/* * 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 2006 Sun Microsystems, Inc. All rights reserved. * Use is subject to license terms. */ #pragma ident "%Z%%M% %I% %E% SMI" /* * rmf_menu.c : * Command line options to rmformat are processed in this file. */ #include "rmformat.h" #include #include extern int32_t D_flag; extern int32_t e_flag; extern int32_t H_flag; extern int32_t U_flag; extern int32_t V_flag; extern int32_t b_flag; extern int32_t w_flag; extern int32_t W_flag; extern int32_t s_flag; extern int32_t c_flag; extern int32_t F_flag; extern int32_t R_flag; extern int32_t p_flag; extern int32_t l_flag; extern char *myname; extern char *slice_file; extern uint32_t repair_blk_no; extern int32_t quick_format; extern int32_t long_format; extern int32_t force_format; extern int32_t rw_protect_enable; extern int32_t rw_protect_disable; extern int32_t wp_enable_passwd; extern int32_t wp_disable_passwd; extern int32_t wp_enable; extern int32_t wp_disable; extern int32_t verify_write; extern char *dev_name; extern char *label; extern int total_devices_found; extern int removable_found; char *global_intr_msg; smmedium_prop_t med_info; int vol_running; extern void check_invalid_combinations(); extern void check_invalid_combinations_again(int32_t); extern void process_options(); extern void get_passwd(struct smwp_state *wp, int32_t confirm); extern int32_t valid_slice_file(smedia_handle_t, int32_t, char *, struct vtoc *); extern void trap_SIGINT(); extern void release_SIGINT(); extern int32_t verify(smedia_handle_t handle, int32_t fd, uint32_t start_sector, uint32_t nblocks, char *buf, int32_t flag, int32_t blocksize, int32_t no_raw_rw); extern void my_perror(char *err_string); extern void write_default_label(smedia_handle_t, int32_t fd); extern int find_device(int defer, char *tmpstr); void overwrite_metadata(int32_t fd, smedia_handle_t handle); int32_t write_sunos_label(int32_t fd, int32_t media_type); int32_t my_open(char *device_name, int32_t flags); int32_t check_and_unmount_vold(char *device_name, int32_t flag); int32_t check_and_unmount_scsi(char *device_name, int32_t flag); int32_t check_and_unmount_floppy(int32_t fd, int32_t flag); int32_t get_confirmation(void); static void process_F_flag(smedia_handle_t handle, int32_t fd); static void process_w_flag(smedia_handle_t handle); static void process_W_flag(smedia_handle_t handle); static void process_R_flag(smedia_handle_t handle); void process_p_flag(smedia_handle_t handle, int32_t fd); static void process_c_flag(smedia_handle_t handle); static void process_V_flag(smedia_handle_t handle, int32_t fd); static void process_s_flag(smedia_handle_t, int32_t fd); static void process_e_flag(smedia_handle_t handle); static void process_H_flag(smedia_handle_t handle, int32_t fd); static void process_D_flag(smedia_handle_t handle, int32_t fd); static void process_b_flag(int32_t fd); static void process_l_flag(void); void process_options() { int32_t fd; smedia_handle_t handle; int32_t m_scsi_umount = 0; int32_t m_flp_umount = 0; int32_t v_device_umount = 0; int32_t umount_required = 0; int32_t removable; int32_t umount_failed = 0; struct dk_minfo media; check_invalid_combinations(); if (l_flag && !dev_name) { process_l_flag(); return; } if (U_flag) { if (!(F_flag || H_flag || D_flag)) { F_flag = 1; long_format = 1; } } if (F_flag || w_flag || W_flag || R_flag || D_flag || H_flag || V_flag || c_flag || b_flag || s_flag || e_flag) { umount_required = 1; } fd = my_open(dev_name, O_RDONLY|O_NDELAY); if (fd < 0) { PERROR("Could not open device"); (void) close(fd); exit(1); } if (ioctl(fd, DKIOCREMOVABLE, &removable) < 0) { PERROR("DKIOCREMOVABLE ioctl failed"); (void) close(fd); exit(1); } if (!removable) { (void) fprintf(stderr, gettext("Not a removable media device\n")); (void) close(fd); exit(1); } if (ioctl(fd, DKIOCGMEDIAINFO, &media) < 0) { (void) fprintf(stderr, gettext("No media in specified device\n")); (void) close(fd); exit(1); } /* Check if volume manager has mounted this */ if (umount_required) { v_device_umount = check_and_unmount_vold(dev_name, U_flag); if (v_device_umount != 1) { m_scsi_umount = check_and_unmount_scsi(dev_name, U_flag); if (m_scsi_umount != 1) { m_flp_umount = check_and_unmount_floppy(fd, U_flag); if (m_flp_umount != 1) { umount_failed = 1; } } } } if (umount_required && U_flag && umount_failed) { if (v_device_umount || m_scsi_umount || m_flp_umount) { (void) fprintf(stderr, gettext("Could not unmount device.\n")); (void) close(fd); exit(1); } } if (umount_required && !U_flag) { if (v_device_umount || m_scsi_umount || m_flp_umount) { (void) fprintf(stderr, gettext("Device mounted.\n")); (void) fprintf(stderr, gettext("Requested operation can not be \ performed on a mounted device.\n")); (void) close(fd); exit(1); } } /* register the fd with the libsmedia */ handle = smedia_get_handle(fd); if (handle == NULL) { (void) fprintf(stderr, gettext("Failed to get libsmedia handle.\n")); (void) close(fd); exit(1); } if (smedia_get_medium_property(handle, &med_info) < 0) { (void) fprintf(stderr, gettext("Get medium property failed \n")); (void) smedia_release_handle(handle); (void) close(fd); exit(1); } DPRINTF1("media type %x\n", med_info.sm_media_type); DPRINTF1("media block size %x\n", med_info.sm_blocksize); DPRINTF1("media capacity %x\n", med_info.sm_capacity); DPRINTF3("media cyl %d head %d sect %d\n", med_info.sm_pcyl, med_info.sm_nhead, med_info.sm_nsect); check_invalid_combinations_again(med_info.sm_media_type); /* * Special handling for pcmcia, sometimes open the file in * read-write mode. */ if (med_info.sm_media_type == SM_PCMCIA_MEM) { if (F_flag || H_flag || D_flag || (V_flag && verify_write)) { (void) close(fd); DPRINTF("Reopening device\n"); fd = my_open(dev_name, O_RDWR|O_NDELAY); if (fd < 0) { PERROR("Could not open device"); (void) smedia_release_handle(handle); (void) close(fd); exit(1); } } } if (med_info.sm_media_type == SM_PCMCIA_ATA) { if (V_flag || c_flag) { (void) fprintf(stderr, gettext("Option not supported on PC ATA cards\n")); (void) smedia_release_handle(handle); (void) close(fd); exit(1); } if (F_flag) { /* same text as used by the format command */ (void) fprintf(stderr, gettext("Cannot format this drive. Please use your \ Manufacturer supplied formatting utility.\n")); (void) smedia_release_handle(handle); (void) close(fd); exit(1); } } if (F_flag) process_F_flag(handle, fd); if (w_flag) process_w_flag(handle); if (W_flag) process_W_flag(handle); if (R_flag) process_R_flag(handle); if (p_flag) process_p_flag(handle, fd); if (D_flag) process_D_flag(handle, fd); if (H_flag) process_H_flag(handle, fd); if (V_flag) process_V_flag(handle, fd); if (c_flag) process_c_flag(handle); if (b_flag) process_b_flag(fd); if (s_flag) process_s_flag(handle, fd); if (e_flag) process_e_flag(handle); if (l_flag) { process_l_flag(); } (void) smedia_release_handle(handle); (void) close(fd); } /* * This routine handles the F_flag. * This options should not be used for floppy. However, * if this option is used for floppy, the option will * be forced to SM_FORMAT_HD and smedia_format is called. * Note that smedia_format is a blocked mode format and it * returns only after the complete formatting is over. */ static void process_F_flag(smedia_handle_t handle, int32_t fd) { uint32_t format_flag; int32_t old_per = 0; int32_t new_per, ret_val; if (force_format) { (void) fprintf(stderr, gettext("Formatting disk.\n")); } else { (void) fprintf(stderr, gettext("Formatting will erase all the data on disk.\n")); if (!get_confirmation()) return; } if (quick_format) format_flag = SM_FORMAT_QUICK; else if (long_format) format_flag = SM_FORMAT_LONG; else if (force_format) format_flag = SM_FORMAT_FORCE; if (med_info.sm_media_type == SM_FLOPPY) format_flag = SM_FORMAT_HD; if ((med_info.sm_media_type != SM_FLOPPY) && (med_info.sm_media_type != SM_PCMCIA_MEM) && (med_info.sm_media_type != SM_SCSI_FLOPPY)) { global_intr_msg = "Interrupting format may render the \ medium useless"; } else { global_intr_msg = ""; } trap_SIGINT(); if (smedia_format(handle, format_flag, SM_FORMAT_IMMEDIATE) != 0) { if (errno == EINVAL) { (void) fprintf(stderr, gettext("Format failed.\n")); (void) fprintf(stderr, gettext("The medium may not \ be compatible for format operation.\n")); (void) fprintf(stderr, gettext("read/write surface \ scan may be used to get the effect of formatting.\n")); } else { PERROR("Format failed"); } (void) smedia_release_handle(handle); (void) close(fd); exit(1); } /* CONSTCOND */ while (1) { ret_val = smedia_check_format_status(handle); if (ret_val == -1) { if (errno != ENOTSUP) { PERROR("Format failed"); (void) smedia_release_handle(handle); (void) close(fd); exit(1); } else { /* Background formatting is not supported */ break; } } if (ret_val == 100) { (void) printf("\n"); (void) fflush(stdout); break; } new_per = (ret_val * 80)/100; while (new_per >= old_per) { (void) printf("."); (void) fflush(stdout); old_per++; } (void) sleep(6); } if ((med_info.sm_media_type == SM_FLOPPY) || (med_info.sm_media_type == SM_PCMCIA_MEM) || (med_info.sm_media_type == SM_SCSI_FLOPPY)) { (void) write_sunos_label(fd, med_info.sm_media_type); } else { /* * Iomega drives don't destroy the data in quick format. * Do a best effort write to first 1024 sectors. */ if (quick_format) overwrite_metadata(fd, handle); (void) write_default_label(handle, fd); } release_SIGINT(); } /* * List removable devices. */ static void process_l_flag() { int retry; int removable; int total_devices_found_last_time; int defer = 0; char *tmpstr; #define MAX_RETRIES_FOR_SCANNING 3 vol_running = volmgt_running(); if (vol_running) defer = 1; (void) printf(gettext("Looking for devices...\n")); total_devices_found_last_time = 0; /* * Strip out any leading path. For example, /dev/rdsk/c3t0d0s2 * will result in tmpstr = c3t0d0s2. dev_name is given as input * argument. */ if (dev_name) { if ((tmpstr = strrchr(dev_name, '/')) != NULL) { tmpstr += sizeof (char); } else { tmpstr = dev_name; } } for (retry = 0; retry < MAX_RETRIES_FOR_SCANNING; retry++) { removable = find_device(defer, tmpstr); if (removable == -1) break; /* * We'll do a small sleep and retry the command if volume * manager is running and no removable devices are found. * This is because the device may be busy. */ if (defer || (vol_running && (removable == 0))) { if ((total_devices_found == 0) || (total_devices_found != total_devices_found_last_time)) { total_devices_found_last_time = total_devices_found; (void) sleep(2); } else { /* Do the printing this time */ defer = 0; removable_found = 0; } } else break; } if (removable_found == 0) (void) printf(gettext("No removables found.\n")); } /* * The following three routines handle the write protect * options. These options are mostly Iomega ZIP/Jaz centric. * The following options are allowed : * No write protect <=> write protect without passwd : use -w flag * from any state to WP with passwd : use -W flag * from WP with passwd to no write protect : use -W flag * from any state to RWP with passwd : use -R flag * from RWP with passwd to no write protect : use -R flag * * The following transitions is not allowed * WP with passwd or RWP to WP without passwd. */ static void process_w_flag(smedia_handle_t handle) { int32_t rval; int32_t med_status; struct smwp_state wps; if ((rval = smedia_get_protection_status((handle), &wps)) < 0) { (void) fprintf(stderr, gettext("Could not get medium status \n")); return; } med_status = wps.sm_new_state; wps.sm_version = SMWP_STATE_V_1; if (wp_enable) { /* Enable write protect no password */ switch (med_status) { case SM_WRITE_PROTECT_DISABLE : wps.sm_new_state = SM_WRITE_PROTECT_NOPASSWD; wps.sm_passwd_len = 0; rval = smedia_set_protection_status(handle, &wps); if (rval == -1) PERROR(WP_ERROR); break; case SM_WRITE_PROTECT_NOPASSWD : (void) fprintf(stderr, gettext(WP_MSG_0)); break; case SM_WRITE_PROTECT_PASSWD : (void) fprintf(stderr, gettext(WP_MSG_1)); break; case SM_READ_WRITE_PROTECT : (void) fprintf(stderr, gettext(WP_MSG_2)); break; case SM_STATUS_UNKNOWN : default : (void) fprintf(stderr, gettext(WP_UNKNOWN)); break; } } else if (wp_disable) { switch (med_status) { case SM_WRITE_PROTECT_NOPASSWD : wps.sm_new_state = SM_WRITE_PROTECT_DISABLE; wps.sm_passwd_len = 0; rval = smedia_set_protection_status(handle, &wps); if (rval == -1) PERROR(WP_ERROR); break; case SM_WRITE_PROTECT_DISABLE : (void) fprintf(stderr, gettext(WP_MSG_3)); break; case SM_WRITE_PROTECT_PASSWD : (void) fprintf(stderr, gettext(WP_MSG_1)); break; case SM_READ_WRITE_PROTECT : (void) fprintf(stderr, gettext(WP_MSG_2)); break; case SM_STATUS_UNKNOWN : default : (void) fprintf(stderr, gettext(WP_UNKNOWN)); break; } } } static void process_W_flag(smedia_handle_t handle) { int32_t rval; int32_t med_status; struct smwp_state wps; DPRINTF("Write protect with password\n"); if ((rval = smedia_get_protection_status((handle), &wps)) < 0) { (void) fprintf(stderr, gettext("Could not get medium status \n")); return; } med_status = wps.sm_new_state; wps.sm_version = SMWP_STATE_V_1; if (wp_enable_passwd) { /* Enable write protect */ switch (med_status) { case SM_WRITE_PROTECT_DISABLE : case SM_WRITE_PROTECT_NOPASSWD : DPRINTF("Getting passwd\n"); get_passwd(&wps, 1); wps.sm_new_state = SM_WRITE_PROTECT_PASSWD; rval = smedia_set_protection_status(handle, &wps); if (rval == -1) { PERROR(WP_ERROR); } break; case SM_READ_WRITE_PROTECT : (void) fprintf(stderr, gettext(WP_MSG_4)); (void) fprintf(stderr, gettext(WP_MSG_5)); get_passwd(&wps, 0); wps.sm_new_state = SM_WRITE_PROTECT_PASSWD; rval = smedia_set_protection_status(handle, &wps); if (rval == -1) { if (errno == EACCES) { (void) fprintf(stderr, gettext(WP_MSG_10)); } else { PERROR(WP_ERROR); } } break; case SM_WRITE_PROTECT_PASSWD : (void) fprintf(stderr, gettext(WP_MSG_6)); break; case SM_STATUS_UNKNOWN : default : (void) fprintf(stderr, gettext(WP_UNKNOWN)); break; } } else if (wp_disable_passwd) { switch (med_status) { case SM_WRITE_PROTECT_PASSWD : get_passwd(&wps, 0); wps.sm_new_state = SM_WRITE_PROTECT_DISABLE; rval = smedia_set_protection_status(handle, &wps); if (rval == -1) { if (errno == EACCES) { (void) fprintf(stderr, gettext(WP_MSG_10)); } else { PERROR(WP_ERROR); } } break; case SM_READ_WRITE_PROTECT : (void) fprintf(stderr, gettext(WP_MSG_2)); break; case SM_WRITE_PROTECT_NOPASSWD : (void) fprintf(stderr, gettext(WP_MSG_7)); break; case SM_WRITE_PROTECT_DISABLE : (void) fprintf(stderr, gettext(WP_MSG_3)); break; case SM_STATUS_UNKNOWN : default : (void) fprintf(stderr, gettext(WP_UNKNOWN)); break; } } } static void process_R_flag(smedia_handle_t handle) { int32_t rval; int32_t med_status; struct smwp_state wps; DPRINTF("Read Write protect \n"); if ((rval = smedia_get_protection_status((handle), &wps)) < 0) { (void) fprintf(stderr, gettext("Could not get medium status \n")); return; } med_status = wps.sm_new_state; wps.sm_version = SMWP_STATE_V_1; if (rw_protect_enable) { /* Enable write protect */ switch (med_status) { case SM_WRITE_PROTECT_DISABLE : case SM_WRITE_PROTECT_NOPASSWD : DPRINTF("Getting passwd\n"); get_passwd(&wps, 1); wps.sm_new_state = SM_READ_WRITE_PROTECT; rval = smedia_set_protection_status(handle, &wps); if (rval == -1) PERROR(WP_ERROR); break; case SM_WRITE_PROTECT_PASSWD : (void) fprintf(stderr, gettext(WP_MSG_8)); (void) fprintf(stderr, gettext(WP_MSG_9)); get_passwd(&wps, 0); wps.sm_new_state = SM_READ_WRITE_PROTECT; rval = smedia_set_protection_status(handle, &wps); if (rval == -1) { if (errno == EACCES) { (void) fprintf(stderr, gettext(WP_MSG_10)); } else { PERROR(WP_ERROR); } } break; case SM_READ_WRITE_PROTECT : (void) fprintf(stderr, gettext(WP_MSG_4)); break; case SM_STATUS_UNKNOWN : default : (void) fprintf(stderr, gettext(WP_UNKNOWN)); break; } } else if (rw_protect_disable) { switch (med_status) { case SM_READ_WRITE_PROTECT : case SM_STATUS_UNKNOWN : get_passwd(&wps, 0); wps.sm_new_state = SM_WRITE_PROTECT_DISABLE; rval = smedia_set_protection_status(handle, &wps); if (rval == -1) { if (errno == EACCES) { (void) fprintf(stderr, gettext(WP_MSG_10)); } else { PERROR(WP_ERROR); } } break; case SM_WRITE_PROTECT_PASSWD : (void) fprintf(stderr, gettext(WP_MSG_1)); break; case SM_WRITE_PROTECT_NOPASSWD : (void) fprintf(stderr, gettext(WP_MSG_7)); break; case SM_WRITE_PROTECT_DISABLE : (void) fprintf(stderr, gettext(WP_MSG_3)); break; default : (void) fprintf(stderr, gettext(WP_UNKNOWN)); break; } } } void process_p_flag(smedia_handle_t handle, int32_t fd) { int32_t med_status; smwp_state_t wps; med_status = smedia_get_protection_status((handle), &wps); DPRINTF("Could not get medium status \n"); /* * Workaround in case mode sense fails. * * Also, special handling for PCMCIA. PCMCIA does not have any * ioctl to find out the write protect status. So, open the * device with O_RDWR. If it passes, it is not write protected, * otherwise it is write protected. * If it fails, reopen with O_RDONLY, may be some other * operation can go through. */ if ((med_status < 0) || (med_info.sm_media_type == SM_PCMCIA_MEM) || (med_info.sm_media_type == SM_PCMCIA_ATA)) { (void) close(fd); DPRINTF("Reopening device for -p option\n"); fd = my_open(dev_name, O_RDONLY|O_NDELAY); if (fd < 0) { if (p_flag) { PERROR("Could not open device"); (void) smedia_release_handle(handle); (void) close(fd); exit(1); } else { (void) fprintf(stderr, gettext("\n")); (void) smedia_release_handle(handle); (void) close(fd); return; } fd = my_open(dev_name, O_RDWR|O_NDELAY); if (fd < 0) { (void) fprintf(stderr, gettext("Medium is write protected.\n")); } } else { /* Open succeeded */ (void) fprintf(stderr, gettext("Medium is not write protected.\n")); } return; } med_status = wps.sm_new_state; switch (med_status) { case SM_READ_WRITE_PROTECT : (void) fprintf(stderr, gettext("Medium is read-write protected.\n")); break; case SM_WRITE_PROTECT_PASSWD : (void) fprintf(stderr, gettext("Medium is write protected with password.\n")); break; case SM_WRITE_PROTECT_NOPASSWD : (void) fprintf(stderr, gettext("Medium is write protected.\n")); break; case SM_WRITE_PROTECT_DISABLE : (void) fprintf(stderr, gettext("Medium is not write protected.\n")); break; case SM_STATUS_UNKNOWN : default: (void) fprintf(stderr, gettext("Unknown write protect status.\n")); break; } } static void process_c_flag(smedia_handle_t handle) { char error_string[256]; if (smedia_reassign_block(handle, repair_blk_no) != 0) { (void) snprintf(error_string, 255, gettext("Could not repair block no %d"), repair_blk_no); PERROR(error_string); return; } } /* * This routine handles the -V (verify) option. * There can be devices without rw_read option. If the raw_read * and raw_write are not supported by the interface, then read and * write system calls are used. It is assumed that either both * raw_read and raw_write are supported or both are unsupported. */ static void process_V_flag(smedia_handle_t handle, int32_t fd) { int32_t ret; uint32_t i, j; char *read_buf, *write_buf; int32_t old_per = 0; int32_t new_per; int32_t no_raw_rw = 0; int32_t verify_size; uint32_t capacity; int32_t blocksize; DPRINTF("ANALYSE MEDIA \n"); ret = smedia_get_medium_property(handle, &med_info); if (ret == -1) { DPRINTF("get_media_info failed\n"); return; } DPRINTF1("media_type %d\n", med_info.sm_media_type); DPRINTF1("sector_size %d\n", med_info.sm_blocksize); DPRINTF1("num_sectors %d\n", med_info.sm_capacity); DPRINTF1("nsect %d\n", med_info.sm_nsect); blocksize = med_info.sm_blocksize; capacity = med_info.sm_capacity; verify_size = (med_info.sm_nsect > 64) ? 64 : med_info.sm_nsect; read_buf = (char *)malloc(blocksize * verify_size); if (read_buf == NULL) { DPRINTF("Could not allocate memory\n"); return; } write_buf = (char *)malloc(blocksize * verify_size); if (write_buf == NULL) { DPRINTF("Could not allocate memory\n"); free(read_buf); return; } if (!verify_write) { DPRINTF("Non-destructive verify \n"); for (i = 0; i < med_info.sm_capacity; i += verify_size) { new_per = (i * 80)/med_info.sm_capacity; if (new_per >= old_per) { (void) printf("."); (void) fflush(stdout); old_per++; } DPRINTF2("Reading %d blks starting at %d\n", verify_size, i); ret = verify(handle, fd, i, verify_size, read_buf, VERIFY_READ, blocksize, no_raw_rw); if ((ret == -1) && (errno == ENOTSUP)) { no_raw_rw = 1; ret = verify(handle, fd, i, verify_size, read_buf, VERIFY_READ, blocksize, no_raw_rw); capacity = med_info.sm_pcyl * med_info.sm_nhead * med_info.sm_nsect; } if (ret != 0) { for (j = 0; j < verify_size; j++) { if ((i + j) >= capacity) return; DPRINTF2( "Reading %d blks starting at %d\n", 1, i+j); ret = verify(handle, fd, i + j, 1, read_buf, VERIFY_READ, blocksize, no_raw_rw); if (ret == -1) { (void) printf("Bad block %d\n", i+j); } } } } } else { DPRINTF("Destrutive verify \n"); for (i = 0; i < med_info.sm_capacity; i += verify_size) { new_per = (i * 80)/med_info.sm_capacity; if (new_per >= old_per) { (void) printf("."); (void) fflush(stdout); old_per++; } for (j = 0; j < blocksize * verify_size; j++) { write_buf[j] = (i|j) & 0xFF; } DPRINTF2("Writing %d blks starting at %d\n", verify_size, i); ret = verify(handle, fd, i, verify_size, write_buf, VERIFY_WRITE, blocksize, no_raw_rw); if (ret != 0) { for (j = 0; j < verify_size; j++) { if ((i + j) >= capacity) break; DPRINTF2( "Writing %d blks starting at %d\n", 1, i+j); ret = verify(handle, fd, i + j, 1, write_buf, VERIFY_WRITE, blocksize, no_raw_rw); if (ret == -1) { (void) printf("Bad block %d\n", i+j); } } } DPRINTF2("Read after write %d blks starting at %d\n", verify_size, i); ret = verify(handle, fd, i, verify_size, read_buf, VERIFY_READ, blocksize, no_raw_rw); if (ret != 0) { for (j = 0; j < verify_size; j++) { if ((i + j) >= capacity) return; DPRINTF2( "Read after write %d blks starting at %d\n", 1, i+j); ret = verify(handle, fd, i + j, 1, read_buf, VERIFY_READ, blocksize, no_raw_rw); if (ret == -1) { (void) printf("Bad block %d\n", i+j); } } } } } } static void process_s_flag(smedia_handle_t handle, int32_t fd) { int32_t i, ret; struct vtoc v_toc, t_vtoc; if (valid_slice_file(handle, fd, slice_file, &v_toc)) { (void) smedia_release_handle(handle); (void) close(fd); exit(1); } (void) memset(&t_vtoc, 0, sizeof (t_vtoc)); t_vtoc.v_nparts = V_NUMPAR; t_vtoc.v_sanity = VTOC_SANE; t_vtoc.v_version = V_VERSION; t_vtoc.v_sectorsz = DEV_BSIZE; /* Get existing Vtoc, don't bother if it fails. */ /* Turn on privileges. */ (void) __priv_bracket(PRIV_ON); (void) read_vtoc(fd, &t_vtoc); /* Turn off privileges. */ (void) __priv_bracket(PRIV_OFF); for (i = 0; i < V_NUMPAR; i++) { t_vtoc.v_part[i].p_start = v_toc.v_part[i].p_start; t_vtoc.v_part[i].p_size = v_toc.v_part[i].p_size; t_vtoc.v_part[i].p_tag = v_toc.v_part[i].p_tag; t_vtoc.v_part[i].p_flag = v_toc.v_part[i].p_flag; } errno = 0; /* Turn on privileges. */ (void) __priv_bracket(PRIV_ON); ret = write_vtoc(fd, &t_vtoc); /* Turn off privileges. */ (void) __priv_bracket(PRIV_OFF); if (ret < 0) { #ifdef sparc PERROR("write VTOC failed"); DPRINTF1("Errno = %d\n", errno); #else /* i386 */ if (errno == EIO) { PERROR("No Solaris partition, eject & retry"); DPRINTF1("Errno = %d\n", errno); } else { PERROR("write VTOC failed"); DPRINTF1("Errno = %d\n", errno); } #endif } } static void process_e_flag(smedia_handle_t handle) { if (smedia_eject(handle) < 0) { PERROR("Eject failed"); } } static void process_H_flag(smedia_handle_t handle, int32_t fd) { uint32_t cyl, head; int32_t old_per = 0; int32_t new_per; (void) fprintf(stderr, gettext("Formatting will erase all the data on disk.\n")); if (!get_confirmation()) return; for (cyl = 0; cyl < med_info.sm_pcyl; cyl++) { for (head = 0; head < med_info.sm_nhead; head++) { if (smedia_format_track(handle, cyl, head, SM_FORMAT_HD) < 0) { PERROR("Format failed"); return; } } new_per = (cyl * 80)/med_info.sm_pcyl; while (new_per >= old_per) { (void) printf("."); (void) fflush(stdout); old_per++; } } (void) write_sunos_label(fd, med_info.sm_media_type); } static void process_D_flag(smedia_handle_t handle, int32_t fd) { uint32_t cyl, head; int32_t old_per = 0; int32_t new_per; (void) fprintf(stderr, gettext("Formatting will erase all the data on disk.\n")); if (!get_confirmation()) return; for (cyl = 0; cyl < med_info.sm_pcyl; cyl++) { for (head = 0; head < med_info.sm_nhead; head++) { if (smedia_format_track(handle, cyl, head, SM_FORMAT_DD) < 0) { PERROR("Format failed"); return; } } new_per = (cyl * 80)/med_info.sm_pcyl; while (new_per >= old_per) { (void) printf("."); (void) fflush(stdout); old_per++; } } (void) write_sunos_label(fd, med_info.sm_media_type); } /* * This routine handles the -b (label) option. * Please note that, this will fail if there is no valid vtoc is * there on the medium and the vtoc is not faked. */ static void process_b_flag(int32_t fd) { int32_t ret, nparts; struct vtoc v_toc; struct dk_gpt *vtoc64; /* For EFI disks. */ if (efi_type(fd)) { if (efi_alloc_and_read(fd, &vtoc64) < 0) { /* * If reading the vtoc failed, try to * auto-sense the disk configuration. */ if (efi_auto_sense(fd, &vtoc64) < 0) { (void) fprintf(stderr, gettext("Could not write label.\n")); return; } } for (nparts = 0; nparts < vtoc64->efi_nparts; nparts++) { if (vtoc64->efi_parts[nparts].p_tag == V_RESERVED) { if (vtoc64->efi_parts[nparts].p_name) { (void) strncpy( vtoc64->efi_parts[nparts].p_name, label, EFI_PART_NAME_LEN); } break; } } if (efi_write(fd, vtoc64) != 0) { (void) efi_err_check(vtoc64); (void) fprintf(stderr, gettext("Could not write label.\n")); } return; } /* Get existing Vtoc */ /* Turn on privileges. */ (void) __priv_bracket(PRIV_ON); ret = read_vtoc(fd, &v_toc); /* Turn off privileges */ (void) __priv_bracket(PRIV_OFF); if (ret < 0) { #ifdef sparc PERROR("read VTOC failed"); DPRINTF1("Errno = %d\n", errno); #else /* i386 */ if (errno == EIO) { PERROR("No Solaris partition, eject & retry"); DPRINTF1("Errno = %d\n", errno); } else { PERROR("read VTOC failed"); DPRINTF1("Errno = %d\n", errno); } #endif return; } (void) strncpy(v_toc.v_volume, label, LEN_DKL_VVOL); /* Turn on the privileges. */ (void) __priv_bracket(PRIV_ON); ret = write_vtoc(fd, &v_toc); /* Turn off the privileges. */ (void) __priv_bracket(PRIV_OFF); if (ret < 0) { #ifdef sparc PERROR("write VTOC failed"); DPRINTF1("Errno = %d\n", errno); #else /* i386 */ if (errno == EIO) { PERROR("No Solaris partition, eject & retry"); DPRINTF1("Errno = %d\n", errno); } else { PERROR("write VTOC failed"); DPRINTF1("Errno = %d\n", errno); } #endif } }