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rawip (4)
  • >> rawip (4) ( FreeBSD man: Специальные файлы /dev/* )

  • BSD mandoc
     

    NAME

    
    
    ip
    
     - Internet Protocol
    
     
    

    SYNOPSIS

       #include <sys/types.h>
       #include <sys/socket.h>
       #include <netinet/in.h>
    int socket (AF_INET SOCK_RAW proto);
     

    DESCRIPTION

    IP is the transport layer protocol used by the Internet protocol family. Options may be set at the IP level when using higher-level protocols that are based on IP (such as TCP and UDP ) It may also be accessed through a ``raw socket'' when developing new protocols, or special-purpose applications.

    There are several IP-level setsockopt(2) and getsockopt(2) options. IP_OPTIONS may be used to provide IP options to be transmitted in the IP header of each outgoing packet or to examine the header options on incoming packets. IP options may be used with any socket type in the Internet family. The format of IP options to be sent is that specified by the IP protocol specification (RFC-791), with one exception: the list of addresses for Source Route options must include the first-hop gateway at the beginning of the list of gateways. The first-hop gateway address will be extracted from the option list and the size adjusted accordingly before use. To disable previously specified options, use a zero-length buffer:

    setsockopt(s, IPPROTO_IP, IP_OPTIONS, NULL, 0);
    

    IP_TOS and IP_TTL may be used to set the type-of-service and time-to-live fields in the IP header for SOCK_STREAM , SOCK_DGRAM and certain types of SOCK_RAW sockets. For example,

    int tos = IPTOS_LOWDELAY;       /* see <netinet/ip.h> */
    setsockopt(s, IPPROTO_IP, IP_TOS, &tos, sizeof(tos));
    
    int ttl = 60;                   /* max = 255 */
    setsockopt(s, IPPROTO_IP, IP_TTL, &ttl, sizeof(ttl));
    

    IP_MINTTL may be used to set the minimum acceptable TTL a packet must have when received on a socket. All packets with a lower TTL are silently dropped. This option is only really useful when set to 255, preventing packets from outside the directly connected networks reaching local listeners on sockets.

    IP_DONTFRAG may be used to set the Don't Fragment flag on IP packets. Currently this option is respected only on udp(4) and raw ip(4) sockets, unless the IP_HDRINCL option has been set. On tcp(4) sockets, the Don't Fragment flag is controlled by the Path MTU Discovery option. Sending a packet larger than the MTU size of the egress interface, determined by the destination address, returns an Er EMSGSIZE error.

    If the IP_RECVDSTADDR option is enabled on a SOCK_DGRAM socket, the recvmsg(2) call will return the destination IP address for a UDP datagram. The Vt msg_control field in the Vt msghdr structure points to a buffer that contains a Vt cmsghdr structure followed by the IP address. The Vt cmsghdr fields have the following values:

    cmsg_len = sizeof(struct in_addr)
    cmsg_level = IPPROTO_IP
    cmsg_type = IP_RECVDSTADDR
    

    The source address to be used for outgoing UDP datagrams on a socket that is not bound to a specific IP address can be specified as ancillary data with a type code of IP_SENDSRCADDR The msg_control field in the msghdr structure should point to a buffer that contains a Vt cmsghdr structure followed by the IP address. The cmsghdr fields should have the following values:

    cmsg_len = sizeof(struct in_addr)
    cmsg_level = IPPROTO_IP
    cmsg_type = IP_SENDSRCADDR
    

    For convenience, IP_SENDSRCADDR is defined to have the same value as IP_RECVDSTADDR so the IP_RECVDSTADDR control message from recvmsg(2) can be used directly as a control message for sendmsg(2).

    If the IP_ONESBCAST option is enabled on a SOCK_DGRAM or a SOCK_RAW socket, the destination address of outgoing broadcast datagrams on that socket will be forced to the undirected broadcast address, INADDR_BROADCAST before transmission. This is in contrast to the default behavior of the system, which is to transmit undirected broadcasts via the first network interface with the IFF_BROADCAST flag set.

    This option allows applications to choose which interface is used to transmit an undirected broadcast datagram. For example, the following code would force an undirected broadcast to be transmitted via the interface configured with the broadcast address 192.168.2.255:

    char msg[512];
    struct sockaddr_in sin;
    u_char onesbcast = 1;   /* 0 = disable (default), 1 = enable */
    
    setsockopt(s, IPPROTO_IP, IP_ONESBCAST, &onesbcast, sizeof(onesbcast));
    sin.sin_addr.s_addr = inet_addr("192.168.2.255");
    sin.sin_port = htons(1234);
    sendto(s, msg, sizeof(msg), 0, &sin, sizeof(sin));
    

    It is the application's responsibility to set the IP_TTL option to an appropriate value in order to prevent broadcast storms. The application must have sufficient credentials to set the SO_BROADCAST socket level option, otherwise the IP_ONESBCAST option has no effect.

    If the IP_RECVTTL option is enabled on a SOCK_DGRAM socket, the recvmsg(2) call will return the IP TTL (time to live) field for a UDP datagram. The msg_control field in the msghdr structure points to a buffer that contains a cmsghdr structure followed by the TTL The cmsghdr fields have the following values:

    cmsg_len = sizeof(u_char)
    cmsg_level = IPPROTO_IP
    cmsg_type = IP_RECVTTL
    

    If the IP_RECVIF option is enabled on a SOCK_DGRAM socket, the recvmsg(2) call returns a Vt struct sockaddr_dl corresponding to the interface on which the packet was received. The msg_control field in the Vt msghdr structure points to a buffer that contains a Vt cmsghdr structure followed by the Vt struct sockaddr_dl . The Vt cmsghdr fields have the following values:

    cmsg_len = sizeof(struct sockaddr_dl)
    cmsg_level = IPPROTO_IP
    cmsg_type = IP_RECVIF
    

    IP_PORTRANGE may be used to set the port range used for selecting a local port number on a socket with an unspecified (zero) port number. It has the following possible values:

    IP_PORTRANGE_DEFAULT
    use the default range of values, normally IPPORT_HIFIRSTAUTO through IPPORT_HILASTAUTO This is adjustable through the sysctl setting: net.inet.ip.portrange.first and net.inet.ip.portrange.last
    IP_PORTRANGE_HIGH
    use a high range of values, normally IPPORT_HIFIRSTAUTO and IPPORT_HILASTAUTO This is adjustable through the sysctl setting: net.inet.ip.portrange.hifirst and net.inet.ip.portrange.hilast
    IP_PORTRANGE_LOW
    use a low range of ports, which are normally restricted to privileged processes on UNIX systems. The range is normally from IPPORT_RESERVED - 1 down to IPPORT_RESERVEDSTART in descending order. This is adjustable through the sysctl setting: net.inet.ip.portrange.lowfirst and net.inet.ip.portrange.lowlast

    The range of privileged ports which only may be opened by root-owned processes may be modified by the net.inet.ip.portrange.reservedlow and net.inet.ip.portrange.reservedhigh sysctl settings. The values default to the traditional range, 0 through IPPORT_RESERVED - 1 (0 through 1023), respectively. Note that these settings do not affect and are not accounted for in the use or calculation of the other net.inet.ip.portrange values above. Changing these values departs from UNIX tradition and has security consequences that the administrator should carefully evaluate before modifying these settings.

    Ports are allocated at random within the specified port range in order to increase the difficulty of random spoofing attacks. In scenarios such as benchmarking, this behavior may be undesirable. In these cases, net.inet.ip.portrange.randomized can be used to toggle randomization off. If more than net.inet.ip.portrange.randomcps ports have been allocated in the last second, then return to sequential port allocation. Return to random allocation only once the current port allocation rate drops below net.inet.ip.portrange.randomcps for at least net.inet.ip.portrange.randomtime seconds. The default values for net.inet.ip.portrange.randomcps and net.inet.ip.portrange.randomtime are 10 port allocations per second and 45 seconds correspondingly.  

    Multicast Options

    IP multicasting is supported only on AF_INET sockets of type SOCK_DGRAM and SOCK_RAW and only on networks where the interface driver supports multicasting.

    The IP_MULTICAST_TTL option changes the time-to-live (TTL) for outgoing multicast datagrams in order to control the scope of the multicasts:

    u_char ttl;     /* range: 0 to 255, default = 1 */
    setsockopt(s, IPPROTO_IP, IP_MULTICAST_TTL, &ttl, sizeof(ttl));
    

    Datagrams with a TTL of 1 are not forwarded beyond the local network. Multicast datagrams with a TTL of 0 will not be transmitted on any network, but may be delivered locally if the sending host belongs to the destination group and if multicast loopback has not been disabled on the sending socket (see below). Multicast datagrams with TTL greater than 1 may be forwarded to other networks if a multicast router is attached to the local network.

    For hosts with multiple interfaces, each multicast transmission is sent from the primary network interface. The IP_MULTICAST_IF option overrides the default for subsequent transmissions from a given socket:

    struct in_addr addr;
    setsockopt(s, IPPROTO_IP, IP_MULTICAST_IF, &addr, sizeof(addr));
    

    where "addr" is the local IP address of the desired interface or INADDR_ANY to specify the default interface.

    To specify an interface by index, an instance of Vt ip_mreqn should be passed instead. The Vt imr_ifindex member should be set to the index of the desired interface, or 0 to specify the default interface. The kernel differentiates between these two structures by their size. An interface's local IP address and multicast capability can be obtained via the SIOCGIFCONF and SIOCGIFFLAGS ioctls. Normal applications should not need to use this option.

    If a multicast datagram is sent to a group to which the sending host itself belongs (on the outgoing interface), a copy of the datagram is, by default, looped back by the IP layer for local delivery. The IP_MULTICAST_LOOP option gives the sender explicit control over whether or not subsequent datagrams are looped back:

    u_char loop;    /* 0 = disable, 1 = enable (default) */
    setsockopt(s, IPPROTO_IP, IP_MULTICAST_LOOP, &loop, sizeof(loop));
    

    This option improves performance for applications that may have no more than one instance on a single host (such as a router daemon), by eliminating the overhead of receiving their own transmissions. It should generally not be used by applications for which there may be more than one instance on a single host (such as a conferencing program) or for which the sender does not belong to the destination group (such as a time querying program).

    A multicast datagram sent with an initial TTL greater than 1 may be delivered to the sending host on a different interface from that on which it was sent, if the host belongs to the destination group on that other interface. The loopback control option has no effect on such delivery.

    A host must become a member of a multicast group before it can receive datagrams sent to the group. To join a multicast group, use the IP_ADD_MEMBERSHIP option:

    struct ip_mreq mreq;
    setsockopt(s, IPPROTO_IP, IP_ADD_MEMBERSHIP, &mreq, sizeof(mreq));
    

    where Fa mreq is the following structure:

    struct ip_mreq {
        struct in_addr imr_multiaddr; /* IP multicast address of group */
        struct in_addr imr_interface; /* local IP address of interface */
    }
    

    imr_interface should be set to INADDR_ANY to choose the default multicast interface, or the IP address of a particular multicast-capable interface if the host is multihomed. Since Fx 4.4 , if the imr_interface member is within the network range 0.0.0.0/8 it is treated as an interface index in the system interface MIB, as per the RIP Version 2 MIB Extension (RFC-1724).

    Up to IP_MAX_MEMBERSHIPS memberships may be added on a single socket. Membership is associated with a single interface; programs running on multihomed hosts may need to join the same group on more than one interface.

    The IGMP protocol uses the primary IP address of the interface as its identifier for group membership. If multiple IP aliases are configured on the same interface, they will be ignored. This shortcoming was addressed in IPv6; MLDv2 requires that the unique link-local address for an interface is used to identify an MLDv2 listener.

    To drop a membership, use:

    struct ip_mreq mreq;
    setsockopt(s, IPPROTO_IP, IP_DROP_MEMBERSHIP, &mreq, sizeof(mreq));
    

    where Fa mreq contains the same values as used to add the membership. Memberships are dropped when the socket is closed or the process exits.  

    Raw IP Sockets

    Raw IP sockets are connectionless, and are normally used with the sendto(2) and recvfrom(2) calls, though the connect(2) call may also be used to fix the destination for future packets (in which case the read(2) or recv(2) and write(2) or send(2) system calls may be used).

    If Fa proto is 0, the default protocol IPPROTO_RAW is used for outgoing packets, and only incoming packets destined for that protocol are received. If Fa proto is non-zero, that protocol number will be used on outgoing packets and to filter incoming packets.

    Outgoing packets automatically have an IP header prepended to them (based on the destination address and the protocol number the socket is created with), unless the IP_HDRINCL option has been set. Incoming packets are received with IP header and options intact.

    IP_HDRINCL indicates the complete IP header is included with the data and may be used only with the SOCK_RAW type.

    #include <netinet/in_systm.h>
    #include <netinet/ip.h>
    
    int hincl = 1;                  /* 1 = on, 0 = off */
    setsockopt(s, IPPROTO_IP, IP_HDRINCL, &hincl, sizeof(hincl));
    

    Unlike previous BSD releases, the program must set all the fields of the IP header, including the following:

    ip->ip_v = IPVERSION;
    ip->ip_hl = hlen >> 2;
    ip->ip_id = 0;  /* 0 means kernel set appropriate value */
    ip->ip_off = offset;
    

    The ip_len and ip_off fields must be provided in host byte order . All other fields must be provided in network byte order. See byteorder(3) for more information on network byte order. If the ip_id field is set to 0 then the kernel will choose an appropriate value. If the header source address is set to INADDR_ANY the kernel will choose an appropriate address.  

    ERRORS

    A socket operation may fail with one of the following errors returned:

    Bq Er EISCONN
    when trying to establish a connection on a socket which already has one, or when trying to send a datagram with the destination address specified and the socket is already connected;
    Bq Er ENOTCONN
    when trying to send a datagram, but no destination address is specified, and the socket has not been connected;
    Bq Er ENOBUFS
    when the system runs out of memory for an internal data structure;
    Bq Er EADDRNOTAVAIL
    when an attempt is made to create a socket with a network address for which no network interface exists.
    Bq Er EACCES
    when an attempt is made to create a raw IP socket by a non-privileged process.

    The following errors specific to IP may occur when setting or getting IP options:

    Bq Er EINVAL
    An unknown socket option name was given.
    Bq Er EINVAL
    The IP option field was improperly formed; an option field was shorter than the minimum value or longer than the option buffer provided.

    The following errors may occur when attempting to send IP datagrams via a ``raw socket'' with the IP_HDRINCL option set:

    Bq Er EINVAL
    The user-supplied ip_len field was not equal to the length of the datagram written to the socket.

     

    SEE ALSO

    getsockopt(2), recv(2), send(2), byteorder(3), icmp(4), inet(4), intro(4), multicast(4)  

    HISTORY

    The protocol appeared in BSD 4.2 The Vt ip_mreqn structure appeared in Linux 2.4


     

    Index

    NAME
    SYNOPSIS
    DESCRIPTION
    Multicast Options
    Raw IP Sockets
    ERRORS
    SEE ALSO
    HISTORY


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