/* * CDDL HEADER START * * The contents of this file are subject to the terms of the * Common Development and Distribution License (the "License"). * You may not use this file except in compliance with the License. * * You can obtain a copy of the license at usr/src/OPENSOLARIS.LICENSE * or http://www.opensolaris.org/os/licensing. * See the License for the specific language governing permissions * and limitations under the License. * * When distributing Covered Code, include this CDDL HEADER in each * file and include the License file at usr/src/OPENSOLARIS.LICENSE. * If applicable, add the following below this CDDL HEADER, with the * fields enclosed by brackets "[]" replaced with your own identifying * information: Portions Copyright [yyyy] [name of copyright owner] * * CDDL HEADER END */ /* * Copyright 2016 Toomas Soome * Copyright (c) 2009, 2010, Oracle and/or its affiliates. All rights reserved. */ #include #include #include #include #include #include #include #include #include "bootadm.h" #define HYPER_KERNEL_DIR "/platform/i86xpv/kernel" #define METAL_KERNEL_DIR "/platform/i86pc/kernel" #define BOOTRC_FILE "/boot/solaris/bootenv.rc" #define ZFS_BOOTSTR "$ZFS-BOOTFS" #define BFLAG "-B" #define DEFAULT_SERIAL "9600,8,n,1" #define TTYXMODE_TO_COMNUM(ttyxmode) ((int)(*((ttyxmode) + 3) - '`')) #define COMNAME_TO_COMNUM(comname) ((int)(*((comname) + 3) - '0')) #define WHITESPC(x) (x) static char *serial_config[2] = { NULL, NULL }; static char *console_dev = NULL; static char *bootenv_rc_serial[2] = { NULL, NULL }; static char *bootenv_rc_console = NULL; static unsigned zfs_boot = 0; /* * Append the string pointed to by "str" to the string pointed to by "orig" * adding the delimeter "delim" in between. * * Return a pointer to the new string or NULL, if we were passed a bad string. */ static char * append_str(char *orig, char *str, char *delim) { char *newstr; int len; if ((str == NULL) || (delim == NULL)) return (NULL); if ((orig == NULL) || (*orig == '\0')) { /* * Return a pointer to a copy of the path so a caller can * always rely upon being able to free() a returned pointer. */ return (s_strdup(str)); } len = strlen(orig) + strlen(str) + strlen(delim) + 1; if ((newstr = malloc(len)) == NULL) { bam_error(_("could not allocate memory: size = %u\n"), len); bam_exit(1); } (void) snprintf(newstr, len, "%s%s%s", orig, delim, str); return (newstr); } /* * Replace the substring "old_str" in a path with the substring "new_str" * * Return a pointer to the modified string. */ static char * modify_path(char *path, char *old_str, char *new_str) { char *newpath; char *pc; int len; /* * Return a pointer to a copy of the path so a caller can always rely * upon being able to free() a returned pointer. */ if ((pc = strstr(path, old_str)) == NULL) return (s_strdup(path)); /* * Allocate space for duplicate of path with name changes and * NULL terminating byte */ len = strlen(path) - strlen(old_str) + strlen(new_str) + 1; if ((newpath = malloc(len)) == NULL) { bam_error(_("could not allocate memory: size = %u\n"), len); bam_exit(1); } (void) strlcpy(newpath, path, (pc - path) + 1); pc += strlen(old_str); (void) strcat(newpath, new_str); (void) strcat(newpath, pc); return (newpath); } /* * Set "token" to be the the string starting from the pointer "str" delimited * by any character in the string "delim" or the end of the string, but IGNORE * any characters between single or double quotes. * * Return a pointer to the next non-whitespace character after the delimiter * or NULL if we hit the end of the string. Also return NULL upon failure to * find any characters from the delimeter string or upon failure to allocate * memory for the new token string. */ static char * get_token(char **token, char *str, char *delim) { char *dp; char *start = str; unsigned len; *token = NULL; if ((str == NULL) || (*str == '\0')) return (NULL); do { if ((*str == '\'') || (*str == '"')) { char quote = *str++; while ((*str != '\0') && (*str != quote)) str++; /* no matching quote found in string */ if (*str++ == '\0') return (NULL); } /* look for a character from the delimiter string */ for (dp = delim; ((*dp != '\0') && (*dp != *str)); dp++) ; if (*dp != '\0') { len = str - start + 1; /* found a delimiter, so create a token string */ if ((*token = malloc(len)) == NULL) { bam_error(_("could not allocate memory: " "size = %u\n"), len); bam_exit(1); } (void) strlcpy(*token, start, len); while (isspace((int)*++str)) ; return (str); } } while (*str++ != '\0'); /* if we hit the end of the string, the token is the whole string */ *token = s_strdup(start); return (NULL); } /* * Convert a metal "console" device name to an equivalent one suitable for * use with the hypervisor. * * Default to "vga" if we can't parse the console device. */ static void console_metal_to_hyper(char *console) { if ((*console == '\'') || (*console == '"')) console++; if (strncmp(console, "ttya", 4) == 0) console_dev = "console=com1"; else if (strncmp(console, "ttyb", 4) == 0) console_dev = "console=com2"; else console_dev = "console=vga"; } static int set_serial_rate(int com, char *rate) { char **rp = &serial_config[com - 1]; if ((com < 1) || (com > 2)) return (-1); /* * If rate is a NULL pointer, erase any existing serial configuration * for this serial port. */ if (rate == NULL) { if (*rp != NULL) { free(*rp); *rp = NULL; } return (0); } *rp = s_realloc(*rp, strlen(rate) + 1); (void) strcpy(*rp, rate); return (0); } /* * Convert "metal" serial port parameters to values compatible with the * hypervisor. * * Return 0 on success, otherwise -1. */ static int serial_metal_to_hyper(char *metal_port, char *metal_serial) { #define COM_RATE_LEN 16 /* strlen("com1=115200,8n1") */ char com_rate[COM_RATE_LEN]; unsigned com, baud, bits, stop; char parity, handshake; if ((strcmp(metal_port, "ttya-mode") == 0) || (strcmp(metal_port, "ttyb-mode") == 0)) com = TTYXMODE_TO_COMNUM(metal_port); else return (-1); if ((*metal_serial == '\'') || (*metal_serial == '"')) metal_serial++; /* * Check if it's specified as the default rate; if so it defaults to * "auto" and we need not set it for they hypervisor. */ if (strncmp(metal_serial, DEFAULT_SERIAL, strlen(DEFAULT_SERIAL)) == 0) { (void) set_serial_rate(com, NULL); return (0); } /* read the serial port format as set forth in common/io/asy.c */ if (sscanf(metal_serial, "%u,%u,%c,%u,%c", &baud, &bits, &parity, &stop, &handshake) != 5) return (-1); /* validate serial port parameters */ if (((bits < 5) || (bits > 8)) || (stop > 1) || ((parity != 'n') && (parity != 'e') && (parity != 'o')) || ((handshake != '-') && (handshake != 'h') && (handshake != 's'))) return (-1); /* validate baud rate */ switch (baud) { case 150: case 300: case 600: case 1200: case 2400: case 4800: case 9600: case 19200: case 38400: case 57600: case 115200: break; default: return (-1); } /* * The hypervisor has no way to specify a handshake method, so it gets * quietly dropped in the conversion. */ (void) snprintf(com_rate, COM_RATE_LEN, "com%d=%u,%u%c%u", com, baud, bits, parity, stop); (void) set_serial_rate(com, com_rate); return (0); } /* * Convert "name=value" metal options to values suitable for use with the * hypervisor. * * Our main concerns are the console device and serial port settings. * * Return values: * * -1: Unparseable line * 0: Success * (n > 0): A property unimportant to us */ static int cvt_metal_option(char *optstr) { char *value; unsigned namlen; if (strcmp(optstr, ZFS_BOOTSTR) == 0) { zfs_boot = 1; return (0); } if ((value = strchr(optstr, '=')) == NULL) return (-1); namlen = value - optstr; if (*++value == '\0') return (1); if (strncmp(optstr, "console", namlen) == 0) { console_metal_to_hyper(value); return (0); } if ((strncmp(optstr, "ttya-mode", namlen) == 0) || (strncmp(optstr, "ttyb-mode", namlen) == 0)) { char *port = strndupa(optstr, namlen); return (serial_metal_to_hyper(port, value)); } return (1); } /* * Convert "name=value" properties for use with a bare metal kernel * * Our main concerns are the console setting and serial port modes. * * Return values: * * -1: Unparseable line * 0: Success * (n > 0): A property unimportant to us */ static int cvt_hyper_option(char *optstr) { #define SER_LEN 15 /* strlen("115200,8,n,1,-") + 1 */ char ser[SER_LEN]; char *value; unsigned namlen; unsigned baud; char bits, parity, stop; if (strcmp(optstr, ZFS_BOOTSTR) == 0) { zfs_boot = 1; return (0); } /* * If there's no "=" in the token, it's likely a standalone * hypervisor token we don't care about (e.g. "noreboot" or * "nosmp") so we ignore it. */ if ((value = strchr(optstr, '=')) == NULL) return (1); namlen = value - optstr; if (*++value == '\0') return (1); /* * Note that we use strncmp against the values because the * hypervisor allows setting console parameters for both the * console and debugger via the format: * * console=cons_dev,debug_dev * * and we only care about "cons_dev." * * This also allows us to extract "comN" from hypervisor constructs * like "com1H" or "com2L," concepts unsupported on bare metal kernels. * * Default the console device to "text" if it was "vga" or was * unparseable. */ if (strncmp(optstr, "console", namlen) == 0) { /* ignore the "console=hypervisor" option */ if (strcmp(value, "hypervisor") == 0) return (0); if (strncmp(value, "com1", 4) == 0) console_dev = "ttya"; else if (strncmp(value, "com2", 4) == 0) console_dev = "ttyb"; else console_dev = "text"; } /* serial port parameter conversion */ if ((strncmp(optstr, "com1", namlen) == 0) || (strncmp(optstr, "com2", namlen) == 0)) { unsigned com = COMNAME_TO_COMNUM(optstr); /* * Check if it's "auto" - if so, use the default setting * of "9600,8,n,1,-". * * We can't just assume the serial port will default to * "9600,8,n,1" as there could be a directive in bootenv.rc * that would set it to some other value and we want the serial * parameters to be the same as that used by the hypervisor. */ if (strcmp(value, "auto") == 0) { (void) snprintf(ser, SER_LEN, "9600,8,n,1,-"); } else { /* * Extract the "B,PS" setting from the com line; ignore * other settings like io_base or IRQ. */ if (sscanf(value, "%u,%c%c%c", &baud, &bits, &parity, &stop) != 4) return (-1); /* validate serial port parameters */ if (((stop != '0') && (stop != '1')) || ((bits < '5') && (bits > '8')) || ((parity != 'n') && (parity != 'e') && (parity != 'o'))) return (-1); /* validate baud rate */ switch (baud) { case 150: case 300: case 600: case 1200: case 2400: case 4800: case 19200: case 38400: case 57600: case 115200: break; default: return (-1); } /* * As the hypervisor has no way to denote handshaking * in its serial port settings, emit a metal serial * port configuration with none as well. */ (void) snprintf(ser, SER_LEN, "%u,%c,%c,%c,-", baud, bits, parity, stop); } if (set_serial_rate(com, ser) != 0) return (-1); return (0); } return (1); } /* * Parse a hardware kernel's "kernel$" specifier into parameters we can then * use to construct an appropriate "module$" line that can be used to specify * how to boot the hypervisor's dom0. * * Return values: * * -1: error parsing kernel path * 0: success * 1: kernel already a hypervisor kernel */ static int cvt_metal_kernel(char *kernstr, char **path) { char *token, *parsestr; parsestr = get_token(path, kernstr, " \t,"); if (*path == NULL) return (-1); /* * If the metal kernel specified contains the name of the hypervisor, * we're probably trying to convert an entry already setup to run the * hypervisor, so error out now. */ if (strstr(*path, XEN_MENU) != NULL) { bam_error(_("default entry already setup for use with the " "hypervisor!\n")); free(*path); *path = NULL; return (1); } /* if the path was the last item on the line, that's OK. */ if ((parsestr = get_token(&token, parsestr, " \t,")) == NULL) { if (token != NULL) free(token); return (0); } /* if the next token is "-B" process boot options */ if (strncmp(token, BFLAG, strlen(BFLAG)) != 0) { free(token); return (0); } free(token); while ((parsestr = get_token(&token, parsestr, ",")) != NULL) { (void) cvt_metal_option(token); free(token); } if (token != NULL) { (void) cvt_metal_option(token); free(token); } return (0); } /* * Parse a hypervisor's "kernel$" line into parameters that can be used to * help build an appropriate "kernel$" line for booting a bare metal kernel. * * Return 0 on success, non-zero on failure. */ static int cvt_hyper_kernel(char *kernel) { char *token, *parsestr; parsestr = get_token(&token, kernel, " \t,"); if (token == NULL) return (-1); /* * If the hypervisor kernel specified lives in the metal kernel * directory, we're probably trying to convert an entry already setup * to run on bare metal, so error out now. */ if (strncmp(token, METAL_KERNEL_DIR, strlen(METAL_KERNEL_DIR)) == 0) { bam_error(_("default entry already setup for use with a metal " "kernel!\n")); free(token); return (-1); } free(token); /* check for kernel options */ while ((parsestr = get_token(&token, parsestr, " ")) != NULL) { (void) cvt_hyper_option(token); free(token); } if (token != NULL) { (void) cvt_hyper_option(token); free(token); } return (0); } /* * Parse a hypervisor's "module$" line into parameters that can be used to * help build an appropriate "kernel$" line for booting a bare metal kernel. */ static void cvt_hyper_module(char *modstr, char **path) { char *token = NULL; char *parsestr = modstr; /* * If multiple pathnames exist on the module$ line, we just want * the last one. */ while ((parsestr = get_token(path, parsestr, " \t,")) != NULL) { if (*parsestr != '/') break; else free(*path); } /* if the path was the last item on the line, that's OK. */ if ((parsestr == NULL) || ((parsestr = get_token(&token, parsestr, " \t,")) == NULL)) { if (token != NULL) free(token); return; } if (token == NULL) return; /* check for "-B" option */ if (strncmp(token, BFLAG, strlen(BFLAG)) != 0) { free(token); return; } free(token); /* check for kernel options */ while ((parsestr = get_token(&token, parsestr, ",")) != NULL) { (void) cvt_hyper_option(token); free(token); } if (token != NULL) { (void) cvt_hyper_option(token); free(token); } } static void parse_bootenvrc(char *osroot) { #define LINEBUF_SZ 1024 FILE *fp; char *rcpath; char line[LINEBUF_SZ]; /* make line buffer large but not ridiculous */ int len; assert(osroot); len = strlen(osroot) + strlen(BOOTRC_FILE) + 1; rcpath = alloca(len); (void) snprintf(rcpath, len, "%s%s", osroot, BOOTRC_FILE); /* if we couldn't open the bootenv.rc file, ignore the issue. */ if ((fp = fopen(rcpath, "r")) == NULL) { BAM_DPRINTF(("could not open %s: %s\n", rcpath, strerror(errno))); return; } while (s_fgets(line, LINEBUF_SZ, fp) != NULL) { char *parsestr, *token; int port = 0; /* we're only interested in parsing "setprop" directives. */ if (strncmp(line, "setprop", 7) != 0) continue; /* eat initial "setprop" */ if ((parsestr = get_token(&token, line, " \t")) == NULL) { if (token != NULL) free(token); continue; } if (strcmp(token, "setprop") != 0) { free(token); continue; } free(token); /* get property name */ if ((parsestr = get_token(&token, parsestr, " \t")) == NULL) { if (token != NULL) free(token); continue; } if (strcmp(token, "console") == 0) { free(token); /* get console property value */ parsestr = get_token(&token, parsestr, " \t"); if (token == NULL) continue; if (bootenv_rc_console != NULL) free(bootenv_rc_console); bootenv_rc_console = s_strdup(token); continue; } /* check if it's a serial port setting */ if (strcmp(token, "ttya-mode") == 0) { free(token); port = 0; } else if (strcmp(token, "ttyb-mode") == 0) { free(token); port = 1; } else { /* nope, so check the next line */ free(token); continue; } /* get serial port setting */ parsestr = get_token(&token, parsestr, " \t"); if (token == NULL) continue; if (bootenv_rc_serial[port] != NULL) free(bootenv_rc_serial[port]); bootenv_rc_serial[port] = s_strdup(token); free(token); } (void) fclose(fp); } error_t cvt_to_hyper(menu_t *mp, char *osroot, char *extra_args) { const char *fcn = "cvt_to_hyper()"; line_t *lp; entry_t *ent; size_t len, zfslen; char *newstr; char *osdev; char *title = NULL; char *findroot = NULL; char *bootfs = NULL; char *kernel = NULL; char *mod_kernel = NULL; char *module = NULL; char *kern_path = NULL; char *kern_bargs = NULL; int curdef, newdef; int kp_allocated = 0; int ret = BAM_ERROR; assert(osroot); BAM_DPRINTF(("%s: entered. args: %s %s\n", fcn, osroot, extra_args)); /* * First just check to verify osroot is a sane directory. */ if ((osdev = get_special(osroot)) == NULL) { bam_error(_("cant find special file for mount-point %s\n"), osroot); return (BAM_ERROR); } free(osdev); /* * While the effect is purely cosmetic, if osroot is "/" don't * bother prepending it to any paths as they are constructed to * begin with "/" anyway. */ if (strcmp(osroot, "/") == 0) osroot = ""; /* * Found the GRUB signature on the target partitions, so now get the * default GRUB boot entry number from the menu.lst file */ curdef = atoi(mp->curdefault->arg); /* look for the first line of the matching boot entry */ for (ent = mp->entries; ((ent != NULL) && (ent->entryNum != curdef)); ent = ent->next) ; /* couldn't find it, so error out */ if (ent == NULL) { bam_error(_("unable to find default boot entry (%d) in " "menu.lst file.\n"), curdef); goto abort; } /* * We found the proper menu entry, so first we need to process the * bootenv.rc file to look for boot options the hypervisor might need * passed as kernel start options such as the console device and serial * port parameters. * * If there's no bootenv.rc, it's not an issue. */ parse_bootenvrc(osroot); if (bootenv_rc_console != NULL) console_metal_to_hyper(bootenv_rc_console); if (bootenv_rc_serial[0] != NULL) (void) serial_metal_to_hyper("ttya-mode", bootenv_rc_serial[0]); if (bootenv_rc_serial[1] != NULL) (void) serial_metal_to_hyper("ttyb-mode", bootenv_rc_serial[1]); /* * Now process the entry itself. */ for (lp = ent->start; lp != NULL; lp = lp->next) { /* * Process important lines from menu.lst boot entry. */ if (lp->flags == BAM_TITLE) { title = strdupa(lp->arg); } else if (lp->cmd != NULL) { if (strcmp(lp->cmd, "findroot") == 0) { findroot = strdupa(lp->arg); } else if (strcmp(lp->cmd, "bootfs") == 0) { bootfs = strdupa(lp->arg); } else if (strcmp(lp->cmd, menu_cmds[MODULE_DOLLAR_CMD]) == 0) { module = strdupa(lp->arg); } else if ((strcmp(lp->cmd, menu_cmds[KERNEL_DOLLAR_CMD]) == 0) && (ret = cvt_metal_kernel(lp->arg, &kern_path)) != 0) { if (ret < 0) { ret = BAM_ERROR; bam_error(_("kernel$ in default boot " "entry (%d) missing or not " "parseable.\n"), curdef); } else ret = BAM_NOCHANGE; goto abort; } } if (lp == ent->end) break; } /* * If findroot, module or kern_path are NULL, the boot entry is * malformed. */ if (findroot == NULL) { bam_error(_("findroot in default boot entry (%d) missing.\n"), curdef); goto abort; } if (module == NULL) { bam_error(_("module$ in default boot entry (%d) missing or " "not parseable.\n"), curdef); goto abort; } if (kern_path == NULL) { bam_error(_("kernel$ in default boot entry (%d) missing.\n"), curdef); goto abort; } /* assemble new kernel and module arguments from parsed values */ if (console_dev != NULL) { kern_bargs = s_strdup(console_dev); if (serial_config[0] != NULL) { newstr = append_str(kern_bargs, serial_config[0], " "); free(kern_bargs); kern_bargs = newstr; } if (serial_config[1] != NULL) { newstr = append_str(kern_bargs, serial_config[1], " "); free(kern_bargs); kern_bargs = newstr; } } if ((extra_args != NULL) && (*extra_args != '\0')) { newstr = append_str(kern_bargs, extra_args, " "); free(kern_bargs); kern_bargs = newstr; } len = strlen(osroot) + strlen(XEN_MENU) + strlen(kern_bargs) + WHITESPC(1) + 1; kernel = alloca(len); if (kern_bargs != NULL) { if (*kern_bargs != '\0') (void) snprintf(kernel, len, "%s%s %s", osroot, XEN_MENU, kern_bargs); free(kern_bargs); } else { (void) snprintf(kernel, len, "%s%s", osroot, XEN_MENU); } /* * Change the kernel directory from the metal version to that needed for * the hypervisor. Convert either "direct boot" path to the default * path. */ if ((strcmp(kern_path, DIRECT_BOOT_32) == 0) || (strcmp(kern_path, DIRECT_BOOT_64) == 0)) { kern_path = HYPERVISOR_KERNEL; } else { newstr = modify_path(kern_path, METAL_KERNEL_DIR, HYPER_KERNEL_DIR); free(kern_path); kern_path = newstr; kp_allocated = 1; } /* * We need to allocate space for the kernel path (twice) plus an * intervening space, possibly the ZFS boot string, and NULL, * of course. */ len = (strlen(kern_path) * 2) + WHITESPC(1) + 1; zfslen = (zfs_boot ? (WHITESPC(1) + strlen(ZFS_BOOT)) : 0); mod_kernel = alloca(len + zfslen); (void) snprintf(mod_kernel, len, "%s %s", kern_path, kern_path); if (kp_allocated) free(kern_path); if (zfs_boot) { char *zfsstr = alloca(zfslen + 1); (void) snprintf(zfsstr, zfslen + 1, " %s", ZFS_BOOT); (void) strcat(mod_kernel, zfsstr); } /* shut off warning messages from the entry line parser */ if (ent->flags & BAM_ENTRY_BOOTADM) ent->flags &= ~BAM_ENTRY_BOOTADM; BAM_DPRINTF(("%s: converted kernel cmd to %s\n", fcn, kernel)); BAM_DPRINTF(("%s: converted module cmd to %s\n", fcn, mod_kernel)); if ((newdef = add_boot_entry(mp, title, findroot, kernel, mod_kernel, module, bootfs)) == BAM_ERROR) return (newdef); /* * Now try to delete the current default entry from the menu and add * the new hypervisor entry with the parameters we've setup. */ if (delete_boot_entry(mp, curdef, DBE_QUIET) == BAM_SUCCESS) newdef--; else bam_print(_("unable to modify default entry; creating new " "boot entry for %s\n"), title); /* * If we successfully created the new entry, set the default boot * entry to that entry and let the caller know the new menu should * be written out. */ return (set_global(mp, menu_cmds[DEFAULT_CMD], newdef)); abort: if (ret != BAM_NOCHANGE) bam_error(_("error converting GRUB menu entry on %s for use " "with the hypervisor.\nAborting.\n"), ((*osroot == '\0') ? "/" : osroot)); return (ret); } /*ARGSUSED*/ error_t cvt_to_metal(menu_t *mp, char *osroot, char *menu_root) { const char *fcn = "cvt_to_metal()"; line_t *lp; entry_t *ent; size_t len, zfslen; char *delim = ","; char *newstr; char *osdev; char *title = NULL; char *findroot = NULL; char *bootfs = NULL; char *kernel = NULL; char *module = NULL; char *barchive_path = DIRECT_BOOT_ARCHIVE; char *kern_path = NULL; int curdef, newdef; int emit_bflag = 1; int ret = BAM_ERROR; assert(osroot); BAM_DPRINTF(("%s: entered. args: %s %s\n", fcn, osroot, "")); /* * First just check to verify osroot is a sane directory. */ if ((osdev = get_special(osroot)) == NULL) { bam_error(_("cant find special file for mount-point %s\n"), osroot); return (BAM_ERROR); } free(osdev); /* * Found the GRUB signature on the target partitions, so now get the * default GRUB boot entry number from the menu.lst file */ curdef = atoi(mp->curdefault->arg); /* look for the first line of the matching boot entry */ for (ent = mp->entries; ((ent != NULL) && (ent->entryNum != curdef)); ent = ent->next) ; /* couldn't find it, so error out */ if (ent == NULL) { bam_error(_("unable to find default boot entry (%d) in " "menu.lst file.\n"), curdef); goto abort; } /* * Now process the entry itself. */ for (lp = ent->start; lp != NULL; lp = lp->next) { /* * Process important lines from menu.lst boot entry. */ if (lp->flags == BAM_TITLE) { title = strdupa(lp->arg); } else if (lp->cmd != NULL) { if (strcmp(lp->cmd, "findroot") == 0) { findroot = strdupa(lp->arg); } else if (strcmp(lp->cmd, "bootfs") == 0) { bootfs = strdupa(lp->arg); } else if (strcmp(lp->cmd, menu_cmds[MODULE_DOLLAR_CMD]) == 0) { if (strstr(lp->arg, "boot_archive") == NULL) { module = strdupa(lp->arg); cvt_hyper_module(module, &kern_path); } else { barchive_path = strdupa(lp->arg); } } else if ((strcmp(lp->cmd, menu_cmds[KERNEL_DOLLAR_CMD]) == 0) && (cvt_hyper_kernel(lp->arg) < 0)) { ret = BAM_NOCHANGE; goto abort; } } if (lp == ent->end) break; } /* * If findroot, module or kern_path are NULL, the boot entry is * malformed. */ if (findroot == NULL) { bam_error(_("findroot in default boot entry (%d) missing.\n"), curdef); goto abort; } if (module == NULL) { bam_error(_("module$ in default boot entry (%d) missing or " "not parseable.\n"), curdef); goto abort; } if (kern_path == NULL) { bam_error(_("kernel$ in default boot entry (%d) missing.\n"), curdef); goto abort; } /* * Assemble new kernel and module arguments from parsed values. * * First, change the kernel directory from the hypervisor version to * that needed for a metal kernel. */ newstr = modify_path(kern_path, HYPER_KERNEL_DIR, METAL_KERNEL_DIR); free(kern_path); kern_path = newstr; /* allocate initial space for the kernel path */ len = strlen(kern_path) + 1; zfslen = (zfs_boot ? (WHITESPC(1) + strlen(ZFS_BOOT)) : 0); if ((kernel = malloc(len + zfslen)) == NULL) { free(kern_path); bam_error(_("could not allocate memory: size = %u\n"), len + zfslen); bam_exit(1); } (void) snprintf(kernel, len, "%s", kern_path); free(kern_path); if (zfs_boot) { char *zfsstr = alloca(zfslen + 1); (void) snprintf(zfsstr, zfslen + 1, " %s", ZFS_BOOT); (void) strcat(kernel, zfsstr); emit_bflag = 0; } /* * Process the bootenv.rc file to look for boot options that would be * the same as what the hypervisor had manually set, as we need not set * those explicitly. * * If there's no bootenv.rc, it's not an issue. */ parse_bootenvrc(osroot); /* * Don't emit a console setting if it's the same as what would be * set by bootenv.rc. */ if ((console_dev != NULL) && (bootenv_rc_console == NULL || (strcmp(console_dev, bootenv_rc_console) != 0))) { if (emit_bflag) { newstr = append_str(kernel, BFLAG, " "); free(kernel); kernel = append_str(newstr, "console=", " "); free(newstr); newstr = append_str(kernel, console_dev, ""); free(kernel); kernel = newstr; emit_bflag = 0; } else { newstr = append_str(kernel, "console=", ","); free(kernel); kernel = append_str(newstr, console_dev, ""); free(newstr); } } /* * We have to do some strange processing here because the hypervisor's * serial ports default to "9600,8,n,1,-" if "comX=auto" is specified, * or to "auto" if nothing is specified. * * This could result in a serial mode setting string being added when * it would otherwise not be needed, but it's better to play it safe. */ if (emit_bflag) { newstr = append_str(kernel, BFLAG, " "); free(kernel); kernel = newstr; delim = " "; emit_bflag = 0; } if ((serial_config[0] != NULL) && (bootenv_rc_serial[0] == NULL || (strcmp(serial_config[0], bootenv_rc_serial[0]) != 0))) { newstr = append_str(kernel, "ttya-mode='", delim); free(kernel); /* * Pass the serial configuration as the delimiter to * append_str() as it will be inserted between the current * string and the string we're appending, in this case the * closing single quote. */ kernel = append_str(newstr, "'", serial_config[0]); free(newstr); delim = ","; } if ((serial_config[1] != NULL) && (bootenv_rc_serial[1] == NULL || (strcmp(serial_config[1], bootenv_rc_serial[1]) != 0))) { newstr = append_str(kernel, "ttyb-mode='", delim); free(kernel); /* * Pass the serial configuration as the delimiter to * append_str() as it will be inserted between the current * string and the string we're appending, in this case the * closing single quote. */ kernel = append_str(newstr, "'", serial_config[1]); free(newstr); delim = ","; } /* shut off warning messages from the entry line parser */ if (ent->flags & BAM_ENTRY_BOOTADM) ent->flags &= ~BAM_ENTRY_BOOTADM; BAM_DPRINTF(("%s: converted kernel cmd to %s\n", fcn, kernel)); BAM_DPRINTF(("%s: converted module cmd to %s\n", fcn, module)); if ((newdef = add_boot_entry(mp, title, findroot, kernel, NULL, barchive_path, bootfs)) == BAM_ERROR) { free(kernel); return (newdef); } /* * Now try to delete the current default entry from the menu and add * the new hypervisor entry with the parameters we've setup. */ if (delete_boot_entry(mp, curdef, DBE_QUIET) == BAM_SUCCESS) newdef--; else bam_print(_("unable to modify default entry; creating new " "boot entry for %s\n"), title); free(kernel); /* * If we successfully created the new entry, set the default boot * entry to that entry and let the caller know the new menu should * be written out. */ return (set_global(mp, menu_cmds[DEFAULT_CMD], newdef)); abort: if (ret != BAM_NOCHANGE) bam_error(_("error converting GRUB menu entry on %s for use " "with a metal kernel.\nAborting.\n"), osroot); return (ret); }