Xray-core/common/net/port.go
yuhan6665 079d0bd8a9
Refactor log (#3446)
* Refactor log

* Add new log methods

* Fix logger test

* Change all logging code

* Clean up pathObj

* Rebase to latest main

* Remove invoking method name after the dot
2024-06-29 14:32:57 -04:00

97 lines
2.3 KiB
Go

package net
import (
"encoding/binary"
"strconv"
"github.com/xtls/xray-core/common/errors"
)
// Port represents a network port in TCP and UDP protocol.
type Port uint16
// PortFromBytes converts a byte array to a Port, assuming bytes are in big endian order.
// @unsafe Caller must ensure that the byte array has at least 2 elements.
func PortFromBytes(port []byte) Port {
return Port(binary.BigEndian.Uint16(port))
}
// PortFromInt converts an integer to a Port.
// @error when the integer is not positive or larger then 65535
func PortFromInt(val uint32) (Port, error) {
if val > 65535 {
return Port(0), errors.New("invalid port range: ", val)
}
return Port(val), nil
}
// PortFromString converts a string to a Port.
// @error when the string is not an integer or the integral value is a not a valid Port.
func PortFromString(s string) (Port, error) {
val, err := strconv.ParseUint(s, 10, 32)
if err != nil {
return Port(0), errors.New("invalid port range: ", s)
}
return PortFromInt(uint32(val))
}
// Value return the corresponding uint16 value of a Port.
func (p Port) Value() uint16 {
return uint16(p)
}
// String returns the string presentation of a Port.
func (p Port) String() string {
return strconv.Itoa(int(p))
}
// FromPort returns the beginning port of this PortRange.
func (p *PortRange) FromPort() Port {
return Port(p.From)
}
// ToPort returns the end port of this PortRange.
func (p *PortRange) ToPort() Port {
return Port(p.To)
}
// Contains returns true if the given port is within the range of a PortRange.
func (p *PortRange) Contains(port Port) bool {
return p.FromPort() <= port && port <= p.ToPort()
}
// SinglePortRange returns a PortRange contains a single port.
func SinglePortRange(p Port) *PortRange {
return &PortRange{
From: uint32(p),
To: uint32(p),
}
}
type MemoryPortRange struct {
From Port
To Port
}
func (r MemoryPortRange) Contains(port Port) bool {
return r.From <= port && port <= r.To
}
type MemoryPortList []MemoryPortRange
func PortListFromProto(l *PortList) MemoryPortList {
mpl := make(MemoryPortList, 0, len(l.Range))
for _, r := range l.Range {
mpl = append(mpl, MemoryPortRange{From: Port(r.From), To: Port(r.To)})
}
return mpl
}
func (mpl MemoryPortList) Contains(port Port) bool {
for _, pr := range mpl {
if pr.Contains(port) {
return true
}
}
return false
}