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/*
* Guillaume Cottenceau (gc@mandrakesoft.com)
*
* Copyright 2000 MandrakeSoft
*
* View the homepage: http://us.mandrakesoft.com/~gc/html/stage1.html
*
*
* This software may be freely redistributed under the terms of the GNU
* public license.
*
* You should have received a copy of the GNU General Public License
* along with this program; if not, write to the Free Software
* Foundation, Inc., 675 Mass Ave, Cambridge, MA 02139, USA.
*
*/
/*
* Portions from GRUB -- GRand Unified Bootloader
* Copyright (C) 2000 Free Software Foundation, Inc.
*
* Itself based on etherboot-4.6.4 by Martin Renters.
*
*/
#include <stdlib.h>
#include <unistd.h>
#include <sys/time.h>
#include "stage1.h"
#include "dhcp.h"
static int currticks (void)
{
struct timeval tv;
long csecs;
int ticks_per_csec, ticks_per_usec;
/* Note: 18.2 ticks/sec. */
/* Get current time. */
gettimeofday (&tv, 0);
/* Compute centiseconds. */
csecs = tv.tv_sec / 10;
/* Ticks per centisecond. */
ticks_per_csec = csecs * 182;
/* Ticks per microsecond. */
ticks_per_usec = (((tv.tv_sec - csecs * 10) * 1000000 + tv.tv_usec)
* 182 / 10000000);
/* Sum them. */
return ticks_per_csec + ticks_per_usec;
}
static char rfc1533_cookie[] = { RFC1533_COOKIE };
static char rfc1533_end[] = { RFC1533_END };
static const char dhcpdiscover[] =
{
RFC2132_MSG_TYPE, 1, DHCPDISCOVER,
RFC2132_MAX_SIZE,2, /* request as much as we can */
sizeof(struct bootpd_t) / 256, sizeof(struct bootpd_t) % 256,
RFC2132_PARAM_LIST, 4, RFC1533_NETMASK, RFC1533_GATEWAY,
RFC1533_HOSTNAME, RFC1533_EXTENSIONPATH
};
static const char dhcprequest[] =
{
RFC2132_MSG_TYPE, 1, DHCPREQUEST,
RFC2132_SRV_ID, 4, 0, 0, 0, 0,
RFC2132_REQ_ADDR, 4, 0, 0, 0, 0,
RFC2132_MAX_SIZE,2, /* request as much as we can */
sizeof(struct bootpd_t) / 256, sizeof(struct bootpd_t) % 256,
/* request parameters */
RFC2132_PARAM_LIST,
4 + 2,
/* Standard parameters */
RFC1533_NETMASK, RFC1533_GATEWAY,
RFC1533_HOSTNAME, RFC1533_EXTENSIONPATH,
/* Etherboot vendortags */
RFC1533_VENDOR_MAGIC,
RFC1533_VENDOR_CONFIGFILE,
};
static unsigned long xid;
static int sock;
static int await_reply (int type, int ival, void *ptr, int timeout)
{
unsigned long time;
struct iphdr *ip;
struct udphdr *udp;
struct arprequest *arpreply;
struct bootp_t *bootpreply;
unsigned short ptype;
unsigned int protohdrlen = (ETHER_HDR_SIZE + sizeof (struct iphdr) + sizeof (struct udphdr));
/* Clear the abort flag. */
ip_abort = 0;
time = currticks () + TIMEOUT;
/* The timeout check is done below. The timeout is only checked if
* there is no packet in the Rx queue. This assumes that eth_poll()
* needs a negligible amount of time. */
for (;;)
{
if (eth_poll ())
{
/* We have something! */
/* Check for ARP - No IP hdr. */
if (nic.packetlen >= ETHER_HDR_SIZE)
{
ptype = (((unsigned short) nic.packet[12]) << 8
| ((unsigned short) nic.packet[13]));
}
else
/* What else could we do with it? */
continue;
if (nic.packetlen >= ETHER_HDR_SIZE + sizeof (struct arprequest)
&& ptype == ARP)
{
unsigned long tmp;
arpreply = (struct arprequest *) &nic.packet[ETHER_HDR_SIZE];
if (arpreply->opcode == ntohs (ARP_REPLY)
&& ! grub_memcmp (arpreply->sipaddr, ptr, sizeof (in_addr))
&& type == AWAIT_ARP)
{
grub_memmove ((char *) arptable[ival].node,
arpreply->shwaddr,
ETHER_ADDR_SIZE);
return 1;
}
grub_memmove ((char *) &tmp, arpreply->tipaddr,
sizeof (in_addr));
if (arpreply->opcode == ntohs (ARP_REQUEST)
&& tmp == arptable[ARP_CLIENT].ipaddr.s_addr)
{
arpreply->opcode = htons (ARP_REPLY);
grub_memmove (arpreply->tipaddr, arpreply->sipaddr,
sizeof (in_addr));
grub_memmove (arpreply->thwaddr, (char *) arpreply->shwaddr,
ETHER_ADDR_SIZE);
grub_memmove (arpreply->sipaddr,
(char *) &arptable[ARP_CLIENT].ipaddr,
sizeof (in_addr));
grub_memmove (arpreply->shwaddr,
arptable[ARP_CLIENT].node,
ETHER_ADDR_SIZE);
eth_transmit (arpreply->thwaddr, ARP,
sizeof (struct arprequest),
arpreply);
#ifdef MDEBUG
grub_memmove (&tmp, arpreply->tipaddr, sizeof (in_addr));
grub_printf ("Sent ARP reply to: %x\n", tmp);
#endif /* MDEBUG */
}
continue;
}
if (type == AWAIT_QDRAIN)
{
continue;
}
/* Check for RARP - No IP hdr. */
if (type == AWAIT_RARP
&& nic.packetlen >= ETHER_HDR_SIZE + sizeof (struct arprequest)
&& ptype == RARP)
{
arpreply = (struct arprequest *) &nic.packet[ETHER_HDR_SIZE];
if (arpreply->opcode == ntohs (RARP_REPLY)
&& ! grub_memcmp (arpreply->thwaddr, ptr, ETHER_ADDR_SIZE))
{
grub_memmove ((char *) arptable[ARP_SERVER].node,
arpreply->shwaddr, ETHER_ADDR_SIZE);
grub_memmove ((char *) &arptable[ARP_SERVER].ipaddr,
arpreply->sipaddr, sizeof (in_addr));
grub_memmove ((char *) &arptable[ARP_CLIENT].ipaddr,
arpreply->tipaddr, sizeof (in_addr));
return 1;
}
continue;
}
/* Anything else has IP header. */
if (nic.packetlen < protohdrlen || ptype != IP)
continue;
ip = (struct iphdr *) &nic.packet[ETHER_HDR_SIZE];
if (ip->verhdrlen != 0x45
|| ipchksum ((unsigned short *) ip, sizeof (struct iphdr))
|| ip->protocol != IP_UDP)
continue;
udp = (struct udphdr *)
&nic.packet[ETHER_HDR_SIZE + sizeof (struct iphdr)];
/* BOOTP ? */
bootpreply = (struct bootp_t *) &nic.packet[ETHER_HDR_SIZE];
if (type == AWAIT_BOOTP
#ifdef NO_DHCP_SUPPORT
&& (nic.packetlen
>= (ETHER_HDR_SIZE + sizeof (struct bootp_t)))
#else
&& (nic.packetlen
>= (ETHER_HDR_SIZE + sizeof (struct bootp_t)) - DHCP_OPT_LEN)
#endif /* ! NO_DHCP_SUPPORT */
&& ntohs (udp->dest) == BOOTP_CLIENT
&& bootpreply->bp_op == BOOTP_REPLY
&& bootpreply->bp_xid == xid)
{
arptable[ARP_CLIENT].ipaddr.s_addr
= bootpreply->bp_yiaddr.s_addr;
#ifndef NO_DHCP_SUPPORT
dhcp_addr.s_addr = bootpreply->bp_yiaddr.s_addr;
#endif /* ! NO_DHCP_SUPPORT */
netmask = default_netmask ();
arptable[ARP_SERVER].ipaddr.s_addr
= bootpreply->bp_siaddr.s_addr;
/* Kill arp. */
grub_memset (arptable[ARP_SERVER].node, 0, ETHER_ADDR_SIZE);
arptable[ARP_GATEWAY].ipaddr.s_addr
= bootpreply->bp_giaddr.s_addr;
/* Kill arp. */
grub_memset (arptable[ARP_GATEWAY].node, 0, ETHER_ADDR_SIZE);
/* GRUB doesn't autoload any kernel image. */
#ifndef GRUB
if (bootpreply->bp_file[0])
{
grub_memmove (kernel_buf, bootpreply->bp_file, 128);
kernel = kernel_buf;
}
#endif /* ! GRUB */
grub_memmove ((char *) BOOTP_DATA_ADDR, (char *) bootpreply,
sizeof (struct bootpd_t));
#ifdef NO_DHCP_SUPPORT
decode_rfc1533 (BOOTP_DATA_ADDR->bootp_reply.bp_vend,
0, BOOTP_VENDOR_LEN + MAX_BOOTP_EXTLEN, 1);
#else
decode_rfc1533 (BOOTP_DATA_ADDR->bootp_reply.bp_vend,
0, DHCP_OPT_LEN, 1);
#endif /* ! NO_DHCP_SUPPORT */
return 1;
}
/* TFTP ? */
if (type == AWAIT_TFTP && ntohs (udp->dest) == ival)
return 1;
}
else
{
/* Check for abort key only if the Rx queue is empty -
* as long as we have something to process, don't
* assume that something failed. It is unlikely that
* we have no processing time left between packets. */
if (checkkey () != -1 && ASCII_CHAR (getkey ()) == CTRL_C)
{
ip_abort = 1;
return 0;
}
/* Do the timeout after at least a full queue walk. */
if ((timeout == 0) || (currticks() > time))
{
break;
}
}
}
return 0;
}
static int bootp(struct interface_info * intf)
{
int retry;
int retry1;
struct bootp_t bp;
unsigned long starttime;
struct ifreq req;
int s;
strcpy(req.ifr_name, intf->name);
if (ioctl(sock, SIOCGIFHWADDR, &req)) {
log_perror("SIOCSIFHWADDR");
return -1;
}
memset (&bp, 0, sizeof (struct bootp_t));
bp.bp_op = BOOTP_REQUEST;
bp.bp_htype = 1;
bp.bp_hlen = ETHER_ADDR_SIZE;
bp.bp_xid = xid = starttime = currticks ();
memmove(bp.bp_hwaddr, req.ifr_hwaddr.sa_data, ETHER_ADDR_SIZE);
/* Request RFC-style options. */
memmove(bp.bp_vend, rfc1533_cookie, sizeof rfc1533_cookie);
memmove(bp.bp_vend + sizeof rfc1533_cookie, dhcpdiscover, sizeof dhcpdiscover);
memmove(bp.bp_vend + sizeof rfc1533_cookie + sizeof dhcpdiscover, rfc1533_end, sizeof rfc1533_end);
for (retry = 0; retry < MAX_BOOTP_RETRIES;)
{
/* Clear out the Rx queue first. It contains nothing of
* interest, except possibly ARP requests from the DHCP/TFTP
* server. We use polling throughout Etherboot, so some time
* may have passed since we last polled the receive queue,
* which may now be filled with broadcast packets. This will
* cause the reply to the packets we are about to send to be
* lost immediately. Not very clever. */
await_reply (AWAIT_QDRAIN, 0, NULL, 0);
udp_transmit (IP_BROADCAST, BOOTP_CLIENT, BOOTP_SERVER,
sizeof (struct bootp_t), &bp);
if (await_reply (AWAIT_BOOTP, 0, NULL, TIMEOUT))
{
if (dhcp_reply == DHCPOFFER)
{
dhcp_reply = 0;
grub_memmove (bp.bp_vend, rfc1533_cookie, sizeof rfc1533_cookie);
grub_memmove (bp.bp_vend + sizeof rfc1533_cookie,
dhcprequest, sizeof dhcprequest);
grub_memmove (bp.bp_vend + sizeof rfc1533_cookie
+ sizeof dhcprequest,
rfc1533_end, sizeof rfc1533_end);
grub_memmove (bp.bp_vend + 9, (char *) &dhcp_server,
sizeof (in_addr));
grub_memmove (bp.bp_vend + 15, (char *) &dhcp_addr,
sizeof (in_addr));
for (retry1 = 0; retry1 < MAX_BOOTP_RETRIES;)
{
udp_transmit (IP_BROADCAST, 0, BOOTP_SERVER,
sizeof (struct bootp_t), &bp);
dhcp_reply = 0;
if (await_reply (AWAIT_BOOTP, 0, NULL, TIMEOUT))
if (dhcp_reply == DHCPACK)
{
network_ready = 1;
return 1;
}
if (ip_abort)
return 0;
rfc951_sleep (++retry1);
}
/* Timeout. */
return 0;
}
else
{
network_ready = 1;
return 1;
}
}
if (ip_abort)
return 0;
rfc951_sleep (++retry);
bp.bp_secs = htons ((currticks () - starttime) / 20);
}
/* Timeout. */
return 0;
}
enum return_type setup_network_intf_as_dhcp(struct interface_info * intf)
{
sock = socket(AF_INET, SOCK_DGRAM, 0);
if (sock < 0) {
return log_perror("socket");
return -1;
}
return RETURN_ERROR;
}
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