/* * init.c * * This is the install type init * * Erik Troan (ewt@redhat.com) * * Copyright 1996 Red Hat Software * * 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. * */ #if USE_MINILIBC #include "minilibc.h" #else #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #define syslog klogctl #endif #define KICK_FLOPPY 1 #define KICK_BOOTP 2 #define MS_REMOUNT 32 #define ENV_PATH 0 #define ENV_LD_LIBRARY_PATH 1 #define ENV_HOME 2 #define ENV_TERM 3 #define ENV_DEBUG 4 char * environ[] = { "PATH=/usr/bin:/bin:/sbin:/usr/sbin:/mnt/sbin:/mnt/usr/sbin:" "/mnt/bin:/mnt/usr/bin", "LD_LIBRARY_PATH=/lib:/usr/lib:/mnt/lib:/mnt/usr/lib", "HOME=/", "TERM=linux", "DEBUG=", NULL }; /* * this needs to handle the following cases: * * 1) run from a CD root filesystem * 2) run from a read only nfs rooted filesystem * 3) run from a floppy * 4) run from a floppy that's been loaded into a ramdisk * */ int testing; void printstr(char * string) { write(1, string, strlen(string)); } void fatal_error(int usePerror) { /* FIXME */ #if 0 if (usePerror) perror("failed:"); else #endif printf("failed.\n"); printf("\nI can't recover from this.\n"); while (1) ; } int doMke2fs(char * device, char * size) { char * args[] = { "/usr/bin/mke2fs", NULL, NULL, NULL }; int pid, status; args[1] = device; args[2] = size; if (!(pid = fork())) { /* child */ execve("/usr/bin/mke2fs", args, environ); fatal_error(1); } wait4(-1, &status, 0, NULL); return 0; } int hasNetConfiged(void) { int rc; int s; struct ifconf configs; struct ifreq devs[10]; #ifdef __i386__ return 0; #endif s = socket(AF_INET, SOCK_STREAM, 0); if (s < 0) { /* FIXME was perror*/ printf("error creating socket: %d\n", errno); return 0; } else { /* this is just good enough to tell us if we have anything configured */ configs.ifc_len = sizeof(devs); configs.ifc_buf = (void *) devs; rc = ioctl(s, SIOCGIFCONF, &configs); if (rc < 0) { /* FIXME was perror*/ printstr("SIOCGIFCONF"); return 0; } if (configs.ifc_len == 0) { return 0; } return 1; } return 0; } void doklog(char * fn) { fd_set readset, unixs; int in, out, i; int log; int s; int sock = -1; struct sockaddr_un sockaddr; char buf[1024]; int readfd; in = open("/proc/kmsg", O_RDONLY,0); if (in < 0) { /* FIXME: was perror */ printstr("open /proc/kmsg"); return; } out = open(fn, O_WRONLY, 0); if (out < 0) printf("couldn't open %s for syslog -- still using /tmp/syslog\n", fn); log = open("/tmp/syslog", O_WRONLY | O_CREAT, 0644); if (log < 0) { /* FIXME: was perror */ printstr("error opening /tmp/syslog"); sleep(5); close(in); return; } /* if we get this far, we should be in good shape */ if (fork()) { /* parent */ close(in); close(out); close(log); return; } close(0); close(1); close(2); dup2(1, log); #if defined(USE_LOGDEV) /* now open the syslog socket */ sockaddr.sun_family = AF_UNIX; strcpy(sockaddr.sun_path, "/dev/log"); sock = socket(AF_UNIX, SOCK_STREAM, 0); if (sock < 0) { printf("error creating socket: %d\n", errno); sleep(5); } printstr("got socket\n"); if (bind(sock, (struct sockaddr *) &sockaddr, sizeof(sockaddr.sun_family) + strlen(sockaddr.sun_path))) { printf("bind error: %d\n", errno); sleep(5); } printstr("bound socket\n"); chmod("/dev/log", 0666); if (listen(sock, 5)) { printf("listen error: %d\n", errno); sleep(5); } #endif syslog(8, NULL, 1); FD_ZERO(&unixs); while (1) { memcpy(&readset, &unixs, sizeof(unixs)); if (sock >= 0) FD_SET(sock, &readset); FD_SET(in, &readset); i = select(20, &readset, NULL, NULL, NULL); if (i <= 0) continue; if (FD_ISSET(in, &readset)) { i = read(in, buf, sizeof(buf)); if (i > 0) { if (out >= 0) write(out, buf, i); write(log, buf, i); } } for (readfd = 0; readfd < 20; ++readfd) { if (FD_ISSET(readfd, &readset) && FD_ISSET(readfd, &unixs)) { i = read(readfd, buf, sizeof(buf)); if (i > 0) { if (out >= 0) { write(out, buf, i); write(out, "\n", 1); } write(log, buf, i); write(log, "\n", 1); } else if (i == 0) { /* socket closed */ close(readfd); FD_CLR(readfd, &unixs); } } } if (sock >= 0 && FD_ISSET(sock, &readset)) { s = sizeof(sockaddr); readfd = accept(sock, (struct sockaddr *) &sockaddr, &s); if (readfd < 0) { if (out >= 0) write(out, "error in accept\n", 16); write(log, "error in accept\n", 16); close(sock); sock = -1; } else { FD_SET(readfd, &unixs); } } } } #if defined(__alpha__) char * findKernel(void) { char * dev, * file; struct stat sb; dev = getenv("bootdevice"); file = getenv("bootfile"); if (!dev || !file) { printf("I can't find your kernel. When you are booting" " from a CDROM, you must pass\n"); printf("the bootfile argument to the kernel if your" " boot loader doesn't do so automatically.\n"); printf("\n"); printf("You should now reboot your system and try " "again\n"); while (1) ; } if (!strcmp(dev, "fd0")) { if (!strcmp(file, "vmlinux.gz")) { printf("The kernel on a boot floppy must be named vmlinux.gz. " "You\n"); printf("are using a kernel named %s instead. You'll have " "to\n", file); printf("fix this and try again.\n"); while (1) ; } return NULL; } else { if (stat(file, &sb)) { printf("I can't find your kernel. When you are booting" " from a CDROM, you must pass\n"); printf("the bootfile argument to the kernel if your" " boot loader doesn't do so automatically.\n"); printf("\n"); printf("You should now reboot your system and try " "again\n"); while (1) ; } return file; } } #endif int setupTerminal(int fd) { struct winsize winsize; if (ioctl(fd, TIOCGWINSZ, &winsize)) { printf("failed to get winsize"); fatal_error(1); } winsize.ws_row = 24; winsize.ws_col = 80; if (ioctl(fd, TIOCSWINSZ, &winsize)) { printf("failed to set winsize"); fatal_error(1); } environ[ENV_TERM] = "TERM=vt100"; return 0; } void unmountFilesystems(void) { int fd, size; char buf[65535]; /* this should be big enough */ char * chptr, * start; struct { char * name; int len; } filesystems[500], tmp; int numFilesystems = 0; int i, j; fd = open("/proc/mounts", O_RDONLY, 0); if (fd < 1) { /* FIXME: was perror */ printstr("failed to open /proc/mounts"); sleep(2); return; } size = read(fd, buf, sizeof(buf) - 1); buf[size] = '\0'; close(fd); chptr = buf; while (*chptr) { while (*chptr != ' ') chptr++; chptr++; start = chptr; while (*chptr != ' ') chptr++; *chptr++ = '\0'; filesystems[numFilesystems].name = start; filesystems[numFilesystems].len = strlen(start); numFilesystems++; while (*chptr != '\n') chptr++; chptr++; } /* look ma, a *bubble* sort */ for (i = 0; i < (numFilesystems - 1); i++) { for (j = i; j < numFilesystems; j++) { if (filesystems[i].len < filesystems[j].len) { tmp = filesystems[i]; filesystems[i] = filesystems[j]; filesystems[j] = tmp; } } } /* -1 because the last one will always be '/' */ for (i = 0; i < numFilesystems - 1; i++) { printf("\t%s", filesystems[i].name); if (!testing) { if (umount(filesystems[i].name) < 0) { /* FIXME printf(" failed: %s", strerror(errno));*/ printstr(" umount failed"); } } printf("\n"); } } void readargs(int * isRescue, int * isSerial, int * isExpert, int * isKick, int * forceSupp, int * isNetwork) { char buf[512]; char * arg; int fd; int size; int done = 0; char * start, * end; printf("opening /proc/cmdline... "); if ((fd = open("/proc/cmdline", O_RDONLY, 0)) < 0) fatal_error(1); size = read(fd, buf, sizeof(buf) - 1); buf[size] = '\0'; close(fd); printf("done\n"); printf("checking command line arguments... "); start = buf; while (!done) { while (*start && isspace(*start)) start++; if (!(*start)) break; end = start; while (*end && !isspace(*end) && *end != '\n') end++; if (!*end) done = 1; *end = '\0'; if (!*start || !strcmp(start, "auto") || !strncmp(start, "BOOT_IMAGE", 10) || !strncmp(start, "initrd=", 7) || !strncmp(start, "bootdevice=", 11) || !strncmp(start, "bootfile=", 9) || !strcmp(start, "ro") || !strncmp(start, "root=", 5) || !strncmp(start, "mem=", 4) || !strncmp(start, "hda=", 4) || !strncmp(start, "hdb=", 4) || !strncmp(start, "hdc=", 4) || !strncmp(start, "hdd=", 4) || !strncmp(start, "load_ramdisk", 12) || !strncmp(start, "prompt_ramdisk", 14)) { /* lilo does this for us -- we don't care */ } else if (!strcmp(start, "debug")) { printf("\n\tdebug disk mode enabled"); environ[ENV_DEBUG] = "DEBUG=1"; } else if (!strcmp(start, "rescue")) { printf("\n\trescue disk mode enabled"); *isRescue = 1; } else if (!strcmp(start, "serial")) { printf("\n\tserial mode enabled"); *isSerial = 1; } else if (!strcmp(start, "expert")) { printf("\n\texpert mode enabled"); *isExpert = 1; } else if (!strcmp(start, "supp")) { *forceSupp = 1; } else if (!strcmp(start, "local")) { *isNetwork = 0; } else if (!strcmp(start, "network")) { *isNetwork = 1; } else if (!strncmp(start, "kickstart", 9) || !strncmp(start, "ks", 2)) { arg = strchr(start, '='); if (arg) { *isKick = KICK_FLOPPY; printf("\n\tan floppy kickstart install will be performed"); } else { *isKick = KICK_BOOTP; printf("\n\tan bootp kickstart install will be performed"); } } else { printf("\n\tunknown option '%s'!", start); sleep(5); } start = end + 1; } printf("done\n"); } int main(void) { pid_t installpid, childpid; int waitStatus; int fd; int nfsRoot = 0; int roRoot = 0; int cdRoot = 0; int isRescue = 0; int isSerial = 0; int isExpert = 0; int isKick = 0; int isNetwork = 0; int doReboot = 0; int doShutdown =0; int forceSupp = 0; #ifdef __alpha__ char * kernel; #endif char * argv[15]; char ** argvp = argv; /* getpid() != 1 should work, by linuxrc tends to get a larger pid */ testing = (getpid() > 50); if (!testing) { /* turn off screen blanking */ printstr("\033[9;0]"); printstr("\033[8]"); } printstr("hello\n"); printf("Red Hat install init version %s starting\n", VERSION); printf("mounting /proc filesystem... "); if (!testing) { if (mount("/proc", "/proc", "proc", 0, NULL)) fatal_error(1); } printf("done\n"); readargs(&isRescue, &isSerial, &isExpert, &isKick, &forceSupp, &isNetwork); if (isSerial) { fd = open("/dev/ttyS0", O_RDWR, 0); if (fd < 0) { printf("failed to open /dev/ttyS0"); fatal_error(1); } write(fd, "Switching to serial console...", 29); /* gulp */ dup2(fd, 0); dup2(fd, 1); dup2(fd, 2); printf("done\n\n"); printf("Red Hat install init version %s using a serial console\n", VERSION); printf("remember, cereal is an important part of a nutritionally " "balanced breakfast.\n\n"); setupTerminal(0); close(fd); } if (!testing) { sethostname("localhost.localdomain", 21); /* the default domainname (as of 2.0.35) is "(none)", which confuses glibc */ setdomainname("", 0); } printf("checking for NFS root filesystem..."); if (hasNetConfiged()) { printf("yes\n"); roRoot = nfsRoot = 1; } else { printf("no\n"); } if (!nfsRoot) { printf("trying to remount root filesystem read write... "); if (mount("/", "/", NULL, MS_REMOUNT | MS_MGC_VAL, NULL)) { printf("failed (but that's okay)\n"); roRoot = 1; } else { printf("done\n"); /* 2.0.18 (at least) lets us remount a CD r/w!! */ printf("checking for writeable /tmp... "); fd = open("/tmp/tmp", O_WRONLY | O_CREAT, 0644); if (fd < 0) { printf("no (probably a CD rooted install)\n"); roRoot = 1; } else { close(fd); unlink("/tmp/tmp"); printf("yes\n"); } } } if (!testing && roRoot) { printf("creating 100k of ramdisk space... "); if (doMke2fs("/dev/ram", "100")) fatal_error(0); printf("done\n"); printf("mounting /tmp from ramdisk... "); if (mount("/dev/ram", "/tmp", "ext2", 0, NULL)) fatal_error(1); printf("done\n"); if (!nfsRoot) cdRoot = 1; } /* Now we have some /tmp space set up, and /etc and /dev point to it. We should be in pretty good shape. */ if (!testing) doklog("/dev/tty4"); /* Go into normal init mode - keep going, and then do a orderly shutdown when: 1) /bin/install exits 2) we receive a SIGHUP */ printf("running install...\n"); if (!(installpid = fork())) { /* child */ if (!isSerial) { fd = open("/dev/tty1", O_RDWR, 0); if (fd < 0) { printf("failed to open /dev/tty1"); fatal_error(1); } dup2(fd, 0); dup2(fd, 1); dup2(fd, 2); setsid(); if (ioctl(0, TIOCSCTTY, NULL)) { printf("could not set new controlling tty"); } setsid(); close(fd); } if (nfsRoot || cdRoot) { symlink("/", "/tmp/rhimage"); symlink("/", "/tmp/image"); *argvp++ = "/usr/bin/runinstall2"; *argvp++ = argv[0]; *argvp++ = "--method"; *argvp++ = nfsRoot ? "nfs" : "cdrom"; # if defined(__alpha__) if (cdRoot && (kernel = findKernel())) { *argvp++ = "--kernel"; *argvp++ = kernel; } # endif } else { *argvp++ = "/bin/install"; } if (isRescue) *argvp++ = "--rescue"; if (isExpert) *argvp++ = "--expert"; if (forceSupp) *argvp++ = "--forcesupp"; if (isKick == KICK_FLOPPY) *argvp++ = "--ks=floppy"; else if (isKick) *argvp++ = "--ks=bootp"; if (isNetwork) *argvp++ = "--network"; else *argvp++ = "--local"; *argvp++ = NULL; execve(argv[0], argv, environ); exit(0); } while (!doShutdown) { childpid = wait4(-1, &waitStatus, 0, NULL); if (childpid == installpid) doShutdown = 1; } if (!WIFEXITED(waitStatus) || WEXITSTATUS(waitStatus)) { printf("install exited abnormally "); if (WIFSIGNALED(waitStatus)) { printf("-- recieved signal %d", WTERMSIG(waitStatus)); } printf("\n"); } else { doReboot = 1; } if (testing) exit(0); sync(); sync(); if (!testing) { printf("sending termination signals..."); kill(-1, 15); sleep(2); printf("done\n"); printf("sending kill signals..."); kill(-1, 9); sleep(2); printf("done\n"); } printf("unmounting filesystems...\n"); unmountFilesystems(); if (doReboot) { printf("rebooting system\n"); sleep(2); #if USE_MINILIBC reboot(0xfee1dead, 672274793, 0x1234567); #else reboot(RB_AUTOBOOT); #endif } else { printf("you may safely reboot your system\n"); while (1); } exit(0); return 0; }