.Type != typeObject {
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result = append(result, current)
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}
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switch t := current.Type; t {
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case TypeBool, TypeInt, TypeFloat, TypeString:
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if len(addr) > 0 {
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return nil
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}
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case TypeList, TypeSet:
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switch v := current.Elem.(type) {
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case *Resource:
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current = &Schema{
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Type: typeObject,
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Elem: v.Schema,
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}
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case *Schema:
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current = v
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default:
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return nil
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}
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// If we only have one more thing and the next thing
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// is a #, then we're accessing the index which is always
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// an int.
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if len(addr) > 0 && addr[0] == "#" {
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current = &Schema{Type: TypeInt}
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break
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}
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case TypeMap:
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if len(addr) > 0 {
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current = &Schema{Type: TypeString}
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}
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case typeObject:
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// If we're already in the object, then we want to handle Sets
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// and Lists specially. Basically, their next key is the lookup
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// key (the set value or the list element). For these scenarios,
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// we just want to skip it and move to the next element if there
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// is one.
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if len(result) > 0 {
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lastType := result[len(result)-2].Type
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if lastType == TypeSet || lastType == TypeList {
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if len(addr) == 0 {
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break
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}
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k = addr[0]
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addr = addr[1:]
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}
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}
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m := current.Elem.(map[string]*Schema)
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val, ok := m[k]
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if !ok {
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return nil
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}
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current = val
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goto REPEAT
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}
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}
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return result
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}
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// readObjectField is a generic method for reading objects out of FieldReaders
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// based on the assumption that building an address of []string{k, FIELD}
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// will result in the proper field data.
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func readObjectField(
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r FieldReader,
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addr []string,
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schema map[string]*Schema) (FieldReadResult, error) {
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result := make(map[string]interface{})
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exists := false
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for field, s := range schema {
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addrRead := make([]string, len(addr), len(addr)+1)
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copy(addrRead, addr)
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addrRead = append(addrRead, field)
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rawResult, err := r.ReadField(addrRead)
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if err != nil {
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return FieldReadResult{}, err
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}
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if rawResult.Exists {
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exists = true
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}
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result[field] = rawResult.ValueOrZero(s)
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}
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return FieldReadResult{
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Value: result,
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Exists: exists,
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}, nil
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}
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func stringToPrimitive(
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value string, computed bool, schema *Schema) (interface{}, error) {
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var returnVal interface{}
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switch schema.Type {
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case TypeBool:
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if value == "" {
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returnVal = false
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break
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}
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v, err := strconv.ParseBool(value)
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if err != nil {
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return nil, err
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}
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returnVal = v
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case TypeFloat:
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if value == "" {
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returnVal = 0.0
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break
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}
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if computed {
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break
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}
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v, err := strconv.ParseFloat(value, 64)
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if err != nil {
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return nil, err
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}
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returnVal = v
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case TypeInt:
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if value == "" {
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returnVal = 0
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break
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}
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if computed {
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break
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}
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v, err := strconv.ParseInt(value, 0, 0)
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if err != nil {
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return nil, err
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}
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returnVal = int(v)
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case TypeString:
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returnVal = value
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default:
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panic(fmt.Sprintf("Unknown type: %s", schema.Type))
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}
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return returnVal, nil
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}
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