route_bsd.go

Documentation: syscall

		 1  // Copyright 2011 The Go Authors. All rights reserved.
		 2  // Use of this source code is governed by a BSD-style
		 3  // license that can be found in the LICENSE file.
		 4  
		 5  //go:build darwin || dragonfly || freebsd || netbsd || openbsd
		 6  // +build darwin dragonfly freebsd netbsd openbsd
		 7  
		 8  package syscall
		 9  
		10  import (
		11  	"runtime"
		12  	"unsafe"
		13  )
		14  
		15  var (
		16  	freebsdConfArch			 string // "machine $arch" line in kern.conftxt on freebsd
		17  	minRoutingSockaddrLen = rsaAlignOf(0)
		18  )
		19  
		20  // Round the length of a raw sockaddr up to align it properly.
		21  func rsaAlignOf(salen int) int {
		22  	salign := sizeofPtr
		23  	if darwin64Bit {
		24  		// Darwin kernels require 32-bit aligned access to
		25  		// routing facilities.
		26  		salign = 4
		27  	} else if netbsd32Bit {
		28  		// NetBSD 6 and beyond kernels require 64-bit aligned
		29  		// access to routing facilities.
		30  		salign = 8
		31  	} else if runtime.GOOS == "freebsd" {
		32  		// In the case of kern.supported_archs="amd64 i386",
		33  		// we need to know the underlying kernel's
		34  		// architecture because the alignment for routing
		35  		// facilities are set at the build time of the kernel.
		36  		if freebsdConfArch == "amd64" {
		37  			salign = 8
		38  		}
		39  	}
		40  	if salen == 0 {
		41  		return salign
		42  	}
		43  	return (salen + salign - 1) & ^(salign - 1)
		44  }
		45  
		46  // parseSockaddrLink parses b as a datalink socket address.
		47  func parseSockaddrLink(b []byte) (*SockaddrDatalink, error) {
		48  	if len(b) < 8 {
		49  		return nil, EINVAL
		50  	}
		51  	sa, _, err := parseLinkLayerAddr(b[4:])
		52  	if err != nil {
		53  		return nil, err
		54  	}
		55  	rsa := (*RawSockaddrDatalink)(unsafe.Pointer(&b[0]))
		56  	sa.Len = rsa.Len
		57  	sa.Family = rsa.Family
		58  	sa.Index = rsa.Index
		59  	return sa, nil
		60  }
		61  
		62  // parseLinkLayerAddr parses b as a datalink socket address in
		63  // conventional BSD kernel form.
		64  func parseLinkLayerAddr(b []byte) (*SockaddrDatalink, int, error) {
		65  	// The encoding looks like the following:
		66  	// +----------------------------+
		67  	// | Type						 (1 octet) |
		68  	// +----------------------------+
		69  	// | Name length			(1 octet) |
		70  	// +----------------------------+
		71  	// | Address length	 (1 octet) |
		72  	// +----------------------------+
		73  	// | Selector length	(1 octet) |
		74  	// +----------------------------+
		75  	// | Data						(variable) |
		76  	// +----------------------------+
		77  	type linkLayerAddr struct {
		78  		Type byte
		79  		Nlen byte
		80  		Alen byte
		81  		Slen byte
		82  	}
		83  	lla := (*linkLayerAddr)(unsafe.Pointer(&b[0]))
		84  	l := 4 + int(lla.Nlen) + int(lla.Alen) + int(lla.Slen)
		85  	if len(b) < l {
		86  		return nil, 0, EINVAL
		87  	}
		88  	b = b[4:]
		89  	sa := &SockaddrDatalink{Type: lla.Type, Nlen: lla.Nlen, Alen: lla.Alen, Slen: lla.Slen}
		90  	for i := 0; len(sa.Data) > i && i < l-4; i++ {
		91  		sa.Data[i] = int8(b[i])
		92  	}
		93  	return sa, rsaAlignOf(l), nil
		94  }
		95  
		96  // parseSockaddrInet parses b as an internet socket address.
		97  func parseSockaddrInet(b []byte, family byte) (Sockaddr, error) {
		98  	switch family {
		99  	case AF_INET:
	 100  		if len(b) < SizeofSockaddrInet4 {
	 101  			return nil, EINVAL
	 102  		}
	 103  		rsa := (*RawSockaddrAny)(unsafe.Pointer(&b[0]))
	 104  		return anyToSockaddr(rsa)
	 105  	case AF_INET6:
	 106  		if len(b) < SizeofSockaddrInet6 {
	 107  			return nil, EINVAL
	 108  		}
	 109  		rsa := (*RawSockaddrAny)(unsafe.Pointer(&b[0]))
	 110  		return anyToSockaddr(rsa)
	 111  	default:
	 112  		return nil, EINVAL
	 113  	}
	 114  }
	 115  
	 116  const (
	 117  	offsetofInet4 = int(unsafe.Offsetof(RawSockaddrInet4{}.Addr))
	 118  	offsetofInet6 = int(unsafe.Offsetof(RawSockaddrInet6{}.Addr))
	 119  )
	 120  
	 121  // parseNetworkLayerAddr parses b as an internet socket address in
	 122  // conventional BSD kernel form.
	 123  func parseNetworkLayerAddr(b []byte, family byte) (Sockaddr, error) {
	 124  	// The encoding looks similar to the NLRI encoding.
	 125  	// +----------------------------+
	 126  	// | Length					 (1 octet) |
	 127  	// +----------------------------+
	 128  	// | Address prefix	(variable) |
	 129  	// +----------------------------+
	 130  	//
	 131  	// The differences between the kernel form and the NLRI
	 132  	// encoding are:
	 133  	//
	 134  	// - The length field of the kernel form indicates the prefix
	 135  	//	 length in bytes, not in bits
	 136  	//
	 137  	// - In the kernel form, zero value of the length field
	 138  	//	 doesn't mean 0.0.0.0/0 or ::/0
	 139  	//
	 140  	// - The kernel form appends leading bytes to the prefix field
	 141  	//	 to make the <length, prefix> tuple to be conformed with
	 142  	//	 the routing message boundary
	 143  	l := int(rsaAlignOf(int(b[0])))
	 144  	if len(b) < l {
	 145  		return nil, EINVAL
	 146  	}
	 147  	// Don't reorder case expressions.
	 148  	// The case expressions for IPv6 must come first.
	 149  	switch {
	 150  	case b[0] == SizeofSockaddrInet6:
	 151  		sa := &SockaddrInet6{}
	 152  		copy(sa.Addr[:], b[offsetofInet6:])
	 153  		return sa, nil
	 154  	case family == AF_INET6:
	 155  		sa := &SockaddrInet6{}
	 156  		if l-1 < offsetofInet6 {
	 157  			copy(sa.Addr[:], b[1:l])
	 158  		} else {
	 159  			copy(sa.Addr[:], b[l-offsetofInet6:l])
	 160  		}
	 161  		return sa, nil
	 162  	case b[0] == SizeofSockaddrInet4:
	 163  		sa := &SockaddrInet4{}
	 164  		copy(sa.Addr[:], b[offsetofInet4:])
	 165  		return sa, nil
	 166  	default: // an old fashion, AF_UNSPEC or unknown means AF_INET
	 167  		sa := &SockaddrInet4{}
	 168  		if l-1 < offsetofInet4 {
	 169  			copy(sa.Addr[:], b[1:l])
	 170  		} else {
	 171  			copy(sa.Addr[:], b[l-offsetofInet4:l])
	 172  		}
	 173  		return sa, nil
	 174  	}
	 175  }
	 176  
	 177  // RouteRIB returns routing information base, as known as RIB,
	 178  // which consists of network facility information, states and
	 179  // parameters.
	 180  //
	 181  // Deprecated: Use golang.org/x/net/route instead.
	 182  func RouteRIB(facility, param int) ([]byte, error) {
	 183  	mib := []_C_int{CTL_NET, AF_ROUTE, 0, 0, _C_int(facility), _C_int(param)}
	 184  	// Find size.
	 185  	n := uintptr(0)
	 186  	if err := sysctl(mib, nil, &n, nil, 0); err != nil {
	 187  		return nil, err
	 188  	}
	 189  	if n == 0 {
	 190  		return nil, nil
	 191  	}
	 192  	tab := make([]byte, n)
	 193  	if err := sysctl(mib, &tab[0], &n, nil, 0); err != nil {
	 194  		return nil, err
	 195  	}
	 196  	return tab[:n], nil
	 197  }
	 198  
	 199  // RoutingMessage represents a routing message.
	 200  //
	 201  // Deprecated: Use golang.org/x/net/route instead.
	 202  type RoutingMessage interface {
	 203  	sockaddr() ([]Sockaddr, error)
	 204  }
	 205  
	 206  const anyMessageLen = int(unsafe.Sizeof(anyMessage{}))
	 207  
	 208  type anyMessage struct {
	 209  	Msglen	uint16
	 210  	Version uint8
	 211  	Type		uint8
	 212  }
	 213  
	 214  // RouteMessage represents a routing message containing routing
	 215  // entries.
	 216  //
	 217  // Deprecated: Use golang.org/x/net/route instead.
	 218  type RouteMessage struct {
	 219  	Header RtMsghdr
	 220  	Data	 []byte
	 221  }
	 222  
	 223  func (m *RouteMessage) sockaddr() ([]Sockaddr, error) {
	 224  	var sas [RTAX_MAX]Sockaddr
	 225  	b := m.Data[:]
	 226  	family := uint8(AF_UNSPEC)
	 227  	for i := uint(0); i < RTAX_MAX && len(b) >= minRoutingSockaddrLen; i++ {
	 228  		if m.Header.Addrs&(1<<i) == 0 {
	 229  			continue
	 230  		}
	 231  		rsa := (*RawSockaddr)(unsafe.Pointer(&b[0]))
	 232  		switch rsa.Family {
	 233  		case AF_LINK:
	 234  			sa, err := parseSockaddrLink(b)
	 235  			if err != nil {
	 236  				return nil, err
	 237  			}
	 238  			sas[i] = sa
	 239  			b = b[rsaAlignOf(int(rsa.Len)):]
	 240  		case AF_INET, AF_INET6:
	 241  			sa, err := parseSockaddrInet(b, rsa.Family)
	 242  			if err != nil {
	 243  				return nil, err
	 244  			}
	 245  			sas[i] = sa
	 246  			b = b[rsaAlignOf(int(rsa.Len)):]
	 247  			family = rsa.Family
	 248  		default:
	 249  			sa, err := parseNetworkLayerAddr(b, family)
	 250  			if err != nil {
	 251  				return nil, err
	 252  			}
	 253  			sas[i] = sa
	 254  			b = b[rsaAlignOf(int(b[0])):]
	 255  		}
	 256  	}
	 257  	return sas[:], nil
	 258  }
	 259  
	 260  // InterfaceMessage represents a routing message containing
	 261  // network interface entries.
	 262  //
	 263  // Deprecated: Use golang.org/x/net/route instead.
	 264  type InterfaceMessage struct {
	 265  	Header IfMsghdr
	 266  	Data	 []byte
	 267  }
	 268  
	 269  func (m *InterfaceMessage) sockaddr() ([]Sockaddr, error) {
	 270  	var sas [RTAX_MAX]Sockaddr
	 271  	if m.Header.Addrs&RTA_IFP == 0 {
	 272  		return nil, nil
	 273  	}
	 274  	sa, err := parseSockaddrLink(m.Data[:])
	 275  	if err != nil {
	 276  		return nil, err
	 277  	}
	 278  	sas[RTAX_IFP] = sa
	 279  	return sas[:], nil
	 280  }
	 281  
	 282  // InterfaceAddrMessage represents a routing message containing
	 283  // network interface address entries.
	 284  //
	 285  // Deprecated: Use golang.org/x/net/route instead.
	 286  type InterfaceAddrMessage struct {
	 287  	Header IfaMsghdr
	 288  	Data	 []byte
	 289  }
	 290  
	 291  func (m *InterfaceAddrMessage) sockaddr() ([]Sockaddr, error) {
	 292  	var sas [RTAX_MAX]Sockaddr
	 293  	b := m.Data[:]
	 294  	family := uint8(AF_UNSPEC)
	 295  	for i := uint(0); i < RTAX_MAX && len(b) >= minRoutingSockaddrLen; i++ {
	 296  		if m.Header.Addrs&(1<<i) == 0 {
	 297  			continue
	 298  		}
	 299  		rsa := (*RawSockaddr)(unsafe.Pointer(&b[0]))
	 300  		switch rsa.Family {
	 301  		case AF_LINK:
	 302  			sa, err := parseSockaddrLink(b)
	 303  			if err != nil {
	 304  				return nil, err
	 305  			}
	 306  			sas[i] = sa
	 307  			b = b[rsaAlignOf(int(rsa.Len)):]
	 308  		case AF_INET, AF_INET6:
	 309  			sa, err := parseSockaddrInet(b, rsa.Family)
	 310  			if err != nil {
	 311  				return nil, err
	 312  			}
	 313  			sas[i] = sa
	 314  			b = b[rsaAlignOf(int(rsa.Len)):]
	 315  			family = rsa.Family
	 316  		default:
	 317  			sa, err := parseNetworkLayerAddr(b, family)
	 318  			if err != nil {
	 319  				return nil, err
	 320  			}
	 321  			sas[i] = sa
	 322  			b = b[rsaAlignOf(int(b[0])):]
	 323  		}
	 324  	}
	 325  	return sas[:], nil
	 326  }
	 327  
	 328  // ParseRoutingMessage parses b as routing messages and returns the
	 329  // slice containing the RoutingMessage interfaces.
	 330  //
	 331  // Deprecated: Use golang.org/x/net/route instead.
	 332  func ParseRoutingMessage(b []byte) (msgs []RoutingMessage, err error) {
	 333  	nmsgs, nskips := 0, 0
	 334  	for len(b) >= anyMessageLen {
	 335  		nmsgs++
	 336  		any := (*anyMessage)(unsafe.Pointer(&b[0]))
	 337  		if any.Version != RTM_VERSION {
	 338  			b = b[any.Msglen:]
	 339  			continue
	 340  		}
	 341  		if m := any.toRoutingMessage(b); m == nil {
	 342  			nskips++
	 343  		} else {
	 344  			msgs = append(msgs, m)
	 345  		}
	 346  		b = b[any.Msglen:]
	 347  	}
	 348  	// We failed to parse any of the messages - version mismatch?
	 349  	if nmsgs != len(msgs)+nskips {
	 350  		return nil, EINVAL
	 351  	}
	 352  	return msgs, nil
	 353  }
	 354  
	 355  // ParseRoutingSockaddr parses msg's payload as raw sockaddrs and
	 356  // returns the slice containing the Sockaddr interfaces.
	 357  //
	 358  // Deprecated: Use golang.org/x/net/route instead.
	 359  func ParseRoutingSockaddr(msg RoutingMessage) ([]Sockaddr, error) {
	 360  	sas, err := msg.sockaddr()
	 361  	if err != nil {
	 362  		return nil, err
	 363  	}
	 364  	return sas, nil
	 365  }
	 366
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