package storage import ( "strconv" ) var ( TtlRange []uint16 ) const ( //stored unit types Empty byte = iota Minute Hour Day Week Month Year ) func init() { TtlRange = []uint16{3, 10, 30, 60 /*1 hour*/, 60 * 3, 60 * 6, 60 * 12, 1440 /*1 day*/, 1440 * 3, 1440 * 7, 1440 * 15, 1440 * 31, 44888 /*1 month*/, 65535, } } type TTL struct { count byte unit byte } var EMPTY_TTL = &TTL{} // translate a readable ttl to internal ttl // Supports format example: // 3m: 3 minutes // 4h: 4 hours // 5d: 5 days // 6w: 6 weeks // 7M: 7 months // 8y: 8 years func ReadTTL(ttlString string) (*TTL, error) { if ttlString == "" { return EMPTY_TTL, nil } ttlBytes := []byte(ttlString) unitByte := ttlBytes[len(ttlBytes)-1] countBytes := ttlBytes[0 : len(ttlBytes)-1] if '0' <= unitByte && unitByte <= '9' { countBytes = ttlBytes unitByte = 'm' } count, err := strconv.Atoi(string(countBytes)) unit := toStoredByte(unitByte) return &TTL{count: byte(count), unit: unit}, err } // read stored bytes to a ttl func LoadTTLFromBytes(input []byte) (t *TTL) { return &TTL{count: input[0], unit: input[1]} } // read stored bytes to a ttl func LoadTTLFromUint32(ttl uint32) (t *TTL) { input := make([]byte, 2) input[1] = byte(ttl) input[0] = byte(ttl >> 8) return LoadTTLFromBytes(input) } // save stored bytes to an output with 2 bytes func (t TTL) ToBytes(output []byte) { output[0] = t.count output[1] = t.unit } func (t TTL) ToUint32() (output uint32) { output = uint32(t.count) << 8 output += uint32(t.unit) return output } func (t TTL) String() string { if t.count == 0 { return "" } if t.unit == Empty { return "" } countString := strconv.Itoa(int(t.count)) switch t.unit { case Minute: return countString + "m" case Hour: return countString + "h" case Day: return countString + "d" case Week: return countString + "w" case Month: return countString + "M" case Year: return countString + "y" } return "" } func toStoredByte(readableUnitByte byte) byte { switch readableUnitByte { case 'm': return Minute case 'h': return Hour case 'd': return Day case 'w': return Week case 'M': return Month case 'Y': return Year } return 0 } func (t TTL) Minutes() uint32 { switch t.unit { case Empty: return 0 case Minute: return uint32(t.count) case Hour: return uint32(t.count) * 60 case Day: return uint32(t.count) * 60 * 24 case Week: return uint32(t.count) * 60 * 24 * 7 case Month: return uint32(t.count) * 60 * 24 * 31 case Year: return uint32(t.count) * 60 * 24 * 31 * 365 } return 0 }