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inetd(ADMN)


 bootpd(ADMN)                  06 January 1993                   bootpd(ADMN)


 Name

    bootpd - Internet Boot Protocol server

 Syntax

    bootpd [ -s -ttimeout -d ] [ configfile [ dumpfile ] ]

 Description

    bootpd implements an Internet Boot Protocol server as defined in RFC951
    and RFC1048.  It is normally run by /etc/inetd by including the following
    line in the file /etc/inetd.conf:

            bootps  dgram   udp     wait    root    /etc/bootpd     bootpd

    This causes bootpd to be started only when a boot request arrives.  If
    bootpd does not receive another boot request within fifteen minutes of
    the last one it received, it will exit to conserve system resources.  The
    -t switch may be used to specify a different timeout value in minutes
    (for example, -t20).  A timeout value of zero means forever.

    It is also possible to run bootpd in a standalone configuration using the
    -s switch (for example, at boot time from /etc/tcp).  This is probably
    the desired mode of operation for large network installations with many
    hosts.  In this case, the -t switch has no effect since bootpd will never
    exit.

    Each instance of the -d switch increases the level of debugging output.

    Upon startup, bootpd first reads its configuration file, /etc/bootptab,
    and then begins listening for BOOTREQUEST packets. The configuration file
    has a format similar to that of termcap(S) in which two-character case-
    sensitive tag symbols are used to represent host parameters.  These
    parameter declarations are separated by colons ``:''.  The general format
    is:

            hostname:tg=value. . . :tg=value. . . :tg=value. . . .

    where hostname is the actual name of a bootp client and tg is a two-
    character tag symbol.  Most tags must be followed by an equals-sign and a
    value as above.  Some may also appear in a boolean form with no value
    (that is, :tg:).

    The currently recognized tags are:

            bf      Bootfile
            bs      Bootfile size in 512-octet blocks
            cs      Cookie server address list
            ds      Domain name server address list
            gw      Gateway address list
            ha      Host hardware address
            hd      Bootfile home directory
            hn      Send hostname
            ht      Host hardware type (see Assigned Numbers RFC)
            im      Impress server address list
            ip      Host IP address
            lg      Log server address list
            lp      LPR server address list
            ns      IEN-116 name server address list
            rl      Resource location protocol server address list
            sm      Host subnet mask
            tc      Table continuation (points to similar "template" host entry)
            to      Time offset in seconds from UTC
            ts      Time server address list
            vm      Vendor magic cookie selector


    There is also a generic tag, Tn, where n is an RFC1048 vendor field tag
    number.  Thus it is possible to immediately take advantage of future
    extensions to RFC1048 without being forced to modify bootpd first.  Gen-
    eric data may be represented as either a stream of hexadecimal numbers or
    as a quoted string of ASCII characters.  The length of the generic data
    is automatically determined and inserted into the proper field(s) of the
    RFC1048-style bootp reply.

    The following tags take a whitespace-separated list of IP addresses:  cs,
    ds, gw, im, lg, lp, ns, rl, and ts.  The ip and sm tags each take a sin-
    gle IP address.  All IP addresses are specified in standard Internet
    "dot" notation and may use decimal, octal, or hexadecimal numbers (octal
    numbers begin with 0, hexadecimal numbers begin with '0x' or '0X').

    The ht tag specifies the hardware type code as either an unsigned
    decimal, octal, or hexadecimal integer or one of the following symbolic
    names:  ethernet or ether for 10Mb Ethernet; ethernet3 or ether3 for 3Mb
    experimental Ethernet; ieee802, tr, or token-ring for IEEE 802 networks;
    pronet for Proteon ProNET Token Ring; or chaos, arcnet, or ax.25 for
    Chaos, ARCNET, and AX.25 Amateur Radio networks, respectively.  The ha
    tag takes a hardware address which must be specified in hexadecimal;
    optional periods and/or a leading '0x' may be included for readability.
    The ha tag must be preceded by the ht tag (either explicitly or impli-
    citly; see tc below).

    The hostname, home directory, and bootfile are ASCII strings which may be
    optionally surrounded by double quotes ``"''.  The client's request and
    the values of the hd and bf symbols determine how the server fills in the
    bootfile field of the bootp reply packet.

    If the client specifies an absolute pathname and that file exists on the
    server machine, that pathname is returned in the reply packet.  If the
    file cannot be found, the request is discarded; no reply is sent.  If the
    client specifies a relative pathname, a full pathname is formed by
    prepending the value of the hd tag and testing for existence of the file.
    If the hd tag is not supplied in the configuration file or if the result-
    ing boot file cannot be found, then the request is discarded.

    Clients which specify null boot files will always elicit a reply from the
    server.  The exact reply will again depend upon the hd and bf tags.  If
    the bf tag gives an absolute pathname and the file exists, that pathname
    is returned in the reply packet.  Otherwise, if the hd and bf tags
    together specify an accessible file, that filename is returned in the
    reply.  If a complete filename cannot be determined or the file does not
    exist, the reply will contain a zeroed-out bootfile field.

    In all these cases, existence of the file means that, in addition to
    actually being present, the file must have its public read access bit
    set, since this is required by tftpd(ADMN) to permit the file transfer.
    Also, all filenames are first tried as filename.hostname and then simply
    as filename, thus providing for individual per-host bootfiles.

    The time offset to may be either a signed decimal integer specifying the
    client's time zone offset in seconds from UTC, or the keyword auto which
    uses the server's time zone offset.  Specifying the to symbol as a
    boolean has the same effect as specifying auto as its value.

    The bootfile size bs may be either a decimal, octal, or hexadecimal
    integer specifying the size of the bootfile in 512-octet blocks, or the
    keyword auto which causes the server to automatically calculate the boot-
    file size at each request.  As with the time offset, specifying the bs
    symbol as a boolean has the same effect as specifying auto as its value.

    The vendor magic cookie selector (the vm tag) may take one of the follow-
    ing keywords:  auto (indicating that vendor information is determined by
    the client's request), rfc1048 (which always forces an RFC1048-style
    reply), or cmu (which always forces a CMU-style reply).

    The hn tag is strictly a boolean tag; it does not take the usual equals-
    sign and value.  Its presence indicates that the hostname should be sent
    to RFC1048 clients.  bootpd attempts to send the entire hostname as it is
    specified in the configuration file; if this will not fit into the reply
    packet, the name is shortened to just the host field (up to the first pe-
    riod, if present) and then tried.  In no case is an arbitrarily-truncated
    hostname sent (if nothing reasonable will fit, nothing is sent).

    Often, many host entries share common values for certain tags (such as
    name servers, etc.).  Rather than repeatedly specifying these tags, a
    full specification can be listed for one host entry and shared by others
    via the tc (table continuation) mechanism.  Often, the template entry is
    a dummy host which does not actually exist and never sends bootp
    requests.  This feature is similar to the tc feature of termcap(S) for
    similar terminals.  Note that bootpd allows the tc tag symbol to appear
    anywhere in the host entry, unlike termcap which requires it to be the
    last tag.  Information explicitly specified for a host always overrides
    information implied by a tc tag symbol, regardless of its location within
    the entry.  The value of the tc tag may be the hostname or IP address of
    any host entry previously listed in the configuration file.

    Sometimes it is necessary to delete a specific tag after it has been
    inferred via tc.  This can be done using the construction tag @ which
    removes the effect of tag as in termcap(S).  For example, to completely
    undo an IEN-116 name server specification, use ":ns@:" at an appropriate
    place in the configuration entry.  After removal with ``@'', a tag is
    eligible to be set again through the tc mechanism.

    Blank lines and lines beginning with ``#'' are ignored in the configura-
    tion file.  Host entries are separated from one another by newlines; a
    single host entry may be extended over multiple lines if the lines end
    with a backslash ``\''.  It is also acceptable for lines to be longer
    than 80 characters.  Tags may appear in any order, with the following
    exceptions:  the hostname must be the very first field in an entry, and
    the hardware type must precede the hardware address.

    An example /etc/bootptab file follows:


       # Sample bootptab file

       default1:\
               :hd=/usr/boot:bf=null:\
               :ds=128.2.35.50 128.2.13.21:\
               :ns=0x80020b4d 0x80020ffd:\
               :ts=0x80020b4d 0x80020ffd:\
               :sm=255.255.0.0:gw=0x8002fe24:\
               :hn:vm=auto:to=-18000:\
               :T37=0x12345927AD3BCF:T99="Special ASCII string":
       carnegie:ht=6:ha=7FF8100000AF:ip=128.2.11.1:tc=default1:
       baldwin:ht=1:ha=0800200159C3:ip=128.2.11.10:tc=default1:
       wylie:ht=1:ha=00DD00CADF00:ip=128.2.11.100:tc=default1:
       arnold:ht=1:ha=0800200102AD:ip=128.2.11.102:tc=default1:
       bairdford:ht=1:ha=08002B02A2F9:ip=128.2.11.103:tc=default1:
       bakerstown:ht=1:ha=08002B0287C8:ip=128.2.11.104:tc=default1:

       # Special domain name server for next host
       butlerjct:ht=1:ha=08002001560D:ip=128.2.11.108:ds=128.2.13.42:tc=default1:

       gastonville:ht=6:ha=7FFF81000A47:ip=128.2.11.115:tc=default1:
       hahntown:ht=6:ha=7FFF81000434:ip=128.2.11.117:tc=default1:
       hickman:ht=6:ha=7FFF810001BA:ip=128.2.11.118:tc=default1:
       lowber:ht=1:ha=00DD00CAF000:ip=128.2.11.121:tc=default1:
       mtoliver:ht=1:ha=00DD00FE1600:ip=128.2.11.122:tc=default1:


    bootpd looks in /etc/services to find the port numbers it should use.
    Two entries are extracted:  bootps -- the bootp server listening port,
    and bootpc -- the destination port used to reply to clients.  If the port
    numbers cannot be determined this way, they are assumed to be 67 for the
    server and 68 for the client.

    bootpd rereads its configuration file when it receives a hangup signal,
    SIGHUP, or when it receives a bootp request packet and detects that the
    file has been updated. Hosts may be added, deleted or modified when the
    configuration file is reread.  If bootpd is compiled with the -DDEBUG
    option, receipt of a SIGUSR1 signal causes it to dump its memory-resident
    database to the file /etc/bootpd.dump or the command-line-specified dump-
    file.

 Files

    /etc/bootptab
    /etc/bootpd.dump
    /etc/services

 User considerations

    Individual host entries must not exceed 1024 characters.

 Note

    This command is compliant with RFC1084.

 See also

    inetd(ADMN), RFC951, RFC1048, RFC1084


Typewritten Software • bear@typewritten.org • Edmonds, WA 98026