/* * loader.c * * This is the installer loader. Its job is to somehow load the rest * of the installer into memory and run it. This may require setting * up some devices and networking, etc. The main point of this code is * to stay SMALL! Remember that, live by that, and learn to like it. * * Erik Troan * Matt Wilson * * Copyright 1999 Red Hat, Inc. * * 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. * */ #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include "balkan/balkan.h" #include "isys/imount.h" #include "isys/isys.h" #include "isys/probe.h" #include "kudzu/kudzu.h" #include "cdrom.h" #include "devices.h" #include "kickstart.h" #include "lang.h" #include "loader.h" #include "log.h" #include "misc.h" #include "modules.h" #include "net.h" #include "pcmcia.h" #include "urls.h" #include "windows.h" int probe_main(int argc, char ** argv); int rmmod_main(int argc, char ** argv); int cardmgr_main(int argc, char ** argv); int ourInsmodCommand(int argc, char ** argv); int kon_main(int argc, char ** argv); struct knownDevices devices; struct installMethod { char * name; int network; enum deviceClass deviceType; /* for pcmcia */ char * (*mountImage)(struct installMethod * method, char * location, struct knownDevices * kd, moduleInfoSet modInfo, moduleList modLoaded, moduleDeps modDeps, int flags); }; #ifdef INCLUDE_LOCAL static char * mountCdromImage(struct installMethod * method, char * location, struct knownDevices * kd, moduleInfoSet modInfo, moduleList modLoaded, moduleDeps modDeps, int flags); static char * mountHardDrive(struct installMethod * method, char * location, struct knownDevices * kd, moduleInfoSet modInfo, moduleList modLoaded, moduleDeps modDeps, int flags); #endif #ifdef INCLUDE_NETWORK static char * mountNfsImage(struct installMethod * method, char * location, struct knownDevices * kd, moduleInfoSet modInfo, moduleList modLoaded, moduleDeps modDeps, int flags); static char * mountUrlImage(struct installMethod * method, char * location, struct knownDevices * kd, moduleInfoSet modInfo, moduleList modLoaded, moduleDeps modDeps, int flags); #endif static struct installMethod installMethods[] = { #if defined(INCLUDE_LOCAL) { N_("Local CDROM"), 0, CLASS_CDROM, mountCdromImage }, #endif #if defined(INCLUDE_NETWORK) { N_("NFS image"), 1, CLASS_NETWORK, mountNfsImage }, { "FTP", 1, CLASS_NETWORK, mountUrlImage }, { "HTTP", 1, CLASS_NETWORK, mountUrlImage }, #endif #if defined(INCLUDE_LOCAL) { N_("Hard drive"), 0, CLASS_HD, mountHardDrive }, #endif }; static int numMethods = sizeof(installMethods) / sizeof(struct installMethod); static int newtRunning = 0; #ifdef INCLUDE_KON static int startKon = 1; #endif void doSuspend(void) { newtFinished(); exit(1); } static void startNewt(int flags) { if (!newtRunning) { newtInit(); newtCls(); newtDrawRootText(0, 0, _("Welcome to Red Hat Linux")); newtPushHelpLine(_(" / between elements | selects | next screen ")); newtRunning = 1; if (FL_TESTING(flags)) newtSetSuspendCallback((void *) doSuspend, NULL); } } static void stopNewt(void) { if (newtRunning) newtFinished(); } static void spawnShell(int flags) { pid_t pid; int fd; if (FL_SERIAL(flags)) { logMessage("not spawning a shell over a serial connection"); return; } if (!FL_TESTING(flags)) { fd = open("/dev/tty2", O_RDWR); if (fd < 0) { logMessage("cannot open /dev/tty2 -- no shell will be provided"); return; } else if (access("/bin/sh", X_OK)) { logMessage("cannot open shell - /bin/sh doesn't exist"); return; } if (!(pid = fork())) { dup2(fd, 0); dup2(fd, 1); dup2(fd, 2); close(fd); setsid(); if (ioctl(0, TIOCSCTTY, NULL)) { logMessage("could not set new controlling tty"); } signal(SIGINT, SIG_DFL); signal(SIGTSTP, SIG_DFL); setenv("LD_LIBRARY_PATH", "/lib:/usr/lib:/usr/X11R6/lib:/mnt/usr/lib:" "/mnt/sysimage/lib:/mnt/sysimage/usr/lib", 1); execl("/bin/sh", "-/bin/sh", NULL); logMessage("exec of /bin/sh failed: %s", strerror(errno)); } close(fd); } else { logMessage("not spawning a shell as we're in test mode"); } return; } static int detectHardware(moduleInfoSet modInfo, struct moduleInfo *** modules, int flags) { struct device ** devices, ** device; struct moduleInfo * mod, ** modList; int numMods, i; char *driver; initializeDeviceList(); logMessage("probing buses"); devices = probeDevices(CLASS_UNSPEC,BUS_PCI|BUS_SBUS,PROBE_ALL); logMessage("finished bus probing"); if (devices == NULL) { *modules = NULL; return LOADER_OK; } modList = malloc(sizeof(*modList) * 50); /* should be enough */ numMods = 0; for (device = devices; *device; device++) { driver = (*device)->driver; if (strcmp (driver, "ignore") && strcmp (driver, "unknown")) { logMessage("found suggestion of %s", driver); if ((mod = isysFindModuleInfo(modInfo, driver))) { logMessage("found %s device", driver); for (i = 0; i < numMods; i++) if (modList[i] == mod) break; if (i == numMods) modList[numMods++] = mod; } } freeDevice (*device); } if (numMods) { *modules = modList; modList[numMods] = NULL; } else { free(modList); *modules = NULL; } free(devices); return LOADER_OK; } int addDeviceManually(moduleInfoSet modInfo, moduleList modLoaded, moduleDeps modDeps, struct knownDevices * kd, int flags) { char * pristineItems[] = { N_("SCSI"), N_("Network") }; char * items[3]; int i, rc; int choice = 0; enum deviceClass type; for (i = 0; i < sizeof(pristineItems) / sizeof(*pristineItems); i++) { items[i] = _(pristineItems[i]); } items[i] = NULL; do { rc = newtWinMenu(_("Devices"), _("What kind of device would you like to add"), 40, 0, 20, 2, items, &choice, _("OK"), _("Back"), NULL); if (rc == 2) return LOADER_BACK; if (choice == 1) type = DRIVER_NET; else type = DRIVER_SCSI; rc = devDeviceMenu(type, modInfo, modLoaded, modDeps, flags, NULL); } while (rc); return 0; } int manualDeviceCheck(moduleInfoSet modInfo, moduleList modLoaded, moduleDeps modDeps, struct knownDevices * kd, int flags) { int i, rc; char buf[2000]; struct moduleInfo * mi; newtComponent done, add, text, items, form, answer; newtGrid grid, buttons; int numItems; int maxWidth; while (1) { numItems = 0; maxWidth = 0; for (i = 0, *buf = '\0'; i < modLoaded->numModules; i++) { if (!modLoaded->mods[i].weLoaded) continue; if (!(mi = isysFindModuleInfo(modInfo, modLoaded->mods[i].name))) { continue; } strcat(buf, " "); strcat(buf, mi->description); if (maxWidth < strlen(mi->description)) maxWidth = strlen(mi->description); strcat(buf, "\n"); numItems++; } if (numItems > 0) { text = newtTextboxReflowed(-1, -1, _("I have found the following devices in your system:"), 40, 5, 20, 0); buttons = newtButtonBar(_("Done"), &done, _("Add Device"), &add, NULL); items = newtTextbox(-1, -1, maxWidth + 8, numItems < 10 ? numItems : 10, (numItems < 10 ? 0 : NEWT_FLAG_SCROLL)); newtTextboxSetText(items, buf); grid = newtGridSimpleWindow(text, items, buttons); newtGridWrappedWindow(grid, _("Devices")); form = newtForm(NULL, NULL, 0); newtGridAddComponentsToForm(grid, form, 1); answer = newtRunForm(form); newtPopWindow(); newtGridFree(grid, 1); newtFormDestroy(form); if (answer != add) break; addDeviceManually(modInfo, modLoaded, modDeps, kd, flags); } else { rc = newtWinChoice(_("Devices"), _("Done"), _("Add Device"), _("I don't have any special device drivers loaded for " "your system. Would you like to load some now?")); if (rc != 2) break; addDeviceManually(modInfo, modLoaded, modDeps, kd, flags); } } return 0; } int busProbe(moduleInfoSet modInfo, moduleList modLoaded, moduleDeps modDeps, int justProbe, struct knownDevices * kd, int flags) { int i; struct moduleInfo ** modList; if (FL_NOPROBE(flags)) return 0; if (!access("/proc/bus/pci/devices", R_OK) || !access("/proc/openprom", R_OK)) { /* autodetect whatever we can */ if (detectHardware(modInfo, &modList, flags)) { logMessage("failed to scan pci bus!"); return 0; } else if (modList) { logMessage("found devices justProbe is %d", justProbe); for (i = 0; modList[i]; i++) { if (justProbe) { printf("%s\n", modList[i]->moduleName); } else { if (modList[i]->major == DRIVER_NET) { mlLoadModule(modList[i]->moduleName, modList[i]->path, modLoaded, modDeps, NULL, modInfo, flags); } } } for (i = 0; !justProbe && modList[i]; i++) { if (modList[i]->major == DRIVER_SCSI) { startNewt(flags); scsiWindow(modList[i]->moduleName); mlLoadModule(modList[i]->moduleName, modList[i]->path, modLoaded, modDeps, NULL, modInfo, flags); sleep(1); newtPopWindow(); } } kdFindScsiList(kd); kdFindNetList(kd); } else logMessage("found nothing"); } return 0; } static int loadCompressedRamdisk(int fd, off_t size, char *title, char *ramdisk, int flags) { int rc = 0, ram, i; gzFile stream; char buf[1024]; newtComponent form = NULL, scale = NULL; int total; if (FL_TESTING(flags)) return 0; stream = gzdopen(dup(fd), "r"); strcpy(buf, "/tmp/"); strcat(buf, ramdisk); if (devMakeInode(ramdisk, buf)) return 1; ram = open(buf, O_WRONLY); unlink(buf); logMessage("created inode"); if (title != NULL) { if (size > 0) newtCenteredWindow(70, 5, _("Loading")); else newtCenteredWindow(70, 3, _("Loading")); form = newtForm(NULL, NULL, 0); newtFormAddComponent(form, newtLabel(1, 1, title)); if (size > 0) { scale = newtScale(1, 3, 68, size); newtFormAddComponent(form, scale); } newtDrawForm(form); newtRefresh(); } total = 0; while (!gzeof(stream) && !rc) { if ((i = gzread(stream, buf, sizeof(buf))) != sizeof(buf)) { if (!gzeof(stream)) { logMessage("error reading from device: %s", strerror(errno)); rc = 1; break; } } if (write(ram, buf, i) != i) { logMessage("error writing to device: %s", strerror(errno)); rc = 1; } total += i; if (title != NULL && size > 0) { newtScaleSet(scale, lseek(fd, 0L, SEEK_CUR)); newtRefresh(); } } logMessage("done loading %d bytes", total); if (title != NULL) { newtPopWindow(); newtFormDestroy(form); } close(ram); gzclose(stream); return rc; } static int loadStage2Ramdisk(int fd, off_t size, int flags) { int rc; rc = loadCompressedRamdisk(fd, size, _("Loading second stage ramdisk..."), "ram3", flags); if (rc) { newtWinMessage(_("Error"), _("OK"), _("Error loading ramdisk.")); return rc; } if (devMakeInode("ram3", "/tmp/ram3")) { logMessage("failed to make device ram3"); return 1; } if (doPwMount("/tmp/ram3", "/mnt/runtime", "ext2", 0, 0, NULL, NULL)) { newtWinMessage(_("Error"), _("OK"), "Error mounting ramdisk. This shouldn't " "happen, and I'm rebooting your system now."); exit(1); } unlink("/tmp/ram3"); return 0; } #ifdef INCLUDE_LOCAL static char * setupHardDrive(char * device, char * type, char * dir, int flags) { int fd; char * path; int rc; char * url; logMessage("mounting device %s as %s", device, type); if (!FL_TESTING(flags)) { /* +5 skips over /dev/ */ if (devMakeInode(device, "/tmp/hddev")) logMessage("devMakeInode failed!"); if (doPwMount("/tmp/hddev", "/tmp/hdimage", type, 1, 0, NULL, NULL)) return NULL; path = alloca(50 + (dir ? strlen(dir) : 2)); #ifdef __i386__ sprintf(path, "/tmp/hdimage/%s/RedHat/base/hdstg2.img", dir ? dir : ""); #else sprintf(path, "/tmp/hdimage/%s/RedHat/base/stage2.img", dir ? dir : ""); #endif if ((fd = open(path, O_RDONLY)) < 0) { logMessage("cannot open %s", path); umount("/tmp/hdimage"); return NULL; } rc = loadStage2Ramdisk(fd, 0, flags); close(fd); umount("/tmp/hdimage"); if (rc) return NULL; } url = malloc(50 + strlen(dir ? dir : "")); sprintf(url, "hd://%s:%s/%s", device, type, dir ? dir : "."); return url; } #endif #ifdef INCLUDE_LOCAL static char * mountHardDrive(struct installMethod * method, char * location, struct knownDevices * kd, moduleInfoSet modInfo, moduleList modLoaded, moduleDeps modDeps, int flags) { int rc; int fd; int i, j; struct { char name[20]; int type; } partitions[1024], * part; struct partitionTable table; newtComponent listbox, label, dirEntry, form, okay, back, text; struct newtExitStruct es; newtGrid entryGrid, grid, buttons; int done = 0; char * dir = strdup(""); char * tmpDir; char * type; char * url = NULL; int numPartitions; #ifdef __sparc__ static int ufsloaded; #endif mlLoadModule("vfat", NULL, modLoaded, modDeps, NULL, modInfo, flags); while (!done) { numPartitions = 0; for (i = 0; i < kd->numKnown; i++) { if (kd->known[i].class == CLASS_HD) { devMakeInode(kd->known[i].name, "/tmp/hddevice"); if ((fd = open("/tmp/hddevice", O_RDONLY)) >= 0) { if ((rc = balkanReadTable(fd, &table))) { logMessage("failed to read partition table for " "device %s: %d", kd->known[i].name, rc); } else { for (j = 0; j < table.maxNumPartitions; j++) { switch (table.parts[j].type) { #ifdef __sparc__ case BALKAN_PART_UFS: if (!ufsloaded) { ufsloaded = 1; mlLoadModule("ufs", NULL, modLoaded, modDeps, NULL, modInfo, flags); } /* FALLTHROUGH */ #endif case BALKAN_PART_DOS: case BALKAN_PART_EXT2: sprintf(partitions[numPartitions].name, "/dev/%s%d", kd->known[i].name, j + 1); partitions[numPartitions].type = table.parts[j].type; numPartitions++; } } } close(fd); } else { /* XXX ignore errors on removable drives? */ } unlink("/tmp/hddevice"); } } if (!numPartitions) { rc = newtWinChoice(_("Hard Drives"), _("Yes"), _("Back"), _("You don't seem to have any hard drives on " "your system! Would you like to configure " "additional devices?")); if (rc == 2) return NULL; devDeviceMenu(DRIVER_SCSI, modInfo, modLoaded, modDeps, flags, NULL); kdFindScsiList(kd); continue; } text = newtTextboxReflowed(-1, -1, _("What partition and directory on that partition hold the " "RedHat/RPMS and RedHat/base directories? If you don't " "see the disk drive you're using listed here, press F2 " "to configure additional devices."), 62, 5, 5, 0); listbox = newtListbox(-1, -1, numPartitions > 5 ? 5 : numPartitions, NEWT_FLAG_RETURNEXIT | (numPartitions > 5 ? NEWT_FLAG_SCROLL : 0) ); for (i = 0; i < numPartitions; i++) newtListboxAppendEntry(listbox, partitions[i].name, partitions + i); label = newtLabel(-1, -1, _("Directory holding Red Hat:")); dirEntry = newtEntry(28, 11, dir, 28, &tmpDir, NEWT_ENTRY_SCROLL); entryGrid = newtGridHStacked(NEWT_GRID_COMPONENT, label, NEWT_GRID_COMPONENT, dirEntry, NEWT_GRID_EMPTY); buttons = newtButtonBar(_("OK"), &okay, _("Back"), &back, NULL); grid = newtCreateGrid(1, 4); newtGridSetField(grid, 0, 0, NEWT_GRID_COMPONENT, text, 0, 0, 0, 1, 0, 0); newtGridSetField(grid, 0, 1, NEWT_GRID_COMPONENT, listbox, 0, 0, 0, 1, 0, 0); newtGridSetField(grid, 0, 2, NEWT_GRID_SUBGRID, entryGrid, 0, 0, 0, 1, 0, 0); newtGridSetField(grid, 0, 3, NEWT_GRID_SUBGRID, buttons, 0, 0, 0, 0, 0, NEWT_GRID_FLAG_GROWX); newtGridWrappedWindow(grid, _("Select Partition")); form = newtForm(NULL, NULL, NEWT_FLAG_NOF12); newtFormAddHotKey(form, NEWT_KEY_F2); newtGridAddComponentsToForm(grid, form, 1); newtGridFree(grid, 1); newtFormRun(form, &es); part = newtListboxGetCurrent(listbox); free(dir); if (tmpDir && *tmpDir) { /* Protect from form free. */ dir = strdup(tmpDir); } else { dir = strdup(""); } newtFormDestroy(form); newtPopWindow(); if (es.reason == NEWT_EXIT_COMPONENT && es.u.co == back) { return NULL; } else if (es.reason == NEWT_EXIT_HOTKEY && es.u.key == NEWT_KEY_F2) { devDeviceMenu(DRIVER_SCSI, modInfo, modLoaded, modDeps, flags, NULL); kdFindScsiList(kd); continue; } logMessage("partition %s selected", part->name); switch (part->type) { #ifdef __sparc__ case BALKAN_PART_UFS: type = "ufs"; break; #endif case BALKAN_PART_EXT2: type = "ext2"; break; case BALKAN_PART_DOS: type = "vfat"; break; default: continue; } url = setupHardDrive(part->name + 5, type, dir, flags); if (!url) { newtWinMessage(_("Error"), _("OK"), _("Device %s does not appear to contain " "a Red Hat installation tree."), part->name); continue; } done = 1; umount("/tmp/hdimage"); rmdir("/tmp/hdimage"); } free(dir); return url; } /* XXX this ignores "location", which should be fixed */ static char * setupCdrom(struct installMethod * method, char * location, struct knownDevices * kd, moduleInfoSet modInfo, moduleList modLoaded, moduleDeps modDeps, int flags, int probeQuickly, int needRedHatCD) { int i; int rc; int hasCdrom = 0; do { for (i = 0; i < kd->numKnown; i++) { if (kd->known[i].class != CLASS_CDROM) continue; hasCdrom = 1; logMessage("trying to mount device %s", kd->known[i].name); devMakeInode(kd->known[i].name, "/tmp/cdrom"); if (!doPwMount("/tmp/cdrom", "/mnt/source", "iso9660", 1, 0, NULL, NULL)) { if (!needRedHatCD || !access("/mnt/source/RedHat/instimage/usr/bin/anaconda", X_OK)) { unlink("/mnt/runtime"); symlink("/mnt/source/RedHat/instimage", "/mnt/runtime"); return "dir://mnt/source/."; } umount("/mnt/source"); } unlink("/tmp/cdrom"); } if (probeQuickly) return NULL; if (hasCdrom) { rc = newtWinChoice(_("Error"), _("OK"), _("Back"), _("I could not find a Red Hat Linux " "CDROM in any of your CDROM drives. Please insert " "the Red Hat CD and press \"OK\" to retry.")); if (rc == 2) return NULL; } else { rc = setupCDdevice(kd, modInfo, modLoaded, modDeps, flags); if (rc == LOADER_BACK) return NULL; } } while (1); /* FIXME: For GUI installs to other host (with display=) we need to set up networking. */ if (getenv("DISPLAY")) flags |= LOADER_FLAGS_TEXT; return "dir://mnt/source/."; } static char * mountCdromImage(struct installMethod * method, char * location, struct knownDevices * kd, moduleInfoSet modInfo, moduleList modLoaded, moduleDeps modDeps, int flags) { return setupCdrom(method, location, kd, modInfo, modLoaded, modDeps, flags, 0, 1); } int kickstartFromCdrom(char * ksFile, char * fromFile, struct knownDevices * kd, moduleInfoSet modInfo, moduleList modLoaded, moduleDeps modDeps, int flags) { char * fullFn; if (!setupCdrom(NULL, NULL, kd, modInfo, modLoaded, modDeps, flags, 1, 0)) { logMessage("kickstart failed to find CD device"); return 1; } fullFn = alloca(strlen(fromFile) + 20); sprintf(fullFn, "/mnt/source/%s", fromFile); copyFile(fullFn, ksFile); umount("/mnt/source"); return 0; } #endif #ifdef INCLUDE_NETWORK static int ensureNetDevice(struct knownDevices * kd, moduleInfoSet modInfo, moduleList modLoaded, moduleDeps modDeps, int flags, char ** devNamePtr) { int i, rc; char * devName = NULL; /* Once we find an ethernet card, we're done. Perhaps we should let them specify multiple ones here?? */ for (i = 0; i < kd->numKnown; i++) { if (kd->known[i].class == CLASS_NETWORK) { devName = kd->known[i].name; break; } } /* It seems like expert mode should do something here? */ if (!devName) { rc = devDeviceMenu(DRIVER_NET, modInfo, modLoaded, modDeps, flags, NULL); if (rc) return rc; kdFindNetList(kd); } if (!devName) { for (i = 0; i < kd->numKnown; i++) { if (kd->known[i].class == CLASS_NETWORK) { devName = kd->known[i].name; break; } } } if (!devName) return LOADER_ERROR; *devNamePtr = devName; return 0; } #endif #ifdef INCLUDE_NETWORK #define NFS_STAGE_IP 1 #define NFS_STAGE_NFS 2 #define NFS_STAGE_MOUNT 3 #define NFS_STAGE_DONE 4 static char * mountNfsImage(struct installMethod * method, char * location, struct knownDevices * kd, moduleInfoSet modInfo, moduleList modLoaded, moduleDeps modDeps, int flags) { static struct networkDeviceConfig netDev; char * devName; int i, rc; char * host = NULL; char * dir = NULL; char * fullPath; int stage = NFS_STAGE_IP; initLoopback(); memset(&netDev, 0, sizeof(netDev)); i = ensureNetDevice(kd, modInfo, modLoaded, modDeps, flags, &devName); if (i) return NULL; while (stage != NFS_STAGE_DONE) { switch (stage) { case NFS_STAGE_IP: rc = readNetConfig(devName, &netDev, flags); if (rc) { if (!FL_TESTING(flags)) pumpDisableInterface(devName); return NULL; } stage = NFS_STAGE_NFS; break; case NFS_STAGE_NFS: if (nfsGetSetup(&host, &dir) == LOADER_BACK) stage = NFS_STAGE_IP; else stage = NFS_STAGE_MOUNT; break; case NFS_STAGE_MOUNT: if (FL_TESTING(flags)) { stage = NFS_STAGE_DONE; break; } mlLoadModule("nfs", NULL, modLoaded, modDeps, NULL, modInfo, flags); fullPath = alloca(strlen(host) + strlen(dir) + 2); sprintf(fullPath, "%s:%s", host, dir); logMessage("mounting nfs path %s", fullPath); stage = NFS_STAGE_NFS; if (!doPwMount(fullPath, "/mnt/source", "nfs", 1, 0, NULL, NULL)) { if (!access("/mnt/source/RedHat/instimage/usr/bin/anaconda", X_OK)) { symlink("/mnt/source/RedHat/instimage", "/mnt/runtime"); stage = NFS_STAGE_DONE; } else { umount("/mnt/source"); newtWinMessage(_("Error"), _("OK"), _("That directory does not seem to contain " "a Red Hat installation tree.")); } } else { newtWinMessage(_("Error"), _("OK"), _("I could not mount that directory from the server")); } break; } } writeNetInfo("/tmp/netinfo", &netDev); free(host); free(dir); return "dir://mnt/source/."; } #endif #ifdef INCLUDE_NETWORK #define URL_STAGE_IP 1 #define URL_STAGE_MAIN 2 #define URL_STAGE_SECOND 3 #define URL_STAGE_FETCH 4 #define URL_STAGE_DONE 20 static char * mountUrlImage(struct installMethod * method, char * location, struct knownDevices * kd, moduleInfoSet modInfo, moduleList modLoaded, moduleDeps modDeps, int flags) { int i, rc; int stage = URL_STAGE_IP; char * devName; struct iurlinfo ui; char needsSecondary = ' '; static struct networkDeviceConfig netDev; int fd; char * url; enum urlprotocol_t proto = !strcmp(method->name, "FTP") ? URL_METHOD_FTP : URL_METHOD_HTTP; initLoopback(); i = ensureNetDevice(kd, modInfo, modLoaded, modDeps, flags, &devName); if (i) return NULL; memset(&ui, 0, sizeof(ui)); memset(&netDev, 0, sizeof(netDev)); while (stage != URL_STAGE_DONE) { switch (stage) { case URL_STAGE_IP: rc = readNetConfig(devName, &netDev, flags); if (rc) { if (!FL_TESTING(flags)) pumpDisableInterface(devName); return NULL; } stage = URL_STAGE_MAIN; case URL_STAGE_MAIN: rc = urlMainSetupPanel(&ui, proto, &needsSecondary); if (rc) stage = URL_STAGE_IP; else stage = needsSecondary != ' ' ? URL_STAGE_SECOND : URL_STAGE_FETCH; break; #if 0 /* we don't support proxies, etc right now */ case URL_STAGE_SECOND: rc = urlSecondarySetupPanel(&ui, proto); stage = rc ? URL_STAGE_MAIN : URL_STAGE_FETCH; break; #endif case URL_STAGE_FETCH: if (FL_TESTING(flags)) { stage = URL_STAGE_DONE; break; } #ifdef __i386__ fd = urlinstStartTransfer(&ui, "base/netstg2.img"); #else fd = urlinstStartTransfer(&ui, "base/stage2.img"); #endif if (fd < 0) { newtWinMessage(_("FTP"), _("OK"), _("Unable to retrieve the second stage ramdisk")); stage = URL_STAGE_MAIN; break; } rc = loadStage2Ramdisk(fd, 0, flags); urlinstFinishTransfer(&ui, fd); if (!rc) stage = URL_STAGE_DONE; break; } } url = malloc(strlen(ui.prefix) + 25 + strlen(ui.address)); sprintf(url, "%s://%s/%s", ui.protocol == URL_METHOD_FTP ? "ftp" : "http", ui.address, ui.prefix); writeNetInfo("/tmp/netinfo", &netDev); return url; } #endif static char * doMountImage(char * location, struct knownDevices * kd, moduleInfoSet modInfo, moduleList modLoaded, moduleDeps modDeps, char ** lang, char ** keymap, char ** kbdtype, int flags) { static int defaultMethod = 0; int i, rc, dir = 1; int validMethods[10]; int numValidMethods = 0; char * installNames[10]; int methodNum = 0; int networkAvailable = 0; int localAvailable = 0; void * class; char * url = NULL; enum { STEP_LANG, STEP_KBD, STEP_METHOD, STEP_URL, STEP_DONE } step; if ((class = isysGetModuleList(modInfo, DRIVER_NET))) { networkAvailable = 1; free(class); } if ((class = isysGetModuleList(modInfo, DRIVER_SCSI))) { localAvailable = 1; free(class); } #if defined(__alpha__) for (i = 0; i < numMethods; i++) { installNames[numValidMethods] = installMethods[i].name; validMethods[numValidMethods++] = i; } #elif defined(INCLUDE_PCMCIA) for (i = 0; i < numMethods; i++) { int j; for (j = 0; j < kd->numKnown; j++) if (installMethods[i].deviceType == kd->known[j].class) break; if (j < kd->numKnown) { if (i == defaultMethod) methodNum = numValidMethods; installNames[numValidMethods] = installMethods[i].name; validMethods[numValidMethods++] = i; } } #else for (i = 0; i < numMethods; i++) { if ((networkAvailable && installMethods[i].network) || (localAvailable && !installMethods[i].network)) { if (i == defaultMethod) methodNum = numValidMethods; installNames[numValidMethods] = installMethods[i].name; validMethods[numValidMethods++] = i; } } #endif installNames[numValidMethods] = NULL; if (!numValidMethods) { logMessage("no install methods have the required devices!\n"); exit(1); } /* This is a check for NFS or CD-ROM rooted installs */ if (!access("/mnt/source/RedHat/instimage/usr/bin/anaconda", X_OK)) return "dir://mnt/source/."; #if defined (INCLUDE_LOCAL) || defined (__sparc__) || defined (__alpha__) # if defined (__sparc__) || defined (__alpha__) /* Check any attached CDROM device for a Red Hat CD. If there is one there, just die happy */ if (!FL_EXPERT(flags)) { # else /* If no network is available, check any attached CDROM device for a Red Hat CD. If there is one there, just die happy */ if (!networkAvailable && !FL_EXPERT(flags)) { # endif url = setupCdrom(NULL, location, kd, modInfo, modLoaded, modDeps, flags, 1, 1); if (url) return url; } #endif /* defined (INCLUDE_LOCAL) || defined (__sparc__) */ startNewt(flags); step = STEP_LANG; while (step != STEP_DONE) { switch (step) { case STEP_LANG: chooseLanguage(lang, flags); step = STEP_KBD; dir = 1; break; case STEP_KBD: rc = chooseKeyboard (keymap, kbdtype, flags); if (rc == LOADER_NOOP) { if (dir == -1) step = STEP_LANG; else step = STEP_METHOD; break; } if (rc == LOADER_BACK) { step = STEP_LANG; dir = -1; } else { step = STEP_METHOD; dir = 1; } break; case STEP_METHOD: rc = newtWinMenu(FL_RESCUE(flags) ? _("Rescue Method") : _("Installation Method"), FL_RESCUE(flags) ? _("What type of media contains the rescue image?") : _("What type of media contains the packages to be " "installed?"), 30, 10, 20, 6, installNames, &methodNum, _("OK"), _("Back"), NULL); if (rc && rc != 1) { step = STEP_KBD; dir = -1; } else { step = STEP_URL; dir = 1; } break; case STEP_URL: url = installMethods[validMethods[methodNum]].mountImage( installMethods + validMethods[methodNum], location, kd, modInfo, modLoaded, modDeps, flags); if (!url) { step = STEP_METHOD; dir = -1; } else { step = STEP_DONE; dir = 1; } break; default: break; } } return url; } static int kickstartDevices(struct knownDevices * kd, moduleInfoSet modInfo, moduleList modLoaded, moduleDeps modDeps, int flags) { char ** ksArgv = NULL; int ksArgc, rc; char * opts, * device, * type; char ** optv; poptContext optCon; int doContinue, missingOkay; /* obsolete */ char * fsType = "ext2"; char * fs; struct poptOption diskTable[] = { { "type", 't', POPT_ARG_STRING, &fsType, 0 }, { 0, 0, 0, 0, 0 } }; struct poptOption table[] = { { "continue", '\0', POPT_ARG_STRING, &doContinue, 0 }, { "missingok", '\0', POPT_ARG_STRING, &missingOkay, 0 }, { "opts", '\0', POPT_ARG_STRING, &opts, 0 }, { 0, 0, 0, 0, 0 } }; if (!ksGetCommand(KS_CMD_DRIVERDISK, NULL, &ksArgc, &ksArgv)) { optCon = poptGetContext(NULL, ksArgc, (const char **) ksArgv, diskTable, 0); do { if ((rc = poptGetNextOpt(optCon)) < -1) { logMessage("bad argument to kickstart driverdisk command " "%s: %s", poptBadOption(optCon, POPT_BADOPTION_NOALIAS), poptStrerror(rc)); break; } fs = (char *) poptGetArg(optCon); if (!fs || poptGetArg(optCon)) { logMessage("bad arguments to kickstart driverdisk command"); break; } if (strcmp(fsType, "nfs")) { devMakeInode(fs, "/tmp/disk"); fs = "/tmp/disk"; } if (!strcmp(fsType, "vfat")) mlLoadModule("vfat", NULL, modLoaded, modDeps, NULL, modInfo, flags); if (doPwMount(fs, "/tmp/drivers", fsType, 1, 0, NULL, NULL)) { logMessage("failed to mount %s", fs); break; } if (devCopyDriverDisk(modInfo, modLoaded, &modDeps, flags, "/tmp/drivers")) { logMessage("driver information missing!"); } umount("/tmp/drivers"); } while (0); } while (!ksGetCommand(KS_CMD_DEVICE, ksArgv, &ksArgc, &ksArgv)) { opts = NULL; optCon = poptGetContext(NULL, ksArgc, (const char **) ksArgv, table, 0); if ((rc = poptGetNextOpt(optCon)) < -1) { logMessage("bad argument to kickstart device command %s: %s", poptBadOption(optCon, POPT_BADOPTION_NOALIAS), poptStrerror(rc)); continue; } type = (char *) poptGetArg(optCon); device = (char *) poptGetArg(optCon); if (!type || !device || poptGetArg(optCon)) { logMessage("bad arguments to kickstart device command"); poptFreeContext(optCon); continue; } if (!isysFindModuleInfo(modInfo, device)) { logMessage("unknown module %s", device); continue; } if (opts) poptParseArgvString(opts, &rc, (const char ***) &optv); else optv = NULL; rc = mlLoadModule(device, NULL, modLoaded, modDeps, optv, modInfo, flags); if (optv) free(optv); if (rc) logMessage("module %s failed to insert", device); else logMessage("module %s inserted successfully", device); } kdFindScsiList(kd); kdFindNetList(kd); return 0; } static char * setupKickstart(char * location, struct knownDevices * kd, moduleInfoSet modInfo, moduleList modLoaded, moduleDeps modDeps, int * flagsPtr) { char ** ksArgv; char * device = NULL; int ksArgc; int ksType; int i, rc; int flags = *flagsPtr; enum deviceClass ksDeviceType; struct poptOption * table; poptContext optCon; char * dir = NULL; char * imageUrl; #ifdef INCLUDE_NETWORK static struct networkDeviceConfig netDev; char * host = NULL, * url = NULL, * proxy = NULL, * proxyport = NULL; char * fullPath; struct poptOption ksNfsOptions[] = { { "server", '\0', POPT_ARG_STRING, &host, 0 }, { "dir", '\0', POPT_ARG_STRING, &dir, 0 }, { 0, 0, 0, 0, 0 } }; struct poptOption ksUrlOptions[] = { { "url", '\0', POPT_ARG_STRING, &url, 0 }, { "proxy", '\0', POPT_ARG_STRING, &proxy, 0 }, { "proxyport", '\0', POPT_ARG_STRING, &proxyport, 0 }, { 0, 0, 0, 0, 0 } }; #endif #ifdef INCLUDE_LOCAL int partNum, fd; char * partname = NULL; struct partitionTable partTable; struct poptOption ksHDOptions[] = { { "dir", '\0', POPT_ARG_STRING, &dir, 0 }, { "partition", '\0', POPT_ARG_STRING, &partname, 0 }, { 0, 0, 0, 0, 0 } }; #endif kickstartDevices(kd, modInfo, modLoaded, modDeps, flags); if (0) { #ifdef INCLUDE_NETWORK } else if (ksHasCommand(KS_CMD_NFS)) { ksDeviceType = CLASS_NETWORK; ksType = KS_CMD_NFS; table = ksNfsOptions; } else if (ksHasCommand(KS_CMD_URL)) { ksDeviceType = CLASS_NETWORK; ksType = KS_CMD_URL; table = ksUrlOptions; #endif #ifdef INCLUDE_LOCAL } else if (ksHasCommand(KS_CMD_CDROM)) { ksDeviceType = CLASS_CDROM; ksType = KS_CMD_CDROM; table = NULL; } else if (ksHasCommand(KS_CMD_HD)) { ksDeviceType = CLASS_UNSPEC; ksType = KS_CMD_HD; table = ksHDOptions; #endif } else { logMessage("no install method specified for kickstart"); return NULL; } if (ksDeviceType != CLASS_UNSPEC) { for (i = 0; i < kd->numKnown; i++) if (kd->known[i].class == ksDeviceType) break; if (i == kd->numKnown) { logMessage("no appropriate device for kickstart method is " "available"); return NULL; } device = kd->known[i].name; logMessage("kickstarting through device %s", device); } if (!ksGetCommand(KS_CMD_XDISPLAY, NULL, &ksArgc, &ksArgv)) { setenv("DISPLAY", ksArgv[1], 1); } if (!ksGetCommand(KS_CMD_TEXT, NULL, &ksArgc, &ksArgv)) (*flagsPtr) = (*flagsPtr) | LOADER_FLAGS_TEXT; if (table) { ksGetCommand(ksType, NULL, &ksArgc, &ksArgv); optCon = poptGetContext(NULL, ksArgc, (const char **) ksArgv, table, 0); if ((rc = poptGetNextOpt(optCon)) < -1) { logMessage("bad argument to kickstart method command %s: %s", poptBadOption(optCon, POPT_BADOPTION_NOALIAS), poptStrerror(rc)); return NULL; } } #ifdef INCLUDE_NETWORK if (ksType == KS_CMD_NFS || ksType == KS_CMD_URL) { startNewt(flags); if (kickstartNetwork(device, &netDev, NULL, flags)) return NULL; writeNetInfo("/tmp/netinfo", &netDev); } else if (ksType == KS_CMD_URL) { abort(); } #endif imageUrl = NULL; #ifdef INCLUDE_NETWORK if (ksType == KS_CMD_NFS) { mlLoadModule("nfs", NULL, modLoaded, modDeps, NULL, modInfo, flags); fullPath = alloca(strlen(host) + strlen(dir) + 2); sprintf(fullPath, "%s:%s", host, dir); logMessage("mounting nfs path %s", fullPath); if (doPwMount(fullPath, "/mnt/source", "nfs", 1, 0, NULL, NULL)) return NULL; symlink("/mnt/source/RedHat/instimage", "/mnt/runtime"); imageUrl = "dir://mnt/source/."; } #endif #ifdef INCLUDE_LOCAL if (ksType == KS_CMD_CDROM) { imageUrl = setupCdrom(NULL, location, kd, modInfo, modLoaded, modDeps, flags, 1, 1); } else if (ksType == KS_CMD_HD) { char * fsType; logMessage("partname is %s", partname); for (i = 0; i < kd->numKnown; i++) { if (kd->known[i].class != CLASS_HD) continue; if (!strncmp(kd->known[i].name, partname, strlen(partname) - 1)) break; } if (i == kd->numKnown) { logMessage("unknown partition %s", partname); return NULL; } devMakeInode(kd->known[i].name, "/tmp/hddevice"); if ((fd = open("/tmp/hddevice", O_RDONLY)) < 0) { logMessage("failed to open device %s", kd->known[i].name); return NULL; } if ((rc = balkanReadTable(fd, &partTable))) { logMessage("failed to read partition partTable for " "device %s: %d", kd->known[i].name, rc); return NULL; } close (fd); partNum = atoi(partname + 3) - 1; if (partTable.maxNumPartitions < partNum || partTable.parts[partNum].type == -1) { logMessage("partition %d on device %s does not exist", partNum, kd->known[i].name); return NULL; } switch (partTable.parts[partNum].type) { #ifdef __sparc__ case BALKAN_PART_UFS: fsType = "ufs"; break; #endif case BALKAN_PART_EXT2: fsType = "ext2"; break; default: fsType = "vfat"; break; } imageUrl = setupHardDrive(partname, fsType, dir, flags); } #endif kickstartDevices(kd, modInfo, modLoaded, modDeps, flags); return imageUrl; } static int parseCmdLineFlags(int flags, char * cmdLine, char ** ksSource) { int fd; char buf[500]; int len; char ** argv; int argc; int i; logMessage("here with cmdLine %s", cmdLine); if (!cmdLine) { if ((fd = open("/proc/cmdline", O_RDONLY)) < 0) return flags; len = read(fd, buf, sizeof(buf) - 1); close(fd); if (len <= 0) return flags; buf[len] = '\0'; cmdLine = buf; } if (poptParseArgvString(cmdLine, &argc, (const char ***) &argv)) return flags; for (i = 0; i < argc; i++) { if (!strcasecmp(argv[i], "expert")) flags |= LOADER_FLAGS_EXPERT | LOADER_FLAGS_NOPROBE | LOADER_FLAGS_MODDISK; else if (!strcasecmp(argv[i], "noprobe")) flags |= LOADER_FLAGS_NOPROBE; else if (!strcasecmp(argv[i], "text")) flags |= LOADER_FLAGS_TEXT; else if (!strcasecmp(argv[i], "updates")) flags |= LOADER_FLAGS_UPDATES; else if (!strcasecmp(argv[i], "isa")) flags |= LOADER_FLAGS_ISA; else if (!strcasecmp(argv[i], "dd")) flags |= LOADER_FLAGS_MODDISK; else if (!strcasecmp(argv[i], "driverdisk")) flags |= LOADER_FLAGS_MODDISK; else if (!strcasecmp(argv[i], "rescue")) flags |= LOADER_FLAGS_RESCUE; else if (!strcasecmp(argv[i], "serial")) flags |= LOADER_FLAGS_SERIAL; else if (!strcasecmp(argv[i], "ks")) { flags |= LOADER_FLAGS_KICKSTART; *ksSource = NULL; } else if (!strncasecmp(argv[i], "ks=cdrom:", 7)) { flags |= LOADER_FLAGS_KSCDROM; *ksSource = argv[i] + 9; } else if (!strncasecmp(argv[i], "ks=nfs:", 7)) { flags |= LOADER_FLAGS_KICKSTART; *ksSource = argv[i] + 7; } else if (!strcasecmp(argv[i], "ks=floppy")) flags |= LOADER_FLAGS_KSFLOPPY; else if (!strncasecmp(argv[i], "display=", 8)) setenv("DISPLAY", argv[i] + 8, 1); else if (!strncasecmp(argv[i], "ks=hd:", 6)) { flags |= LOADER_FLAGS_KSHD; *ksSource = argv[i] + 6; } else if (!strncasecmp(argv[i], "ks=file:", 8)) { flags |= LOADER_FLAGS_KSFILE; *ksSource = argv[i] + 8; } else if (!strncasecmp(argv[i], "lang=", 5)) { setLanguage (argv[i] + 5); #ifdef INCLUDE_KON if (!strcmp (argv[i] + 5, "ja") && startKon) { char * args[5]; args[0] = "kon"; args[1] = "-e"; args[2] = "/sbin/continue"; args[3] = NULL; execv(FL_TESTING(flags) ? "./loader" : "/sbin/loader", args); } #endif /* INCLUDE_KON */ } } return flags; } #ifdef INCLUDE_NETWORK int kickstartFromNfs(char * location, moduleList modLoaded, moduleDeps modDeps, int flags, char * ksSource) { struct networkDeviceConfig netDev; char * file, * fullFn; char * ksPath; if (kickstartNetwork("eth0", &netDev, "dhcp", flags)) { logMessage("no dhcp response received"); return 1; } writeNetInfo("/tmp/netinfo", &netDev); if (!(netDev.dev.set & PUMP_INTFINFO_HAS_NEXTSERVER)) { logMessage("no bootserver was found"); return 1; } if (!(netDev.dev.set & PUMP_INTFINFO_HAS_BOOTFILE)) { file = "/kickstart/"; logMessage("bootp: no bootfile received"); } else { file = netDev.dev.bootFile; } if (ksSource) { ksPath = alloca(strlen(ksSource) + 1); strcpy(ksPath, ksSource); } else { ksPath = alloca(strlen(file) + strlen(inet_ntoa(netDev.dev.nextServer)) + 70); strcpy(ksPath, inet_ntoa(netDev.dev.nextServer)); strcat(ksPath, ":"); strcat(ksPath, file); } if (ksPath[strlen(ksPath) - 1] == '/') { ksPath[strlen(ksPath) - 1] = '\0'; file = malloc(30); sprintf(file, "%s-kickstart", inet_ntoa(netDev.dev.ip)); } else { file = strrchr(ksPath, '/'); if (!file) { file = ksPath; ksPath = "/"; } else { *file++ = '\0'; } } logMessage("ks server: %s file: %s", ksPath, file); mlLoadModule("nfs", NULL, modLoaded, modDeps, NULL, NULL, flags); if (doPwMount(ksPath, "/tmp/nfskd", "nfs", 1, 0, NULL, NULL)) { logMessage("failed to mount %s", ksPath); return 1; } fullFn = malloc(strlen(file) + 20); sprintf(fullFn, "/tmp/nfskd/%s", file); copyFile(fullFn, location); umount("/tmp/nfs"); return 0; } #endif int kickstartFromHardDrive(char * location, moduleList modLoaded, moduleDeps modDeps, char * source, int flags) { char * device; char * fileName; char * fullFn; mlLoadModule("vfat", NULL, modLoaded, modDeps, NULL, NULL, flags); #ifdef __sparc__ mlLoadModule("ufs", NULL, modLoaded, modDeps, NULL, NULL, flags); #endif fileName = strchr(source, '/'); *fileName = '\0'; fileName++; device = source; if (devMakeInode(device, "/tmp/hddevice")) { logMessage("failed to make device %s", device); return 1; } if (doPwMount("/tmp/hddevice", "/mnt/hddrive", "ext2", 0, 0, NULL, NULL) && doPwMount("/tmp/hddevice", "/mnt/hddrive", "vfat", 0, 0, NULL, NULL)) { logMessage("failed to mount %s", device); } fullFn = alloca(strlen(fileName) + 20); sprintf(fullFn, "/mnt/hddrive/%s", fileName); copyFile(fullFn, location); umount("/mnt/hddrive"); return 0; } int kickstartFromFloppy(char * location, moduleList modLoaded, moduleDeps modDeps, int flags) { mlLoadModule("vfat", NULL, modLoaded, modDeps, NULL, NULL, flags); if (devMakeInode("fd0", "/tmp/fd0")) return 1; if (doPwMount("/tmp/fd0", "/tmp/ks", "vfat", 1, 0, NULL, NULL)) { logMessage("failed to mount floppy: %s", strerror(errno)); return 1; } if (access("/tmp/ks/ks.cfg", R_OK)) { newtWinMessage(_("Error"), _("OK"), _("Cannot find ks.cfg on boot floppy.")); return 1; } copyFile("/tmp/ks/ks.cfg", location); umount("/tmp/ks"); unlink("/tmp/fd0"); logMessage("kickstart file copied to %s", location); return 0; } void readExtraModInfo(moduleInfoSet modInfo) { int num = 0; char fileName[80]; char * dirName; sprintf(fileName, "/tmp/DD-%d/modinfo", num); while (!access(fileName, R_OK)) { dirName = malloc(50); sprintf(dirName, "/tmp/DD-%d", num); isysReadModuleInfo(fileName, modInfo, dirName); sprintf(fileName, "/tmp/DD-%d/modinfo", ++num); } } /* Recursive */ int copyDirectory(char * from, char * to) { DIR * dir; struct dirent * ent; int fd, outfd; char buf[4096]; int i; struct stat sb; char filespec[256]; char filespec2[256]; char link[1024]; mkdir(to, 0755); if (!(dir = opendir(from))) { newtWinMessage(_("Error"), _("OK"), _("Failed to read directory %s: %s"), from, strerror(errno)); return 1; } errno = 0; while ((ent = readdir(dir))) { if (ent->d_name[0] == '.') continue; sprintf(filespec, "%s/%s", from, ent->d_name); sprintf(filespec2, "%s/%s", to, ent->d_name); lstat(filespec, &sb); if (S_ISDIR(sb.st_mode)) { logMessage("recursively copying %s", filespec); if (copyDirectory(filespec, filespec2)) return 1; } else if (S_ISLNK(sb.st_mode)) { i = readlink(filespec, link, sizeof(link) - 1); link[i] = '\0'; if (symlink(link, filespec2)) { logMessage("failed to symlink %s to %s: %s", filespec2, link, strerror(errno)); } } else { fd = open(filespec, O_RDONLY); if (fd < 0) { logMessage("failed to open %s: %s", filespec, strerror(errno)); return 1; } outfd = open(filespec2, O_RDWR | O_TRUNC | O_CREAT, 0644); if (outfd < 0) { logMessage("failed to create %s: %s", filespec2, strerror(errno)); } else { fchmod(outfd, sb.st_mode & 07777); while ((i = read(fd, buf, sizeof(buf))) > 0) write(outfd, buf, i); close(outfd); } close(fd); } errno = 0; } closedir(dir); return 0; } void loadUpdates(struct knownDevices *kd, moduleList modLoaded, moduleDeps modDeps, int flags) { int done = 0; int rc; startNewt(flags); do { rc = newtWinChoice(_("Devices"), _("OK"), _("Cancel"), _("Insert your updates disk and press \"OK\" to continue.")); if (rc == 2) return; devMakeInode("fd0", "/tmp/fd0"); if (doPwMount("/tmp/fd0", "/tmp/update-disk", "ext2", 1, 0, NULL, NULL)) { newtWinMessage(_("Error"), _("OK"), _("Failed to mount floppy disk.")); } else { /* Copy everything to /tmp/updates so .so files don't get run from /dev/fd0. We could (and probably should) get smarter about this at some point. */ winStatus(40, 3, _("Updates"), _("Reading anaconda updates...")); if (!copyDirectory("/tmp/update-disk", "/tmp/updates")) done = 1; newtPopWindow(); umount("/tmp/update-disk"); } } while (!done); chdir("/tmp/updates"); return; } #ifdef __sparc__ /* Don't load the large ufs module if it will not be needed to save some memory on lowmem SPARCs. */ void loadUfs(struct knownDevices *kd, moduleList modLoaded, moduleDeps modDeps, int flags) { int i, j, fd, rc; struct partitionTable table; int ufsloaded = 0; for (i = 0; i < kd->numKnown; i++) { if (kd->known[i].class == CLASS_HD) { devMakeInode(kd->known[i].name, "/tmp/hddevice"); if ((fd = open("/tmp/hddevice", O_RDONLY)) >= 0) { if ((rc = balkanReadTable(fd, &table))) { logMessage("failed to read partition table for " "device %s: %d", kd->known[i].name, rc); } else { for (j = 0; j < table.maxNumPartitions; j++) { if (table.parts[j].type == BALKAN_PART_UFS) { if (!ufsloaded) mlLoadModule("ufs", NULL, modLoaded, modDeps, NULL, NULL, flags); ufsloaded = 1; } } } close(fd); } unlink("/tmp/hddevice"); } } } #else #define loadUfs(kd,modLoaded,modDeps,flags) do { } while (0) #endif int main(int argc, char ** argv) { char ** argptr; char * anacondaArgs[40]; char * arg, * url = NULL; poptContext optCon; int probeOnly = 0; moduleList modLoaded; char * cmdLine = NULL; moduleDeps modDeps; int i, rc; int flags = 0; int testing = 0; char * lang = NULL; char * keymap = NULL; char * kbdtype = NULL; struct knownDevices kd; moduleInfoSet modInfo; char * where; struct moduleInfo * mi; char twelve = 12; char * ksFile = NULL, * ksSource = NULL; struct stat sb; struct poptOption optionTable[] = { { "cmdline", '\0', POPT_ARG_STRING, &cmdLine, 0 }, { "ksfile", '\0', POPT_ARG_STRING, &ksFile, 0 }, { "probe", '\0', POPT_ARG_NONE, &probeOnly, 0 }, { "test", '\0', POPT_ARG_NONE, &testing, 0 }, { 0, 0, 0, 0, 0 } }; if (!strcmp(argv[0] + strlen(argv[0]) - 6, "insmod")) return ourInsmodCommand(argc, argv); else if (!strcmp(argv[0] + strlen(argv[0]) - 5, "rmmod")) return rmmod_main(argc, argv); else if (!strcmp(argv[0] + strlen(argv[0]) - 8, "modprobe")) return ourInsmodCommand(argc, argv); #ifdef INCLUDE_KON else if (!strcmp(argv[0] + strlen(argv[0]) - 3, "kon")) { i = kon_main(argc, argv); return i; } else if (!strcmp(argv[0] + strlen(argv[0]) - 8, "continue")) startKon = 0; #endif #ifdef INCLUDE_PCMCIA else if (!strcmp(argv[0] + strlen(argv[0]) - 7, "cardmgr")) return cardmgr_main(argc, argv); else if (!strcmp(argv[0] + strlen(argv[0]) - 5, "probe")) return probe_main(argc, argv); #endif /* The fstat checks disallows serial console if we're running through a pty. This is handy for Japanese. */ fstat(0, &sb); if (major(sb.st_rdev) != 3) { if (ioctl (0, TIOCLINUX, &twelve) < 0) flags |= LOADER_FLAGS_SERIAL; } optCon = poptGetContext(NULL, argc, (const char **) argv, optionTable, 0); if ((rc = poptGetNextOpt(optCon)) < -1) { fprintf(stderr, "bad option %s: %s\n", poptBadOption(optCon, POPT_BADOPTION_NOALIAS), poptStrerror(rc)); exit(1); } if ((arg = (char *) poptGetArg(optCon))) { fprintf(stderr, "unexpected argument: %s\n", arg); exit(1); } if (testing) flags |= LOADER_FLAGS_TESTING; flags = parseCmdLineFlags(flags, cmdLine, &ksSource); if (FL_SERIAL(flags) && !getenv("DISPLAY")) flags |= LOADER_FLAGS_TEXT; arg = FL_TESTING(flags) ? "./module-info" : "/modules/module-info"; modInfo = isysNewModuleInfoSet(); if (isysReadModuleInfo(arg, modInfo, NULL)) { fprintf(stderr, "failed to read %s\n", arg); sleep(5); exit(1); } openLog(FL_TESTING(flags)); kd = kdInit(); mlReadLoadedList(&modLoaded); modDeps = mlNewDeps(); mlLoadDeps(&modDeps, "/modules/modules.dep"); if (FL_KSFLOPPY(flags)) { startNewt(flags); ksFile = "/tmp/ks.cfg"; kickstartFromFloppy(ksFile, modLoaded, modDeps, flags); flags |= LOADER_FLAGS_KICKSTART; } #ifdef INCLUDE_PCMCIA startNewt(flags); winStatus(40, 3, _("PC Card"), _("Initializing PC Card Devices...")); startPcmcia(modLoaded, modDeps, flags); newtPopWindow(); #endif kdFindIdeList(&kd); kdFindScsiList(&kd); kdFindNetList(&kd); if (((access("/proc/bus/pci/devices", X_OK) && access("/proc/openprom", X_OK)) || FL_MODDISK(flags)) && !ksFile) { startNewt(flags); devLoadDriverDisk(modInfo, modLoaded, &modDeps, flags, 1); } busProbe(modInfo, modLoaded, modDeps, probeOnly, &kd, flags); if (probeOnly) exit(0); if (FL_KSHD(flags)) { ksFile = "/tmp/ks.cfg"; kickstartFromHardDrive(ksFile, modLoaded, modDeps, ksSource, flags); flags |= LOADER_FLAGS_KICKSTART; } else if (FL_KSFILE(flags)) { ksFile = ksSource; flags |= LOADER_FLAGS_KICKSTART; } #ifdef INCLUDE_LOCAL if (FL_KSCDROM(flags)) { ksFile = "/tmp/ks.cfg"; kickstartFromCdrom(ksFile, ksSource, &kd, modInfo, modLoaded, modDeps, flags); flags |= LOADER_FLAGS_KICKSTART; } #endif #ifdef INCLUDE_NETWORK if (FL_KICKSTART(flags) && !ksFile) { ksFile = "/tmp/ks.cfg"; startNewt(flags); kickstartFromNfs(ksFile, modLoaded, modDeps, flags, ksSource); } #endif if (ksFile) { startNewt(flags); ksReadCommands(ksFile); url = setupKickstart("/mnt/source", &kd, modInfo, modLoaded, modDeps, &flags); } if (!url) { url = doMountImage("/mnt/source", &kd, modInfo, modLoaded, modDeps, &lang, &keymap, &kbdtype, flags); } if (!FL_TESTING(flags)) { symlink("mnt/runtime/usr", "/usr"); symlink("mnt/runtime/lib", "/lib"); #ifndef __alpha__ /* the only modules we need for alpha are on the inired */ unlink("/modules/modules.dep"); unlink("/modules/module-info"); unlink("/modules/pcitable"); symlink("../mnt/runtime/modules/modules.dep", "/modules/modules.dep"); symlink("../mnt/runtime/modules/module-info", "/modules/module-info"); symlink("../mnt/runtime/modules/pcitable", "/modules/pcitable"); # ifndef __sparc__ unlink("/modules/modules.cgz"); symlink("../mnt/runtime/modules/modules.cgz", "/modules/modules.cgz"); # else /* All sparc32 modules are on the first stage image, if it is sparc64, then we must keep both the old /modules/modules.cgz which may either contain all modules, or the basic set + one of net or scsi and we extend it with the full set of net + scsi modules. */ symlink("../mnt/runtime/modules/modules64.cgz", "/modules/modules65.cgz"); # endif #endif /* !__alpha__ */ } spawnShell(flags); /* we can attach gdb now :-) */ /* XXX should free old Deps */ modDeps = mlNewDeps(); mlLoadDeps(&modDeps, "/modules/modules.dep"); modInfo = isysNewModuleInfoSet(); if (isysReadModuleInfo(arg, modInfo, NULL)) { fprintf(stderr, "failed to read %s\n", arg); sleep(5); exit(1); } readExtraModInfo(modInfo); busProbe(modInfo, modLoaded, modDeps, 0, &kd, flags); if (((access("/proc/bus/pci/devices", X_OK) && access("/proc/openprom", X_OK)) || FL_ISA(flags) || FL_NOPROBE(flags)) && !ksFile) { manualDeviceCheck(modInfo, modLoaded, modDeps, &kd, flags); } if (FL_UPDATES(flags)) loadUpdates(&kd, modLoaded, modDeps, flags); loadUfs(&kd, modLoaded, modDeps, flags); if (!FL_TESTING(flags)) { int fd; fd = open("/tmp/conf.modules", O_WRONLY | O_CREAT, 0666); if (fd < 0) { logMessage("error creating /tmp/conf.modules: %s\n", strerror(errno)); } else { mlWriteConfModules(modLoaded, modInfo, fd); /* HACK - notting */ #ifdef __sparc__ write(fd,"alias parport_lowlevel parport_ax\n",34); #else write(fd,"alias parport_lowlevel parport_pc\n",34); #endif close(fd); } } mlLoadModule("raid0", NULL, modLoaded, modDeps, NULL, modInfo, flags); mlLoadModule("raid1", NULL, modLoaded, modDeps, NULL, modInfo, flags); mlLoadModule("raid5", NULL, modLoaded, modDeps, NULL, modInfo, flags); #ifdef __i386__ /* We need this for loopback installs */ mlLoadModule("vfat", NULL, modLoaded, modDeps, NULL, modInfo, flags); #endif stopNewt(); closeLog(); #if 0 for (i = 0; i < kd.numKnown; i++) { printf("%-5s ", kd.known[i].name); if (kd.known[i].class == CLASS_CDROM) printf("cdrom"); else if (kd.known[i].class == CLASS_HD) printf("disk "); else if (kd.known[i].class == CLASS_NETWORK) printf("net "); if (kd.known[i].model) printf(" %s\n", kd.known[i].model); else printf("\n"); } #endif argptr = anacondaArgs; if (FL_RESCUE(flags)) { *argptr++ = "/bin/sh"; } else { *argptr++ = "/usr/bin/anaconda"; *argptr++ = "-m"; *argptr++ = url; if (FL_SERIAL(flags)) *argptr++ = "--serial"; if (FL_TEXT(flags)) *argptr++ = "-T"; if (FL_EXPERT(flags)) *argptr++ = "--expert"; if (FL_KICKSTART(flags)) { *argptr++ = "--kickstart"; *argptr++ = ksFile; } if (!lang) lang = getenv ("LC_ALL"); if (lang) { *argptr++ = "--lang"; *argptr++ = lang; } if (keymap) { *argptr++ = "--keymap"; *argptr++ = keymap; } if (kbdtype) { *argptr++ = "--kbdtype"; *argptr++ = kbdtype; } for (i = 0; i < modLoaded->numModules; i++) { if (!modLoaded->mods[i].path) continue; mi = isysFindModuleInfo(modInfo, modLoaded->mods[i].name); if (!mi) continue; if (mi->major == DRIVER_NET) where = "net"; else if (mi->major == DRIVER_SCSI) where = "scsi"; else continue; *argptr++ = "--module"; *argptr = alloca(80); sprintf(*argptr, "%s:%s:%s", modLoaded->mods[i].path, where, modLoaded->mods[i].name); argptr++; } } *argptr = NULL; if (!FL_TESTING(flags)) { execv(anacondaArgs[0], anacondaArgs); perror("exec"); } return 1; }