// Copyright 2016 The Go Authors. All rights reserved. // Use of this source code is governed by a BSD-style // license that can be found in the LICENSE file. //go:build solaris package lif import ( "syscall" "unsafe" ) // A Link represents logical data link information. // // It also represents base information for logical network interface. // On Solaris, each logical network interface represents network layer // adjacency information and the interface has a only single network // address or address pair for tunneling. It's usual that multiple // logical network interfaces share the same logical data link. type Link struct { Name string // name, equivalent to IP interface name Index int // index, equivalent to IP interface index Type int // type Flags int // flags MTU int // maximum transmission unit, basically link MTU but may differ between IP address families Addr []byte // address } func (ll *Link) fetch(s uintptr) { var lifr lifreq for i := 0; i < len(ll.Name); i++ { lifr.Name[i] = int8(ll.Name[i]) } ioc := int64(syscall.SIOCGLIFINDEX) if err := ioctl(s, uintptr(ioc), unsafe.Pointer(&lifr)); err == nil { ll.Index = int(nativeEndian.Uint32(lifr.Lifru[:4])) } ioc = int64(syscall.SIOCGLIFFLAGS) if err := ioctl(s, uintptr(ioc), unsafe.Pointer(&lifr)); err == nil { ll.Flags = int(nativeEndian.Uint64(lifr.Lifru[:8])) } ioc = int64(syscall.SIOCGLIFMTU) if err := ioctl(s, uintptr(ioc), unsafe.Pointer(&lifr)); err == nil { ll.MTU = int(nativeEndian.Uint32(lifr.Lifru[:4])) } switch ll.Type { case syscall.IFT_IPV4, syscall.IFT_IPV6, syscall.IFT_6TO4: default: ioc = int64(syscall.SIOCGLIFHWADDR) if err := ioctl(s, uintptr(ioc), unsafe.Pointer(&lifr)); err == nil { ll.Addr, _ = parseLinkAddr(lifr.Lifru[4:]) } } } // Links returns a list of logical data links. // // The provided af must be an address family and name must be a data // link name. The zero value of af or name means a wildcard. func Links(af int, name string) ([]Link, error) { eps, err := newEndpoints(af) if len(eps) == 0 { return nil, err } defer func() { for _, ep := range eps { ep.close() } }() return links(eps, name) } func links(eps []endpoint, name string) ([]Link, error) { var lls []Link lifn := lifnum{Flags: sysLIFC_NOXMIT | sysLIFC_TEMPORARY | sysLIFC_ALLZONES | sysLIFC_UNDER_IPMP} lifc := lifconf{Flags: sysLIFC_NOXMIT | sysLIFC_TEMPORARY | sysLIFC_ALLZONES | sysLIFC_UNDER_IPMP} for _, ep := range eps { lifn.Family = uint16(ep.af) ioc := int64(syscall.SIOCGLIFNUM) if err := ioctl(ep.s, uintptr(ioc), unsafe.Pointer(&lifn)); err != nil { continue } if lifn.Count == 0 { continue } b := make([]byte, lifn.Count*sizeofLifreq) lifc.Family = uint16(ep.af) lifc.Len = lifn.Count * sizeofLifreq if len(lifc.Lifcu) == 8 { nativeEndian.PutUint64(lifc.Lifcu[:], uint64(uintptr(unsafe.Pointer(&b[0])))) } else { nativeEndian.PutUint32(lifc.Lifcu[:], uint32(uintptr(unsafe.Pointer(&b[0])))) } ioc = int64(syscall.SIOCGLIFCONF) if err := ioctl(ep.s, uintptr(ioc), unsafe.Pointer(&lifc)); err != nil { continue } nb := make([]byte, 32) // see LIFNAMSIZ in net/if.h for i := 0; i < int(lifn.Count); i++ { lifr := (*lifreq)(unsafe.Pointer(&b[i*sizeofLifreq])) for i := 0; i < 32; i++ { if lifr.Name[i] == 0 { nb = nb[:i] break } nb[i] = byte(lifr.Name[i]) } llname := string(nb) nb = nb[:32] if isDupLink(lls, llname) || name != "" && name != llname { continue } ll := Link{Name: llname, Type: int(lifr.Type)} ll.fetch(ep.s) lls = append(lls, ll) } } return lls, nil } func isDupLink(lls []Link, name string) bool { for _, ll := range lls { if ll.Name == name { return true } } return false }