usr.sbin/ndbootd/ndbootd.c

1.12       scw /*	$NetBSD: ndbootd.c,v 1.12 2007/04/08 09:43:51 scw Exp $	*/
 1.2  fredette
 1.1  fredette /* ndbootd.c - the Sun Network Disk (nd) daemon: */
 1.1  fredette
 1.1  fredette /*
 1.1  fredette  * Copyright (c) 2001 Matthew Fredette.  All rights reserved.
 1.1  fredette  *
 1.1  fredette  * Redistribution and use in source and binary forms, with or without
 1.1  fredette  * modification, are permitted provided that the following conditions
 1.1  fredette  * are met:
 1.1  fredette  *   1. Redistributions of source code must retain the above copyright
 1.1  fredette  *      notice, this list of conditions and the following disclaimer.
 1.1  fredette  *   2. Redistributions in binary form must reproduce the above copyright
 1.1  fredette  *      notice, this list of conditions and the following disclaimer in the
 1.1  fredette  *      documentation and/or other materials provided with the distribution.
 1.1  fredette  *   3. All advertising materials mentioning features or use of this software
 1.1  fredette  *      must display the following acknowledgement:
 1.1  fredette  *        This product includes software developed by Matthew Fredette.
 1.1  fredette  *   4. The name of Matthew Fredette may not be used to endorse or promote
 1.1  fredette  *      products derived from this software without specific prior written
 1.1  fredette  *      permission.
 1.1  fredette  *
 1.1  fredette  * THIS SOFTWARE IS PROVIDED ``AS IS'' AND WITHOUT ANY EXPRESS OR IMPLIED
 1.1  fredette  * WARRANTIES, INCLUDING, WITHOUT LIMITATION, THE IMPLIED WARRANTIES OF
 1.1  fredette  * MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE.
 1.1  fredette  */
 1.1  fredette
 1.4  fredette /* <<Header: /data/home/fredette/project/THE-WEIGHT-CVS/ndbootd/ndbootd.c,v 1.9 2001/06/13 21:19:11 fredette Exp >> */
 1.1  fredette
 1.1  fredette /*
 1.1  fredette  * <<Log: ndbootd.c,v >>
 1.4  fredette  * Revision 1.9  2001/06/13 21:19:11  fredette
 1.4  fredette  * (main): Don't assume that a successful, but short, read
 1.4  fredette  * leaves a zero in errno.  Instead, just check for the short
 1.4  fredette  * read by looking at the byte count that read returned.
 1.4  fredette  *
 1.3  fredette  * Revision 1.8  2001/05/23 02:35:36  fredette
 1.3  fredette  * Changed many debugging printfs to compile quietly on the
 1.3  fredette  * alpha.  Patch from Andrew Brown <atatat (at) atatdot.net>.
 1.3  fredette  *
 1.1  fredette  * Revision 1.7  2001/05/22 13:13:20  fredette
 1.1  fredette  * Ran indent(1) with NetBSD's KNF-approximating profile.
 1.1  fredette  *
 1.1  fredette  * Revision 1.6  2001/05/22 12:53:40  fredette
 1.1  fredette  * [HAVE_STRICT_ALIGNMENT]: Added code to copy packet headers
 1.1  fredette  * between the buffer and local variables, to satisfy
 1.1  fredette  * alignment constraints.
 1.1  fredette  *
 1.1  fredette  * Revision 1.5  2001/05/15 14:43:24  fredette
 1.1  fredette  * Now have prototypes for the allocation functions.
 1.1  fredette  * (main): Now handle boot blocks that aren't an integral
 1.1  fredette  * multiple of the block size.
 1.1  fredette  *
 1.1  fredette  * Revision 1.4  2001/05/09 20:53:38  fredette
 1.1  fredette  * (main): Now insert a small delay before sending each packet.
 1.1  fredette  * Sending packets too quickly apparently overwhelms clients.
 1.1  fredette  * Added new single-letter versions of all options that didn't
 1.1  fredette  * already have them.  Expanded some debug messages, and fixed
 1.1  fredette  * others to display Ethernet addresses correctly.
 1.1  fredette  *
 1.1  fredette  * Revision 1.3  2001/01/31 17:35:50  fredette
 1.1  fredette  * (main): Fixed various printf argument lists.
 1.1  fredette  *
 1.1  fredette  * Revision 1.2  2001/01/30 15:35:38  fredette
 1.1  fredette  * Now, ndbootd assembles disk images for clients on-the-fly.
 1.1  fredette  * Defined many new macros related to this.
 1.1  fredette  * (main): Added support for the --boot2 option.  Turned the
 1.1  fredette  * original disk-image filename into the filename of the
 1.1  fredette  * first-stage boot program.  Now do better multiple-client
 1.1  fredette  * support, especially when it comes to checking if a client
 1.1  fredette  * is really ours.  Now assemble client-specific disk images
 1.1  fredette  * on-the-fly, potentially serving each client a different
 1.1  fredette  * second-stage boot.
 1.1  fredette  *
 1.1  fredette  * Revision 1.1  2001/01/29 15:12:13  fredette
 1.1  fredette  * Added.
 1.1  fredette  *
 1.1  fredette  */
 1.1  fredette
 1.5   thorpej #include <sys/cdefs.h>
 1.5   thorpej #if 0
 1.4  fredette static const char _ndbootd_c_rcsid[] = "<<Id: ndbootd.c,v 1.9 2001/06/13 21:19:11 fredette Exp >>";
 1.5   thorpej #else
1.12       scw __RCSID("$NetBSD: ndbootd.c,v 1.12 2007/04/08 09:43:51 scw Exp $");
 1.5   thorpej #endif
 1.1  fredette
 1.1  fredette /* includes: */
 1.1  fredette #include "ndbootd.h"
 1.1  fredette
 1.1  fredette /* the number of blocks that Sun-2 PROMs load, starting from block
 1.1  fredette    zero: */
 1.1  fredette #define NDBOOTD_PROM_BLOCK_COUNT (16)
 1.1  fredette
 1.1  fredette /* the first block number of the (dummy) Sun disklabel: */
 1.1  fredette #define NDBOOTD_SUNDK_BLOCK_FIRST (0)
 1.1  fredette
 1.1  fredette /* the number of blocks in the (dummy) Sun disklabel: */
 1.1  fredette #define NDBOOTD_SUNDK_BLOCK_COUNT (1)
 1.1  fredette
 1.1  fredette /* the first block number of the first-stage boot program.
 1.1  fredette    the first-stage boot program begins right after the (dummy)
 1.1  fredette    Sun disklabel: */
 1.1  fredette #define NDBOOTD_BOOT1_BLOCK_FIRST (NDBOOTD_SUNDK_BLOCK_FIRST + NDBOOTD_SUNDK_BLOCK_COUNT)
 1.1  fredette
 1.1  fredette /* the number of blocks in the first-stage boot program: */
 1.1  fredette #define NDBOOTD_BOOT1_BLOCK_COUNT (NDBOOTD_PROM_BLOCK_COUNT - NDBOOTD_BOOT1_BLOCK_FIRST)
 1.1  fredette
 1.1  fredette /* the first block number of any second-stage boot program.
 1.1  fredette    any second-stage boot program begins right after the first-stage boot program: */
 1.1  fredette #define NDBOOTD_BOOT2_BLOCK_FIRST (NDBOOTD_BOOT1_BLOCK_FIRST + NDBOOTD_BOOT1_BLOCK_COUNT)
 1.1  fredette
 1.1  fredette /* this macro returns the number of bytes available in an object starting at a given offset: */
 1.1  fredette #define NDBOOTD_BYTES_AVAIL(block_number, byte_offset, obj_block_first, obj_block_count) \
 1.1  fredette   ((((ssize_t) (obj_block_count) - (ssize_t) ((block_number) - (obj_block_first))) * NDBOOT_BSIZE) - (ssize_t) (byte_offset))
 1.1  fredette
 1.1  fredette /* this determines how long we can cache file descriptors and RARP
 1.1  fredette    information: */
 1.1  fredette #define NDBOOTD_CLIENT_TTL_SECONDS (10)
 1.1  fredette
 1.1  fredette /* this determines how long we wait before sending a packet: */
 1.7   mycroft #define NDBOOTD_SEND_DELAY_NSECONDS (10000000)
 1.1  fredette
 1.1  fredette /* this macro helps us size a struct ifreq: */
 1.1  fredette #ifdef HAVE_SOCKADDR_SA_LEN
 1.8    itojun #define SIZEOF_IFREQ(ifr) (sizeof((ifr)->ifr_name) + (ifr)->ifr_addr.sa_len)
 1.1  fredette #else				/* !HAVE_SOCKADDR_SA_LEN */
 1.8    itojun #define SIZEOF_IFREQ(ifr) (sizeof((ifr)->ifr_name) + sizeof(struct sockaddr))
 1.1  fredette #endif				/* !HAVE_SOCKADDR_SA_LEN */
 1.1  fredette
 1.1  fredette /* prototypes: */
 1.1  fredette void *ndbootd_malloc _NDBOOTD_P((size_t));
 1.1  fredette void *ndbootd_malloc0 _NDBOOTD_P((size_t));
 1.1  fredette void *ndbootd_memdup _NDBOOTD_P((void *, size_t));
 1.1  fredette
 1.1  fredette /* globals: */
 1.1  fredette const char *_ndbootd_argv0;
 1.1  fredette #ifdef _NDBOOTD_DO_DEBUG
 1.1  fredette int _ndbootd_debug;
 1.1  fredette #endif				/* _NDBOOTD_DO_DEBUG */
 1.1  fredette
 1.1  fredette /* allocators: */
 1.1  fredette void *
 1.1  fredette ndbootd_malloc(size_t size)
 1.1  fredette {
 1.1  fredette 	void *buffer;
 1.1  fredette 	if ((buffer = malloc(size)) == NULL) {
 1.1  fredette 		abort();
 1.1  fredette 	}
 1.1  fredette 	return (buffer);
 1.1  fredette }
 1.1  fredette void *
 1.1  fredette ndbootd_malloc0(size_t size)
 1.1  fredette {
 1.1  fredette 	void *buffer;
 1.1  fredette 	buffer = ndbootd_malloc(size);
 1.1  fredette 	memset(buffer, 0, size);
 1.1  fredette 	return (buffer);
 1.1  fredette }
 1.1  fredette void *
 1.1  fredette ndbootd_memdup(void *buffer0, size_t size)
 1.1  fredette {
 1.1  fredette 	void *buffer1;
 1.1  fredette 	buffer1 = ndbootd_malloc(size);
 1.1  fredette 	memcpy(buffer1, buffer0, size);
 1.1  fredette 	return (buffer1);
 1.1  fredette }
 1.1  fredette #define ndbootd_free free
 1.1  fredette #define ndbootd_new(t, c) ((t *) ndbootd_malloc(sizeof(t) * (c)))
 1.1  fredette #define ndbootd_new0(t, c) ((t *) ndbootd_malloc0(sizeof(t) * (c)))
 1.1  fredette #define ndbootd_dup(t, b, c) ((t *) ndbootd_memdup(b, c))
 1.1  fredette
 1.1  fredette /* this calculates an IP packet header checksum: */
 1.1  fredette static void
 1.1  fredette _ndbootd_ip_cksum(struct ip * ip_packet)
 1.1  fredette {
 1.1  fredette 	u_int16_t *_word, word;
 1.1  fredette 	u_int32_t checksum;
 1.1  fredette 	unsigned int byte_count, bytes_left;
 1.1  fredette
 1.1  fredette 	/* we assume that the IP packet header is 16-bit aligned: */
 1.1  fredette 	assert((((unsigned long) ip_packet) % sizeof(word)) == 0);
 1.1  fredette
 1.1  fredette 	/* initialize for the checksum: */
 1.1  fredette 	checksum = 0;
 1.1  fredette
 1.1  fredette 	/* sum up the packet contents: */
 1.1  fredette 	_word = (u_int16_t *) ip_packet;
 1.1  fredette 	byte_count = ip_packet->ip_hl << 2;
 1.1  fredette 	for (bytes_left = byte_count; bytes_left >= sizeof(*_word);) {
 1.1  fredette 		checksum += *(_word++);
 1.1  fredette 		bytes_left -= sizeof(*_word);
 1.1  fredette 	}
 1.1  fredette 	word = 0;
 1.1  fredette 	memcpy(&word, _word, bytes_left);
 1.1  fredette 	checksum += word;
 1.1  fredette
 1.1  fredette 	/* finish the checksum: */
 1.1  fredette 	checksum = (checksum >> 16) + (checksum & 0xffff);
 1.1  fredette 	checksum += (checksum >> 16);
1.12       scw 	ip_packet->ip_sum = (~checksum);
 1.1  fredette }
 1.1  fredette /* this finds a network interface: */
 1.1  fredette static struct ndbootd_interface *
 1.1  fredette _ndbootd_find_interface(const char *ifr_name_user)
 1.1  fredette {
 1.8    itojun 	struct ifreq ifr;
 1.1  fredette #ifdef HAVE_AF_LINK
 1.1  fredette 	struct sockaddr_dl *sadl;
 1.1  fredette #endif				/* HAVE_AF_LINK */
 1.1  fredette 	struct ndbootd_interface *interface;
 1.8    itojun 	struct ifaddrs *ifap, *ifa, *ifa_user;
 1.1  fredette
 1.1  fredette 	/* read the interface list: */
 1.8    itojun 	if (getifaddrs(&ifap) != 0) {
 1.1  fredette 		return (NULL);
 1.1  fredette 	}
 1.1  fredette
 1.1  fredette 	/* walk the interface list: */
 1.8    itojun 	ifa_user = NULL;
 1.8    itojun 	for (ifa = ifap; ifa; ifa = ifa->ifa_next) {
 1.1  fredette 		/* ignore this interface if it doesn't do IP: */
 1.8    itojun 		if (ifa->ifa_addr->sa_family != AF_INET) {
 1.1  fredette 			continue;
 1.1  fredette 		}
 1.1  fredette
 1.1  fredette 		/* ignore this interface if it isn't up and running: */
 1.8    itojun 		if ((ifa->ifa_flags & (IFF_UP | IFF_RUNNING)) !=
 1.8    itojun 		    (IFF_UP | IFF_RUNNING)) {
 1.1  fredette 			continue;
 1.1  fredette 		}
 1.1  fredette 		/* if we don't have an interface yet, take this one depending
 1.1  fredette 		 * on whether the user asked for an interface by name or not.
 1.1  fredette 		 * if he did, and this is it, take this one.  if he didn't,
 1.1  fredette 		 * and this isn't a loopback interface, take this one: */
 1.8    itojun 		if (ifa_user == NULL
 1.1  fredette 		    && (ifr_name_user != NULL
 1.8    itojun 			? !strcmp(ifa->ifa_name, ifr_name_user)
 1.8    itojun 			: !(ifa->ifa_flags & IFF_LOOPBACK))) {
 1.8    itojun 			ifa_user = ifa;
 1.1  fredette 		}
 1.1  fredette 	}
 1.1  fredette
 1.1  fredette 	/* if we don't have an interface to return: */
1.11  christos 	if (ifa_user == NULL) {
 1.8    itojun 		freeifaddrs(ifap);
 1.9     lukem 		errno = ENOENT;
 1.1  fredette 		return (NULL);
 1.1  fredette 	}
 1.1  fredette 	/* start the interface description: */
 1.1  fredette 	interface = ndbootd_new0(struct ndbootd_interface, 1);
 1.1  fredette
 1.1  fredette #ifdef HAVE_AF_LINK
 1.1  fredette
 1.1  fredette 	/* we must be able to find an AF_LINK ifreq that gives us the
 1.1  fredette 	 * interface's Ethernet address. */
 1.8    itojun 	for (ifa = ifap; ifa; ifa = ifa->ifa_next) {
 1.9     lukem 		if (ifa->ifa_addr->sa_family != AF_LINK) {
 1.9     lukem 			continue;
 1.9     lukem 		}
 1.9     lukem 		/* if this is the hardware address we want */
 1.9     lukem 		if (!strcmp(ifa->ifa_name, ifa_user->ifa_name)) {
 1.1  fredette 			break;
 1.1  fredette 		}
 1.1  fredette 	}
 1.8    itojun 	if (ifa == NULL) {
 1.8    itojun 		freeifaddrs(ifap);
 1.1  fredette 		free(interface);
 1.9     lukem 		errno = ENOENT;
 1.1  fredette 		return (NULL);
 1.1  fredette 	}
 1.1  fredette 	/* copy out the Ethernet address: */
 1.8    itojun 	sadl = (struct sockaddr_dl *)ifa->ifa_addr;
 1.1  fredette 	memcpy(interface->ndbootd_interface_ether, LLADDR(sadl), sadl->sdl_alen);
 1.1  fredette
 1.1  fredette #else				/* !HAVE_AF_LINK */
 1.1  fredette #error "must have AF_LINK for now"
 1.1  fredette #endif				/* !HAVE_AF_LINK */
 1.1  fredette
 1.1  fredette 	/* finish this interface and return it: */
 1.8    itojun 	strlcpy(ifr.ifr_name, ifa_user->ifa_name, sizeof(ifr.ifr_name));
 1.8    itojun 	assert(sizeof(ifr.ifr_addr) >= ifa_user->ifa_addr->sa_len);
 1.8    itojun 	memcpy(&ifr.ifr_addr, ifa_user->ifa_addr, ifa_user->ifa_addr->sa_len);
 1.8    itojun 	interface->ndbootd_interface_ifreq = (struct ifreq *) ndbootd_memdup(&ifr, SIZEOF_IFREQ(&ifr));
 1.1  fredette 	interface->ndbootd_interface_fd = -1;
 1.8    itojun 	freeifaddrs(ifap);
 1.1  fredette 	return (interface);
 1.1  fredette }
 1.1  fredette
 1.1  fredette int
 1.1  fredette main(int argc, char *argv[])
 1.1  fredette {
 1.1  fredette 	int argv_i;
 1.1  fredette 	int show_usage;
 1.1  fredette 	const char *interface_name;
 1.1  fredette 	const char *boot1_file_name;
 1.1  fredette 	const char *boot2_x_name;
 1.1  fredette 	char *boot2_file_name;
 1.1  fredette 	int boot2_x_name_is_dir;
 1.1  fredette 	time_t last_open_time;
 1.1  fredette 	int boot1_fd;
 1.1  fredette 	int boot2_fd;
 1.1  fredette 	time_t last_rarp_time;
 1.1  fredette 	char last_client_ether[ETHER_ADDR_LEN];
 1.1  fredette 	struct in_addr last_client_ip;
 1.1  fredette 	struct stat stat_buffer;
 1.1  fredette 	int32_t boot1_block_count;
 1.1  fredette 	int32_t boot2_block_count;
 1.1  fredette 	size_t boot1_byte_count;
 1.1  fredette 	size_t boot2_byte_count;
 1.1  fredette 	ssize_t byte_count_read;
 1.1  fredette 	struct ndbootd_interface *interface;
 1.1  fredette 	char pid_buffer[(sizeof(pid_t) * 3) + 2];
 1.1  fredette 	unsigned char packet_buffer[sizeof(struct ether_header) + IP_MAXPACKET];
 1.1  fredette 	unsigned char disk_buffer[NDBOOT_MAX_BYTE_COUNT];
 1.1  fredette 	char hostname_buffer[MAXHOSTNAMELEN + 1];
 1.1  fredette 	struct hostent *the_hostent;
 1.1  fredette 	ssize_t packet_length;
 1.1  fredette 	time_t now;
 1.1  fredette 	struct ether_header *ether_packet;
 1.1  fredette 	struct ip *ip_packet;
 1.1  fredette 	struct ndboot_packet *nd_packet;
 1.1  fredette #ifdef HAVE_STRICT_ALIGNMENT
 1.1  fredette 	struct ether_header ether_packet_buffer;
 1.1  fredette 	unsigned char ip_packet_buffer[IP_MAXPACKET];
 1.1  fredette 	struct ndboot_packet nd_packet_buffer;
 1.1  fredette #endif				/* HAVE_STRICT_ALIGNMENT */
 1.1  fredette 	int nd_window_size;
 1.1  fredette 	int nd_window_filled;
 1.1  fredette 	off_t file_offset;
 1.1  fredette 	size_t disk_buffer_offset;
 1.1  fredette 	size_t block_number;
 1.1  fredette 	size_t byte_offset;
 1.1  fredette 	ssize_t byte_count;
 1.1  fredette 	ssize_t byte_count_wanted;
 1.7   mycroft 	struct timespec send_delay;
 1.1  fredette 	int fd;
 1.1  fredette
 1.1  fredette 	/* check our command line: */
 1.1  fredette 	if ((_ndbootd_argv0 = strrchr(argv[0], '/')) == NULL)
 1.1  fredette 		_ndbootd_argv0 = argv[0];
 1.1  fredette 	else
 1.1  fredette 		_ndbootd_argv0++;
 1.1  fredette 	show_usage = FALSE;
 1.1  fredette #ifdef _NDBOOTD_DO_DEBUG
 1.1  fredette 	_ndbootd_debug = FALSE;
 1.1  fredette #endif				/* _NDBOOTD_DO_DEBUG */
 1.1  fredette 	boot1_file_name = NULL;
 1.1  fredette 	boot2_x_name = NULL;
 1.1  fredette 	interface_name = NULL;
 1.1  fredette 	nd_window_size = NDBOOT_WINDOW_SIZE_DEFAULT;
 1.1  fredette 	for (argv_i = 1; argv_i < argc; argv_i++) {
 1.1  fredette 		if (argv[argv_i][0] != '-'
 1.1  fredette 		    || argv[argv_i][1] == '\0') {
 1.1  fredette 			break;
 1.1  fredette 		} else if (!strcmp(argv[argv_i], "-s")
 1.1  fredette 		    || !strcmp(argv[argv_i], "--boot2")) {
 1.1  fredette 			if (++argv_i < argc) {
 1.1  fredette 				boot2_x_name = argv[argv_i];
 1.1  fredette 			} else {
 1.1  fredette 				show_usage = TRUE;
 1.1  fredette 				break;
 1.1  fredette 			}
 1.1  fredette 		} else if (!strcmp(argv[argv_i], "-i")
 1.1  fredette 		    || !strcmp(argv[argv_i], "--interface")) {
 1.1  fredette 			if (++argv_i < argc) {
 1.1  fredette 				interface_name = argv[argv_i];
 1.1  fredette 			} else {
 1.1  fredette 				show_usage = TRUE;
 1.1  fredette 				break;
 1.1  fredette 			}
 1.1  fredette 		} else if (!strcmp(argv[argv_i], "-w")
 1.1  fredette 		    || !strcmp(argv[argv_i], "--window-size")) {
 1.1  fredette 			if (++argv_i == argc || (nd_window_size = atoi(argv[argv_i])) <= 0) {
 1.1  fredette 				show_usage = TRUE;
 1.1  fredette 				break;
 1.1  fredette 			}
 1.1  fredette 		}
 1.1  fredette #ifdef _NDBOOTD_DO_DEBUG
 1.1  fredette 		else if (!strcmp(argv[argv_i], "-d")
 1.1  fredette 		    || !strcmp(argv[argv_i], "--debug")) {
 1.1  fredette 			_ndbootd_debug = TRUE;
 1.1  fredette 		}
 1.1  fredette #endif				/* _NDBOOTD_DO_DEBUG */
 1.1  fredette 		else {
 1.1  fredette 			if (strcmp(argv[argv_i], "-h")
 1.1  fredette 			    && strcmp(argv[argv_i], "--help")) {
 1.1  fredette 				fprintf(stderr, "%s error: unknown switch '%s'\n",
 1.1  fredette 				    _ndbootd_argv0, argv[argv_i]);
 1.1  fredette 			}
 1.1  fredette 			show_usage = TRUE;
 1.1  fredette 			break;
 1.1  fredette 		}
 1.1  fredette 	}
 1.1  fredette 	if (argv_i + 1 == argc) {
 1.1  fredette 		boot1_file_name = argv[argv_i];
 1.1  fredette 	} else {
 1.1  fredette 		show_usage = TRUE;
 1.1  fredette 	}
 1.1  fredette
 1.1  fredette 	if (show_usage) {
 1.1  fredette 		fprintf(stderr, "\
 1.1  fredette usage: %s [OPTIONS] BOOT1-BIN\n\
 1.1  fredette where OPTIONS are:\n\
 1.1  fredette   -s, --boot2 { BOOT2-BIN | DIR }\n\
 1.1  fredette                           find a second-stage boot program in the file\n\
 1.1  fredette                           BOOT2-BIN or in the directory DIR\n\
 1.1  fredette   -i, --interface NAME    use interface NAME\n\
 1.1  fredette   -w, --window-size COUNT \n\
 1.1  fredette                           send at most COUNT unacknowledged packets [default=%d]\n",
 1.1  fredette 		    _ndbootd_argv0,
 1.1  fredette 		    NDBOOT_WINDOW_SIZE_DEFAULT);
 1.1  fredette #ifdef _NDBOOTD_DO_DEBUG
 1.1  fredette 		fprintf(stderr, "\
 1.1  fredette   -d, --debug             set debug mode\n");
 1.1  fredette #endif				/* _NDBOOTD_DO_DEBUG */
 1.1  fredette 		exit(1);
 1.1  fredette 	}
 1.1  fredette 	/* if we have been given a name for the second-stage boot, see if it's
 1.1  fredette 	 * a filename or a directory: */
 1.1  fredette 	boot2_x_name_is_dir = FALSE;
 1.1  fredette 	if (boot2_x_name != NULL) {
 1.1  fredette 		if (stat(boot2_x_name, &stat_buffer) < 0) {
 1.1  fredette 			fprintf(stderr, "%s error: could not stat %s: %s\n",
 1.1  fredette 			    _ndbootd_argv0, boot2_x_name, strerror(errno));
 1.1  fredette 			exit(1);
 1.1  fredette 		}
 1.1  fredette 		if (S_ISDIR(stat_buffer.st_mode)) {
 1.1  fredette 			boot2_x_name_is_dir = TRUE;
 1.1  fredette 		} else if (!S_ISREG(stat_buffer.st_mode)) {
 1.1  fredette 			fprintf(stderr, "%s error: %s is neither a regular file nor a directory\n",
 1.1  fredette 			    _ndbootd_argv0, boot2_x_name);
 1.1  fredette 			exit(1);
 1.1  fredette 		}
 1.1  fredette 	}
 1.1  fredette 	/* find the interface we will use: */
 1.1  fredette 	if ((interface = _ndbootd_find_interface(interface_name)) == NULL) {
 1.1  fredette 		fprintf(stderr, "%s error: could not find the interface to use: %s\n",
 1.1  fredette 		    _ndbootd_argv0, strerror(errno));
 1.1  fredette 		exit(1);
 1.1  fredette 	}
 1.1  fredette 	_NDBOOTD_DEBUG((fp, "opening interface %s", interface->ndbootd_interface_ifreq->ifr_name));
 1.1  fredette
 1.1  fredette 	/* open the network interface: */
 1.1  fredette 	if (ndbootd_raw_open(interface)) {
 1.1  fredette 		fprintf(stderr, "%s error: could not open the %s interface: %s\n",
 1.1  fredette 		    _ndbootd_argv0, interface->ndbootd_interface_ifreq->ifr_name, strerror(errno));
 1.1  fredette 		exit(1);
 1.1  fredette 	}
 1.1  fredette 	_NDBOOTD_DEBUG((fp, "opened interface %s (ip %s ether %02x:%02x:%02x:%02x:%02x:%02x)",
 1.1  fredette 		interface->ndbootd_interface_ifreq->ifr_name,
 1.1  fredette 		inet_ntoa(((struct sockaddr_in *) & interface->ndbootd_interface_ifreq->ifr_addr)->sin_addr),
 1.1  fredette 		((unsigned char *) interface->ndbootd_interface_ether)[0],
 1.1  fredette 		((unsigned char *) interface->ndbootd_interface_ether)[1],
 1.1  fredette 		((unsigned char *) interface->ndbootd_interface_ether)[2],
 1.1  fredette 		((unsigned char *) interface->ndbootd_interface_ether)[3],
 1.1  fredette 		((unsigned char *) interface->ndbootd_interface_ether)[4],
 1.1  fredette 		((unsigned char *) interface->ndbootd_interface_ether)[5]));
 1.1  fredette
 1.1  fredette 	/* become a daemon: */
 1.1  fredette #ifdef _NDBOOTD_DO_DEBUG
 1.1  fredette 	if (!_ndbootd_debug)
 1.1  fredette #endif				/* _NDBOOTD_DO_DEBUG */
 1.1  fredette 	{
 1.1  fredette
 1.1  fredette 		/* fork and exit: */
 1.1  fredette 		switch (fork()) {
 1.1  fredette 		case 0:
 1.1  fredette 			break;
 1.1  fredette 		case -1:
 1.1  fredette 			fprintf(stderr, "%s error: could not fork: %s\n",
 1.1  fredette 			    _ndbootd_argv0, strerror(errno));
 1.1  fredette 			exit(1);
 1.1  fredette 		default:
 1.1  fredette 			exit(0);
 1.1  fredette 		}
 1.1  fredette
 1.1  fredette 		/* close all file descriptors: */
 1.1  fredette #ifdef HAVE_GETDTABLESIZE
 1.1  fredette 		fd = getdtablesize();
 1.1  fredette #else				/* !HAVE_GETDTABLESIZE */
 1.1  fredette 		fd = -1;
 1.1  fredette #endif				/* !HAVE_GETDTABLESIZE */
 1.1  fredette 		for (; fd >= 0; fd--) {
 1.1  fredette 			if (fd != interface->ndbootd_interface_fd) {
 1.1  fredette 				close(fd);
 1.1  fredette 			}
 1.1  fredette 		}
 1.1  fredette
 1.1  fredette #ifdef HAVE_SETSID
 1.1  fredette 		/* become our own session: */
 1.1  fredette 		setsid();
 1.1  fredette #endif				/* HAVE_SETSID */
 1.1  fredette 	}
 1.1  fredette 	/* write the pid file: */
 1.1  fredette 	if ((fd = open(NDBOOTD_PID_FILE, O_WRONLY | O_CREAT | O_TRUNC, 0644)) >= 0) {
 1.1  fredette 		sprintf(pid_buffer, "%u\n", getpid());
 1.1  fredette 		write(fd, pid_buffer, strlen(pid_buffer));
 1.1  fredette 		close(fd);
 1.1  fredette 	}
 1.1  fredette #ifdef HAVE_STRICT_ALIGNMENT
 1.1  fredette 	/* we will be dealing with all packet headers in separate buffers, to
 1.1  fredette 	 * make sure everything is correctly aligned: */
 1.1  fredette 	ether_packet = &ether_packet_buffer;
 1.1  fredette 	ip_packet = (struct ip *) & ip_packet_buffer[0];
 1.1  fredette 	nd_packet = &nd_packet_buffer;
 1.1  fredette #else				/* !HAVE_STRICT_ALIGNMENT */
 1.1  fredette 	/* we will always find the Ethernet header and the IP packet at the
 1.1  fredette 	 * front of the buffer: */
 1.1  fredette 	ether_packet = (struct ether_header *) packet_buffer;
 1.1  fredette 	ip_packet = (struct ip *) (ether_packet + 1);
 1.1  fredette #endif				/* !HAVE_STRICT_ALIGNMENT */
 1.1  fredette
 1.1  fredette 	/* initialize our state: */
 1.1  fredette 	last_rarp_time = 0;
 1.1  fredette 	last_open_time = 0;
 1.1  fredette 	boot1_fd = -1;
 1.1  fredette 	boot2_file_name = NULL;
 1.1  fredette 	boot2_fd = -1;
1.10     lukem 	boot1_block_count = 0;		/* XXXGCC -Wuninitialized */
1.10     lukem 	boot2_block_count = 0;		/* XXXGCC -Wuninitialized */
1.10     lukem 	boot1_byte_count = 0;		/* XXXGCC -Wuninitialized */
1.10     lukem 	boot2_byte_count = 0;		/* XXXGCC -Wuninitialized */
 1.1  fredette
 1.1  fredette 	/* loop processing packets: */
 1.1  fredette 	for (;;) {
 1.1  fredette
 1.1  fredette 		/* receive another packet: */
 1.1  fredette 		packet_length = ndbootd_raw_read(interface, packet_buffer, sizeof(packet_buffer));
 1.1  fredette 		if (packet_length < 0) {
 1.1  fredette 			_NDBOOTD_DEBUG((fp, "failed to receive packet: %s", strerror(errno)));
 1.1  fredette 			exit(1);
 1.1  fredette 			continue;
 1.1  fredette 		}
 1.1  fredette 		now = time(NULL);
 1.1  fredette
 1.1  fredette 		/* check the Ethernet and IP parts of the packet: */
 1.1  fredette 		if (packet_length
 1.1  fredette 		    < (sizeof(struct ether_header)
 1.1  fredette 			+ sizeof(struct ip)
 1.1  fredette 			+ sizeof(struct ndboot_packet))) {
 1.3  fredette 			_NDBOOTD_DEBUG((fp, "ignoring a too-short packet of length %ld", (long) packet_length));
 1.1  fredette 			continue;
 1.1  fredette 		}
 1.1  fredette #ifdef HAVE_STRICT_ALIGNMENT
 1.1  fredette 		memcpy(ether_packet, packet_buffer, sizeof(struct ether_header));
 1.1  fredette 		memcpy(ip_packet, packet_buffer + sizeof(struct ether_header),
 1.1  fredette 		    (((struct ip *) (packet_buffer + sizeof(struct ether_header)))->ip_hl << 2));
 1.1  fredette #endif				/* !HAVE_STRICT_ALIGNMENT */
 1.1  fredette 		if (ether_packet->ether_type != htons(ETHERTYPE_IP)
 1.1  fredette 		    || ip_packet->ip_p != IPPROTO_ND) {
 1.1  fredette 			_NDBOOTD_DEBUG((fp, "ignoring a packet with the wrong Ethernet or IP protocol"));
 1.1  fredette 			continue;
 1.1  fredette 		}
 1.1  fredette 		_ndbootd_ip_cksum(ip_packet);
 1.1  fredette 		if (ip_packet->ip_sum != 0) {
 1.1  fredette 			_NDBOOTD_DEBUG((fp, "ignoring a packet with a bad IP checksum"));
 1.1  fredette 			continue;
 1.1  fredette 		}
 1.1  fredette 		if (packet_length
 1.1  fredette 		    != (sizeof(struct ether_header)
 1.1  fredette 			+ (ip_packet->ip_hl << 2)
 1.1  fredette 			+ sizeof(struct ndboot_packet))) {
 1.3  fredette 			_NDBOOTD_DEBUG((fp, "ignoring a packet with bad total length %ld", (long) packet_length));
 1.1  fredette 			continue;
 1.1  fredette 		}
 1.1  fredette 		/* if we need to, refresh our RARP cache: */
 1.1  fredette 		if ((last_rarp_time + NDBOOTD_CLIENT_TTL_SECONDS) < now
 1.1  fredette 		    || memcmp(last_client_ether, ether_packet->ether_shost, ETHER_ADDR_LEN)) {
 1.1  fredette
 1.1  fredette 			/* turn the Ethernet address into a hostname: */
 1.1  fredette 			if (ether_ntohost(hostname_buffer, (struct ether_addr *) ether_packet->ether_shost)) {
 1.1  fredette 				_NDBOOTD_DEBUG((fp, "could not resolve %02x:%02x:%02x:%02x:%02x:%02x into a hostname: %s",
 1.1  fredette 					((unsigned char *) ether_packet->ether_shost)[0],
 1.1  fredette 					((unsigned char *) ether_packet->ether_shost)[1],
 1.1  fredette 					((unsigned char *) ether_packet->ether_shost)[2],
 1.1  fredette 					((unsigned char *) ether_packet->ether_shost)[3],
 1.1  fredette 					((unsigned char *) ether_packet->ether_shost)[4],
 1.1  fredette 					((unsigned char *) ether_packet->ether_shost)[5],
 1.1  fredette 					strerror(errno)));
 1.1  fredette 				continue;
 1.1  fredette 			}
 1.1  fredette 			/* turn the hostname into an IP address: */
 1.1  fredette 			hostname_buffer[sizeof(hostname_buffer) - 1] = '\0';
 1.1  fredette 			if ((the_hostent = gethostbyname(hostname_buffer)) == NULL
 1.1  fredette 			    || the_hostent->h_addrtype != AF_INET) {
 1.1  fredette 				_NDBOOTD_DEBUG((fp, "could not resolve %s into an IP address: %s",
 1.1  fredette 					hostname_buffer,
 1.1  fredette 					strerror(errno)));
 1.1  fredette 				continue;
 1.1  fredette 			}
 1.1  fredette 			/* save these new results in our RARP cache: */
 1.1  fredette 			last_rarp_time = now;
 1.1  fredette 			memcpy(last_client_ether, ether_packet->ether_shost, ETHER_ADDR_LEN);
 1.1  fredette 			memcpy(&last_client_ip, the_hostent->h_addr, sizeof(last_client_ip));
 1.1  fredette 			_NDBOOTD_DEBUG((fp, "IP address for %02x:%02x:%02x:%02x:%02x:%02x is %s",
 1.1  fredette 				((unsigned char *) last_client_ether)[0],
 1.1  fredette 				((unsigned char *) last_client_ether)[1],
 1.1  fredette 				((unsigned char *) last_client_ether)[2],
 1.1  fredette 				((unsigned char *) last_client_ether)[3],
 1.1  fredette 				((unsigned char *) last_client_ether)[4],
 1.1  fredette 				((unsigned char *) last_client_ether)[5],
 1.1  fredette 				inet_ntoa(last_client_ip)));
 1.1  fredette
 1.1  fredette 			/* this will cause the file descriptor cache to be
 1.1  fredette 			 * reloaded, the next time we make it that far: */
 1.1  fredette 			last_open_time = 0;
 1.1  fredette 		}
 1.1  fredette 		/* if this IP packet was broadcast, rewrite the source IP
 1.1  fredette 		 * address to be the client, else, check that the client is
 1.1  fredette 		 * using the correct IP addresses: */
 1.1  fredette 		if (ip_packet->ip_dst.s_addr == htonl(0)) {
 1.1  fredette 			ip_packet->ip_src = last_client_ip;
 1.1  fredette 		} else {
 1.1  fredette 			if (ip_packet->ip_src.s_addr !=
 1.1  fredette 			    last_client_ip.s_addr) {
 1.1  fredette 				_NDBOOTD_DEBUG((fp, "machine %02x:%02x:%02x:%02x:%02x:%02x is using the wrong IP address\n",
 1.1  fredette 					((unsigned char *) ether_packet->ether_shost)[0],
 1.1  fredette 					((unsigned char *) ether_packet->ether_shost)[1],
 1.1  fredette 					((unsigned char *) ether_packet->ether_shost)[2],
 1.1  fredette 					((unsigned char *) ether_packet->ether_shost)[3],
 1.1  fredette 					((unsigned char *) ether_packet->ether_shost)[4],
 1.1  fredette 					((unsigned char *) ether_packet->ether_shost)[5]));
 1.1  fredette 				continue;
 1.1  fredette 			}
 1.1  fredette 			if (ip_packet->ip_dst.s_addr
 1.1  fredette 			    != ((struct sockaddr_in *) & interface->ndbootd_interface_ifreq->ifr_addr)->sin_addr.s_addr) {
 1.1  fredette 				_NDBOOTD_DEBUG((fp, "machine %02x:%02x:%02x:%02x:%02x:%02x is sending to the wrong IP address\n",
 1.1  fredette 					((unsigned char *) ether_packet->ether_shost)[0],
 1.1  fredette 					((unsigned char *) ether_packet->ether_shost)[1],
 1.1  fredette 					((unsigned char *) ether_packet->ether_shost)[2],
 1.1  fredette 					((unsigned char *) ether_packet->ether_shost)[3],
 1.1  fredette 					((unsigned char *) ether_packet->ether_shost)[4],
 1.1  fredette 					((unsigned char *) ether_packet->ether_shost)[5]));
 1.1  fredette 				continue;
 1.1  fredette 			}
 1.1  fredette 		}
 1.1  fredette
 1.1  fredette 		/* if we need to, refresh our "cache" of file descriptors for
 1.1  fredette 		 * the boot programs: */
 1.1  fredette 		if ((last_open_time + NDBOOTD_CLIENT_TTL_SECONDS) < now) {
 1.1  fredette
 1.1  fredette 			/* close any previously opened programs: */
 1.1  fredette 			if (boot1_fd >= 0) {
 1.1  fredette 				close(boot1_fd);
 1.1  fredette 			}
 1.1  fredette 			if (boot2_file_name != NULL) {
 1.1  fredette 				free(boot2_file_name);
 1.1  fredette 			}
 1.1  fredette 			if (boot2_fd >= 0) {
 1.1  fredette 				close(boot2_fd);
 1.1  fredette 			}
 1.1  fredette 			/* open the first-stage boot program: */
 1.1  fredette 			if ((boot1_fd = open(boot1_file_name, O_RDONLY)) < 0) {
 1.1  fredette 				_NDBOOTD_DEBUG((fp, "could not open %s: %s",
 1.1  fredette 					boot1_file_name, strerror(errno)));
 1.1  fredette 				continue;
 1.1  fredette 			}
 1.1  fredette 			if (fstat(boot1_fd, &stat_buffer) < 0) {
 1.1  fredette 				_NDBOOTD_DEBUG((fp, "could not stat %s: %s",
 1.1  fredette 					boot1_file_name, strerror(errno)));
 1.1  fredette 				continue;
 1.1  fredette 			}
 1.1  fredette 			boot1_byte_count = stat_buffer.st_size;
 1.1  fredette 			boot1_block_count = (boot1_byte_count + (NDBOOT_BSIZE - 1)) / NDBOOT_BSIZE;
 1.1  fredette 			if (boot1_block_count > NDBOOTD_BOOT1_BLOCK_COUNT) {
 1.1  fredette 				_NDBOOTD_DEBUG((fp, "first-stage boot program %s has too many blocks (%d, max is %d)",
 1.1  fredette 					boot1_file_name, boot1_block_count, NDBOOTD_BOOT1_BLOCK_COUNT));
 1.1  fredette 			}
 1.1  fredette 			_NDBOOTD_DEBUG((fp, "first-stage boot program %s has %d blocks",
 1.1  fredette 				boot1_file_name, boot1_block_count));
 1.1  fredette
 1.1  fredette 			/* open any second-stage boot program: */
 1.1  fredette 			if (boot2_x_name != NULL) {
 1.1  fredette
 1.1  fredette 				/* determine what the name of the second-stage
 1.1  fredette 				 * boot program will be: */
 1.1  fredette 				if (boot2_x_name_is_dir) {
 1.1  fredette 					if ((boot2_file_name = malloc(strlen(boot2_x_name) + strlen("/00000000.SUN2") + 1)) != NULL) {
 1.1  fredette 						sprintf(boot2_file_name, "%s/%02X%02X%02X%02X.SUN2",
 1.1  fredette 						    boot2_x_name,
 1.1  fredette 						    ((unsigned char *) &last_client_ip)[0],
 1.1  fredette 						    ((unsigned char *) &last_client_ip)[1],
 1.1  fredette 						    ((unsigned char *) &last_client_ip)[2],
 1.1  fredette 						    ((unsigned char *) &last_client_ip)[3]);
 1.1  fredette 					}
 1.1  fredette 				} else {
 1.1  fredette 					boot2_file_name = strdup(boot2_x_name);
 1.1  fredette 				}
 1.1  fredette 				if (boot2_file_name == NULL) {
 1.1  fredette 					abort();
 1.1  fredette 				}
 1.1  fredette 				/* open the second-stage boot program: */
 1.1  fredette 				if ((boot2_fd = open(boot2_file_name, O_RDONLY)) < 0) {
 1.1  fredette 					_NDBOOTD_DEBUG((fp, "could not open %s: %s",
 1.1  fredette 						boot2_file_name, strerror(errno)));
 1.1  fredette 					continue;
 1.1  fredette 				}
 1.1  fredette 				if (fstat(boot2_fd, &stat_buffer) < 0) {
 1.1  fredette 					_NDBOOTD_DEBUG((fp, "could not stat %s: %s",
 1.1  fredette 						boot2_file_name, strerror(errno)));
 1.1  fredette 					continue;
 1.1  fredette 				}
 1.1  fredette 				boot2_byte_count = stat_buffer.st_size;
 1.1  fredette 				boot2_block_count = (boot2_byte_count + (NDBOOT_BSIZE - 1)) / NDBOOT_BSIZE;
 1.1  fredette 				_NDBOOTD_DEBUG((fp, "second-stage boot program %s has %d blocks",
 1.1  fredette 					boot2_file_name, boot2_block_count));
 1.1  fredette 			}
 1.1  fredette 			/* success: */
 1.1  fredette 			last_open_time = now;
 1.1  fredette 		}
 1.1  fredette 		/* check the nd packet: */
 1.1  fredette #ifdef HAVE_STRICT_ALIGNMENT
 1.1  fredette 		memcpy(nd_packet, packet_buffer + sizeof(struct ether_header) + (ip_packet->ip_hl << 2), sizeof(struct ndboot_packet));
 1.1  fredette #else				/* !HAVE_STRICT_ALIGNMENT */
 1.1  fredette 		nd_packet = (struct ndboot_packet *) (((char *) ip_packet) + (ip_packet->ip_hl << 2));
 1.1  fredette #endif				/* !HAVE_STRICT_ALIGNMENT */
 1.1  fredette
 1.1  fredette 		/* dump a bunch of debug information: */
 1.1  fredette 		_NDBOOTD_DEBUG((fp, "recv: op 0x%02x minor 0x%02x error %d vers %d seq %d blk %d bcount %d off %d count %d",
 1.1  fredette 			nd_packet->ndboot_packet_op,
 1.1  fredette 			nd_packet->ndboot_packet_minor,
 1.1  fredette 			nd_packet->ndboot_packet_error,
 1.1  fredette 			nd_packet->ndboot_packet_disk_version,
 1.1  fredette 			(int) ntohl(nd_packet->ndboot_packet_sequence),
 1.1  fredette 			(int) ntohl(nd_packet->ndboot_packet_block_number),
 1.1  fredette 			(int) ntohl(nd_packet->ndboot_packet_byte_count),
 1.1  fredette 			(int) ntohl(nd_packet->ndboot_packet_current_byte_offset),
 1.1  fredette 			(int) ntohl(nd_packet->ndboot_packet_current_byte_count)));
 1.1  fredette
 1.1  fredette 		/* ignore this packet if it has a bad opcode, a bad minor
 1.1  fredette 		 * number, a bad disk version, a bad block number, a bad byte
 1.1  fredette 		 * count, a bad current byte offset, or a bad current byte
 1.1  fredette 		 * count: */
 1.1  fredette 		/* FIXME - for some of these conditions, we probably should
 1.1  fredette 		 * return an NDBOOT_OP_ERROR packet: */
 1.1  fredette 		if ((nd_packet->ndboot_packet_op & NDBOOT_OP_MASK) != NDBOOT_OP_READ) {
 1.1  fredette 			_NDBOOTD_DEBUG((fp, "ignoring a packet with bad op %d",
 1.1  fredette 				nd_packet->ndboot_packet_op & NDBOOT_OP_MASK));
 1.1  fredette 			continue;
 1.1  fredette 		}
 1.1  fredette 		if (nd_packet->ndboot_packet_minor != NDBOOT_MINOR_NDP0) {
 1.1  fredette 			_NDBOOTD_DEBUG((fp, "ignoring a packet with device minor %d",
 1.1  fredette 				nd_packet->ndboot_packet_minor));
 1.1  fredette 			continue;
 1.1  fredette 		}
 1.1  fredette 		if (nd_packet->ndboot_packet_disk_version != 0) {
 1.1  fredette 			_NDBOOTD_DEBUG((fp, "ignoring a packet with disk version %d",
 1.1  fredette 				nd_packet->ndboot_packet_disk_version));
 1.1  fredette 			continue;
 1.1  fredette 		}
 1.1  fredette 		if (ntohl(nd_packet->ndboot_packet_block_number) < 0) {
 1.1  fredette 			_NDBOOTD_DEBUG((fp, "ignoring a packet with bad block number %d",
 1.1  fredette 				(int) ntohl(nd_packet->ndboot_packet_block_number)));
 1.1  fredette 			continue;
 1.1  fredette 		}
 1.1  fredette 		if (ntohl(nd_packet->ndboot_packet_byte_count) <= 0 ||
 1.1  fredette 		    ntohl(nd_packet->ndboot_packet_byte_count) > NDBOOT_MAX_BYTE_COUNT) {
 1.1  fredette 			_NDBOOTD_DEBUG((fp, "ignoring a packet with bad byte count %d",
 1.1  fredette 				(int) ntohl(nd_packet->ndboot_packet_byte_count)));
 1.1  fredette 			continue;
 1.1  fredette 		}
 1.1  fredette 		if (ntohl(nd_packet->ndboot_packet_current_byte_offset) < 0 ||
 1.1  fredette 		    ntohl(nd_packet->ndboot_packet_current_byte_offset)
 1.1  fredette 		    >= ntohl(nd_packet->ndboot_packet_byte_count)) {
 1.1  fredette 			_NDBOOTD_DEBUG((fp, "ignoring a packet with bad current offset %d",
 1.1  fredette 				(int) ntohl(nd_packet->ndboot_packet_current_byte_offset)));
 1.1  fredette 			continue;
 1.1  fredette 		}
 1.1  fredette 		if (ntohl(nd_packet->ndboot_packet_current_byte_count) < 0 ||
 1.1  fredette 		    ntohl(nd_packet->ndboot_packet_current_byte_count)
 1.1  fredette 		    > (ntohl(nd_packet->ndboot_packet_byte_count)
 1.1  fredette 			- ntohl(nd_packet->ndboot_packet_current_byte_offset))) {
 1.1  fredette 			_NDBOOTD_DEBUG((fp, "ignoring a packet with bad current count %d",
 1.1  fredette 				(int) ntohl(nd_packet->ndboot_packet_current_byte_count)));
 1.1  fredette 			continue;
 1.1  fredette 		}
 1.1  fredette 		/* if we were given a current byte count of zero, rewrite it
 1.1  fredette 		 * to be the maximum: */
 1.1  fredette 		if (ntohl(nd_packet->ndboot_packet_current_byte_count) == 0) {
 1.1  fredette 			nd_packet->ndboot_packet_current_byte_count =
 1.1  fredette 			    htonl(ntohl(nd_packet->ndboot_packet_byte_count)
 1.1  fredette 			    - ntohl(nd_packet->ndboot_packet_current_byte_offset));
 1.1  fredette 		}
 1.1  fredette 		/* read the data: */
 1.1  fredette 		disk_buffer_offset = 0;
 1.1  fredette 		block_number = ntohl(nd_packet->ndboot_packet_block_number);
 1.1  fredette 		byte_offset = ntohl(nd_packet->ndboot_packet_current_byte_offset);
 1.1  fredette 		byte_count = ntohl(nd_packet->ndboot_packet_current_byte_count);
 1.1  fredette 		for (; byte_count > 0;) {
 1.1  fredette
 1.1  fredette 			/* adjust the current block number and byte offset
 1.1  fredette 			 * such that the byte offset is always < NDBOOT_BSIZE: */
 1.1  fredette 			block_number += (byte_offset / NDBOOT_BSIZE);
 1.1  fredette 			byte_offset = byte_offset % NDBOOT_BSIZE;
 1.1  fredette
 1.1  fredette 			/* dispatch on the beginning block number: */
 1.1  fredette 			byte_count_read = 0;
 1.1  fredette
 1.1  fredette 			/* the (dummy) Sun disk label: */
 1.1  fredette 			if (block_number >= NDBOOTD_SUNDK_BLOCK_FIRST
 1.1  fredette 			    && block_number < (NDBOOTD_SUNDK_BLOCK_FIRST + NDBOOTD_SUNDK_BLOCK_COUNT)) {
 1.1  fredette 				byte_count_read = MIN(NDBOOTD_BYTES_AVAIL(block_number, byte_offset,
 1.1  fredette 					NDBOOTD_SUNDK_BLOCK_FIRST, NDBOOTD_SUNDK_BLOCK_COUNT),
 1.1  fredette 				    byte_count);
 1.1  fredette 			}
 1.1  fredette 			/* the first-stage boot program: */
 1.1  fredette 			else if (block_number >= NDBOOTD_BOOT1_BLOCK_FIRST
 1.1  fredette 			    && block_number < (NDBOOTD_BOOT1_BLOCK_FIRST + NDBOOTD_BOOT1_BLOCK_COUNT)) {
 1.1  fredette
 1.1  fredette 				/* if any real part of the first-stage boot
 1.1  fredette 				 * program is needed to satisfy the request,
 1.1  fredette 				 * read it (otherwise we return garbage as
 1.1  fredette 				 * padding): */
 1.1  fredette 				byte_count_wanted = MIN(NDBOOTD_BYTES_AVAIL(block_number, byte_offset,
 1.1  fredette 					NDBOOTD_BOOT1_BLOCK_FIRST, boot1_block_count),
 1.1  fredette 				    byte_count);
 1.1  fredette 				if (byte_count_wanted > 0) {
 1.1  fredette
 1.1  fredette 					file_offset = ((block_number - NDBOOTD_BOOT1_BLOCK_FIRST) * NDBOOT_BSIZE) + byte_offset;
 1.1  fredette 					if (lseek(boot1_fd, file_offset, SEEK_SET) < 0) {
 1.3  fredette 						_NDBOOTD_DEBUG((fp, "could not seek %s to block %ld offset %ld: %s",
 1.1  fredette 							boot1_file_name,
 1.3  fredette 							(long) (block_number - NDBOOTD_BOOT1_BLOCK_FIRST),
 1.3  fredette 							(long) byte_offset,
 1.1  fredette 							strerror(errno)));
 1.1  fredette 						break;
 1.1  fredette 					}
 1.1  fredette 					byte_count_read = read(boot1_fd, disk_buffer + disk_buffer_offset, byte_count_wanted);
 1.1  fredette 					/* pretend that the size of the
 1.1  fredette 					 * first-stage boot program is a
 1.1  fredette 					 * multiple of NDBOOT_BSIZE: */
 1.1  fredette 					if (byte_count_read != byte_count_wanted
 1.4  fredette 					    && byte_count_read > 0
 1.1  fredette 					    && file_offset + byte_count_read == boot1_byte_count) {
 1.1  fredette 						byte_count_read = byte_count_wanted;
 1.1  fredette 					}
 1.1  fredette 					if (byte_count_read != byte_count_wanted) {
 1.3  fredette 						_NDBOOTD_DEBUG((fp, "could not read %ld bytes at block %ld offset %ld from %s: %s (read %ld bytes)",
 1.3  fredette 							(long) byte_count_wanted,
 1.3  fredette 							(long) (block_number - NDBOOTD_BOOT1_BLOCK_FIRST),
 1.3  fredette 							(long) byte_offset,
 1.1  fredette 							boot1_file_name,
 1.1  fredette 							strerror(errno),
 1.3  fredette 							(long) byte_count_read));
 1.1  fredette 						break;
 1.1  fredette 					}
 1.1  fredette 				}
 1.1  fredette 				/* the number of bytes we read, including any
 1.1  fredette 				 * padding garbage: */
 1.1  fredette 				byte_count_read = MIN(NDBOOTD_BYTES_AVAIL(block_number, byte_offset,
 1.1  fredette 					NDBOOTD_BOOT1_BLOCK_FIRST, NDBOOTD_BOOT1_BLOCK_COUNT),
 1.1  fredette 				    byte_count);
 1.1  fredette 			}
 1.1  fredette 			/* any second-stage boot program: */
 1.1  fredette 			else if (block_number >= NDBOOTD_BOOT2_BLOCK_FIRST) {
 1.1  fredette
 1.1  fredette 				/* if any real part of any first-stage boot
 1.1  fredette 				 * program is needed to satisfy the request,
 1.1  fredette 				 * read it (otherwise we return garbage as
 1.1  fredette 				 * padding): */
 1.1  fredette 				byte_count_wanted = MIN(NDBOOTD_BYTES_AVAIL(block_number, byte_offset,
 1.1  fredette 					NDBOOTD_BOOT2_BLOCK_FIRST, boot2_block_count),
 1.1  fredette 				    byte_count);
 1.1  fredette 				if (boot2_fd >= 0
 1.1  fredette 				    && byte_count_wanted > 0) {
 1.1  fredette
 1.1  fredette 					file_offset = ((block_number - NDBOOTD_BOOT2_BLOCK_FIRST) * NDBOOT_BSIZE) + byte_offset;
 1.1  fredette 					if (lseek(boot2_fd, file_offset, SEEK_SET) < 0) {
 1.3  fredette 						_NDBOOTD_DEBUG((fp, "could not seek %s to block %ld offset %ld: %s",
 1.1  fredette 							boot2_file_name,
 1.3  fredette 							(long) (block_number - NDBOOTD_BOOT2_BLOCK_FIRST),
 1.3  fredette 							(long) byte_offset,
 1.1  fredette 							strerror(errno)));
 1.1  fredette 						break;
 1.1  fredette 					}
 1.1  fredette 					byte_count_read = read(boot2_fd, disk_buffer + disk_buffer_offset, byte_count_wanted);
 1.1  fredette 					/* pretend that the size of the
 1.1  fredette 					 * second-stage boot program is a
 1.1  fredette 					 * multiple of NDBOOT_BSIZE: */
 1.1  fredette 					if (byte_count_read != byte_count_wanted
 1.4  fredette 					    && byte_count_read > 0
 1.1  fredette 					    && file_offset + byte_count_read == boot2_byte_count) {
 1.1  fredette 						byte_count_read = byte_count_wanted;
 1.1  fredette 					}
 1.1  fredette 					if (byte_count_read != byte_count_wanted) {
 1.3  fredette 						_NDBOOTD_DEBUG((fp, "could not read %ld bytes at block %ld offset %ld from %s: %s (read %ld bytes)",
 1.3  fredette 							(long) byte_count_wanted,
 1.3  fredette 							(long) (block_number - NDBOOTD_BOOT2_BLOCK_FIRST),
 1.3  fredette 							(long) byte_offset,
 1.1  fredette 							boot2_file_name,
 1.1  fredette 							strerror(errno),
 1.3  fredette 							(long) byte_count_read));
 1.1  fredette 						break;
 1.1  fredette 					}
 1.1  fredette 				}
 1.1  fredette 				/* the number of bytes we read, including any
 1.1  fredette 				 * padding garbage: */
 1.1  fredette 				byte_count_read = byte_count;
 1.1  fredette 			}
 1.1  fredette 			/* update for the amount that we read: */
 1.1  fredette 			assert(byte_count_read > 0);
 1.1  fredette 			disk_buffer_offset += byte_count_read;
 1.1  fredette 			byte_offset += byte_count_read;
 1.1  fredette 			byte_count -= byte_count_read;
 1.1  fredette 		}
 1.1  fredette 		if (byte_count > 0) {
 1.1  fredette 			/* an error occurred: */
 1.1  fredette 			continue;
 1.1  fredette 		}
 1.1  fredette 		/* set the Ethernet and IP destination and source addresses,
 1.1  fredette 		 * and the IP TTL: */
 1.1  fredette 		memcpy(ether_packet->ether_dhost, ether_packet->ether_shost, ETHER_ADDR_LEN);
 1.1  fredette 		memcpy(ether_packet->ether_shost, interface->ndbootd_interface_ether, ETHER_ADDR_LEN);
 1.1  fredette #ifdef HAVE_STRICT_ALIGNMENT
 1.1  fredette 		memcpy(packet_buffer, ether_packet, sizeof(struct ether_header));
 1.1  fredette #endif				/* !HAVE_STRICT_ALIGNMENT */
 1.1  fredette 		ip_packet->ip_dst = ip_packet->ip_src;
 1.1  fredette 		ip_packet->ip_src = ((struct sockaddr_in *) & interface->ndbootd_interface_ifreq->ifr_addr)->sin_addr;
 1.1  fredette 		ip_packet->ip_ttl = 4;
 1.1  fredette
 1.1  fredette 		/* return the data: */
 1.1  fredette 		nd_window_filled = 0;
 1.1  fredette 		disk_buffer_offset = 0;
 1.1  fredette 		byte_count = ntohl(nd_packet->ndboot_packet_current_byte_count);
 1.1  fredette 		for (;;) {
 1.1  fredette
 1.1  fredette 			/* set the byte count on this packet: */
 1.1  fredette 			nd_packet->ndboot_packet_current_byte_count = htonl(MIN(byte_count, NDBOOT_MAX_PACKET_DATA));
 1.1  fredette
 1.1  fredette 			/* set our opcode.  the opcode is always
 1.1  fredette 			 * NDBOOT_OP_READ, ORed with NDBOOT_OP_FLAG_DONE |
 1.1  fredette 			 * NDBOOT_OP_FLAG_WAIT if this packet finishes the
 1.1  fredette 			 * request, or ORed with NDBOOT_OP_FLAG_WAIT if this
 1.1  fredette 			 * packet fills the window: */
 1.1  fredette 			nd_window_filled++;
 1.1  fredette 			nd_packet->ndboot_packet_op =
 1.1  fredette 			    (NDBOOT_OP_READ
 1.1  fredette 			    | ((ntohl(nd_packet->ndboot_packet_current_byte_offset)
 1.1  fredette 				    + ntohl(nd_packet->ndboot_packet_current_byte_count))
 1.1  fredette 				== ntohl(nd_packet->ndboot_packet_byte_count)
 1.1  fredette 				? (NDBOOT_OP_FLAG_DONE
 1.1  fredette 				    | NDBOOT_OP_FLAG_WAIT)
 1.1  fredette 				: (nd_window_filled == nd_window_size
 1.1  fredette 				    ? NDBOOT_OP_FLAG_WAIT
 1.1  fredette 				    : 0)));
 1.1  fredette
 1.1  fredette 			/* copy the data into the packet: */
 1.1  fredette 			memcpy(packet_buffer +
 1.1  fredette 			    sizeof(struct ether_header) + (ip_packet->ip_hl << 2) + sizeof(struct ndboot_packet),
 1.1  fredette 			    disk_buffer + disk_buffer_offset,
 1.1  fredette 			    ntohl(nd_packet->ndboot_packet_current_byte_count));
 1.1  fredette
 1.1  fredette 			/* finish the IP packet and calculate the checksum: */
 1.1  fredette 			ip_packet->ip_len = htons((ip_packet->ip_hl << 2)
 1.1  fredette 			    + sizeof(struct ndboot_packet)
 1.1  fredette 			    + ntohl(nd_packet->ndboot_packet_current_byte_count));
 1.1  fredette 			ip_packet->ip_sum = 0;
 1.1  fredette 			_ndbootd_ip_cksum(ip_packet);
 1.1  fredette
 1.1  fredette #ifdef HAVE_STRICT_ALIGNMENT
 1.1  fredette 			memcpy(packet_buffer + sizeof(struct ether_header), ip_packet, ip_packet->ip_hl << 2);
 1.1  fredette 			memcpy(packet_buffer + sizeof(struct ether_header) + (ip_packet->ip_hl << 2), nd_packet, sizeof(struct ndboot_packet));
 1.1  fredette #endif				/* !HAVE_STRICT_ALIGNMENT */
 1.1  fredette
 1.1  fredette 			/* dump a bunch of debug information: */
 1.1  fredette 			_NDBOOTD_DEBUG((fp, "send: op 0x%02x minor 0x%02x error %d vers %d seq %d blk %d bcount %d off %d count %d (win %d)",
 1.1  fredette 				nd_packet->ndboot_packet_op,
 1.1  fredette 				nd_packet->ndboot_packet_minor,
 1.1  fredette 				nd_packet->ndboot_packet_error,
 1.1  fredette 				nd_packet->ndboot_packet_disk_version,
 1.1  fredette 				(int) ntohl(nd_packet->ndboot_packet_sequence),
 1.1  fredette 				(int) ntohl(nd_packet->ndboot_packet_block_number),
 1.1  fredette 				(int) ntohl(nd_packet->ndboot_packet_byte_count),
 1.1  fredette 				(int) ntohl(nd_packet->ndboot_packet_current_byte_offset),
 1.1  fredette 				(int) ntohl(nd_packet->ndboot_packet_current_byte_count),
 1.1  fredette 				nd_window_filled - 1));
 1.1  fredette
 1.1  fredette 			/* delay before sending the packet: */
 1.1  fredette 			send_delay.tv_sec = 0;
 1.7   mycroft 			send_delay.tv_nsec = NDBOOTD_SEND_DELAY_NSECONDS;
 1.7   mycroft 			nanosleep(&send_delay, NULL);
 1.1  fredette
 1.1  fredette 			/* transmit the packet: */
 1.1  fredette 			if (ndbootd_raw_write(interface, packet_buffer,
 1.1  fredette 				sizeof(struct ether_header) + (ip_packet->ip_hl << 2) + sizeof(struct ndboot_packet) + ntohl(nd_packet->ndboot_packet_current_byte_count)) < 0) {
 1.1  fredette 				_NDBOOTD_DEBUG((fp, "could not write a packet: %s",
 1.1  fredette 					strerror(errno)));
 1.1  fredette 			}
 1.1  fredette 			/* if we set NDBOOT_OP_FLAG_DONE or
 1.1  fredette 			 * NDBOOT_OP_FLAG_WAIT in the packet we just sent,
 1.1  fredette 			 * we're done sending: */
 1.1  fredette 			if (nd_packet->ndboot_packet_op != NDBOOT_OP_READ) {
 1.1  fredette 				break;
 1.1  fredette 			}
 1.1  fredette 			/* advance to the next packet: */
 1.1  fredette 			byte_count -= ntohl(nd_packet->ndboot_packet_current_byte_count);
 1.1  fredette 			disk_buffer_offset += ntohl(nd_packet->ndboot_packet_current_byte_count);
 1.1  fredette 			nd_packet->ndboot_packet_current_byte_offset =
 1.1  fredette 			    htonl(ntohl(nd_packet->ndboot_packet_current_byte_offset)
 1.1  fredette 			    + ntohl(nd_packet->ndboot_packet_current_byte_count));
 1.1  fredette 		}
 1.1  fredette 	}
 1.1  fredette 	/* NOTREACHED */
 1.1  fredette }
 1.1  fredette /* the raw Ethernet access code: */
 1.2  fredette #include "config/ndbootd-bpf.c"