raidctl.c revision 1.41
1 1.41 pooka /* $NetBSD: raidctl.c,v 1.41 2009/10/11 12:14:05 pooka Exp $ */ 2 1.18 thorpej 3 1.1 oster /*- 4 1.1 oster * Copyright (c) 1996, 1997, 1998 The NetBSD Foundation, Inc. 5 1.1 oster * All rights reserved. 6 1.1 oster * 7 1.1 oster * This code is derived from software contributed to The NetBSD Foundation 8 1.1 oster * by Greg Oster 9 1.1 oster * 10 1.1 oster * Redistribution and use in source and binary forms, with or without 11 1.1 oster * modification, are permitted provided that the following conditions 12 1.1 oster * are met: 13 1.1 oster * 1. Redistributions of source code must retain the above copyright 14 1.1 oster * notice, this list of conditions and the following disclaimer. 15 1.1 oster * 2. Redistributions in binary form must reproduce the above copyright 16 1.1 oster * notice, this list of conditions and the following disclaimer in the 17 1.1 oster * documentation and/or other materials provided with the distribution. 18 1.1 oster * 19 1.1 oster * THIS SOFTWARE IS PROVIDED BY THE NETBSD FOUNDATION, INC. AND CONTRIBUTORS 20 1.1 oster * ``AS IS'' AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED 21 1.1 oster * TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR 22 1.1 oster * PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE FOUNDATION OR CONTRIBUTORS 23 1.1 oster * BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR 24 1.1 oster * CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF 25 1.1 oster * SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS 26 1.1 oster * INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN 27 1.1 oster * CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) 28 1.1 oster * ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE 29 1.1 oster * POSSIBILITY OF SUCH DAMAGE. 30 1.1 oster */ 31 1.1 oster 32 1.1 oster /* 33 1.18 thorpej * This program is a re-write of the original rf_ctrl program 34 1.18 thorpej * distributed by CMU with RAIDframe 1.1. 35 1.18 thorpej * 36 1.18 thorpej * This program is the user-land interface to the RAIDframe kernel 37 1.18 thorpej * driver in NetBSD. 38 1.1 oster */ 39 1.33 agc #include <sys/cdefs.h> 40 1.33 agc 41 1.33 agc #ifndef lint 42 1.41 pooka __RCSID("$NetBSD: raidctl.c,v 1.41 2009/10/11 12:14:05 pooka Exp $"); 43 1.33 agc #endif 44 1.33 agc 45 1.1 oster 46 1.1 oster #include <sys/param.h> 47 1.1 oster #include <sys/ioctl.h> 48 1.1 oster #include <sys/stat.h> 49 1.18 thorpej #include <sys/disklabel.h> 50 1.18 thorpej 51 1.1 oster #include <ctype.h> 52 1.1 oster #include <err.h> 53 1.2 mjacob #include <errno.h> 54 1.25 lukem #include <fcntl.h> 55 1.25 lukem #include <stdio.h> 56 1.25 lukem #include <stdlib.h> 57 1.1 oster #include <string.h> 58 1.3 oster #include <unistd.h> 59 1.25 lukem #include <util.h> 60 1.3 oster 61 1.41 pooka #include <rump/rump.h> 62 1.41 pooka #include <rump/rump_syscalls.h> 63 1.41 pooka 64 1.29 oster #include <dev/raidframe/raidframevar.h> 65 1.29 oster #include <dev/raidframe/raidframeio.h> 66 1.29 oster #include "rf_configure.h" 67 1.1 oster 68 1.36 xtraeme void do_ioctl(int, u_long, void *, const char *); 69 1.36 xtraeme static void rf_configure(int, char*, int); 70 1.36 xtraeme static const char *device_status(RF_DiskStatus_t); 71 1.36 xtraeme static void rf_get_device_status(int); 72 1.36 xtraeme static void rf_output_configuration(int, const char *); 73 1.36 xtraeme static void get_component_number(int, char *, int *, int *); 74 1.36 xtraeme static void rf_fail_disk(int, char *, int); 75 1.36 xtraeme static void usage(void); 76 1.36 xtraeme static void get_component_label(int, char *); 77 1.36 xtraeme static void set_component_label(int, char *); 78 1.36 xtraeme static void init_component_labels(int, int); 79 1.36 xtraeme static void set_autoconfig(int, int, char *); 80 1.36 xtraeme static void add_hot_spare(int, char *); 81 1.36 xtraeme static void remove_hot_spare(int, char *); 82 1.36 xtraeme static void rebuild_in_place(int, char *); 83 1.36 xtraeme static void check_status(int,int); 84 1.36 xtraeme static void check_parity(int,int, char *); 85 1.36 xtraeme static void do_meter(int, u_long); 86 1.36 xtraeme static void get_bar(char *, double, int); 87 1.36 xtraeme static void get_time_string(char *, int); 88 1.10 oster 89 1.18 thorpej int verbose; 90 1.1 oster 91 1.1 oster int 92 1.36 xtraeme main(int argc,char *argv[]) 93 1.1 oster { 94 1.1 oster int ch; 95 1.1 oster int num_options; 96 1.1 oster unsigned long action; 97 1.1 oster char config_filename[PATH_MAX]; 98 1.1 oster char dev_name[PATH_MAX]; 99 1.1 oster char name[PATH_MAX]; 100 1.5 oster char component[PATH_MAX]; 101 1.12 oster char autoconf[10]; 102 1.27 lukem int do_output; 103 1.1 oster int do_recon; 104 1.7 oster int do_rewrite; 105 1.7 oster int is_clean; 106 1.1 oster int raidID; 107 1.5 oster int serial_number; 108 1.1 oster struct stat st; 109 1.1 oster int fd; 110 1.5 oster int force; 111 1.30 simonb int openmode; 112 1.1 oster 113 1.1 oster num_options = 0; 114 1.1 oster action = 0; 115 1.27 lukem do_output = 0; 116 1.1 oster do_recon = 0; 117 1.7 oster do_rewrite = 0; 118 1.7 oster is_clean = 0; 119 1.38 lukem serial_number = 0; 120 1.5 oster force = 0; 121 1.30 simonb openmode = O_RDWR; /* default to read/write */ 122 1.1 oster 123 1.41 pooka #ifdef RUMP_ACTION 124 1.41 pooka rump_init(); 125 1.41 pooka #endif 126 1.41 pooka 127 1.27 lukem while ((ch = getopt(argc, argv, "a:A:Bc:C:f:F:g:GiI:l:r:R:sSpPuv")) 128 1.12 oster != -1) 129 1.1 oster switch(ch) { 130 1.5 oster case 'a': 131 1.5 oster action = RAIDFRAME_ADD_HOT_SPARE; 132 1.32 itojun strlcpy(component, optarg, sizeof(component)); 133 1.5 oster num_options++; 134 1.5 oster break; 135 1.12 oster case 'A': 136 1.12 oster action = RAIDFRAME_SET_AUTOCONFIG; 137 1.32 itojun strlcpy(autoconf, optarg, sizeof(autoconf)); 138 1.12 oster num_options++; 139 1.12 oster break; 140 1.6 oster case 'B': 141 1.6 oster action = RAIDFRAME_COPYBACK; 142 1.6 oster num_options++; 143 1.6 oster break; 144 1.1 oster case 'c': 145 1.6 oster action = RAIDFRAME_CONFIGURE; 146 1.32 itojun strlcpy(config_filename, optarg, 147 1.32 itojun sizeof(config_filename)); 148 1.6 oster force = 0; 149 1.1 oster num_options++; 150 1.1 oster break; 151 1.1 oster case 'C': 152 1.32 itojun strlcpy(config_filename, optarg, 153 1.32 itojun sizeof(config_filename)); 154 1.6 oster action = RAIDFRAME_CONFIGURE; 155 1.6 oster force = 1; 156 1.1 oster num_options++; 157 1.1 oster break; 158 1.1 oster case 'f': 159 1.1 oster action = RAIDFRAME_FAIL_DISK; 160 1.32 itojun strlcpy(component, optarg, sizeof(component)); 161 1.1 oster do_recon = 0; 162 1.1 oster num_options++; 163 1.1 oster break; 164 1.1 oster case 'F': 165 1.1 oster action = RAIDFRAME_FAIL_DISK; 166 1.32 itojun strlcpy(component, optarg, sizeof(component)); 167 1.1 oster do_recon = 1; 168 1.5 oster num_options++; 169 1.5 oster break; 170 1.5 oster case 'g': 171 1.5 oster action = RAIDFRAME_GET_COMPONENT_LABEL; 172 1.32 itojun strlcpy(component, optarg, sizeof(component)); 173 1.30 simonb openmode = O_RDONLY; 174 1.5 oster num_options++; 175 1.5 oster break; 176 1.27 lukem case 'G': 177 1.27 lukem action = RAIDFRAME_GET_INFO; 178 1.30 simonb openmode = O_RDONLY; 179 1.27 lukem do_output = 1; 180 1.27 lukem num_options++; 181 1.27 lukem break; 182 1.6 oster case 'i': 183 1.6 oster action = RAIDFRAME_REWRITEPARITY; 184 1.6 oster num_options++; 185 1.6 oster break; 186 1.5 oster case 'I': 187 1.5 oster action = RAIDFRAME_INIT_LABELS; 188 1.5 oster serial_number = atoi(optarg); 189 1.5 oster num_options++; 190 1.5 oster break; 191 1.6 oster case 'l': 192 1.5 oster action = RAIDFRAME_SET_COMPONENT_LABEL; 193 1.32 itojun strlcpy(component, optarg, sizeof(component)); 194 1.1 oster num_options++; 195 1.1 oster break; 196 1.1 oster case 'r': 197 1.6 oster action = RAIDFRAME_REMOVE_HOT_SPARE; 198 1.32 itojun strlcpy(component, optarg, sizeof(component)); 199 1.1 oster num_options++; 200 1.1 oster break; 201 1.1 oster case 'R': 202 1.32 itojun strlcpy(component, optarg, sizeof(component)); 203 1.6 oster action = RAIDFRAME_REBUILD_IN_PLACE; 204 1.1 oster num_options++; 205 1.1 oster break; 206 1.1 oster case 's': 207 1.1 oster action = RAIDFRAME_GET_INFO; 208 1.30 simonb openmode = O_RDONLY; 209 1.1 oster num_options++; 210 1.1 oster break; 211 1.6 oster case 'S': 212 1.19 oster action = RAIDFRAME_CHECK_RECON_STATUS_EXT; 213 1.30 simonb openmode = O_RDONLY; 214 1.6 oster num_options++; 215 1.6 oster break; 216 1.7 oster case 'p': 217 1.7 oster action = RAIDFRAME_CHECK_PARITY; 218 1.30 simonb openmode = O_RDONLY; 219 1.7 oster num_options++; 220 1.7 oster break; 221 1.7 oster case 'P': 222 1.7 oster action = RAIDFRAME_CHECK_PARITY; 223 1.7 oster do_rewrite = 1; 224 1.7 oster num_options++; 225 1.7 oster break; 226 1.1 oster case 'u': 227 1.1 oster action = RAIDFRAME_SHUTDOWN; 228 1.1 oster num_options++; 229 1.1 oster break; 230 1.10 oster case 'v': 231 1.10 oster verbose = 1; 232 1.10 oster /* Don't bump num_options, as '-v' is not 233 1.10 oster an option like the others */ 234 1.10 oster /* num_options++; */ 235 1.10 oster break; 236 1.1 oster default: 237 1.1 oster usage(); 238 1.1 oster } 239 1.1 oster argc -= optind; 240 1.1 oster argv += optind; 241 1.1 oster 242 1.34 fvdl if ((num_options > 1) || (argc == 0)) 243 1.1 oster usage(); 244 1.1 oster 245 1.32 itojun strlcpy(name, argv[0], sizeof(name)); 246 1.41 pooka #ifdef RUMP_ACTION 247 1.41 pooka fd = opendisk1(name, openmode, dev_name, sizeof(dev_name), 0, 248 1.41 pooka rump_sys_open); 249 1.41 pooka #else 250 1.35 oster fd = opendisk(name, openmode, dev_name, sizeof(dev_name), 0); 251 1.41 pooka #endif 252 1.25 lukem if (fd == -1) { 253 1.25 lukem fprintf(stderr, "%s: unable to open device file: %s\n", 254 1.26 cgd getprogname(), name); 255 1.25 lukem exit(1); 256 1.25 lukem } 257 1.25 lukem if (fstat(fd, &st) != 0) { 258 1.1 oster fprintf(stderr,"%s: stat failure on: %s\n", 259 1.26 cgd getprogname(), dev_name); 260 1.25 lukem exit(1); 261 1.1 oster } 262 1.1 oster if (!S_ISBLK(st.st_mode) && !S_ISCHR(st.st_mode)) { 263 1.1 oster fprintf(stderr,"%s: invalid device: %s\n", 264 1.26 cgd getprogname(), dev_name); 265 1.25 lukem exit(1); 266 1.1 oster } 267 1.1 oster 268 1.28 oster raidID = DISKUNIT(st.st_rdev); 269 1.1 oster 270 1.1 oster switch(action) { 271 1.5 oster case RAIDFRAME_ADD_HOT_SPARE: 272 1.12 oster add_hot_spare(fd, component); 273 1.5 oster break; 274 1.6 oster case RAIDFRAME_REMOVE_HOT_SPARE: 275 1.12 oster remove_hot_spare(fd, component); 276 1.6 oster break; 277 1.1 oster case RAIDFRAME_CONFIGURE: 278 1.12 oster rf_configure(fd, config_filename, force); 279 1.12 oster break; 280 1.12 oster case RAIDFRAME_SET_AUTOCONFIG: 281 1.12 oster set_autoconfig(fd, raidID, autoconf); 282 1.1 oster break; 283 1.1 oster case RAIDFRAME_COPYBACK: 284 1.1 oster printf("Copyback.\n"); 285 1.1 oster do_ioctl(fd, RAIDFRAME_COPYBACK, NULL, "RAIDFRAME_COPYBACK"); 286 1.10 oster if (verbose) { 287 1.10 oster sleep(3); /* XXX give the copyback a chance to start */ 288 1.10 oster printf("Copyback status:\n"); 289 1.19 oster do_meter(fd,RAIDFRAME_CHECK_COPYBACK_STATUS_EXT); 290 1.10 oster } 291 1.1 oster break; 292 1.1 oster case RAIDFRAME_FAIL_DISK: 293 1.12 oster rf_fail_disk(fd, component, do_recon); 294 1.5 oster break; 295 1.5 oster case RAIDFRAME_SET_COMPONENT_LABEL: 296 1.12 oster set_component_label(fd, component); 297 1.5 oster break; 298 1.5 oster case RAIDFRAME_GET_COMPONENT_LABEL: 299 1.12 oster get_component_label(fd, component); 300 1.5 oster break; 301 1.5 oster case RAIDFRAME_INIT_LABELS: 302 1.12 oster init_component_labels(fd, serial_number); 303 1.1 oster break; 304 1.1 oster case RAIDFRAME_REWRITEPARITY: 305 1.1 oster printf("Initiating re-write of parity\n"); 306 1.1 oster do_ioctl(fd, RAIDFRAME_REWRITEPARITY, NULL, 307 1.1 oster "RAIDFRAME_REWRITEPARITY"); 308 1.10 oster if (verbose) { 309 1.10 oster sleep(3); /* XXX give it time to get started */ 310 1.10 oster printf("Parity Re-write status:\n"); 311 1.19 oster do_meter(fd, RAIDFRAME_CHECK_PARITYREWRITE_STATUS_EXT); 312 1.10 oster } 313 1.1 oster break; 314 1.19 oster case RAIDFRAME_CHECK_RECON_STATUS_EXT: 315 1.14 oster check_status(fd,1); 316 1.1 oster break; 317 1.1 oster case RAIDFRAME_GET_INFO: 318 1.27 lukem if (do_output) 319 1.27 lukem rf_output_configuration(fd, dev_name); 320 1.27 lukem else 321 1.27 lukem rf_get_device_status(fd); 322 1.1 oster break; 323 1.6 oster case RAIDFRAME_REBUILD_IN_PLACE: 324 1.12 oster rebuild_in_place(fd, component); 325 1.6 oster break; 326 1.7 oster case RAIDFRAME_CHECK_PARITY: 327 1.12 oster check_parity(fd, do_rewrite, dev_name); 328 1.7 oster break; 329 1.1 oster case RAIDFRAME_SHUTDOWN: 330 1.1 oster do_ioctl(fd, RAIDFRAME_SHUTDOWN, NULL, "RAIDFRAME_SHUTDOWN"); 331 1.1 oster break; 332 1.1 oster default: 333 1.1 oster break; 334 1.1 oster } 335 1.1 oster 336 1.1 oster close(fd); 337 1.1 oster exit(0); 338 1.1 oster } 339 1.1 oster 340 1.10 oster void 341 1.36 xtraeme do_ioctl(int fd, unsigned long command, void *arg, const char *ioctl_name) 342 1.1 oster { 343 1.1 oster if (ioctl(fd, command, arg) < 0) { 344 1.1 oster warn("ioctl (%s) failed", ioctl_name); 345 1.1 oster exit(1); 346 1.1 oster } 347 1.1 oster } 348 1.1 oster 349 1.1 oster 350 1.1 oster static void 351 1.36 xtraeme rf_configure(int fd, char *config_file, int force) 352 1.1 oster { 353 1.1 oster void *generic; 354 1.1 oster RF_Config_t cfg; 355 1.1 oster 356 1.9 oster if (rf_MakeConfig( config_file, &cfg ) != 0) { 357 1.1 oster fprintf(stderr,"%s: unable to create RAIDframe %s\n", 358 1.26 cgd getprogname(), "configuration structure\n"); 359 1.1 oster exit(1); 360 1.1 oster } 361 1.1 oster 362 1.6 oster cfg.force = force; 363 1.6 oster 364 1.1 oster /* 365 1.18 thorpej * Note the extra level of redirection needed here, since 366 1.18 thorpej * what we really want to pass in is a pointer to the pointer to 367 1.18 thorpej * the configuration structure. 368 1.1 oster */ 369 1.1 oster 370 1.1 oster generic = (void *) &cfg; 371 1.6 oster do_ioctl(fd, RAIDFRAME_CONFIGURE, &generic, "RAIDFRAME_CONFIGURE"); 372 1.1 oster } 373 1.1 oster 374 1.18 thorpej static const char * 375 1.36 xtraeme device_status(RF_DiskStatus_t status) 376 1.1 oster { 377 1.1 oster 378 1.1 oster switch (status) { 379 1.1 oster case rf_ds_optimal: 380 1.18 thorpej return ("optimal"); 381 1.1 oster break; 382 1.1 oster case rf_ds_failed: 383 1.18 thorpej return ("failed"); 384 1.1 oster break; 385 1.1 oster case rf_ds_reconstructing: 386 1.18 thorpej return ("reconstructing"); 387 1.1 oster break; 388 1.1 oster case rf_ds_dist_spared: 389 1.18 thorpej return ("dist_spared"); 390 1.1 oster break; 391 1.1 oster case rf_ds_spared: 392 1.18 thorpej return ("spared"); 393 1.1 oster break; 394 1.1 oster case rf_ds_spare: 395 1.18 thorpej return ("spare"); 396 1.1 oster break; 397 1.1 oster case rf_ds_used_spare: 398 1.18 thorpej return ("used_spare"); 399 1.1 oster break; 400 1.1 oster default: 401 1.18 thorpej return ("UNKNOWN"); 402 1.1 oster } 403 1.18 thorpej /* NOTREACHED */ 404 1.1 oster } 405 1.1 oster 406 1.1 oster static void 407 1.36 xtraeme rf_get_device_status(int fd) 408 1.1 oster { 409 1.1 oster RF_DeviceConfig_t device_config; 410 1.1 oster void *cfg_ptr; 411 1.8 oster int is_clean; 412 1.1 oster int i; 413 1.1 oster 414 1.1 oster cfg_ptr = &device_config; 415 1.1 oster 416 1.1 oster do_ioctl(fd, RAIDFRAME_GET_INFO, &cfg_ptr, "RAIDFRAME_GET_INFO"); 417 1.1 oster 418 1.1 oster printf("Components:\n"); 419 1.1 oster for(i=0; i < device_config.ndevs; i++) { 420 1.1 oster printf("%20s: %s\n", device_config.devs[i].devname, 421 1.1 oster device_status(device_config.devs[i].status)); 422 1.1 oster } 423 1.1 oster if (device_config.nspares > 0) { 424 1.1 oster printf("Spares:\n"); 425 1.1 oster for(i=0; i < device_config.nspares; i++) { 426 1.5 oster printf("%20s: %s\n", 427 1.1 oster device_config.spares[i].devname, 428 1.1 oster device_status(device_config.spares[i].status)); 429 1.1 oster } 430 1.1 oster } else { 431 1.1 oster printf("No spares.\n"); 432 1.8 oster } 433 1.14 oster for(i=0; i < device_config.ndevs; i++) { 434 1.14 oster if (device_config.devs[i].status == rf_ds_optimal) { 435 1.14 oster get_component_label(fd, device_config.devs[i].devname); 436 1.14 oster } else { 437 1.14 oster printf("%s status is: %s. Skipping label.\n", 438 1.14 oster device_config.devs[i].devname, 439 1.14 oster device_status(device_config.devs[i].status)); 440 1.14 oster } 441 1.14 oster } 442 1.23 oster 443 1.21 oster if (device_config.nspares > 0) { 444 1.21 oster for(i=0; i < device_config.nspares; i++) { 445 1.21 oster if ((device_config.spares[i].status == 446 1.21 oster rf_ds_optimal) || 447 1.21 oster (device_config.spares[i].status == 448 1.21 oster rf_ds_used_spare)) { 449 1.21 oster get_component_label(fd, 450 1.21 oster device_config.spares[i].devname); 451 1.21 oster } else { 452 1.21 oster printf("%s status is: %s. Skipping label.\n", 453 1.21 oster device_config.spares[i].devname, 454 1.21 oster device_status(device_config.spares[i].status)); 455 1.21 oster } 456 1.21 oster } 457 1.21 oster } 458 1.23 oster 459 1.8 oster do_ioctl(fd, RAIDFRAME_CHECK_PARITY, &is_clean, 460 1.8 oster "RAIDFRAME_CHECK_PARITY"); 461 1.8 oster if (is_clean) { 462 1.8 oster printf("Parity status: clean\n"); 463 1.8 oster } else { 464 1.8 oster printf("Parity status: DIRTY\n"); 465 1.1 oster } 466 1.14 oster check_status(fd,0); 467 1.1 oster } 468 1.1 oster 469 1.1 oster static void 470 1.36 xtraeme rf_output_configuration(int fd, const char *name) 471 1.27 lukem { 472 1.27 lukem RF_DeviceConfig_t device_config; 473 1.27 lukem void *cfg_ptr; 474 1.27 lukem int i; 475 1.27 lukem RF_ComponentLabel_t component_label; 476 1.27 lukem void *label_ptr; 477 1.27 lukem int component_num; 478 1.27 lukem int num_cols; 479 1.27 lukem 480 1.27 lukem cfg_ptr = &device_config; 481 1.27 lukem 482 1.27 lukem printf("# raidctl config file for %s\n", name); 483 1.27 lukem printf("\n"); 484 1.27 lukem do_ioctl(fd, RAIDFRAME_GET_INFO, &cfg_ptr, "RAIDFRAME_GET_INFO"); 485 1.27 lukem 486 1.27 lukem printf("START array\n"); 487 1.27 lukem printf("# numRow numCol numSpare\n"); 488 1.27 lukem printf("%d %d %d\n", device_config.rows, device_config.cols, 489 1.27 lukem device_config.nspares); 490 1.27 lukem printf("\n"); 491 1.27 lukem 492 1.27 lukem printf("START disks\n"); 493 1.27 lukem for(i=0; i < device_config.ndevs; i++) 494 1.27 lukem printf("%s\n", device_config.devs[i].devname); 495 1.27 lukem printf("\n"); 496 1.27 lukem 497 1.27 lukem if (device_config.nspares > 0) { 498 1.27 lukem printf("START spare\n"); 499 1.27 lukem for(i=0; i < device_config.nspares; i++) 500 1.27 lukem printf("%s\n", device_config.spares[i].devname); 501 1.27 lukem printf("\n"); 502 1.27 lukem } 503 1.27 lukem 504 1.27 lukem for(i=0; i < device_config.ndevs; i++) { 505 1.27 lukem if (device_config.devs[i].status == rf_ds_optimal) 506 1.27 lukem break; 507 1.27 lukem } 508 1.27 lukem if (i == device_config.ndevs) { 509 1.27 lukem printf("# WARNING: no optimal components; using %s\n", 510 1.27 lukem device_config.devs[0].devname); 511 1.27 lukem i = 0; 512 1.27 lukem } 513 1.27 lukem get_component_number(fd, device_config.devs[i].devname, 514 1.27 lukem &component_num, &num_cols); 515 1.27 lukem memset(&component_label, 0, sizeof(RF_ComponentLabel_t)); 516 1.27 lukem component_label.row = component_num / num_cols; 517 1.27 lukem component_label.column = component_num % num_cols; 518 1.27 lukem label_ptr = &component_label; 519 1.27 lukem do_ioctl(fd, RAIDFRAME_GET_COMPONENT_LABEL, &label_ptr, 520 1.27 lukem "RAIDFRAME_GET_COMPONENT_LABEL"); 521 1.27 lukem 522 1.27 lukem printf("START layout\n"); 523 1.27 lukem printf( 524 1.27 lukem "# sectPerSU SUsPerParityUnit SUsPerReconUnit RAID_level_%c\n", 525 1.27 lukem (char) component_label.parityConfig); 526 1.27 lukem printf("%d %d %d %c\n", 527 1.27 lukem component_label.sectPerSU, component_label.SUsPerPU, 528 1.27 lukem component_label.SUsPerRU, (char) component_label.parityConfig); 529 1.27 lukem printf("\n"); 530 1.27 lukem 531 1.27 lukem printf("START queue\n"); 532 1.27 lukem printf("fifo %d\n", device_config.maxqdepth); 533 1.27 lukem } 534 1.27 lukem 535 1.27 lukem static void 536 1.36 xtraeme get_component_number(int fd, char *component_name, int *component_number, 537 1.36 xtraeme int *num_columns) 538 1.1 oster { 539 1.1 oster RF_DeviceConfig_t device_config; 540 1.1 oster void *cfg_ptr; 541 1.1 oster int i; 542 1.1 oster int found; 543 1.1 oster 544 1.6 oster *component_number = -1; 545 1.1 oster 546 1.1 oster /* Assuming a full path spec... */ 547 1.1 oster cfg_ptr = &device_config; 548 1.1 oster do_ioctl(fd, RAIDFRAME_GET_INFO, &cfg_ptr, 549 1.1 oster "RAIDFRAME_GET_INFO"); 550 1.6 oster 551 1.6 oster *num_columns = device_config.cols; 552 1.6 oster 553 1.1 oster found = 0; 554 1.1 oster for(i=0; i < device_config.ndevs; i++) { 555 1.6 oster if (strncmp(component_name, device_config.devs[i].devname, 556 1.1 oster PATH_MAX)==0) { 557 1.1 oster found = 1; 558 1.6 oster *component_number = i; 559 1.1 oster } 560 1.1 oster } 561 1.21 oster if (!found) { /* maybe it's a spare? */ 562 1.21 oster for(i=0; i < device_config.nspares; i++) { 563 1.21 oster if (strncmp(component_name, 564 1.21 oster device_config.spares[i].devname, 565 1.21 oster PATH_MAX)==0) { 566 1.21 oster found = 1; 567 1.21 oster *component_number = i + device_config.ndevs; 568 1.23 oster /* the way spares are done should 569 1.23 oster really change... */ 570 1.23 oster *num_columns = device_config.cols + 571 1.23 oster device_config.nspares; 572 1.21 oster } 573 1.21 oster } 574 1.21 oster } 575 1.21 oster 576 1.1 oster if (!found) { 577 1.26 cgd fprintf(stderr,"%s: %s is not a component %s", getprogname(), 578 1.6 oster component_name, "of this device\n"); 579 1.1 oster exit(1); 580 1.1 oster } 581 1.6 oster } 582 1.6 oster 583 1.6 oster static void 584 1.36 xtraeme rf_fail_disk(int fd, char *component_to_fail, int do_recon) 585 1.6 oster { 586 1.6 oster struct rf_recon_req recon_request; 587 1.6 oster int component_num; 588 1.6 oster int num_cols; 589 1.6 oster 590 1.6 oster get_component_number(fd, component_to_fail, &component_num, &num_cols); 591 1.1 oster 592 1.6 oster recon_request.row = component_num / num_cols; 593 1.6 oster recon_request.col = component_num % num_cols; 594 1.1 oster if (do_recon) { 595 1.1 oster recon_request.flags = RF_FDFLAGS_RECON; 596 1.1 oster } else { 597 1.1 oster recon_request.flags = RF_FDFLAGS_NONE; 598 1.1 oster } 599 1.1 oster do_ioctl(fd, RAIDFRAME_FAIL_DISK, &recon_request, 600 1.1 oster "RAIDFRAME_FAIL_DISK"); 601 1.10 oster if (do_recon && verbose) { 602 1.10 oster printf("Reconstruction status:\n"); 603 1.10 oster sleep(3); /* XXX give reconstruction a chance to start */ 604 1.19 oster do_meter(fd,RAIDFRAME_CHECK_RECON_STATUS_EXT); 605 1.10 oster } 606 1.1 oster } 607 1.1 oster 608 1.1 oster static void 609 1.36 xtraeme get_component_label(int fd, char *component) 610 1.5 oster { 611 1.5 oster RF_ComponentLabel_t component_label; 612 1.5 oster void *label_ptr; 613 1.5 oster int component_num; 614 1.6 oster int num_cols; 615 1.5 oster 616 1.6 oster get_component_number(fd, component, &component_num, &num_cols); 617 1.5 oster 618 1.5 oster memset( &component_label, 0, sizeof(RF_ComponentLabel_t)); 619 1.6 oster component_label.row = component_num / num_cols; 620 1.6 oster component_label.column = component_num % num_cols; 621 1.5 oster 622 1.5 oster label_ptr = &component_label; 623 1.5 oster do_ioctl( fd, RAIDFRAME_GET_COMPONENT_LABEL, &label_ptr, 624 1.5 oster "RAIDFRAME_GET_COMPONENT_LABEL"); 625 1.5 oster 626 1.5 oster printf("Component label for %s:\n",component); 627 1.12 oster 628 1.25 lukem printf(" Row: %d, Column: %d, Num Rows: %d, Num Columns: %d\n", 629 1.12 oster component_label.row, component_label.column, 630 1.12 oster component_label.num_rows, component_label.num_columns); 631 1.25 lukem printf(" Version: %d, Serial Number: %d, Mod Counter: %d\n", 632 1.12 oster component_label.version, component_label.serial_number, 633 1.12 oster component_label.mod_counter); 634 1.25 lukem printf(" Clean: %s, Status: %d\n", 635 1.12 oster component_label.clean ? "Yes" : "No", 636 1.12 oster component_label.status ); 637 1.25 lukem printf(" sectPerSU: %d, SUsPerPU: %d, SUsPerRU: %d\n", 638 1.12 oster component_label.sectPerSU, component_label.SUsPerPU, 639 1.12 oster component_label.SUsPerRU); 640 1.40 tron printf(" Queue size: %d, blocksize: %d, numBlocks: %u\n", 641 1.25 lukem component_label.maxOutstanding, component_label.blockSize, 642 1.25 lukem component_label.numBlocks); 643 1.25 lukem printf(" RAID Level: %c\n", (char) component_label.parityConfig); 644 1.12 oster printf(" Autoconfig: %s\n", 645 1.12 oster component_label.autoconfigure ? "Yes" : "No" ); 646 1.15 oster printf(" Root partition: %s\n", 647 1.15 oster component_label.root_partition ? "Yes" : "No" ); 648 1.12 oster printf(" Last configured as: raid%d\n", component_label.last_unit ); 649 1.5 oster } 650 1.5 oster 651 1.5 oster static void 652 1.36 xtraeme set_component_label(int fd, char *component) 653 1.5 oster { 654 1.5 oster RF_ComponentLabel_t component_label; 655 1.5 oster int component_num; 656 1.6 oster int num_cols; 657 1.5 oster 658 1.6 oster get_component_number(fd, component, &component_num, &num_cols); 659 1.6 oster 660 1.6 oster /* XXX This is currently here for testing, and future expandability */ 661 1.5 oster 662 1.5 oster component_label.version = 1; 663 1.5 oster component_label.serial_number = 123456; 664 1.5 oster component_label.mod_counter = 0; 665 1.6 oster component_label.row = component_num / num_cols; 666 1.6 oster component_label.column = component_num % num_cols; 667 1.5 oster component_label.num_rows = 0; 668 1.5 oster component_label.num_columns = 5; 669 1.5 oster component_label.clean = 0; 670 1.5 oster component_label.status = 1; 671 1.5 oster 672 1.5 oster do_ioctl( fd, RAIDFRAME_SET_COMPONENT_LABEL, &component_label, 673 1.5 oster "RAIDFRAME_SET_COMPONENT_LABEL"); 674 1.5 oster } 675 1.5 oster 676 1.5 oster 677 1.5 oster static void 678 1.36 xtraeme init_component_labels(int fd, int serial_number) 679 1.5 oster { 680 1.5 oster RF_ComponentLabel_t component_label; 681 1.5 oster 682 1.5 oster component_label.version = 0; 683 1.5 oster component_label.serial_number = serial_number; 684 1.5 oster component_label.mod_counter = 0; 685 1.5 oster component_label.row = 0; 686 1.5 oster component_label.column = 0; 687 1.5 oster component_label.num_rows = 0; 688 1.5 oster component_label.num_columns = 0; 689 1.5 oster component_label.clean = 0; 690 1.5 oster component_label.status = 0; 691 1.5 oster 692 1.5 oster do_ioctl( fd, RAIDFRAME_INIT_LABELS, &component_label, 693 1.5 oster "RAIDFRAME_SET_COMPONENT_LABEL"); 694 1.12 oster } 695 1.12 oster 696 1.12 oster static void 697 1.36 xtraeme set_autoconfig(int fd, int raidID, char *autoconf) 698 1.12 oster { 699 1.12 oster int auto_config; 700 1.12 oster int root_config; 701 1.12 oster 702 1.12 oster auto_config = 0; 703 1.12 oster root_config = 0; 704 1.12 oster 705 1.12 oster if (strncasecmp(autoconf,"root", 4) == 0) { 706 1.12 oster root_config = 1; 707 1.12 oster } 708 1.12 oster 709 1.12 oster if ((strncasecmp(autoconf,"yes", 3) == 0) || 710 1.12 oster root_config == 1) { 711 1.12 oster auto_config = 1; 712 1.12 oster } 713 1.12 oster 714 1.12 oster do_ioctl(fd, RAIDFRAME_SET_AUTOCONFIG, &auto_config, 715 1.12 oster "RAIDFRAME_SET_AUTOCONFIG"); 716 1.12 oster 717 1.12 oster do_ioctl(fd, RAIDFRAME_SET_ROOT, &root_config, 718 1.12 oster "RAIDFRAME_SET_ROOT"); 719 1.12 oster 720 1.12 oster printf("raid%d: Autoconfigure: %s\n", raidID, 721 1.12 oster auto_config ? "Yes" : "No"); 722 1.12 oster 723 1.12 oster if (root_config == 1) { 724 1.12 oster printf("raid%d: Root: %s\n", raidID, 725 1.12 oster auto_config ? "Yes" : "No"); 726 1.12 oster } 727 1.5 oster } 728 1.5 oster 729 1.5 oster static void 730 1.36 xtraeme add_hot_spare(int fd, char *component) 731 1.5 oster { 732 1.6 oster RF_SingleComponent_t hot_spare; 733 1.5 oster 734 1.6 oster hot_spare.row = 0; 735 1.6 oster hot_spare.column = 0; 736 1.6 oster strncpy(hot_spare.component_name, component, 737 1.6 oster sizeof(hot_spare.component_name)); 738 1.5 oster 739 1.5 oster do_ioctl( fd, RAIDFRAME_ADD_HOT_SPARE, &hot_spare, 740 1.5 oster "RAIDFRAME_ADD_HOT_SPARE"); 741 1.6 oster } 742 1.6 oster 743 1.6 oster static void 744 1.36 xtraeme remove_hot_spare(int fd, char *component) 745 1.6 oster { 746 1.6 oster RF_SingleComponent_t hot_spare; 747 1.6 oster int component_num; 748 1.6 oster int num_cols; 749 1.5 oster 750 1.6 oster get_component_number(fd, component, &component_num, &num_cols); 751 1.6 oster 752 1.6 oster hot_spare.row = component_num / num_cols; 753 1.6 oster hot_spare.column = component_num % num_cols; 754 1.6 oster 755 1.6 oster strncpy(hot_spare.component_name, component, 756 1.6 oster sizeof(hot_spare.component_name)); 757 1.6 oster 758 1.6 oster do_ioctl( fd, RAIDFRAME_REMOVE_HOT_SPARE, &hot_spare, 759 1.6 oster "RAIDFRAME_REMOVE_HOT_SPARE"); 760 1.6 oster } 761 1.6 oster 762 1.6 oster static void 763 1.36 xtraeme rebuild_in_place(int fd, char *component) 764 1.6 oster { 765 1.6 oster RF_SingleComponent_t comp; 766 1.6 oster int component_num; 767 1.6 oster int num_cols; 768 1.6 oster 769 1.6 oster get_component_number(fd, component, &component_num, &num_cols); 770 1.6 oster 771 1.6 oster comp.row = 0; 772 1.6 oster comp.column = component_num; 773 1.6 oster strncpy(comp.component_name, component, sizeof(comp.component_name)); 774 1.6 oster 775 1.6 oster do_ioctl( fd, RAIDFRAME_REBUILD_IN_PLACE, &comp, 776 1.6 oster "RAIDFRAME_REBUILD_IN_PLACE"); 777 1.10 oster 778 1.10 oster if (verbose) { 779 1.10 oster printf("Reconstruction status:\n"); 780 1.10 oster sleep(3); /* XXX give reconstruction a chance to start */ 781 1.19 oster do_meter(fd,RAIDFRAME_CHECK_RECON_STATUS_EXT); 782 1.10 oster } 783 1.10 oster 784 1.10 oster } 785 1.10 oster 786 1.10 oster static void 787 1.36 xtraeme check_parity(int fd, int do_rewrite, char *dev_name) 788 1.10 oster { 789 1.10 oster int is_clean; 790 1.10 oster int percent_done; 791 1.10 oster 792 1.10 oster is_clean = 0; 793 1.10 oster percent_done = 0; 794 1.10 oster do_ioctl(fd, RAIDFRAME_CHECK_PARITY, &is_clean, 795 1.10 oster "RAIDFRAME_CHECK_PARITY"); 796 1.10 oster if (is_clean) { 797 1.10 oster printf("%s: Parity status: clean\n",dev_name); 798 1.10 oster } else { 799 1.10 oster printf("%s: Parity status: DIRTY\n",dev_name); 800 1.10 oster if (do_rewrite) { 801 1.10 oster printf("%s: Initiating re-write of parity\n", 802 1.10 oster dev_name); 803 1.10 oster do_ioctl(fd, RAIDFRAME_REWRITEPARITY, NULL, 804 1.10 oster "RAIDFRAME_REWRITEPARITY"); 805 1.10 oster sleep(3); /* XXX give it time to 806 1.10 oster get started. */ 807 1.10 oster if (verbose) { 808 1.10 oster printf("Parity Re-write status:\n"); 809 1.19 oster do_meter(fd, RAIDFRAME_CHECK_PARITYREWRITE_STATUS_EXT); 810 1.10 oster } else { 811 1.10 oster do_ioctl(fd, 812 1.10 oster RAIDFRAME_CHECK_PARITYREWRITE_STATUS, 813 1.10 oster &percent_done, 814 1.10 oster "RAIDFRAME_CHECK_PARITYREWRITE_STATUS" 815 1.10 oster ); 816 1.10 oster while( percent_done < 100 ) { 817 1.24 oster sleep(3); /* wait a bit... */ 818 1.10 oster do_ioctl(fd, RAIDFRAME_CHECK_PARITYREWRITE_STATUS, 819 1.10 oster &percent_done, "RAIDFRAME_CHECK_PARITYREWRITE_STATUS"); 820 1.10 oster } 821 1.10 oster 822 1.10 oster } 823 1.10 oster printf("%s: Parity Re-write complete\n", 824 1.10 oster dev_name); 825 1.10 oster } else { 826 1.10 oster /* parity is wrong, and is not being fixed. 827 1.10 oster Exit w/ an error. */ 828 1.10 oster exit(1); 829 1.10 oster } 830 1.10 oster } 831 1.10 oster } 832 1.10 oster 833 1.10 oster 834 1.10 oster static void 835 1.36 xtraeme check_status(int fd, int meter) 836 1.10 oster { 837 1.10 oster int recon_percent_done = 0; 838 1.10 oster int parity_percent_done = 0; 839 1.10 oster int copyback_percent_done = 0; 840 1.10 oster 841 1.10 oster do_ioctl(fd, RAIDFRAME_CHECK_RECON_STATUS, &recon_percent_done, 842 1.10 oster "RAIDFRAME_CHECK_RECON_STATUS"); 843 1.10 oster printf("Reconstruction is %d%% complete.\n", recon_percent_done); 844 1.10 oster do_ioctl(fd, RAIDFRAME_CHECK_PARITYREWRITE_STATUS, 845 1.10 oster &parity_percent_done, 846 1.10 oster "RAIDFRAME_CHECK_PARITYREWRITE_STATUS"); 847 1.10 oster printf("Parity Re-write is %d%% complete.\n", parity_percent_done); 848 1.10 oster do_ioctl(fd, RAIDFRAME_CHECK_COPYBACK_STATUS, ©back_percent_done, 849 1.10 oster "RAIDFRAME_CHECK_COPYBACK_STATUS"); 850 1.10 oster printf("Copyback is %d%% complete.\n", copyback_percent_done); 851 1.10 oster 852 1.14 oster if (meter) { 853 1.14 oster /* These 3 should be mutually exclusive at this point */ 854 1.14 oster if (recon_percent_done < 100) { 855 1.14 oster printf("Reconstruction status:\n"); 856 1.19 oster do_meter(fd,RAIDFRAME_CHECK_RECON_STATUS_EXT); 857 1.14 oster } else if (parity_percent_done < 100) { 858 1.14 oster printf("Parity Re-write status:\n"); 859 1.19 oster do_meter(fd,RAIDFRAME_CHECK_PARITYREWRITE_STATUS_EXT); 860 1.14 oster } else if (copyback_percent_done < 100) { 861 1.14 oster printf("Copyback status:\n"); 862 1.19 oster do_meter(fd,RAIDFRAME_CHECK_COPYBACK_STATUS_EXT); 863 1.14 oster } 864 1.10 oster } 865 1.10 oster } 866 1.10 oster 867 1.18 thorpej const char *tbits = "|/-\\"; 868 1.10 oster 869 1.10 oster static void 870 1.36 xtraeme do_meter(int fd, u_long option) 871 1.10 oster { 872 1.10 oster int percent_done; 873 1.37 oster RF_uint64 start_value; 874 1.19 oster RF_ProgressInfo_t progressInfo; 875 1.19 oster void *pInfoPtr; 876 1.10 oster struct timeval start_time; 877 1.10 oster struct timeval current_time; 878 1.10 oster double elapsed; 879 1.10 oster int elapsed_sec; 880 1.10 oster int elapsed_usec; 881 1.20 oster int simple_eta,last_eta; 882 1.10 oster double rate; 883 1.37 oster RF_uint64 amount; 884 1.10 oster int tbit_value; 885 1.10 oster char buffer[1024]; 886 1.10 oster char bar_buffer[1024]; 887 1.10 oster char eta_buffer[1024]; 888 1.10 oster 889 1.10 oster if (gettimeofday(&start_time,NULL)) { 890 1.26 cgd fprintf(stderr,"%s: gettimeofday failed!?!?\n", getprogname()); 891 1.10 oster exit(errno); 892 1.10 oster } 893 1.19 oster memset(&progressInfo, 0, sizeof(RF_ProgressInfo_t)); 894 1.19 oster pInfoPtr=&progressInfo; 895 1.19 oster 896 1.10 oster percent_done = 0; 897 1.19 oster do_ioctl(fd, option, &pInfoPtr, ""); 898 1.37 oster start_value = progressInfo.completed; 899 1.10 oster current_time = start_time; 900 1.38 lukem simple_eta = 0; 901 1.38 lukem last_eta = 0; 902 1.10 oster 903 1.10 oster tbit_value = 0; 904 1.19 oster while(progressInfo.completed < progressInfo.total) { 905 1.10 oster 906 1.19 oster percent_done = (progressInfo.completed * 100) / 907 1.19 oster progressInfo.total; 908 1.10 oster 909 1.10 oster get_bar(bar_buffer, percent_done, 40); 910 1.10 oster 911 1.20 oster elapsed_sec = current_time.tv_sec - start_time.tv_sec; 912 1.20 oster elapsed_usec = current_time.tv_usec - start_time.tv_usec; 913 1.10 oster if (elapsed_usec < 0) { 914 1.10 oster elapsed_usec-=1000000; 915 1.10 oster elapsed_sec++; 916 1.10 oster } 917 1.20 oster 918 1.10 oster elapsed = (double) elapsed_sec + 919 1.10 oster (double) elapsed_usec / 1000000.0; 920 1.19 oster 921 1.20 oster amount = progressInfo.completed - start_value; 922 1.19 oster 923 1.10 oster if (amount <= 0) { /* we don't do negatives (yet?) */ 924 1.10 oster amount = 0; 925 1.10 oster } 926 1.20 oster 927 1.22 oster if (elapsed == 0) 928 1.22 oster rate = 0.0; 929 1.22 oster else 930 1.22 oster rate = amount / elapsed; 931 1.10 oster 932 1.10 oster if (rate > 0.0) { 933 1.19 oster simple_eta = (int) (((double)progressInfo.total - 934 1.20 oster (double) progressInfo.completed) 935 1.19 oster / rate); 936 1.10 oster } else { 937 1.10 oster simple_eta = -1; 938 1.10 oster } 939 1.19 oster 940 1.10 oster if (simple_eta <=0) { 941 1.10 oster simple_eta = last_eta; 942 1.10 oster } else { 943 1.10 oster last_eta = simple_eta; 944 1.10 oster } 945 1.10 oster 946 1.20 oster get_time_string(eta_buffer, simple_eta); 947 1.10 oster 948 1.10 oster snprintf(buffer,1024,"\r%3d%% |%s| ETA: %s %c", 949 1.10 oster percent_done,bar_buffer,eta_buffer,tbits[tbit_value]); 950 1.10 oster 951 1.10 oster write(fileno(stdout),buffer,strlen(buffer)); 952 1.10 oster fflush(stdout); 953 1.10 oster 954 1.10 oster if (++tbit_value>3) 955 1.10 oster tbit_value = 0; 956 1.10 oster 957 1.10 oster sleep(2); 958 1.10 oster 959 1.10 oster if (gettimeofday(¤t_time,NULL)) { 960 1.10 oster fprintf(stderr,"%s: gettimeofday failed!?!?\n", 961 1.26 cgd getprogname()); 962 1.10 oster exit(errno); 963 1.10 oster } 964 1.10 oster 965 1.19 oster do_ioctl( fd, option, &pInfoPtr, ""); 966 1.10 oster 967 1.10 oster 968 1.10 oster } 969 1.10 oster printf("\n"); 970 1.10 oster } 971 1.10 oster /* 40 '*''s per line, then 40 ' ''s line. */ 972 1.10 oster /* If you've got a screen wider than 160 characters, "tough" */ 973 1.10 oster 974 1.10 oster #define STAR_MIDPOINT 4*40 975 1.10 oster const char stars[] = "****************************************" 976 1.10 oster "****************************************" 977 1.10 oster "****************************************" 978 1.10 oster "****************************************" 979 1.10 oster " " 980 1.10 oster " " 981 1.10 oster " " 982 1.10 oster " " 983 1.10 oster " "; 984 1.10 oster 985 1.10 oster static void 986 1.36 xtraeme get_bar(char *string, double percent, int max_strlen) 987 1.10 oster { 988 1.10 oster int offset; 989 1.10 oster 990 1.10 oster if (max_strlen > STAR_MIDPOINT) { 991 1.10 oster max_strlen = STAR_MIDPOINT; 992 1.10 oster } 993 1.10 oster offset = STAR_MIDPOINT - 994 1.10 oster (int)((percent * max_strlen)/ 100); 995 1.10 oster if (offset < 0) 996 1.10 oster offset = 0; 997 1.10 oster snprintf(string,max_strlen,"%s",&stars[offset]); 998 1.10 oster } 999 1.10 oster 1000 1.10 oster static void 1001 1.36 xtraeme get_time_string(char *string, int simple_time) 1002 1.10 oster { 1003 1.10 oster int minutes, seconds, hours; 1004 1.10 oster char hours_buffer[5]; 1005 1.10 oster char minutes_buffer[5]; 1006 1.10 oster char seconds_buffer[5]; 1007 1.10 oster 1008 1.10 oster if (simple_time >= 0) { 1009 1.10 oster 1010 1.10 oster minutes = (int) simple_time / 60; 1011 1.10 oster seconds = ((int)simple_time - 60*minutes); 1012 1.10 oster hours = minutes / 60; 1013 1.10 oster minutes = minutes - 60*hours; 1014 1.10 oster 1015 1.10 oster if (hours > 0) { 1016 1.10 oster snprintf(hours_buffer,5,"%02d:",hours); 1017 1.10 oster } else { 1018 1.10 oster snprintf(hours_buffer,5," "); 1019 1.10 oster } 1020 1.10 oster 1021 1.10 oster snprintf(minutes_buffer,5,"%02d:",minutes); 1022 1.10 oster snprintf(seconds_buffer,5,"%02d",seconds); 1023 1.10 oster snprintf(string,1024,"%s%s%s", 1024 1.10 oster hours_buffer, minutes_buffer, seconds_buffer); 1025 1.10 oster } else { 1026 1.10 oster snprintf(string,1024," --:--"); 1027 1.10 oster } 1028 1.10 oster 1029 1.5 oster } 1030 1.5 oster 1031 1.5 oster static void 1032 1.36 xtraeme usage(void) 1033 1.1 oster { 1034 1.26 cgd const char *progname = getprogname(); 1035 1.26 cgd 1036 1.26 cgd fprintf(stderr, "usage: %s [-v] -a component dev\n", progname); 1037 1.26 cgd fprintf(stderr, " %s [-v] -A yes | no | root dev\n", progname); 1038 1.26 cgd fprintf(stderr, " %s [-v] -B dev\n", progname); 1039 1.26 cgd fprintf(stderr, " %s [-v] -c config_file dev\n", progname); 1040 1.26 cgd fprintf(stderr, " %s [-v] -C config_file dev\n", progname); 1041 1.26 cgd fprintf(stderr, " %s [-v] -f component dev\n", progname); 1042 1.26 cgd fprintf(stderr, " %s [-v] -F component dev\n", progname); 1043 1.26 cgd fprintf(stderr, " %s [-v] -g component dev\n", progname); 1044 1.27 lukem fprintf(stderr, " %s [-v] -G dev\n", progname); 1045 1.26 cgd fprintf(stderr, " %s [-v] -i dev\n", progname); 1046 1.26 cgd fprintf(stderr, " %s [-v] -I serial_number dev\n", progname); 1047 1.31 oster fprintf(stderr, " %s [-v] -p dev\n", progname); 1048 1.31 oster fprintf(stderr, " %s [-v] -P dev\n", progname); 1049 1.26 cgd fprintf(stderr, " %s [-v] -r component dev\n", progname); 1050 1.26 cgd fprintf(stderr, " %s [-v] -R component dev\n", progname); 1051 1.26 cgd fprintf(stderr, " %s [-v] -s dev\n", progname); 1052 1.26 cgd fprintf(stderr, " %s [-v] -S dev\n", progname); 1053 1.26 cgd fprintf(stderr, " %s [-v] -u dev\n", progname); 1054 1.1 oster exit(1); 1055 1.1 oster /* NOTREACHED */ 1056 1.1 oster } 1057
Indexes created Mon Sep 22 21:09:42 GMT 2025