// Copyright (c) 2016, 2018, Oracle and/or its affiliates. All rights reserved. package common import ( "crypto/rand" "crypto/rsa" "crypto/x509" "encoding/pem" "fmt" "reflect" "strconv" "strings" "time" ) // String returns a pointer to the provided string func String(value string) *string { return &value } // Int returns a pointer to the provided int func Int(value int) *int { return &value } // Int64 returns a pointer to the provided int64 func Int64(value int64) *int64 { return &value } // Uint returns a pointer to the provided uint func Uint(value uint) *uint { return &value } //Float32 returns a pointer to the provided float32 func Float32(value float32) *float32 { return &value } //Float64 returns a pointer to the provided float64 func Float64(value float64) *float64 { return &value } //Bool returns a pointer to the provided bool func Bool(value bool) *bool { return &value } //PointerString prints the values of pointers in a struct //Producing a human friendly string for an struct with pointers. //useful when debugging the values of a struct func PointerString(datastruct interface{}) (representation string) { val := reflect.ValueOf(datastruct) typ := reflect.TypeOf(datastruct) all := make([]string, 2) all = append(all, "{") for i := 0; i < typ.NumField(); i++ { sf := typ.Field(i) //unexported if sf.PkgPath != "" && !sf.Anonymous { continue } sv := val.Field(i) stringValue := "" if isNil(sv) { stringValue = fmt.Sprintf("%s=", sf.Name) } else { if sv.Type().Kind() == reflect.Ptr { sv = sv.Elem() } stringValue = fmt.Sprintf("%s=%v", sf.Name, sv) } all = append(all, stringValue) } all = append(all, "}") representation = strings.TrimSpace(strings.Join(all, " ")) return } // SDKTime a struct that parses/renders to/from json using RFC339 date-time information type SDKTime struct { time.Time } // SDKDate a struct that parses/renders to/from json using only date information type SDKDate struct { //Date date information Date time.Time } func sdkTimeFromTime(t time.Time) SDKTime { return SDKTime{t} } func sdkDateFromTime(t time.Time) SDKDate { return SDKDate{Date: t} } func formatTime(t SDKTime) string { return t.Format(sdkTimeFormat) } func formatDate(t SDKDate) string { return t.Date.Format(sdkDateFormat) } func now() *SDKTime { t := SDKTime{time.Now()} return &t } var timeType = reflect.TypeOf(SDKTime{}) var timeTypePtr = reflect.TypeOf(&SDKTime{}) var sdkDateType = reflect.TypeOf(SDKDate{}) var sdkDateTypePtr = reflect.TypeOf(&SDKDate{}) //Formats for sdk supported time representations const sdkTimeFormat = time.RFC3339Nano const rfc1123OptionalLeadingDigitsInDay = "Mon, _2 Jan 2006 15:04:05 MST" const sdkDateFormat = "2006-01-02" func tryParsingTimeWithValidFormatsForHeaders(data []byte, headerName string) (t time.Time, err error) { header := strings.ToLower(headerName) switch header { case "lastmodified", "date": t, err = tryParsing(data, time.RFC3339Nano, time.RFC3339, time.RFC1123, rfc1123OptionalLeadingDigitsInDay, time.RFC850, time.ANSIC) return default: //By default we parse with RFC3339 t, err = time.Parse(sdkTimeFormat, string(data)) return } } func tryParsing(data []byte, layouts ...string) (tm time.Time, err error) { datestring := string(data) for _, l := range layouts { tm, err = time.Parse(l, datestring) if err == nil { return } } err = fmt.Errorf("Could not parse time: %s with formats: %s", datestring, layouts[:]) return } // String returns string representation of SDKDate func (t *SDKDate) String() string { return t.Date.Format(sdkDateFormat) } // NewSDKDateFromString parses the dateString into SDKDate func NewSDKDateFromString(dateString string) (*SDKDate, error) { parsedTime, err := time.Parse(sdkDateFormat, dateString) if err != nil { return nil, err } return &SDKDate{Date: parsedTime}, nil } // UnmarshalJSON unmarshals from json func (t *SDKTime) UnmarshalJSON(data []byte) (e error) { s := string(data) if s == "null" { t.Time = time.Time{} } else { //Try parsing with RFC3339 t.Time, e = time.Parse(`"`+sdkTimeFormat+`"`, string(data)) } return } // MarshalJSON marshals to JSON func (t *SDKTime) MarshalJSON() (buff []byte, e error) { s := t.Format(sdkTimeFormat) buff = []byte(`"` + s + `"`) return } // UnmarshalJSON unmarshals from json func (t *SDKDate) UnmarshalJSON(data []byte) (e error) { if string(data) == `"null"` { t.Date = time.Time{} return } t.Date, e = tryParsing(data, strconv.Quote(sdkDateFormat), ) return } // MarshalJSON marshals to JSON func (t *SDKDate) MarshalJSON() (buff []byte, e error) { s := t.Date.Format(sdkDateFormat) buff = []byte(strconv.Quote(s)) return } // PrivateKeyFromBytes is a helper function that will produce a RSA private // key from bytes. This function is deprecated in favour of PrivateKeyFromBytesWithPassword // Deprecated func PrivateKeyFromBytes(pemData []byte, password *string) (key *rsa.PrivateKey, e error) { if password == nil { return PrivateKeyFromBytesWithPassword(pemData, nil) } return PrivateKeyFromBytesWithPassword(pemData, []byte(*password)) } // PrivateKeyFromBytesWithPassword is a helper function that will produce a RSA private // key from bytes and a password. func PrivateKeyFromBytesWithPassword(pemData, password []byte) (key *rsa.PrivateKey, e error) { if pemBlock, _ := pem.Decode(pemData); pemBlock != nil { decrypted := pemBlock.Bytes if x509.IsEncryptedPEMBlock(pemBlock) { if password == nil { e = fmt.Errorf("private key password is required for encrypted private keys") return } if decrypted, e = x509.DecryptPEMBlock(pemBlock, password); e != nil { return } } key, e = x509.ParsePKCS1PrivateKey(decrypted) } else { e = fmt.Errorf("PEM data was not found in buffer") return } return } func generateRandUUID() (string, error) { b := make([]byte, 16) _, err := rand.Read(b) if err != nil { return "", err } uuid := fmt.Sprintf("%x%x%x%x%x", b[0:4], b[4:6], b[6:8], b[8:10], b[10:]) return uuid, nil } func makeACopy(original []string) []string { tmp := make([]string, len(original)) copy(tmp, original) return tmp }