1: /*
2: * smartctl.cpp
3: *
4: * Home page of code is: http://smartmontools.sourceforge.net
5: *
6: * Copyright (C) 2002-11 Bruce Allen <smartmontools-support@lists.sourceforge.net>
7: * Copyright (C) 2008-12 Christian Franke <smartmontools-support@lists.sourceforge.net>
8: * Copyright (C) 2000 Michael Cornwell <cornwell@acm.org>
9: *
10: * This program is free software; you can redistribute it and/or modify
11: * it under the terms of the GNU General Public License as published by
12: * the Free Software Foundation; either version 2, or (at your option)
13: * any later version.
14: *
15: * You should have received a copy of the GNU General Public License
16: * (for example COPYING); if not, write to the Free
17: * Software Foundation, Inc., 675 Mass Ave, Cambridge, MA 02139, USA.
18: *
19: * This code was originally developed as a Senior Thesis by Michael Cornwell
20: * at the Concurrent Systems Laboratory (now part of the Storage Systems
21: * Research Center), Jack Baskin School of Engineering, University of
22: * California, Santa Cruz. http://ssrc.soe.ucsc.edu/
23: *
24: */
25:
26: #include <errno.h>
27: #include <stdio.h>
28: #include <sys/types.h>
29: #include <string.h>
30: #include <stdarg.h>
31: #include <stdexcept>
32: #include <getopt.h>
33:
34: #include "config.h"
35:
36: #ifdef HAVE_UNISTD_H
37: #include <unistd.h>
38: #endif
39:
40: #if defined(__FreeBSD__)
41: #include <sys/param.h>
42: #endif
43:
44: #if defined(__QNXNTO__)
45: #include <new> // TODO: Why is this include necessary on QNX ?
46: #endif
47:
48: #include "int64.h"
49: #include "atacmds.h"
50: #include "dev_interface.h"
51: #include "ataprint.h"
52: #include "knowndrives.h"
53: #include "scsicmds.h"
54: #include "scsiprint.h"
55: #include "smartctl.h"
56: #include "utility.h"
57:
58: const char * smartctl_cpp_cvsid = "$Id: smartctl.cpp,v 1.1.1.2 2012/10/09 09:36:45 misho Exp $"
59: CONFIG_H_CVSID SMARTCTL_H_CVSID;
60:
61: // Globals to control printing
62: bool printing_is_switchable = false;
63: bool printing_is_off = false;
64:
65: static void printslogan()
66: {
67: pout("%s\n", format_version_info("smartctl").c_str());
68: }
69:
70: static void UsageSummary()
71: {
72: pout("\nUse smartctl -h to get a usage summary\n\n");
73: return;
74: }
75:
76: static std::string getvalidarglist(int opt);
77:
78: /* void prints help information for command syntax */
79: static void Usage()
80: {
81: printf("Usage: smartctl [options] device\n\n");
82: printf(
83: "============================================ SHOW INFORMATION OPTIONS =====\n\n"
84: " -h, --help, --usage\n"
85: " Display this help and exit\n\n"
86: " -V, --version, --copyright, --license\n"
87: " Print license, copyright, and version information and exit\n\n"
88: " -i, --info\n"
89: " Show identity information for device\n\n"
90: " -g NAME, --get=NAME\n"
91: " Get device setting: all, aam, apm, lookahead, security, wcache\n\n"
92: " -a, --all\n"
93: " Show all SMART information for device\n\n"
94: " -x, --xall\n"
95: " Show all information for device\n\n"
96: " --scan\n"
97: " Scan for devices\n\n"
98: " --scan-open\n"
99: " Scan for devices and try to open each device\n\n"
100: );
101: printf(
102: "================================== SMARTCTL RUN-TIME BEHAVIOR OPTIONS =====\n\n"
103: " -q TYPE, --quietmode=TYPE (ATA)\n"
104: " Set smartctl quiet mode to one of: errorsonly, silent, noserial\n\n"
105: " -d TYPE, --device=TYPE\n"
106: " Specify device type to one of: %s\n\n"
107: " -T TYPE, --tolerance=TYPE (ATA)\n"
108: " Tolerance: normal, conservative, permissive, verypermissive\n\n"
109: " -b TYPE, --badsum=TYPE (ATA)\n"
110: " Set action on bad checksum to one of: warn, exit, ignore\n\n"
111: " -r TYPE, --report=TYPE\n"
112: " Report transactions (see man page)\n\n"
113: " -n MODE, --nocheck=MODE (ATA)\n"
114: " No check if: never, sleep, standby, idle (see man page)\n\n",
115: getvalidarglist('d').c_str()); // TODO: Use this function also for other options ?
116: printf(
117: "============================== DEVICE FEATURE ENABLE/DISABLE COMMANDS =====\n\n"
118: " -s VALUE, --smart=VALUE\n"
119: " Enable/disable SMART on device (on/off)\n\n"
120: " -o VALUE, --offlineauto=VALUE (ATA)\n"
121: " Enable/disable automatic offline testing on device (on/off)\n\n"
122: " -S VALUE, --saveauto=VALUE (ATA)\n"
123: " Enable/disable Attribute autosave on device (on/off)\n\n"
124: " -s NAME[,VALUE], --set=NAME[,VALUE]\n"
125: " Enable/disable/change device setting: aam,[N|off], apm,[N|off],\n"
126: " lookahead,[on|off], security-freeze, standby,[N|off|now],\n"
127: " wcache,[on|off]\n\n"
128: );
129: printf(
130: "======================================= READ AND DISPLAY DATA OPTIONS =====\n\n"
131: " -H, --health\n"
132: " Show device SMART health status\n\n"
133: " -c, --capabilities (ATA)\n"
134: " Show device SMART capabilities\n\n"
135: " -A, --attributes\n"
136: " Show device SMART vendor-specific Attributes and values\n\n"
137: " -f FORMAT, --format=FORMAT (ATA)\n"
138: " Set output format for attributes: old, brief, hex[,id|val]\n\n"
139: " -l TYPE, --log=TYPE\n"
140: " Show device log. TYPE: error, selftest, selective, directory[,g|s],\n"
141: " xerror[,N][,error], xselftest[,N][,selftest],\n"
142: " background, sasphy[,reset], sataphy[,reset],\n"
143: " scttemp[sts,hist], scttempint,N[,p],\n"
144: " scterc[,N,M], devstat[,N], ssd,\n"
145: " gplog,N[,RANGE], smartlog,N[,RANGE]\n\n"
146: " -v N,OPTION , --vendorattribute=N,OPTION (ATA)\n"
147: " Set display OPTION for vendor Attribute N (see man page)\n\n"
148: " -F TYPE, --firmwarebug=TYPE (ATA)\n"
149: " Use firmware bug workaround: none, samsung, samsung2,\n"
150: " samsung3, swapid\n\n"
151: " -P TYPE, --presets=TYPE (ATA)\n"
152: " Drive-specific presets: use, ignore, show, showall\n\n"
153: " -B [+]FILE, --drivedb=[+]FILE (ATA)\n"
154: " Read and replace [add] drive database from FILE\n"
155: " [default is +%s",
156: get_drivedb_path_add()
157: );
158: #ifdef SMARTMONTOOLS_DRIVEDBDIR
159: printf(
160: "\n"
161: " and then %s",
162: get_drivedb_path_default()
163: );
164: #endif
165: printf(
166: "]\n\n"
167: "============================================ DEVICE SELF-TEST OPTIONS =====\n\n"
168: " -t TEST, --test=TEST\n"
169: " Run test. TEST: offline, short, long, conveyance, force, vendor,N,\n"
170: " select,M-N, pending,N, afterselect,[on|off]\n\n"
171: " -C, --captive\n"
172: " Do test in captive mode (along with -t)\n\n"
173: " -X, --abort\n"
174: " Abort any non-captive test on device\n\n"
175: );
176: std::string examples = smi()->get_app_examples("smartctl");
177: if (!examples.empty())
178: printf("%s\n", examples.c_str());
179: }
180:
181: // Values for --long only options, see parse_options()
182: enum { opt_scan = 1000, opt_scan_open, opt_set, opt_smart };
183:
184: /* Returns a string containing a formatted list of the valid arguments
185: to the option opt or empty on failure. Note 'v' case different */
186: static std::string getvalidarglist(int opt)
187: {
188: switch (opt) {
189: case 'q':
190: return "errorsonly, silent, noserial";
191: case 'd':
192: return smi()->get_valid_dev_types_str() + ", auto, test";
193: case 'T':
194: return "normal, conservative, permissive, verypermissive";
195: case 'b':
196: return "warn, exit, ignore";
197: case 'r':
198: return "ioctl[,N], ataioctl[,N], scsiioctl[,N]";
199: case opt_smart:
200: case 'o':
201: case 'S':
202: return "on, off";
203: case 'l':
204: return "error, selftest, selective, directory[,g|s], "
205: "xerror[,N][,error], xselftest[,N][,selftest], "
206: "background, sasphy[,reset], sataphy[,reset], "
207: "scttemp[sts,hist], scttempint,N[,p], "
208: "scterc[,N,M], devstat[,N], ssd, "
209: "gplog,N[,RANGE], smartlog,N[,RANGE]";
210:
211: case 'P':
212: return "use, ignore, show, showall";
213: case 't':
214: return "offline, short, long, conveyance, force, vendor,N, select,M-N, "
215: "pending,N, afterselect,[on|off]";
216: case 'F':
217: return "none, samsung, samsung2, samsung3, swapid";
218: case 'n':
219: return "never, sleep, standby, idle";
220: case 'f':
221: return "old, brief, hex[,id|val]";
222: case 'g':
223: return "aam, apm, lookahead, security, wcache";
224: case opt_set:
225: return "aam,[N|off], apm,[N|off], lookahead,[on|off], security-freeze, "
226: "standby,[N|off|now], wcache,[on|off]";
227: case 's':
228: return getvalidarglist(opt_smart)+", "+getvalidarglist(opt_set);
229: case 'v':
230: default:
231: return "";
232: }
233: }
234:
235: /* Prints the message "=======> VALID ARGUMENTS ARE: <LIST> \n", where
236: <LIST> is the list of valid arguments for option opt. */
237: static void printvalidarglistmessage(int opt)
238: {
239: if (opt=='v'){
240: pout("=======> VALID ARGUMENTS ARE:\n\thelp\n%s\n<=======\n",
241: create_vendor_attribute_arg_list().c_str());
242: }
243: else {
244: // getvalidarglist() might produce a multiline or single line string. We
245: // need to figure out which to get the formatting right.
246: std::string s = getvalidarglist(opt);
247: char separator = strchr(s.c_str(), '\n') ? '\n' : ' ';
248: pout("=======> VALID ARGUMENTS ARE:%c%s%c<=======\n", separator, s.c_str(), separator);
249: }
250:
251: return;
252: }
253:
254: // Checksum error mode
255: enum checksum_err_mode_t {
256: CHECKSUM_ERR_WARN, CHECKSUM_ERR_EXIT, CHECKSUM_ERR_IGNORE
257: };
258:
259: static checksum_err_mode_t checksum_err_mode = CHECKSUM_ERR_WARN;
260:
261: static void scan_devices(const char * type, bool with_open, char ** argv);
262:
263:
264: /* Takes command options and sets features to be run */
265: static const char * parse_options(int argc, char** argv,
266: ata_print_options & ataopts, scsi_print_options & scsiopts,
267: bool & print_type_only)
268: {
269: // Please update getvalidarglist() if you edit shortopts
270: const char *shortopts = "h?Vq:d:T:b:r:s:o:S:HcAl:iaxv:P:t:CXF:n:B:f:g:";
271: // Please update getvalidarglist() if you edit longopts
272: struct option longopts[] = {
273: { "help", no_argument, 0, 'h' },
274: { "usage", no_argument, 0, 'h' },
275: { "version", no_argument, 0, 'V' },
276: { "copyright", no_argument, 0, 'V' },
277: { "license", no_argument, 0, 'V' },
278: { "quietmode", required_argument, 0, 'q' },
279: { "device", required_argument, 0, 'd' },
280: { "tolerance", required_argument, 0, 'T' },
281: { "badsum", required_argument, 0, 'b' },
282: { "report", required_argument, 0, 'r' },
283: { "smart", required_argument, 0, opt_smart },
284: { "offlineauto", required_argument, 0, 'o' },
285: { "saveauto", required_argument, 0, 'S' },
286: { "health", no_argument, 0, 'H' },
287: { "capabilities", no_argument, 0, 'c' },
288: { "attributes", no_argument, 0, 'A' },
289: { "log", required_argument, 0, 'l' },
290: { "info", no_argument, 0, 'i' },
291: { "all", no_argument, 0, 'a' },
292: { "xall", no_argument, 0, 'x' },
293: { "vendorattribute", required_argument, 0, 'v' },
294: { "presets", required_argument, 0, 'P' },
295: { "test", required_argument, 0, 't' },
296: { "captive", no_argument, 0, 'C' },
297: { "abort", no_argument, 0, 'X' },
298: { "firmwarebug", required_argument, 0, 'F' },
299: { "nocheck", required_argument, 0, 'n' },
300: { "drivedb", required_argument, 0, 'B' },
301: { "format", required_argument, 0, 'f' },
302: { "get", required_argument, 0, 'g' },
303: { "set", required_argument, 0, opt_set },
304: { "scan", no_argument, 0, opt_scan },
305: { "scan-open", no_argument, 0, opt_scan_open },
306: { 0, 0, 0, 0 }
307: };
308:
309: char extraerror[256];
310: memset(extraerror, 0, sizeof(extraerror));
311: opterr=optopt=0;
312:
313: const char * type = 0; // set to -d optarg
314: bool no_defaultdb = false; // set true on '-B FILE'
315: bool output_format_set = false; // set true on '-f FORMAT'
316: int scan = 0; // set by --scan, --scan-open
317: bool badarg = false, captive = false;
318: int testcnt = 0; // number of self-tests requested
319:
320: int optchar;
321: char *arg;
322:
323: while ((optchar = getopt_long(argc, argv, shortopts, longopts, 0)) != -1) {
324: switch (optchar){
325: case 'V':
326: printing_is_off = false;
327: pout("%s", format_version_info("smartctl", true /*full*/).c_str());
328: EXIT(0);
329: break;
330: case 'q':
331: if (!strcmp(optarg,"errorsonly")) {
332: printing_is_switchable = true;
333: printing_is_off = false;
334: } else if (!strcmp(optarg,"silent")) {
335: printing_is_switchable = false;
336: printing_is_off = true;
337: } else if (!strcmp(optarg,"noserial")) {
338: dont_print_serial_number = true;
339: } else {
340: badarg = true;
341: }
342: break;
343: case 'd':
344: if (!strcmp(optarg, "test"))
345: print_type_only = true;
346: else
347: type = (strcmp(optarg, "auto") ? optarg : (char *)0);
348: break;
349: case 'T':
350: if (!strcmp(optarg,"normal")) {
351: failuretest_conservative = false;
352: failuretest_permissive = 0;
353: } else if (!strcmp(optarg,"conservative")) {
354: failuretest_conservative = true;
355: } else if (!strcmp(optarg,"permissive")) {
356: if (failuretest_permissive < 0xff)
357: failuretest_permissive++;
358: } else if (!strcmp(optarg,"verypermissive")) {
359: failuretest_permissive = 0xff;
360: } else {
361: badarg = true;
362: }
363: break;
364: case 'b':
365: if (!strcmp(optarg,"warn")) {
366: checksum_err_mode = CHECKSUM_ERR_WARN;
367: } else if (!strcmp(optarg,"exit")) {
368: checksum_err_mode = CHECKSUM_ERR_EXIT;
369: } else if (!strcmp(optarg,"ignore")) {
370: checksum_err_mode = CHECKSUM_ERR_IGNORE;
371: } else {
372: badarg = true;
373: }
374: break;
375: case 'r':
376: {
377: int i;
378: char *s;
379:
380: // split_report_arg() may modify its first argument string, so use a
381: // copy of optarg in case we want optarg for an error message.
382: if (!(s = strdup(optarg))) {
383: throw std::bad_alloc();
384: }
385: if (split_report_arg(s, &i)) {
386: badarg = true;
387: } else if (!strcmp(s,"ioctl")) {
388: ata_debugmode = scsi_debugmode = i;
389: } else if (!strcmp(s,"ataioctl")) {
390: ata_debugmode = i;
391: } else if (!strcmp(s,"scsiioctl")) {
392: scsi_debugmode = i;
393: } else {
394: badarg = true;
395: }
396: free(s);
397: }
398: break;
399:
400: case 's':
401: case opt_smart: // --smart
402: if (!strcmp(optarg,"on")) {
403: ataopts.smart_enable = scsiopts.smart_enable = true;
404: ataopts.smart_disable = scsiopts.smart_disable = false;
405: } else if (!strcmp(optarg,"off")) {
406: ataopts.smart_disable = scsiopts.smart_disable = true;
407: ataopts.smart_enable = scsiopts.smart_enable = false;
408: } else if (optchar == 's') {
409: goto case_s_continued; // --set, see below
410: } else {
411: badarg = true;
412: }
413: break;
414:
415: case 'o':
416: if (!strcmp(optarg,"on")) {
417: ataopts.smart_auto_offl_enable = true;
418: ataopts.smart_auto_offl_disable = false;
419: } else if (!strcmp(optarg,"off")) {
420: ataopts.smart_auto_offl_disable = true;
421: ataopts.smart_auto_offl_enable = false;
422: } else {
423: badarg = true;
424: }
425: break;
426: case 'S':
427: if (!strcmp(optarg,"on")) {
428: ataopts.smart_auto_save_enable = scsiopts.smart_auto_save_enable = true;
429: ataopts.smart_auto_save_disable = scsiopts.smart_auto_save_disable = false;
430: } else if (!strcmp(optarg,"off")) {
431: ataopts.smart_auto_save_disable = scsiopts.smart_auto_save_disable = true;
432: ataopts.smart_auto_save_enable = scsiopts.smart_auto_save_enable = false;
433: } else {
434: badarg = true;
435: }
436: break;
437: case 'H':
438: ataopts.smart_check_status = scsiopts.smart_check_status = true;
439: scsiopts.smart_ss_media_log = true;
440: break;
441: case 'F':
442: if (!strcmp(optarg,"none")) {
443: ataopts.fix_firmwarebug = FIX_NONE;
444: } else if (!strcmp(optarg,"samsung")) {
445: ataopts.fix_firmwarebug = FIX_SAMSUNG;
446: } else if (!strcmp(optarg,"samsung2")) {
447: ataopts.fix_firmwarebug = FIX_SAMSUNG2;
448: } else if (!strcmp(optarg,"samsung3")) {
449: ataopts.fix_firmwarebug = FIX_SAMSUNG3;
450: } else if (!strcmp(optarg,"swapid")) {
451: ataopts.fix_swapped_id = true;
452: } else {
453: badarg = true;
454: }
455: break;
456: case 'c':
457: ataopts.smart_general_values = true;
458: break;
459: case 'A':
460: ataopts.smart_vendor_attrib = scsiopts.smart_vendor_attrib = true;
461: break;
462: case 'l':
463: if (!strcmp(optarg,"error")) {
464: ataopts.smart_error_log = scsiopts.smart_error_log = true;
465: } else if (!strcmp(optarg,"selftest")) {
466: ataopts.smart_selftest_log = scsiopts.smart_selftest_log = true;
467: } else if (!strcmp(optarg, "selective")) {
468: ataopts.smart_selective_selftest_log = true;
469: } else if (!strcmp(optarg,"directory")) {
470: ataopts.smart_logdir = ataopts.gp_logdir = true; // SMART+GPL
471: } else if (!strcmp(optarg,"directory,s")) {
472: ataopts.smart_logdir = true; // SMART
473: } else if (!strcmp(optarg,"directory,g")) {
474: ataopts.gp_logdir = true; // GPL
475: } else if (!strcmp(optarg,"sasphy")) {
476: scsiopts.sasphy = true;
477: } else if (!strcmp(optarg,"sasphy,reset")) {
478: scsiopts.sasphy = scsiopts.sasphy_reset = true;
479: } else if (!strcmp(optarg,"sataphy")) {
480: ataopts.sataphy = true;
481: } else if (!strcmp(optarg,"sataphy,reset")) {
482: ataopts.sataphy = ataopts.sataphy_reset = true;
483: } else if (!strcmp(optarg,"background")) {
484: scsiopts.smart_background_log = true;
485: } else if (!strcmp(optarg,"ssd")) {
486: ataopts.devstat_ssd_page = true;
487: scsiopts.smart_ss_media_log = true;
488: } else if (!strcmp(optarg,"scterc")) {
489: ataopts.sct_erc_get = true;
490: } else if (!strcmp(optarg,"scttemp")) {
491: ataopts.sct_temp_sts = ataopts.sct_temp_hist = true;
492: } else if (!strcmp(optarg,"scttempsts")) {
493: ataopts.sct_temp_sts = true;
494: } else if (!strcmp(optarg,"scttemphist")) {
495: ataopts.sct_temp_hist = true;
496:
497: } else if (!strncmp(optarg, "scttempint,", sizeof("scstempint,")-1)) {
498: unsigned interval = 0; int n1 = -1, n2 = -1, len = strlen(optarg);
499: if (!( sscanf(optarg,"scttempint,%u%n,p%n", &interval, &n1, &n2) == 1
500: && 0 < interval && interval <= 0xffff && (n1 == len || n2 == len))) {
501: strcpy(extraerror, "Option -l scttempint,N[,p] must have positive integer N\n");
502: badarg = true;
503: }
504: ataopts.sct_temp_int = interval;
505: ataopts.sct_temp_int_pers = (n2 == len);
506:
507: } else if (!strncmp(optarg, "devstat", sizeof("devstat")-1)) {
508: int n1 = -1, n2 = -1, len = strlen(optarg);
509: unsigned val = ~0;
510: sscanf(optarg, "devstat%n,%u%n", &n1, &val, &n2);
511: if (n1 == len)
512: ataopts.devstat_all_pages = true;
513: else if (n2 == len && val <= 255)
514: ataopts.devstat_pages.push_back(val);
515: else
516: badarg = true;
517:
518: } else if (!strncmp(optarg, "xerror", sizeof("xerror")-1)) {
519: int n1 = -1, n2 = -1, len = strlen(optarg);
520: unsigned val = 8;
521: sscanf(optarg, "xerror%n,error%n", &n1, &n2);
522: if (!(n1 == len || n2 == len)) {
523: n1 = n2 = -1;
524: sscanf(optarg, "xerror,%u%n,error%n", &val, &n1, &n2);
525: }
526: if ((n1 == len || n2 == len) && val > 0) {
527: ataopts.smart_ext_error_log = val;
528: ataopts.retry_error_log = (n2 == len);
529: }
530: else
531: badarg = true;
532:
533: } else if (!strncmp(optarg, "xselftest", sizeof("xselftest")-1)) {
534: int n1 = -1, n2 = -1, len = strlen(optarg);
535: unsigned val = 25;
536: sscanf(optarg, "xselftest%n,selftest%n", &n1, &n2);
537: if (!(n1 == len || n2 == len)) {
538: n1 = n2 = -1;
539: sscanf(optarg, "xselftest,%u%n,selftest%n", &val, &n1, &n2);
540: }
541: if ((n1 == len || n2 == len) && val > 0) {
542: ataopts.smart_ext_selftest_log = val;
543: ataopts.retry_selftest_log = (n2 == len);
544: }
545: else
546: badarg = true;
547:
548: } else if (!strncmp(optarg, "scterc,", sizeof("scterc,")-1)) {
549: unsigned rt = ~0, wt = ~0; int n = -1;
550: sscanf(optarg,"scterc,%u,%u%n", &rt, &wt, &n);
551: if (n == (int)strlen(optarg) && rt <= 999 && wt <= 999) {
552: ataopts.sct_erc_set = true;
553: ataopts.sct_erc_readtime = rt;
554: ataopts.sct_erc_writetime = wt;
555: }
556: else {
557: sprintf(extraerror, "Option -l scterc,[READTIME,WRITETIME] syntax error\n");
558: badarg = true;
559: }
560: } else if ( !strncmp(optarg, "gplog," , sizeof("gplog," )-1)
561: || !strncmp(optarg, "smartlog,", sizeof("smartlog,")-1)) {
562: unsigned logaddr = ~0U; unsigned page = 0, nsectors = 1; char sign = 0;
563: int n1 = -1, n2 = -1, n3 = -1, len = strlen(optarg);
564: sscanf(optarg, "%*[a-z],0x%x%n,%u%n%c%u%n",
565: &logaddr, &n1, &page, &n2, &sign, &nsectors, &n3);
566: if (len > n2 && n3 == -1 && !strcmp(optarg+n2, "-max")) {
567: nsectors = ~0U; sign = '+'; n3 = len;
568: }
569: bool gpl = (optarg[0] == 'g');
570: const char * erropt = (gpl ? "gplog" : "smartlog");
571: if (!( n1 == len || n2 == len
572: || (n3 == len && (sign == '+' || sign == '-')))) {
573: sprintf(extraerror, "Option -l %s,ADDR[,FIRST[-LAST|+SIZE]] syntax error\n", erropt);
574: badarg = true;
575: }
576: else if (!( logaddr <= 0xff && page <= (gpl ? 0xffffU : 0x00ffU)
577: && 0 < nsectors
578: && (nsectors <= (gpl ? 0xffffU : 0xffU) || nsectors == ~0U)
579: && (sign != '-' || page <= nsectors) )) {
580: sprintf(extraerror, "Option -l %s,ADDR[,FIRST[-LAST|+SIZE]] parameter out of range\n", erropt);
581: badarg = true;
582: }
583: else {
584: ata_log_request req;
585: req.gpl = gpl; req.logaddr = logaddr; req.page = page;
586: req.nsectors = (sign == '-' ? nsectors-page+1 : nsectors);
587: ataopts.log_requests.push_back(req);
588: }
589: } else {
590: badarg = true;
591: }
592: break;
593: case 'i':
594: ataopts.drive_info = scsiopts.drive_info = true;
595: break;
596: case 'a':
597: ataopts.drive_info = scsiopts.drive_info = true;
598: ataopts.smart_check_status = scsiopts.smart_check_status = true;
599: ataopts.smart_general_values = true;
600: ataopts.smart_vendor_attrib = scsiopts.smart_vendor_attrib = true;
601: ataopts.smart_error_log = scsiopts.smart_error_log = true;
602: ataopts.smart_selftest_log = scsiopts.smart_selftest_log = true;
603: ataopts.smart_selective_selftest_log = true;
604: /* scsiopts.smart_background_log = true; */
605: scsiopts.smart_ss_media_log = true;
606: break;
607: case 'x':
608: ataopts.drive_info = scsiopts.drive_info = true;
609: ataopts.smart_check_status = scsiopts.smart_check_status = true;
610: ataopts.smart_general_values = true;
611: ataopts.smart_vendor_attrib = scsiopts.smart_vendor_attrib = true;
612: ataopts.smart_ext_error_log = 8;
613: ataopts.retry_error_log = true;
614: ataopts.smart_ext_selftest_log = 25;
615: ataopts.retry_selftest_log = true;
616: scsiopts.smart_error_log = scsiopts.smart_selftest_log = true;
617: ataopts.smart_selective_selftest_log = true;
618: ataopts.smart_logdir = ataopts.gp_logdir = true;
619: ataopts.sct_temp_sts = ataopts.sct_temp_hist = true;
620: ataopts.sct_erc_get = true;
621: ataopts.sataphy = true;
622: ataopts.get_set_used = true;
623: ataopts.get_aam = ataopts.get_apm = true;
624: ataopts.get_security = true;
625: ataopts.get_lookahead = ataopts.get_wcache = true;
626: scsiopts.smart_background_log = true;
627: scsiopts.smart_ss_media_log = true;
628: scsiopts.sasphy = true;
629: if (!output_format_set)
630: ataopts.output_format |= ata_print_options::FMT_BRIEF;
631: break;
632: case 'v':
633: // parse vendor-specific definitions of attributes
634: if (!strcmp(optarg,"help")) {
635: printing_is_off = false;
636: printslogan();
637: pout("The valid arguments to -v are:\n\thelp\n%s\n",
638: create_vendor_attribute_arg_list().c_str());
639: EXIT(0);
640: }
641: if (!parse_attribute_def(optarg, ataopts.attribute_defs, PRIOR_USER))
642: badarg = true;
643: break;
644: case 'P':
645: if (!strcmp(optarg, "use")) {
646: ataopts.ignore_presets = false;
647: } else if (!strcmp(optarg, "ignore")) {
648: ataopts.ignore_presets = true;
649: } else if (!strcmp(optarg, "show")) {
650: ataopts.show_presets = true;
651: } else if (!strcmp(optarg, "showall")) {
652: if (!no_defaultdb && !read_default_drive_databases())
653: EXIT(FAILCMD);
654: if (optind < argc) { // -P showall MODEL [FIRMWARE]
655: int cnt = showmatchingpresets(argv[optind], (optind+1<argc ? argv[optind+1] : NULL));
656: EXIT(cnt); // report #matches
657: }
658: if (showallpresets())
659: EXIT(FAILCMD); // report regexp syntax error
660: EXIT(0);
661: } else {
662: badarg = true;
663: }
664: break;
665: case 't':
666: if (!strcmp(optarg,"offline")) {
667: testcnt++;
668: ataopts.smart_selftest_type = OFFLINE_FULL_SCAN;
669: scsiopts.smart_default_selftest = true;
670: } else if (!strcmp(optarg,"short")) {
671: testcnt++;
672: ataopts.smart_selftest_type = SHORT_SELF_TEST;
673: scsiopts.smart_short_selftest = true;
674: } else if (!strcmp(optarg,"long")) {
675: testcnt++;
676: ataopts.smart_selftest_type = EXTEND_SELF_TEST;
677: scsiopts.smart_extend_selftest = true;
678: } else if (!strcmp(optarg,"conveyance")) {
679: testcnt++;
680: ataopts.smart_selftest_type = CONVEYANCE_SELF_TEST;
681: } else if (!strcmp(optarg,"force")) {
682: ataopts.smart_selftest_force = true;
683: } else if (!strcmp(optarg,"afterselect,on")) {
684: // scan remainder of disk after doing selected segment
685: ataopts.smart_selective_args.scan_after_select = 2;
686: } else if (!strcmp(optarg,"afterselect,off")) {
687: // don't scan remainder of disk after doing selected segments
688: ataopts.smart_selective_args.scan_after_select = 1;
689: } else if (!strncmp(optarg,"pending,",strlen("pending,"))) {
690: // parse number of minutes that test should be pending
691: int i;
692: char *tailptr=NULL;
693: errno=0;
694: i=(int)strtol(optarg+strlen("pending,"), &tailptr, 10);
695: if (errno || *tailptr != '\0') {
696: sprintf(extraerror, "Option -t pending,N requires N to be a non-negative integer\n");
697: badarg = true;
698: } else if (i<0 || i>65535) {
699: sprintf(extraerror, "Option -t pending,N (N=%d) must have 0 <= N <= 65535\n", i);
700: badarg = true;
701: } else {
702: ataopts.smart_selective_args.pending_time = i+1;
703: }
704: } else if (!strncmp(optarg,"select",strlen("select"))) {
705: if (ataopts.smart_selective_args.num_spans == 0)
706: testcnt++;
707: // parse range of LBAs to test
708: uint64_t start, stop; int mode;
709: if (split_selective_arg(optarg, &start, &stop, &mode)) {
710: sprintf(extraerror, "Option -t select,M-N must have non-negative integer M and N\n");
711: badarg = true;
712: } else {
713: if (ataopts.smart_selective_args.num_spans >= 5 || start > stop) {
714: if (start > stop) {
715: sprintf(extraerror, "ERROR: Start LBA (%"PRIu64") > ending LBA (%"PRId64") in argument \"%s\"\n",
716: start, stop, optarg);
717: } else {
718: sprintf(extraerror,"ERROR: No more than five selective self-test spans may be"
719: " defined\n");
720: }
721: badarg = true;
722: }
723: ataopts.smart_selective_args.span[ataopts.smart_selective_args.num_spans].start = start;
724: ataopts.smart_selective_args.span[ataopts.smart_selective_args.num_spans].end = stop;
725: ataopts.smart_selective_args.span[ataopts.smart_selective_args.num_spans].mode = mode;
726: ataopts.smart_selective_args.num_spans++;
727: ataopts.smart_selftest_type = SELECTIVE_SELF_TEST;
728: }
729: } else if (!strncmp(optarg, "scttempint", sizeof("scstempint")-1)) {
730: strcpy(extraerror, "-t scttempint is no longer supported, use -l scttempint instead\n");
731: badarg = true;
732: } else if (!strncmp(optarg, "vendor,", sizeof("vendor,")-1)) {
733: unsigned subcmd = ~0U; int n = -1;
734: if (!( sscanf(optarg, "%*[a-z],0x%x%n", &subcmd, &n) == 1
735: && subcmd <= 0xff && n == (int)strlen(optarg))) {
736: strcpy(extraerror, "Option -t vendor,0xNN syntax error\n");
737: badarg = true;
738: }
739: else
740: ataopts.smart_selftest_type = subcmd;
741: } else {
742: badarg = true;
743: }
744: break;
745: case 'C':
746: captive = true;
747: break;
748: case 'X':
749: testcnt++;
750: scsiopts.smart_selftest_abort = true;
751: ataopts.smart_selftest_type = ABORT_SELF_TEST;
752: break;
753: case 'n':
754: // skip disk check if in low-power mode
755: if (!strcmp(optarg, "never"))
756: ataopts.powermode = 1; // do not skip, but print mode
757: else if (!strcmp(optarg, "sleep"))
758: ataopts.powermode = 2;
759: else if (!strcmp(optarg, "standby"))
760: ataopts.powermode = 3;
761: else if (!strcmp(optarg, "idle"))
762: ataopts.powermode = 4;
763: else
764: badarg = true;
765: break;
766: case 'f':
767: if (!strcmp(optarg, "old")) {
768: ataopts.output_format &= ~ata_print_options::FMT_BRIEF;
769: output_format_set = true;
770: }
771: else if (!strcmp(optarg, "brief")) {
772: ataopts.output_format |= ata_print_options::FMT_BRIEF;
773: output_format_set = true;
774: }
775: else if (!strcmp(optarg, "hex"))
776: ataopts.output_format |= ata_print_options::FMT_HEX_ID
777: | ata_print_options::FMT_HEX_VAL;
778: else if (!strcmp(optarg, "hex,id"))
779: ataopts.output_format |= ata_print_options::FMT_HEX_ID;
780: else if (!strcmp(optarg, "hex,val"))
781: ataopts.output_format |= ata_print_options::FMT_HEX_VAL;
782: else
783: badarg = true;
784: break;
785: case 'B':
786: {
787: const char * path = optarg;
788: if (*path == '+' && path[1])
789: path++;
790: else
791: no_defaultdb = true;
792: if (!read_drive_database(path))
793: EXIT(FAILCMD);
794: }
795: break;
796: case 'h':
797: printing_is_off = false;
798: printslogan();
799: Usage();
800: EXIT(0);
801: break;
802:
803: case 'g':
804: case_s_continued: // -s, see above
805: case opt_set: // --set
806: {
807: ataopts.get_set_used = true;
808: bool get = (optchar == 'g');
809: char name[16+1]; unsigned val;
810: int n1 = -1, n2 = -1, n3 = -1, len = strlen(optarg);
811: if (sscanf(optarg, "%16[^,=]%n%*[,=]%n%u%n", name, &n1, &n2, &val, &n3) >= 1
812: && (n1 == len || (!get && n2 > 0))) {
813: bool on = (n2 > 0 && !strcmp(optarg+n2, "on"));
814: bool off = (n2 > 0 && !strcmp(optarg+n2, "off"));
815: if (n3 != len)
816: val = ~0U;
817:
818: if (get && !strcmp(name, "all")) {
819: ataopts.get_aam = ataopts.get_apm = true;
820: ataopts.get_security = true;
821: ataopts.get_lookahead = ataopts.get_wcache = true;
822: }
823: else if (!strcmp(name, "aam")) {
824: if (get)
825: ataopts.get_aam = true;
826: else if (off)
827: ataopts.set_aam = -1;
828: else if (val <= 254)
829: ataopts.set_aam = val + 1;
830: else {
831: sprintf(extraerror, "Option -s aam,N must have 0 <= N <= 254\n");
832: badarg = true;
833: }
834: }
835: else if (!strcmp(name, "apm")) {
836: if (get)
837: ataopts.get_apm = true;
838: else if (off)
839: ataopts.set_apm = -1;
840: else if (1 <= val && val <= 254)
841: ataopts.set_apm = val + 1;
842: else {
843: sprintf(extraerror, "Option -s apm,N must have 1 <= N <= 254\n");
844: badarg = true;
845: }
846: }
847: else if (!strcmp(name, "lookahead")) {
848: if (get)
849: ataopts.get_lookahead = true;
850: else if (off)
851: ataopts.set_lookahead = -1;
852: else if (on)
853: ataopts.set_lookahead = 1;
854: else
855: badarg = true;
856: }
857: else if (get && !strcmp(name, "security")) {
858: ataopts.get_security = true;
859: }
860: else if (!get && !strcmp(optarg, "security-freeze")) {
861: ataopts.set_security_freeze = true;
862: }
863: else if (!get && !strcmp(optarg, "standby,now")) {
864: ataopts.set_standby_now = true;
865: }
866: else if (!get && !strcmp(name, "standby")) {
867: if (off)
868: ataopts.set_standby = 0 + 1;
869: else if (val <= 255)
870: ataopts.set_standby = val + 1;
871: else {
872: sprintf(extraerror, "Option -s standby,N must have 0 <= N <= 255\n");
873: badarg = true;
874: }
875: }
876: else if (!strcmp(name, "wcache")) {
877: if (get)
878: ataopts.get_wcache = true;
879: else if (off)
880: ataopts.set_wcache = -1;
881: else if (on)
882: ataopts.set_wcache = 1;
883: else
884: badarg = true;
885: }
886: else
887: badarg = true;
888: }
889: else
890: badarg = true;
891: }
892: break;
893:
894: case opt_scan:
895: case opt_scan_open:
896: scan = optchar;
897: break;
898:
899: case '?':
900: default:
901: printing_is_off = false;
902: printslogan();
903: // Point arg to the argument in which this option was found.
904: arg = argv[optind-1];
905: // Check whether the option is a long option that doesn't map to -h.
906: if (arg[1] == '-' && optchar != 'h') {
907: // Iff optopt holds a valid option then argument must be missing.
908: if (optopt && (optopt >= opt_scan || strchr(shortopts, optopt))) {
909: pout("=======> ARGUMENT REQUIRED FOR OPTION: %s\n", arg+2);
910: printvalidarglistmessage(optopt);
911: } else
912: pout("=======> UNRECOGNIZED OPTION: %s\n",arg+2);
913: if (extraerror[0])
914: pout("=======> %s", extraerror);
915: UsageSummary();
916: EXIT(FAILCMD);
917: }
918: if (0 < optopt && optopt < '~') {
919: // Iff optopt holds a valid option then argument must be
920: // missing. Note (BA) this logic seems to fail using Solaris
921: // getopt!
922: if (strchr(shortopts, optopt) != NULL) {
923: pout("=======> ARGUMENT REQUIRED FOR OPTION: %c\n", optopt);
924: printvalidarglistmessage(optopt);
925: } else
926: pout("=======> UNRECOGNIZED OPTION: %c\n",optopt);
927: if (extraerror[0])
928: pout("=======> %s", extraerror);
929: UsageSummary();
930: EXIT(FAILCMD);
931: }
932: Usage();
933: EXIT(0);
934: } // closes switch statement to process command-line options
935:
936: // Check to see if option had an unrecognized or incorrect argument.
937: if (badarg) {
938: printslogan();
939: // It would be nice to print the actual option name given by the user
940: // here, but we just print the short form. Please fix this if you know
941: // a clean way to do it.
942: char optstr[] = { (char)optchar, 0 };
943: pout("=======> INVALID ARGUMENT TO -%s: %s\n",
944: (optchar == opt_set ? "-set" :
945: optchar == opt_smart ? "-smart" : optstr), optarg);
946: printvalidarglistmessage(optchar);
947: if (extraerror[0])
948: pout("=======> %s", extraerror);
949: UsageSummary();
950: EXIT(FAILCMD);
951: }
952: }
953:
954: // Special handling of --scan, --scanopen
955: if (scan) {
956: // Read or init drive database to allow USB ID check.
957: if (!no_defaultdb && !read_default_drive_databases())
958: EXIT(FAILCMD);
959: scan_devices(type, (scan == opt_scan_open), argv + optind);
960: EXIT(0);
961: }
962:
963: // At this point we have processed all command-line options. If the
964: // print output is switchable, then start with the print output
965: // turned off
966: if (printing_is_switchable)
967: printing_is_off = true;
968:
969: // error message if user has asked for more than one test
970: if (testcnt > 1) {
971: printing_is_off = false;
972: printslogan();
973: pout("\nERROR: smartctl can only run a single test type (or abort) at a time.\n");
974: UsageSummary();
975: EXIT(FAILCMD);
976: }
977:
978: // error message if user has set selective self-test options without
979: // asking for a selective self-test
980: if ( (ataopts.smart_selective_args.pending_time || ataopts.smart_selective_args.scan_after_select)
981: && !ataopts.smart_selective_args.num_spans) {
982: printing_is_off = false;
983: printslogan();
984: if (ataopts.smart_selective_args.pending_time)
985: pout("\nERROR: smartctl -t pending,N must be used with -t select,N-M.\n");
986: else
987: pout("\nERROR: smartctl -t afterselect,(on|off) must be used with -t select,N-M.\n");
988: UsageSummary();
989: EXIT(FAILCMD);
990: }
991:
992: // If captive option was used, change test type if appropriate.
993: if (captive)
994: switch (ataopts.smart_selftest_type) {
995: case SHORT_SELF_TEST:
996: ataopts.smart_selftest_type = SHORT_CAPTIVE_SELF_TEST;
997: scsiopts.smart_short_selftest = false;
998: scsiopts.smart_short_cap_selftest = true;
999: break;
1000: case EXTEND_SELF_TEST:
1001: ataopts.smart_selftest_type = EXTEND_CAPTIVE_SELF_TEST;
1002: scsiopts.smart_extend_selftest = false;
1003: scsiopts.smart_extend_cap_selftest = true;
1004: break;
1005: case CONVEYANCE_SELF_TEST:
1006: ataopts.smart_selftest_type = CONVEYANCE_CAPTIVE_SELF_TEST;
1007: break;
1008: case SELECTIVE_SELF_TEST:
1009: ataopts.smart_selftest_type = SELECTIVE_CAPTIVE_SELF_TEST;
1010: break;
1011: }
1012:
1013: // From here on, normal operations...
1014: printslogan();
1015:
1016: // Warn if the user has provided no device name
1017: if (argc-optind<1){
1018: pout("ERROR: smartctl requires a device name as the final command-line argument.\n\n");
1019: UsageSummary();
1020: EXIT(FAILCMD);
1021: }
1022:
1023: // Warn if the user has provided more than one device name
1024: if (argc-optind>1){
1025: int i;
1026: pout("ERROR: smartctl takes ONE device name as the final command-line argument.\n");
1027: pout("You have provided %d device names:\n",argc-optind);
1028: for (i=0; i<argc-optind; i++)
1029: pout("%s\n",argv[optind+i]);
1030: UsageSummary();
1031: EXIT(FAILCMD);
1032: }
1033:
1034: // Read or init drive database
1035: if (!no_defaultdb && !read_default_drive_databases())
1036: EXIT(FAILCMD);
1037:
1038: return type;
1039: }
1040:
1041: // Printing function (controlled by global printing_is_off)
1042: // [From GLIBC Manual: Since the prototype doesn't specify types for
1043: // optional arguments, in a call to a variadic function the default
1044: // argument promotions are performed on the optional argument
1045: // values. This means the objects of type char or short int (whether
1046: // signed or not) are promoted to either int or unsigned int, as
1047: // appropriate.]
1048: void pout(const char *fmt, ...){
1049: va_list ap;
1050:
1051: // initialize variable argument list
1052: va_start(ap,fmt);
1053: if (printing_is_off) {
1054: va_end(ap);
1055: return;
1056: }
1057:
1058: // print out
1059: vprintf(fmt,ap);
1060: va_end(ap);
1061: fflush(stdout);
1062: return;
1063: }
1064:
1065: // Globals to set failuretest() policy
1066: bool failuretest_conservative = false;
1067: unsigned char failuretest_permissive = 0;
1068:
1069: // Compares failure type to policy in effect, and either exits or
1070: // simply returns to the calling routine.
1071: // Used in ataprint.cpp and scsiprint.cpp.
1072: void failuretest(failure_type type, int returnvalue)
1073: {
1074: // If this is an error in an "optional" SMART command
1075: if (type == OPTIONAL_CMD) {
1076: if (!failuretest_conservative)
1077: return;
1078: pout("An optional SMART command failed: exiting. Remove '-T conservative' option to continue.\n");
1079: EXIT(returnvalue);
1080: }
1081:
1082: // If this is an error in a "mandatory" SMART command
1083: if (type == MANDATORY_CMD) {
1084: if (failuretest_permissive--)
1085: return;
1086: pout("A mandatory SMART command failed: exiting. To continue, add one or more '-T permissive' options.\n");
1087: EXIT(returnvalue);
1088: }
1089:
1090: throw std::logic_error("failuretest: Unknown type");
1091: }
1092:
1093: // Used to warn users about invalid checksums. Called from atacmds.cpp.
1094: // Action to be taken may be altered by the user.
1095: void checksumwarning(const char * string)
1096: {
1097: // user has asked us to ignore checksum errors
1098: if (checksum_err_mode == CHECKSUM_ERR_IGNORE)
1099: return;
1100:
1101: pout("Warning! %s error: invalid SMART checksum.\n", string);
1102:
1103: // user has asked us to fail on checksum errors
1104: if (checksum_err_mode == CHECKSUM_ERR_EXIT)
1105: EXIT(FAILSMART);
1106: }
1107:
1108: // Return info string about device protocol
1109: static const char * get_protocol_info(const smart_device * dev)
1110: {
1111: switch ((int)dev->is_ata() | ((int)dev->is_scsi() << 1)) {
1112: case 0x1: return "ATA";
1113: case 0x2: return "SCSI";
1114: case 0x3: return "ATA+SCSI";
1115: default: return "Unknown";
1116: }
1117: }
1118:
1119: // Device scan
1120: // smartctl [-d type] --scan[-open] -- [PATTERN] [smartd directive ...]
1121: void scan_devices(const char * type, bool with_open, char ** argv)
1122: {
1123: bool dont_print = !(ata_debugmode || scsi_debugmode);
1124:
1125: const char * pattern = 0;
1126: int ai = 0;
1127: if (argv[ai] && argv[ai][0] != '-')
1128: pattern = argv[ai++];
1129:
1130: smart_device_list devlist;
1131: printing_is_off = dont_print;
1132: bool ok = smi()->scan_smart_devices(devlist, type , pattern);
1133: printing_is_off = false;
1134:
1135: if (!ok) {
1136: pout("# scan_smart_devices: %s\n", smi()->get_errmsg());
1137: return;
1138: }
1139:
1140: for (unsigned i = 0; i < devlist.size(); i++) {
1141: smart_device_auto_ptr dev( devlist.release(i) );
1142:
1143: if (with_open) {
1144: printing_is_off = dont_print;
1145: dev.replace ( dev->autodetect_open() );
1146: printing_is_off = false;
1147:
1148: if (!dev->is_open()) {
1149: pout("# %s -d %s # %s, %s device open failed: %s\n", dev->get_dev_name(),
1150: dev->get_dev_type(), dev->get_info_name(),
1151: get_protocol_info(dev.get()), dev->get_errmsg());
1152: continue;
1153: }
1154: }
1155:
1156: pout("%s -d %s", dev->get_dev_name(), dev->get_dev_type());
1157: if (!argv[ai])
1158: pout(" # %s, %s device\n", dev->get_info_name(), get_protocol_info(dev.get()));
1159: else {
1160: for (int j = ai; argv[j]; j++)
1161: pout(" %s", argv[j]);
1162: pout("\n");
1163: }
1164:
1165: if (dev->is_open())
1166: dev->close();
1167: }
1168: }
1169:
1170: // Main program without exception handling
1171: static int main_worker(int argc, char **argv)
1172: {
1173: // Throw if CPU endianess does not match compile time test.
1174: check_endianness();
1175:
1176: // Initialize interface
1177: smart_interface::init();
1178: if (!smi())
1179: return 1;
1180:
1181: // Parse input arguments
1182: ata_print_options ataopts;
1183: scsi_print_options scsiopts;
1184: bool print_type_only = false;
1185: const char * type = parse_options(argc, argv, ataopts, scsiopts, print_type_only);
1186:
1187: const char * name = argv[argc-1];
1188:
1189: smart_device_auto_ptr dev;
1190: if (!strcmp(name,"-")) {
1191: // Parse "smartctl -r ataioctl,2 ..." output from stdin
1192: if (type || print_type_only) {
1193: pout("Smartctl: -d option is not allowed in conjunction with device name \"-\".\n");
1194: UsageSummary();
1195: return FAILCMD;
1196: }
1197: dev = get_parsed_ata_device(smi(), name);
1198: }
1199: else
1200: // get device of appropriate type
1201: dev = smi()->get_smart_device(name, type);
1202:
1203: if (!dev) {
1204: pout("%s: %s\n", name, smi()->get_errmsg());
1205: if (type)
1206: printvalidarglistmessage('d');
1207: else
1208: pout("Smartctl: please specify device type with the -d option.\n");
1209: UsageSummary();
1210: return FAILCMD;
1211: }
1212:
1213: if (print_type_only)
1214: // Report result of first autodetection
1215: pout("%s: Device of type '%s' [%s] detected\n",
1216: dev->get_info_name(), dev->get_dev_type(), get_protocol_info(dev.get()));
1217:
1218: // Open device
1219: {
1220: // Save old info
1221: smart_device::device_info oldinfo = dev->get_info();
1222:
1223: // Open with autodetect support, may return 'better' device
1224: dev.replace( dev->autodetect_open() );
1225:
1226: // Report if type has changed
1227: if ((type || print_type_only) && oldinfo.dev_type != dev->get_dev_type())
1228: pout("%s: Device open changed type from '%s' to '%s'\n",
1229: dev->get_info_name(), oldinfo.dev_type.c_str(), dev->get_dev_type());
1230: }
1231: if (!dev->is_open()) {
1232: pout("Smartctl open device: %s failed: %s\n", dev->get_info_name(), dev->get_errmsg());
1233: return FAILDEV;
1234: }
1235:
1236: // now call appropriate ATA or SCSI routine
1237: int retval = 0;
1238: if (print_type_only)
1239: pout("%s: Device of type '%s' [%s] opened\n",
1240: dev->get_info_name(), dev->get_dev_type(), get_protocol_info(dev.get()));
1241: else if (dev->is_ata())
1242: retval = ataPrintMain(dev->to_ata(), ataopts);
1243: else if (dev->is_scsi())
1244: retval = scsiPrintMain(dev->to_scsi(), scsiopts);
1245: else
1246: // we should never fall into this branch!
1247: pout("%s: Neither ATA nor SCSI device\n", dev->get_info_name());
1248:
1249: dev->close();
1250: return retval;
1251: }
1252:
1253:
1254: // Main program
1255: int main(int argc, char **argv)
1256: {
1257: int status;
1258: try {
1259: // Do the real work ...
1260: status = main_worker(argc, argv);
1261: }
1262: catch (int ex) {
1263: // EXIT(status) arrives here
1264: status = ex;
1265: }
1266: catch (const std::bad_alloc & /*ex*/) {
1267: // Memory allocation failed (also thrown by std::operator new)
1268: printf("Smartctl: Out of memory\n");
1269: status = FAILCMD;
1270: }
1271: catch (const std::exception & ex) {
1272: // Other fatal errors
1273: printf("Smartctl: Exception: %s\n", ex.what());
1274: status = FAILCMD;
1275: }
1276: return status;
1277: }
1278:
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