.TH DHCPD 8 .SH NAME dhcpd, dhcpleases, rarpd, tftpd \- Internet booting .SH SYNOPSIS .PP .B ip/dhcpd .RB [ -dmnprsSZ ] .RB [ -f .IR ndb-file ] .RB [ -M .IR secs ] .RB [ -x .IR netmtpt ] .RB [ -Z .IR secs ] [ .I address .I n ] ... .PP .B ip/dhcpleases .PP .B ip/rarpd .RB [ -d ] .RB [ -e .IR etherdev ] .RB [ -x .IR netmtpt ] .PP .B ip/tftpd .RB [ -dr ] .RB [ -h .IR homedir ] .RB [ -x .IR netmtpt ] .SH DESCRIPTION These programs support booting over the Internet. They should all be run on the same server to allow other systems to be booted. .I Dhcpd and .I tftpd are used to boot everything; .I rarpd is an extra piece just for Suns. .PP .I Dhcpd runs the .SM BOOTP and .SM DHCP protocols. Clients use these protocols to obtain configuration information. This information comes from attribute/value pairs in the network database (see .IR ndb (6) and .IR ndb (8)). DHCP requests are honored both for static addresses found in the NDB and for dynamic addresses listed in the command line. DHCP requests are honored if either: .br \- there exists an NDB entry containing both the ethernet address of the requester and an IP address on the originating network or subnetwork. .br \- a free dynamic address exists on the originating network or subnetwork. .PP A BOOTP request is honored it all of the following are true: .br \- there exists an NDB entry containing both the ethernet address of the requester and an IP address on the originating network or subnetwork. .br \- the entry contains a .B bootf= attribute .br \- the file in the .B bootf= attribute is readable. .PP Dynamic addresses are specified on the command line as a list of addresses and number pairs. For example, .EX ip/dhcpd 10.1.1.12 10 10.2.1.70 12 .EE directs .I dhcpd to return dynamic addresses 10.1.1.12 through 10.1.1.21 inclusive and 10.2.1.70 through 10.2.1.81 inclusive. .PP .I Dhcpd maintains a record of all dynamic addresses in the directory .BR /lib/ndb/dhcp , one file per address. If multiple servers have access to this common directory, they will correctly coordinate their actions. .PP Attributes come from either the NDB entry for the system, the entry for its subnet, or the entry for its network. The system entry has precedence, then the subnet, then the network. The NDB attributes used are: .TF ipmask .TP .B ip the IP address .TP .B ipmask the IP mask .TP .B ipgw the default IP gateway .TP .B dom the domain name of the system .TP .B fs the default Plan 9 name server .TP .B auth the default Plan 9 authentication server .TP .B dns a domain name server .TP .B ntp a network time protocol server .TP .B time a time server .TP .B wins a .SM NETBIOS name server .TP .B www a World Wide Web proxy .TP .B pop3 a POP3 mail server .TP .B smtp an SMTP mail server .TP .B bootf the default boot file .PD .PP .I Dhcpd will answer .SM BOOTP requests only if it has been specifically targeted or if it has read access to the boot file for the requester. That means that the requester must specify a boot file in the request or one has to exist in NDB for .I dhcpd to answer. .I Dhcpd will answer all .SM DHCP requests for which it can associate an IP address with the requester. The options are: .TP .B d Print debugging to standard output. .TP .B f Specify a file other than .B /lib/ndb/local as the network database. .TP .B m Mute: don't reply to requests, just log them and what .I dhcpd would have done. .TP .B M Use .I secs as the minimum lease time for dynamic addresses. .TP .B n Don't answer .SM BOOTP requests. .TP .B p Answer .SM DHCP requests from .SM PPTP clients only. .TP .B r Mute static addresses: don't reply to requests for static addresses, just log them and what .I dhcpd would have done. .TP .B s Sleep 2 seconds before answering requests for static addresses. This is used to make a server be a backup only. .TP .B S Sleep 2 seconds before answering requests for dynamic addresses. .TP .B x The IP stack to use is mounted at .IR netmtpt . The default is .BR /net . .TP .B Z Use .I secs as the minimum lease time for static addresses. .PD .PP .I Dhcpleases prints out the currently valid DHCP leases found in the .B /lib/ndb/dhcp directory. .PP .I Rarpd performs the Reverse Address Resolution Protocol, translating Ethernet addresses into IP addresses. The options are: .TP .B d Print debugging to standard output. .TP .B e Use the Ethernet mounted at .BI /net/ etherdev\f1. .TP .B x The IP stack to use is mounted at .IR netmtpt . The default is .BR /net . .PD .PP .I Tftpd transfers files to systems that are booting. It runs as user .B none and can only access files with global read permission. The options are: .TP .B d Print debugging to standard output. .TP .B x The IP stack to use is mounted at .IR netmtpt . The default is .BR /net . .TP .B h Change directory to .IR homedir . The default is .BR /lib/tftpd . All requests for files with non-rooted file names are served starting at this directory with the exception of files of the form .BR xxxxxxxx.SUNyy . These are Sparc kernel boot files where .B xxxxxxxx is the hex IP address of the machine requesting the kernel and .B yy is an architecture identifier. .I Tftpd looks up the file in the network database using .I ipinfo (see .IR ndb (2)) and responds with the boot file specified for that particular machine. If no boot file is specified, the transfer fails. .I Tftpd supports only octet mode. .TP .B r Restricts access to only those files rooted in the .IR homedir . .PD .SH FILES .BR /lib/ndb/dhcp " directory of dynamic address files .SH SOURCE .B /sys/src/cmd/ip .SH "SEE ALSO" .IR ndb (6)