package process import ( "fmt" "net/netip" "sync" "syscall" "unsafe" "github.com/metacubex/mihomo/common/nnip" "github.com/metacubex/mihomo/log" "golang.org/x/sys/windows" ) const ( tcpTableFunc = "GetExtendedTcpTable" tcpTablePidConn = 4 udpTableFunc = "GetExtendedUdpTable" udpTablePid = 1 queryProcNameFunc = "QueryFullProcessImageNameW" ) var ( getExTCPTable uintptr getExUDPTable uintptr queryProcName uintptr once sync.Once ) func resolveSocketByNetlink(network string, ip netip.Addr, srcPort int) (uint32, uint32, error) { return 0, 0, ErrPlatformNotSupport } func initWin32API() error { h, err := windows.LoadLibrary("iphlpapi.dll") if err != nil { return fmt.Errorf("LoadLibrary iphlpapi.dll failed: %s", err.Error()) } getExTCPTable, err = windows.GetProcAddress(h, tcpTableFunc) if err != nil { return fmt.Errorf("GetProcAddress of %s failed: %s", tcpTableFunc, err.Error()) } getExUDPTable, err = windows.GetProcAddress(h, udpTableFunc) if err != nil { return fmt.Errorf("GetProcAddress of %s failed: %s", udpTableFunc, err.Error()) } h, err = windows.LoadLibrary("kernel32.dll") if err != nil { return fmt.Errorf("LoadLibrary kernel32.dll failed: %s", err.Error()) } queryProcName, err = windows.GetProcAddress(h, queryProcNameFunc) if err != nil { return fmt.Errorf("GetProcAddress of %s failed: %s", queryProcNameFunc, err.Error()) } return nil } func findProcessName(network string, ip netip.Addr, srcPort int) (uint32, string, error) { once.Do(func() { err := initWin32API() if err != nil { log.Errorln("Initialize PROCESS-NAME failed: %s", err.Error()) log.Warnln("All PROCESS-NAMES rules will be skipped") return } }) family := windows.AF_INET if ip.Is6() { family = windows.AF_INET6 } var class int var fn uintptr switch network { case TCP: fn = getExTCPTable class = tcpTablePidConn case UDP: fn = getExUDPTable class = udpTablePid default: return 0, "", ErrInvalidNetwork } buf, err := getTransportTable(fn, family, class) if err != nil { return 0, "", err } s := newSearcher(family == windows.AF_INET, network == TCP) pid, err := s.Search(buf, ip, uint16(srcPort)) if err != nil { return 0, "", err } pp, err := getExecPathFromPID(pid) return 0, pp, err } type searcher struct { itemSize int port int ip int ipSize int pid int tcpState int } func (s *searcher) Search(b []byte, ip netip.Addr, port uint16) (uint32, error) { n := int(readNativeUint32(b[:4])) itemSize := s.itemSize for i := 0; i < n; i++ { row := b[4+itemSize*i : 4+itemSize*(i+1)] if s.tcpState >= 0 { tcpState := readNativeUint32(row[s.tcpState : s.tcpState+4]) // MIB_TCP_STATE_ESTAB, only check established connections for TCP if tcpState != 5 { continue } } // according to MSDN, only the lower 16 bits of dwLocalPort are used and the port number is in network endian. // this field can be illustrated as follows depends on different machine endianess: // little endian: [ MSB LSB 0 0 ] interpret as native uint32 is ((LSB<<8)|MSB) // big endian: [ 0 0 MSB LSB ] interpret as native uint32 is ((MSB<<8)|LSB) // so we need an syscall.Ntohs on the lower 16 bits after read the port as native uint32 srcPort := syscall.Ntohs(uint16(readNativeUint32(row[s.port : s.port+4]))) if srcPort != port { continue } srcIP := nnip.IpToAddr(row[s.ip : s.ip+s.ipSize]) // windows binds an unbound udp socket to 0.0.0.0/[::] while first sendto if ip != srcIP && (!srcIP.IsUnspecified() || s.tcpState != -1) { continue } pid := readNativeUint32(row[s.pid : s.pid+4]) return pid, nil } return 0, ErrNotFound } func newSearcher(isV4, isTCP bool) *searcher { var itemSize, port, ip, ipSize, pid int tcpState := -1 switch { case isV4 && isTCP: // struct MIB_TCPROW_OWNER_PID itemSize, port, ip, ipSize, pid, tcpState = 24, 8, 4, 4, 20, 0 case isV4 && !isTCP: // struct MIB_UDPROW_OWNER_PID itemSize, port, ip, ipSize, pid = 12, 4, 0, 4, 8 case !isV4 && isTCP: // struct MIB_TCP6ROW_OWNER_PID itemSize, port, ip, ipSize, pid, tcpState = 56, 20, 0, 16, 52, 48 case !isV4 && !isTCP: // struct MIB_UDP6ROW_OWNER_PID itemSize, port, ip, ipSize, pid = 28, 20, 0, 16, 24 } return &searcher{ itemSize: itemSize, port: port, ip: ip, ipSize: ipSize, pid: pid, tcpState: tcpState, } } func getTransportTable(fn uintptr, family int, class int) ([]byte, error) { for size, buf := uint32(8), make([]byte, 8); ; { ptr := unsafe.Pointer(&buf[0]) err, _, _ := syscall.SyscallN(fn, uintptr(ptr), uintptr(unsafe.Pointer(&size)), 0, uintptr(family), uintptr(class), 0) switch err { case 0: return buf, nil case uintptr(syscall.ERROR_INSUFFICIENT_BUFFER): buf = make([]byte, size) default: return nil, fmt.Errorf("syscall error: %d", err) } } } func readNativeUint32(b []byte) uint32 { return *(*uint32)(unsafe.Pointer(&b[0])) } func getExecPathFromPID(pid uint32) (string, error) { // kernel process starts with a colon in order to distinguish with normal processes switch pid { case 0: // reserved pid for system idle process return ":System Idle Process", nil case 4: // reserved pid for windows kernel image return ":System", nil } h, err := windows.OpenProcess(windows.PROCESS_QUERY_LIMITED_INFORMATION, false, pid) if err != nil { return "", err } defer windows.CloseHandle(h) buf := make([]uint16, syscall.MAX_LONG_PATH) size := uint32(len(buf)) r1, _, err := syscall.SyscallN( queryProcName, uintptr(h), uintptr(0), uintptr(unsafe.Pointer(&buf[0])), uintptr(unsafe.Pointer(&size)), ) if r1 == 0 { return "", err } return syscall.UTF16ToString(buf[:size]), nil }