package config import ( "bytes" "encoding/base64" "errors" "fmt" "io/ioutil" "regexp" "sort" "strconv" "strings" "github.com/hashicorp/terraform/config/lang/ast" "github.com/mitchellh/go-homedir" ) // Funcs is the mapping of built-in functions for configuration. var Funcs map[string]ast.Function func init() { Funcs = map[string]ast.Function{ "compact": interpolationFuncCompact(), "concat": interpolationFuncConcat(), "element": interpolationFuncElement(), "file": interpolationFuncFile(), "format": interpolationFuncFormat(), "formatlist": interpolationFuncFormatList(), "index": interpolationFuncIndex(), "join": interpolationFuncJoin(), "length": interpolationFuncLength(), "lower": interpolationFuncLower(), "replace": interpolationFuncReplace(), "split": interpolationFuncSplit(), "base64encode": interpolationFuncBase64Encode(), "base64decode": interpolationFuncBase64Decode(), "upper": interpolationFuncUpper(), } } // interpolationFuncCompact strips a list of multi-variable values // (e.g. as returned by "split") of any empty strings. func interpolationFuncCompact() ast.Function { return ast.Function{ ArgTypes: []ast.Type{ast.TypeString}, ReturnType: ast.TypeString, Variadic: false, Callback: func(args []interface{}) (interface{}, error) { if !IsStringList(args[0].(string)) { return args[0].(string), nil } return StringList(args[0].(string)).Compact().String(), nil }, } } // interpolationFuncConcat implements the "concat" function that // concatenates multiple strings. This isn't actually necessary anymore // since our language supports string concat natively, but for backwards // compat we do this. func interpolationFuncConcat() ast.Function { return ast.Function{ ArgTypes: []ast.Type{ast.TypeString}, ReturnType: ast.TypeString, Variadic: true, VariadicType: ast.TypeString, Callback: func(args []interface{}) (interface{}, error) { var b bytes.Buffer var finalList []string var isDeprecated = true for _, arg := range args { argument := arg.(string) if len(argument) == 0 { continue } if IsStringList(argument) { isDeprecated = false finalList = append(finalList, StringList(argument).Slice()...) } else { finalList = append(finalList, argument) } // Deprecated concat behaviour b.WriteString(argument) } if isDeprecated { return b.String(), nil } return NewStringList(finalList).String(), nil }, } } // interpolationFuncFile implements the "file" function that allows // loading contents from a file. func interpolationFuncFile() ast.Function { return ast.Function{ ArgTypes: []ast.Type{ast.TypeString}, ReturnType: ast.TypeString, Callback: func(args []interface{}) (interface{}, error) { path, err := homedir.Expand(args[0].(string)) if err != nil { return "", err } data, err := ioutil.ReadFile(path) if err != nil { return "", err } return string(data), nil }, } } // interpolationFuncFormat implements the "format" function that does // string formatting. func interpolationFuncFormat() ast.Function { return ast.Function{ ArgTypes: []ast.Type{ast.TypeString}, Variadic: true, VariadicType: ast.TypeAny, ReturnType: ast.TypeString, Callback: func(args []interface{}) (interface{}, error) { format := args[0].(string) return fmt.Sprintf(format, args[1:]...), nil }, } } // interpolationFuncFormatList implements the "formatlist" function that does // string formatting on lists. func interpolationFuncFormatList() ast.Function { return ast.Function{ ArgTypes: []ast.Type{ast.TypeString}, Variadic: true, VariadicType: ast.TypeAny, ReturnType: ast.TypeString, Callback: func(args []interface{}) (interface{}, error) { // Make a copy of the variadic part of args // to avoid modifying the original. varargs := make([]interface{}, len(args)-1) copy(varargs, args[1:]) // Convert arguments that are lists into slices. // Confirm along the way that all lists have the same length (n). var n int for i := 1; i < len(args); i++ { s, ok := args[i].(string) if !ok { continue } if !IsStringList(s) { continue } parts := StringList(s).Slice() // otherwise the list is sent down to be indexed varargs[i-1] = parts // Check length if n == 0 { // first list we've seen n = len(parts) continue } if n != len(parts) { return nil, fmt.Errorf("format: mismatched list lengths: %d != %d", n, len(parts)) } } if n == 0 { return nil, errors.New("no lists in arguments to formatlist") } // Do the formatting. format := args[0].(string) // Generate a list of formatted strings. list := make([]string, n) fmtargs := make([]interface{}, len(varargs)) for i := 0; i < n; i++ { for j, arg := range varargs { switch arg := arg.(type) { default: fmtargs[j] = arg case []string: fmtargs[j] = arg[i] } } list[i] = fmt.Sprintf(format, fmtargs...) } return NewStringList(list).String(), nil }, } } // interpolationFuncIndex implements the "index" function that allows one to // find the index of a specific element in a list func interpolationFuncIndex() ast.Function { return ast.Function{ ArgTypes: []ast.Type{ast.TypeString, ast.TypeString}, ReturnType: ast.TypeInt, Callback: func(args []interface{}) (interface{}, error) { haystack := StringList(args[0].(string)).Slice() needle := args[1].(string) for index, element := range haystack { if needle == element { return index, nil } } return nil, fmt.Errorf("Could not find '%s' in '%s'", needle, haystack) }, } } // interpolationFuncJoin implements the "join" function that allows // multi-variable values to be joined by some character. func interpolationFuncJoin() ast.Function { return ast.Function{ ArgTypes: []ast.Type{ast.TypeString, ast.TypeString}, ReturnType: ast.TypeString, Callback: func(args []interface{}) (interface{}, error) { var list []string for _, arg := range args[1:] { parts := StringList(arg.(string)).Slice() list = append(list, parts...) } return strings.Join(list, args[0].(string)), nil }, } } // interpolationFuncReplace implements the "replace" function that does // string replacement. func interpolationFuncReplace() ast.Function { return ast.Function{ ArgTypes: []ast.Type{ast.TypeString, ast.TypeString, ast.TypeString}, ReturnType: ast.TypeString, Callback: func(args []interface{}) (interface{}, error) { s := args[0].(string) search := args[1].(string) replace := args[2].(string) // We search/replace using a regexp if the string is surrounded // in forward slashes. if len(search) > 1 && search[0] == '/' && search[len(search)-1] == '/' { re, err := regexp.Compile(search[1 : len(search)-1]) if err != nil { return nil, err } return re.ReplaceAllString(s, replace), nil } return strings.Replace(s, search, replace, -1), nil }, } } func interpolationFuncLength() ast.Function { return ast.Function{ ArgTypes: []ast.Type{ast.TypeString}, ReturnType: ast.TypeInt, Variadic: false, Callback: func(args []interface{}) (interface{}, error) { if !IsStringList(args[0].(string)) { return len(args[0].(string)), nil } length := 0 for _, arg := range args { length += StringList(arg.(string)).Length() } return length, nil }, } } // interpolationFuncSplit implements the "split" function that allows // strings to split into multi-variable values func interpolationFuncSplit() ast.Function { return ast.Function{ ArgTypes: []ast.Type{ast.TypeString, ast.TypeString}, ReturnType: ast.TypeString, Callback: func(args []interface{}) (interface{}, error) { sep := args[0].(string) s := args[1].(string) return NewStringList(strings.Split(s, sep)).String(), nil }, } } // interpolationFuncLookup implements the "lookup" function that allows // dynamic lookups of map types within a Terraform configuration. func interpolationFuncLookup(vs map[string]ast.Variable) ast.Function { return ast.Function{ ArgTypes: []ast.Type{ast.TypeString, ast.TypeString}, ReturnType: ast.TypeString, Callback: func(args []interface{}) (interface{}, error) { k := fmt.Sprintf("var.%s.%s", args[0].(string), args[1].(string)) v, ok := vs[k] if !ok { return "", fmt.Errorf( "lookup in '%s' failed to find '%s'", args[0].(string), args[1].(string)) } if v.Type != ast.TypeString { return "", fmt.Errorf( "lookup in '%s' for '%s' has bad type %s", args[0].(string), args[1].(string), v.Type) } return v.Value.(string), nil }, } } // interpolationFuncElement implements the "element" function that allows // a specific index to be looked up in a multi-variable value. Note that this will // wrap if the index is larger than the number of elements in the multi-variable value. func interpolationFuncElement() ast.Function { return ast.Function{ ArgTypes: []ast.Type{ast.TypeString, ast.TypeString}, ReturnType: ast.TypeString, Callback: func(args []interface{}) (interface{}, error) { list := StringList(args[0].(string)) index, err := strconv.Atoi(args[1].(string)) if err != nil { return "", fmt.Errorf( "invalid number for index, got %s", args[1]) } v := list.Element(index) return v, nil }, } } // interpolationFuncKeys implements the "keys" function that yields a list of // keys of map types within a Terraform configuration. func interpolationFuncKeys(vs map[string]ast.Variable) ast.Function { return ast.Function{ ArgTypes: []ast.Type{ast.TypeString}, ReturnType: ast.TypeString, Callback: func(args []interface{}) (interface{}, error) { // Prefix must include ending dot to be a map prefix := fmt.Sprintf("var.%s.", args[0].(string)) keys := make([]string, 0, len(vs)) for k, _ := range vs { if !strings.HasPrefix(k, prefix) { continue } keys = append(keys, k[len(prefix):]) } if len(keys) <= 0 { return "", fmt.Errorf( "failed to find map '%s'", args[0].(string)) } sort.Strings(keys) return NewStringList(keys).String(), nil }, } } // interpolationFuncValues implements the "values" function that yields a list of // keys of map types within a Terraform configuration. func interpolationFuncValues(vs map[string]ast.Variable) ast.Function { return ast.Function{ ArgTypes: []ast.Type{ast.TypeString}, ReturnType: ast.TypeString, Callback: func(args []interface{}) (interface{}, error) { // Prefix must include ending dot to be a map prefix := fmt.Sprintf("var.%s.", args[0].(string)) keys := make([]string, 0, len(vs)) for k, _ := range vs { if !strings.HasPrefix(k, prefix) { continue } keys = append(keys, k) } if len(keys) <= 0 { return "", fmt.Errorf( "failed to find map '%s'", args[0].(string)) } sort.Strings(keys) vals := make([]string, 0, len(keys)) for _, k := range keys { v := vs[k] if v.Type != ast.TypeString { return "", fmt.Errorf("values(): %q has bad type %s", k, v.Type) } vals = append(vals, vs[k].Value.(string)) } return NewStringList(vals).String(), nil }, } } // interpolationFuncBase64Encode implements the "base64encode" function that // allows Base64 encoding. func interpolationFuncBase64Encode() ast.Function { return ast.Function{ ArgTypes: []ast.Type{ast.TypeString}, ReturnType: ast.TypeString, Callback: func(args []interface{}) (interface{}, error) { s := args[0].(string) return base64.StdEncoding.EncodeToString([]byte(s)), nil }, } } // interpolationFuncBase64Decode implements the "base64decode" function that // allows Base64 decoding. func interpolationFuncBase64Decode() ast.Function { return ast.Function{ ArgTypes: []ast.Type{ast.TypeString}, ReturnType: ast.TypeString, Callback: func(args []interface{}) (interface{}, error) { s := args[0].(string) sDec, err := base64.StdEncoding.DecodeString(s) if err != nil { return "", fmt.Errorf("failed to decode base64 data '%s'", s) } return string(sDec), nil }, } } // interpolationFuncLower implements the "lower" function that does // string lower casing. func interpolationFuncLower() ast.Function { return ast.Function{ ArgTypes: []ast.Type{ast.TypeString}, ReturnType: ast.TypeString, Callback: func(args []interface{}) (interface{}, error) { toLower := args[0].(string) return strings.ToLower(toLower), nil }, } } // interpolationFuncUpper implements the "upper" function that does // string upper casing. func interpolationFuncUpper() ast.Function { return ast.Function{ ArgTypes: []ast.Type{ast.TypeString}, ReturnType: ast.TypeString, Callback: func(args []interface{}) (interface{}, error) { toUpper := args[0].(string) return strings.ToUpper(toUpper), nil }, } }