pxe.c revision 1.4.2.2
1 1.4.2.2 kanaoka /* $NetBSD: pxe.c,v 1.4.2.2 2002/03/26 08:02:06 kanaoka Exp $ */ 2 1.4.2.2 kanaoka 3 1.4.2.2 kanaoka /* 4 1.4.2.2 kanaoka * Copyright 2001 Wasabi Systems, Inc. 5 1.4.2.2 kanaoka * All rights reserved. 6 1.4.2.2 kanaoka * 7 1.4.2.2 kanaoka * Written by Jason R. Thorpe for Wasabi Systems, Inc. 8 1.4.2.2 kanaoka * 9 1.4.2.2 kanaoka * Redistribution and use in source and binary forms, with or without 10 1.4.2.2 kanaoka * modification, are permitted provided that the following conditions 11 1.4.2.2 kanaoka * are met: 12 1.4.2.2 kanaoka * 1. Redistributions of source code must retain the above copyright 13 1.4.2.2 kanaoka * notice, this list of conditions and the following disclaimer. 14 1.4.2.2 kanaoka * 2. Redistributions in binary form must reproduce the above copyright 15 1.4.2.2 kanaoka * notice, this list of conditions and the following disclaimer in the 16 1.4.2.2 kanaoka * documentation and/or other materials provided with the distribution. 17 1.4.2.2 kanaoka * 3. All advertising materials mentioning features or use of this software 18 1.4.2.2 kanaoka * must display the following acknowledgement: 19 1.4.2.2 kanaoka * This product includes software developed for the NetBSD Project by 20 1.4.2.2 kanaoka * Wasabi Systems, Inc. 21 1.4.2.2 kanaoka * 4. The name of Wasabi Systems, Inc. may not be used to endorse 22 1.4.2.2 kanaoka * or promote products derived from this software without specific prior 23 1.4.2.2 kanaoka * written permission. 24 1.4.2.2 kanaoka * 25 1.4.2.2 kanaoka * THIS SOFTWARE IS PROVIDED BY WASABI SYSTEMS, INC. ``AS IS'' AND 26 1.4.2.2 kanaoka * ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED 27 1.4.2.2 kanaoka * TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR 28 1.4.2.2 kanaoka * PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL WASABI SYSTEMS, INC 29 1.4.2.2 kanaoka * BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR 30 1.4.2.2 kanaoka * CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF 31 1.4.2.2 kanaoka * SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS 32 1.4.2.2 kanaoka * INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN 33 1.4.2.2 kanaoka * CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) 34 1.4.2.2 kanaoka * ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE 35 1.4.2.2 kanaoka * POSSIBILITY OF SUCH DAMAGE. 36 1.4.2.2 kanaoka */ 37 1.4.2.2 kanaoka 38 1.4.2.2 kanaoka /* 39 1.4.2.2 kanaoka * Copyright (c) 2000 Alfred Perlstein <alfred (at) freebsd.org> 40 1.4.2.2 kanaoka * All rights reserved. 41 1.4.2.2 kanaoka * Copyright (c) 2000 Paul Saab <ps (at) freebsd.org> 42 1.4.2.2 kanaoka * All rights reserved. 43 1.4.2.2 kanaoka * Copyright (c) 2000 John Baldwin <jhb (at) freebsd.org> 44 1.4.2.2 kanaoka * All rights reserved. 45 1.4.2.2 kanaoka * 46 1.4.2.2 kanaoka * Redistribution and use in source and binary forms, with or without 47 1.4.2.2 kanaoka * modification, are permitted provided that the following conditions 48 1.4.2.2 kanaoka * are met: 49 1.4.2.2 kanaoka * 1. Redistributions of source code must retain the above copyright 50 1.4.2.2 kanaoka * notice, this list of conditions and the following disclaimer. 51 1.4.2.2 kanaoka * 2. Redistributions in binary form must reproduce the above copyright 52 1.4.2.2 kanaoka * notice, this list of conditions and the following disclaimer in the 53 1.4.2.2 kanaoka * documentation and/or other materials provided with the distribution. 54 1.4.2.2 kanaoka * 55 1.4.2.2 kanaoka * THIS SOFTWARE IS PROVIDED BY THE AUTHOR AND CONTRIBUTORS ``AS IS'' AND 56 1.4.2.2 kanaoka * ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE 57 1.4.2.2 kanaoka * IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE 58 1.4.2.2 kanaoka * ARE DISCLAIMED. IN NO EVENT SHALL THE AUTHOR OR CONTRIBUTORS BE LIABLE 59 1.4.2.2 kanaoka * FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL 60 1.4.2.2 kanaoka * DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS 61 1.4.2.2 kanaoka * OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) 62 1.4.2.2 kanaoka * HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT 63 1.4.2.2 kanaoka * LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY 64 1.4.2.2 kanaoka * OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF 65 1.4.2.2 kanaoka * SUCH DAMAGE. 66 1.4.2.2 kanaoka */ 67 1.4.2.2 kanaoka 68 1.4.2.2 kanaoka /* 69 1.4.2.2 kanaoka * Support for the Intel Preboot Execution Environment (PXE). 70 1.4.2.2 kanaoka * 71 1.4.2.2 kanaoka * PXE provides a UDP implementation as well as a UNDI network device 72 1.4.2.2 kanaoka * driver. UNDI is much more complicated to use than PXE UDP, so we 73 1.4.2.2 kanaoka * use PXE UDP as a cheap and easy way to get PXE support. 74 1.4.2.2 kanaoka */ 75 1.4.2.2 kanaoka 76 1.4.2.2 kanaoka #include <sys/param.h> 77 1.4.2.2 kanaoka #include <sys/socket.h> 78 1.4.2.2 kanaoka 79 1.4.2.2 kanaoka #ifdef _STANDALONE 80 1.4.2.2 kanaoka #include <lib/libkern/libkern.h> 81 1.4.2.2 kanaoka #else 82 1.4.2.2 kanaoka #include <string.h> 83 1.4.2.2 kanaoka #endif 84 1.4.2.2 kanaoka 85 1.4.2.2 kanaoka #include <netinet/in.h> 86 1.4.2.2 kanaoka #include <netinet/in_systm.h> 87 1.4.2.2 kanaoka #include <netinet/ip.h> 88 1.4.2.2 kanaoka #include <netinet/ip_var.h> 89 1.4.2.2 kanaoka #include <netinet/udp.h> 90 1.4.2.2 kanaoka #include <netinet/udp_var.h> 91 1.4.2.2 kanaoka 92 1.4.2.2 kanaoka #include <net/if_ether.h> 93 1.4.2.2 kanaoka 94 1.4.2.2 kanaoka #include <lib/libsa/stand.h> 95 1.4.2.2 kanaoka #include <lib/libsa/net.h> 96 1.4.2.2 kanaoka #include <lib/libsa/netif.h> 97 1.4.2.2 kanaoka #include <lib/libsa/bootp.h> 98 1.4.2.2 kanaoka 99 1.4.2.2 kanaoka #include <libi386.h> 100 1.4.2.2 kanaoka #include <bootinfo.h> 101 1.4.2.2 kanaoka 102 1.4.2.2 kanaoka #include "pxeboot.h" 103 1.4.2.2 kanaoka #include "pxe.h" 104 1.4.2.2 kanaoka 105 1.4.2.2 kanaoka void (*pxe_call)(u_int16_t); 106 1.4.2.2 kanaoka 107 1.4.2.2 kanaoka void pxecall_bangpxe(u_int16_t); /* pxe_call.S */ 108 1.4.2.2 kanaoka void pxecall_pxenv(u_int16_t); /* pxe_call.S */ 109 1.4.2.2 kanaoka 110 1.4.2.2 kanaoka char pxe_command_buf[256]; 111 1.4.2.2 kanaoka 112 1.4.2.2 kanaoka BOOTPLAYER bootplayer; 113 1.4.2.2 kanaoka 114 1.4.2.2 kanaoka /***************************************************************************** 115 1.4.2.2 kanaoka * This section is a replacement for libsa/udp.c 116 1.4.2.2 kanaoka *****************************************************************************/ 117 1.4.2.2 kanaoka 118 1.4.2.2 kanaoka /* Caller must leave room for ethernet, ip, and udp headers in front!! */ 119 1.4.2.2 kanaoka ssize_t 120 1.4.2.2 kanaoka sendudp(struct iodesc *d, void *pkt, size_t len) 121 1.4.2.2 kanaoka { 122 1.4.2.2 kanaoka t_PXENV_UDP_WRITE *uw = (void *) pxe_command_buf; 123 1.4.2.2 kanaoka 124 1.4.2.2 kanaoka uw->status = 0; 125 1.4.2.2 kanaoka 126 1.4.2.2 kanaoka uw->ip = d->destip.s_addr; 127 1.4.2.2 kanaoka uw->gw = gateip.s_addr; 128 1.4.2.2 kanaoka uw->src_port = d->myport; 129 1.4.2.2 kanaoka uw->dst_port = d->destport; 130 1.4.2.2 kanaoka uw->buffer_size = len; 131 1.4.2.2 kanaoka uw->buffer.segment = VTOPSEG(pkt); 132 1.4.2.2 kanaoka uw->buffer.offset = VTOPOFF(pkt); 133 1.4.2.2 kanaoka 134 1.4.2.2 kanaoka pxe_call(PXENV_UDP_WRITE); 135 1.4.2.2 kanaoka 136 1.4.2.2 kanaoka if (uw->status != PXENV_STATUS_SUCCESS) { 137 1.4.2.2 kanaoka /* XXX This happens a lot; it shouldn't. */ 138 1.4.2.2 kanaoka if (uw->status != PXENV_STATUS_FAILURE) 139 1.4.2.2 kanaoka printf("sendudp: PXENV_UDP_WRITE failed: 0x%x\n", 140 1.4.2.2 kanaoka uw->status); 141 1.4.2.2 kanaoka return (-1); 142 1.4.2.2 kanaoka } 143 1.4.2.2 kanaoka 144 1.4.2.2 kanaoka return (len); 145 1.4.2.2 kanaoka } 146 1.4.2.2 kanaoka 147 1.4.2.2 kanaoka /* 148 1.4.2.2 kanaoka * Receive a UDP packet and validate it for us. 149 1.4.2.2 kanaoka * Caller leaves room for the headers (Ether, IP, UDP). 150 1.4.2.2 kanaoka */ 151 1.4.2.2 kanaoka ssize_t 152 1.4.2.2 kanaoka readudp(struct iodesc *d, void *pkt, size_t len, time_t tleft) 153 1.4.2.2 kanaoka { 154 1.4.2.2 kanaoka t_PXENV_UDP_READ *ur = (void *) pxe_command_buf; 155 1.4.2.2 kanaoka struct udphdr *uh; 156 1.4.2.2 kanaoka struct ip *ip; 157 1.4.2.2 kanaoka 158 1.4.2.2 kanaoka uh = (struct udphdr *)pkt - 1; 159 1.4.2.2 kanaoka ip = (struct ip *)uh - 1; 160 1.4.2.2 kanaoka 161 1.4.2.2 kanaoka bzero(ur, sizeof(*ur)); 162 1.4.2.2 kanaoka 163 1.4.2.2 kanaoka ur->dest_ip = d->myip.s_addr; 164 1.4.2.2 kanaoka ur->d_port = d->myport; 165 1.4.2.2 kanaoka ur->buffer_size = len; 166 1.4.2.2 kanaoka ur->buffer.segment = VTOPSEG(pkt); 167 1.4.2.2 kanaoka ur->buffer.offset = VTOPOFF(pkt); 168 1.4.2.2 kanaoka 169 1.4.2.2 kanaoka /* XXX Timeout unused. */ 170 1.4.2.2 kanaoka 171 1.4.2.2 kanaoka pxe_call(PXENV_UDP_READ); 172 1.4.2.2 kanaoka 173 1.4.2.2 kanaoka if (ur->status != PXENV_STATUS_SUCCESS) { 174 1.4.2.2 kanaoka /* XXX This happens a lot; it shouldn't. */ 175 1.4.2.2 kanaoka if (ur->status != PXENV_STATUS_FAILURE) 176 1.4.2.2 kanaoka printf("readudp: PXENV_UDP_READ_failed: 0x%0x\n", 177 1.4.2.2 kanaoka ur->status); 178 1.4.2.2 kanaoka return (-1); 179 1.4.2.2 kanaoka } 180 1.4.2.2 kanaoka 181 1.4.2.2 kanaoka ip->ip_src.s_addr = ur->src_ip; 182 1.4.2.2 kanaoka uh->uh_sport = ur->s_port; 183 1.4.2.2 kanaoka uh->uh_dport = d->myport; 184 1.4.2.2 kanaoka 185 1.4.2.2 kanaoka return (len); 186 1.4.2.2 kanaoka } 187 1.4.2.2 kanaoka 188 1.4.2.2 kanaoka /***************************************************************************** 189 1.4.2.2 kanaoka * PXE "netif" back-end 190 1.4.2.2 kanaoka *****************************************************************************/ 191 1.4.2.2 kanaoka 192 1.4.2.2 kanaoka int pxe_netif_match(struct netif *, void *); 193 1.4.2.2 kanaoka int pxe_netif_probe(struct netif *, void *); 194 1.4.2.2 kanaoka void pxe_netif_init(struct iodesc *, void *); 195 1.4.2.2 kanaoka int pxe_netif_get(struct iodesc *, void *, size_t, time_t); 196 1.4.2.2 kanaoka int pxe_netif_put(struct iodesc *, void *, size_t); 197 1.4.2.2 kanaoka void pxe_netif_end(struct netif *); 198 1.4.2.2 kanaoka 199 1.4.2.2 kanaoka struct netif_stats pxe_netif_stats; 200 1.4.2.2 kanaoka 201 1.4.2.2 kanaoka struct netif_dif pxe0_dif = { 202 1.4.2.2 kanaoka 0, /* unit */ 203 1.4.2.2 kanaoka 1, /* nsel */ 204 1.4.2.2 kanaoka &pxe_netif_stats, 205 1.4.2.2 kanaoka 0, 206 1.4.2.2 kanaoka 0, 207 1.4.2.2 kanaoka }; 208 1.4.2.2 kanaoka 209 1.4.2.2 kanaoka struct netif_driver pxe_netif_driver = { 210 1.4.2.2 kanaoka "pxe", /* netif_bname */ 211 1.4.2.2 kanaoka pxe_netif_match, /* match */ 212 1.4.2.2 kanaoka pxe_netif_probe, /* probe */ 213 1.4.2.2 kanaoka pxe_netif_init, /* init */ 214 1.4.2.2 kanaoka pxe_netif_get, /* get */ 215 1.4.2.2 kanaoka pxe_netif_put, /* put */ 216 1.4.2.2 kanaoka pxe_netif_end, /* end */ 217 1.4.2.2 kanaoka &pxe0_dif, /* netif_ifs */ 218 1.4.2.2 kanaoka 1, /* netif_nifs */ 219 1.4.2.2 kanaoka }; 220 1.4.2.2 kanaoka 221 1.4.2.2 kanaoka int 222 1.4.2.2 kanaoka pxe_netif_match(struct netif *nif, void *machdep_hint) 223 1.4.2.2 kanaoka { 224 1.4.2.2 kanaoka 225 1.4.2.2 kanaoka return (1); 226 1.4.2.2 kanaoka } 227 1.4.2.2 kanaoka 228 1.4.2.2 kanaoka int 229 1.4.2.2 kanaoka pxe_netif_probe(struct netif *nif, void *machdep_hint) 230 1.4.2.2 kanaoka { 231 1.4.2.2 kanaoka t_PXENV_UDP_OPEN *uo = (void *) pxe_command_buf; 232 1.4.2.2 kanaoka 233 1.4.2.2 kanaoka pxe_init(); 234 1.4.2.2 kanaoka 235 1.4.2.2 kanaoka if (pxe_call == NULL) 236 1.4.2.2 kanaoka return (1); 237 1.4.2.2 kanaoka 238 1.4.2.2 kanaoka bzero(uo, sizeof(*uo)); 239 1.4.2.2 kanaoka 240 1.4.2.2 kanaoka uo->src_ip = bootplayer.yip; 241 1.4.2.2 kanaoka 242 1.4.2.2 kanaoka pxe_call(PXENV_UDP_OPEN); 243 1.4.2.2 kanaoka 244 1.4.2.2 kanaoka if (uo->status != PXENV_STATUS_SUCCESS) { 245 1.4.2.2 kanaoka printf("pxe_netif_probe: PXENV_UDP_OPEN failed: 0x%x\n", 246 1.4.2.2 kanaoka uo->status); 247 1.4.2.2 kanaoka pxe_fini(); 248 1.4.2.2 kanaoka return (1); 249 1.4.2.2 kanaoka } 250 1.4.2.2 kanaoka 251 1.4.2.2 kanaoka return (0); 252 1.4.2.2 kanaoka } 253 1.4.2.2 kanaoka 254 1.4.2.2 kanaoka void 255 1.4.2.2 kanaoka pxe_netif_init(struct iodesc *desc, void *machdep_hint) 256 1.4.2.2 kanaoka { 257 1.4.2.2 kanaoka struct netif *nif = desc->io_netif; 258 1.4.2.2 kanaoka 259 1.4.2.2 kanaoka bcopy(bootplayer.CAddr, desc->myea, ETHER_ADDR_LEN); 260 1.4.2.2 kanaoka 261 1.4.2.2 kanaoka /* 262 1.4.2.2 kanaoka * Since the PXE BIOS has already done DHCP, make sure we 263 1.4.2.2 kanaoka * don't reuse any of its transaction IDs. 264 1.4.2.2 kanaoka */ 265 1.4.2.2 kanaoka desc->xid = bootplayer.ident; 266 1.4.2.2 kanaoka 267 1.4.2.2 kanaoka printf("%s%d: Ethernet address %s\n", nif->nif_driver->netif_bname, 268 1.4.2.2 kanaoka nif->nif_unit, ether_sprintf(desc->myea)); 269 1.4.2.2 kanaoka } 270 1.4.2.2 kanaoka 271 1.4.2.2 kanaoka int 272 1.4.2.2 kanaoka pxe_netif_put(struct iodesc *desc, void *pkt, size_t len) 273 1.4.2.2 kanaoka { 274 1.4.2.2 kanaoka 275 1.4.2.2 kanaoka return (-1); 276 1.4.2.2 kanaoka } 277 1.4.2.2 kanaoka 278 1.4.2.2 kanaoka int 279 1.4.2.2 kanaoka pxe_netif_get(struct iodesc *desc, void *pkt, size_t len, time_t tleft) 280 1.4.2.2 kanaoka { 281 1.4.2.2 kanaoka 282 1.4.2.2 kanaoka return (-1); 283 1.4.2.2 kanaoka } 284 1.4.2.2 kanaoka 285 1.4.2.2 kanaoka void 286 1.4.2.2 kanaoka pxe_netif_end(struct netif *nif) 287 1.4.2.2 kanaoka { 288 1.4.2.2 kanaoka t_PXENV_UDP_CLOSE *uc = (void *) pxe_command_buf; 289 1.4.2.2 kanaoka 290 1.4.2.2 kanaoka uc->status = 0; 291 1.4.2.2 kanaoka 292 1.4.2.2 kanaoka pxe_call(PXENV_UDP_CLOSE); 293 1.4.2.2 kanaoka 294 1.4.2.2 kanaoka if (uc->status != PXENV_STATUS_SUCCESS) 295 1.4.2.2 kanaoka printf("pxe_netif_end: PXENV_UDP_CLOSE failed: 0x%x\n", 296 1.4.2.2 kanaoka uc->status); 297 1.4.2.2 kanaoka 298 1.4.2.2 kanaoka pxe_fini(); 299 1.4.2.2 kanaoka } 300 1.4.2.2 kanaoka 301 1.4.2.2 kanaoka /***************************************************************************** 302 1.4.2.2 kanaoka * PXE initialization and support routines 303 1.4.2.2 kanaoka *****************************************************************************/ 304 1.4.2.2 kanaoka 305 1.4.2.2 kanaoka u_int16_t pxe_command_buf_seg; 306 1.4.2.2 kanaoka u_int16_t pxe_command_buf_off; 307 1.4.2.2 kanaoka 308 1.4.2.2 kanaoka extern u_int16_t bangpxe_off, bangpxe_seg; 309 1.4.2.2 kanaoka extern u_int16_t pxenv_off, pxenv_seg; 310 1.4.2.2 kanaoka 311 1.4.2.2 kanaoka static struct btinfo_netif bi_netif; 312 1.4.2.2 kanaoka 313 1.4.2.2 kanaoka int 314 1.4.2.2 kanaoka pxe_init(void) 315 1.4.2.2 kanaoka { 316 1.4.2.2 kanaoka t_PXENV_GET_CACHED_INFO *gci = (void *) pxe_command_buf; 317 1.4.2.2 kanaoka t_PXENV_UNDI_GET_NIC_TYPE *gnt = (void *) pxe_command_buf; 318 1.4.2.2 kanaoka pxenv_t *pxenv; 319 1.4.2.2 kanaoka pxe_t *pxe; 320 1.4.2.2 kanaoka char *cp; 321 1.4.2.2 kanaoka int i; 322 1.4.2.2 kanaoka u_int8_t cksum, *ucp; 323 1.4.2.2 kanaoka 324 1.4.2.2 kanaoka /* 325 1.4.2.2 kanaoka * Checking for the presence of PXE is a machine-dependent 326 1.4.2.2 kanaoka * operation. On the IA-32, this can be done two ways: 327 1.4.2.2 kanaoka * 328 1.4.2.2 kanaoka * Int 0x1a function 0x5650 329 1.4.2.2 kanaoka * 330 1.4.2.2 kanaoka * Scan memory for the !PXE or PXENV+ signatures 331 1.4.2.2 kanaoka * 332 1.4.2.2 kanaoka * We do the latter, since the Int method returns a pointer 333 1.4.2.2 kanaoka * to a deprecated structure (PXENV+). 334 1.4.2.2 kanaoka */ 335 1.4.2.2 kanaoka 336 1.4.2.2 kanaoka pxenv = NULL; 337 1.4.2.2 kanaoka pxe = NULL; 338 1.4.2.2 kanaoka 339 1.4.2.2 kanaoka for (cp = (char *)0xa0000; cp > (char *)0x10000; cp -= 2) { 340 1.4.2.2 kanaoka if (pxenv == NULL) { 341 1.4.2.2 kanaoka pxenv = (pxenv_t *)cp; 342 1.4.2.2 kanaoka if (bcmp(pxenv->Signature, S_SIZE("PXENV+"))) 343 1.4.2.2 kanaoka pxenv = NULL; 344 1.4.2.2 kanaoka else { 345 1.4.2.2 kanaoka for (i = 0, ucp = (u_int8_t *)cp, cksum = 0; 346 1.4.2.2 kanaoka i < pxenv->Length; i++) 347 1.4.2.2 kanaoka cksum += ucp[i]; 348 1.4.2.2 kanaoka if (cksum != 0) { 349 1.4.2.2 kanaoka printf("pxe_init: bad cksum (0x%x) " 350 1.4.2.2 kanaoka "for PXENV+ at 0x%lx\n", cksum, 351 1.4.2.2 kanaoka (u_long) cp); 352 1.4.2.2 kanaoka pxenv = NULL; 353 1.4.2.2 kanaoka } 354 1.4.2.2 kanaoka } 355 1.4.2.2 kanaoka } 356 1.4.2.2 kanaoka 357 1.4.2.2 kanaoka if (pxe == NULL) { 358 1.4.2.2 kanaoka pxe = (pxe_t *)cp; 359 1.4.2.2 kanaoka if (bcmp(pxe->Signature, S_SIZE("!PXE"))) 360 1.4.2.2 kanaoka pxe = NULL; 361 1.4.2.2 kanaoka else { 362 1.4.2.2 kanaoka for (i = 0, ucp = (u_int8_t *)cp, cksum = 0; 363 1.4.2.2 kanaoka i < pxe->StructLength; i++) 364 1.4.2.2 kanaoka cksum += ucp[i]; 365 1.4.2.2 kanaoka if (cksum != 0) { 366 1.4.2.2 kanaoka printf("pxe_init: bad cksum (0x%x) " 367 1.4.2.2 kanaoka "for !PXE at 0x%lx\n", cksum, 368 1.4.2.2 kanaoka (u_long) cp); 369 1.4.2.2 kanaoka pxe = NULL; 370 1.4.2.2 kanaoka } 371 1.4.2.2 kanaoka } 372 1.4.2.2 kanaoka } 373 1.4.2.2 kanaoka 374 1.4.2.2 kanaoka if (pxe != NULL && pxenv != NULL) 375 1.4.2.2 kanaoka break; 376 1.4.2.2 kanaoka } 377 1.4.2.2 kanaoka 378 1.4.2.2 kanaoka if (pxe == NULL && pxenv == NULL) { 379 1.4.2.2 kanaoka printf("pxe_init: No PXE BIOS found.\n"); 380 1.4.2.2 kanaoka return (1); 381 1.4.2.2 kanaoka } 382 1.4.2.2 kanaoka 383 1.4.2.2 kanaoka if (pxenv != NULL) { 384 1.4.2.2 kanaoka printf("PXE BIOS Version %d.%d\n", 385 1.4.2.2 kanaoka (pxenv->Version >> 8) & 0xff, pxenv->Version & 0xff); 386 1.4.2.2 kanaoka if (pxenv->Version >= 0x0201 && pxe != NULL) { 387 1.4.2.2 kanaoka /* 2.1 or greater -- don't use PXENV+ */ 388 1.4.2.2 kanaoka pxenv = NULL; 389 1.4.2.2 kanaoka } 390 1.4.2.2 kanaoka } 391 1.4.2.2 kanaoka 392 1.4.2.2 kanaoka if (pxe != NULL) { 393 1.4.2.2 kanaoka pxe_call = pxecall_bangpxe; 394 1.4.2.2 kanaoka bangpxe_off = pxe->EntryPointSP.offset; 395 1.4.2.2 kanaoka bangpxe_seg = pxe->EntryPointSP.segment; 396 1.4.2.2 kanaoka } else { 397 1.4.2.2 kanaoka pxe_call = pxecall_pxenv; 398 1.4.2.2 kanaoka pxenv_off = pxenv->RMEntry.offset; 399 1.4.2.2 kanaoka pxenv_seg = pxenv->RMEntry.segment; 400 1.4.2.2 kanaoka } 401 1.4.2.2 kanaoka 402 1.4.2.2 kanaoka /* 403 1.4.2.2 kanaoka * Pre-compute the segment/offset of the pxe_command_buf 404 1.4.2.2 kanaoka * to make things nicer in the low-level calling glue. 405 1.4.2.2 kanaoka */ 406 1.4.2.2 kanaoka pxe_command_buf_seg = VTOPSEG(pxe_command_buf); 407 1.4.2.2 kanaoka pxe_command_buf_off = VTOPOFF(pxe_command_buf); 408 1.4.2.2 kanaoka 409 1.4.2.2 kanaoka /* 410 1.4.2.2 kanaoka * Get the cached info from the server's Discovery reply packet. 411 1.4.2.2 kanaoka */ 412 1.4.2.2 kanaoka bzero(gci, sizeof(*gci)); 413 1.4.2.2 kanaoka gci->PacketType = PXENV_PACKET_TYPE_BINL_REPLY; 414 1.4.2.2 kanaoka pxe_call(PXENV_GET_CACHED_INFO); 415 1.4.2.2 kanaoka if (gci->Status != PXENV_STATUS_SUCCESS) { 416 1.4.2.2 kanaoka printf("pxe_init: PXENV_GET_CACHED_INFO failed: 0x%x\n", 417 1.4.2.2 kanaoka gci->Status); 418 1.4.2.2 kanaoka return (1); 419 1.4.2.2 kanaoka } 420 1.4.2.2 kanaoka pvbcopy((void *)((gci->Buffer.segment << 4) + gci->Buffer.offset), 421 1.4.2.2 kanaoka &bootplayer, gci->BufferSize); 422 1.4.2.2 kanaoka 423 1.4.2.2 kanaoka /* 424 1.4.2.2 kanaoka * Get network interface information. 425 1.4.2.2 kanaoka */ 426 1.4.2.2 kanaoka bzero(gnt, sizeof(*gnt)); 427 1.4.2.2 kanaoka pxe_call(PXENV_UNDI_GET_NIC_TYPE); 428 1.4.2.2 kanaoka 429 1.4.2.2 kanaoka if (gnt->Status != PXENV_STATUS_SUCCESS) { 430 1.4.2.2 kanaoka printf("pxe_init: PXENV_UNDI_GET_NIC_TYPE failed: 0x%x\n", 431 1.4.2.2 kanaoka gnt->Status); 432 1.4.2.2 kanaoka return (0); 433 1.4.2.2 kanaoka } 434 1.4.2.2 kanaoka 435 1.4.2.2 kanaoka switch (gnt->NicType) { 436 1.4.2.2 kanaoka case PCI_NIC: 437 1.4.2.2 kanaoka case CardBus_NIC: 438 1.4.2.2 kanaoka strncpy(bi_netif.ifname, "pxe", sizeof(bi_netif.ifname)); 439 1.4.2.2 kanaoka bi_netif.bus = BI_BUS_PCI; 440 1.4.2.2 kanaoka bi_netif.addr.tag = gnt->info.pci.BusDevFunc; 441 1.4.2.2 kanaoka 442 1.4.2.2 kanaoka BI_ADD(&bi_netif, BTINFO_NETIF, sizeof(bi_netif)); 443 1.4.2.2 kanaoka 444 1.4.2.2 kanaoka printf("Using %s device at bus %d device %d function %d\n", 445 1.4.2.2 kanaoka gnt->NicType == PCI_NIC ? "PCI" : "CardBus", 446 1.4.2.2 kanaoka (gnt->info.pci.BusDevFunc >> 8) & 0xff, 447 1.4.2.2 kanaoka (gnt->info.pci.BusDevFunc >> 3) & 0x1f, 448 1.4.2.2 kanaoka gnt->info.pci.BusDevFunc & 0x7); 449 1.4.2.2 kanaoka break; 450 1.4.2.2 kanaoka 451 1.4.2.2 kanaoka case PnP_NIC: 452 1.4.2.2 kanaoka /* XXX Make bootinfo work with this. */ 453 1.4.2.2 kanaoka printf("Using PnP device at 0x%x\n", gnt->info.pnp.CardSelNum); 454 1.4.2.2 kanaoka } 455 1.4.2.2 kanaoka 456 1.4.2.2 kanaoka return (0); 457 1.4.2.2 kanaoka } 458 1.4.2.2 kanaoka 459 1.4.2.2 kanaoka void 460 1.4.2.2 kanaoka pxe_fini(void) 461 1.4.2.2 kanaoka { 462 1.4.2.2 kanaoka t_PXENV_UNLOAD_STACK *unload = (void *) pxe_command_buf; 463 1.4.2.2 kanaoka t_PXENV_UNDI_SHUTDOWN *shutdown = (void *) pxe_command_buf; 464 1.4.2.2 kanaoka 465 1.4.2.2 kanaoka if (pxe_call == NULL) 466 1.4.2.2 kanaoka return; 467 1.4.2.2 kanaoka 468 1.4.2.2 kanaoka pxe_call(PXENV_UNDI_SHUTDOWN); 469 1.4.2.2 kanaoka 470 1.4.2.2 kanaoka if (shutdown->Status != PXENV_STATUS_SUCCESS) 471 1.4.2.2 kanaoka printf("pxe_fini: PXENV_UNDI_SHUTDOWN failed: 0x%x\n", 472 1.4.2.2 kanaoka shutdown->Status); 473 1.4.2.2 kanaoka 474 1.4.2.2 kanaoka pxe_call(PXENV_UNLOAD_STACK); 475 1.4.2.2 kanaoka 476 1.4.2.2 kanaoka if (unload->Status != PXENV_STATUS_SUCCESS) 477 1.4.2.2 kanaoka printf("pxe_fini: PXENV_UNLOAD_STACK failed: 0x%x\n", 478 1.4.2.2 kanaoka unload->Status); 479 1.4.2.2 kanaoka } 480
Indexes created Wed Oct 22 13:09:56 GMT 2025