/* * old: "Copyright 1994 by Henry Ware . Copyleft same year." * most code copyright 2002 Albert Cahalan * * 27/05/2003 (Fabian Frederick) : Add unit conversion + interface * Export proc/stat access to libproc * Adapt vmstat helpfile * 31/05/2003 (Fabian) : Add diskstat support (/libproc) * June 2003 (Fabian) : -S -s & -s -S patch * June 2003 (Fabian) : Adding diskstat against 3.1.9, slabinfo * patching 'header' in disk & slab * July 2003 (Fabian) : Adding disk partition output * Adding disk table * Syncing help / usage * * This library is free software; you can redistribute it and/or * modify it under the terms of the GNU Lesser General Public * License as published by the Free Software Foundation; either * version 2.1 of the License, or (at your option) any later version. * * This library is distributed in the hope that it will be useful, * but WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU * Lesser General Public License for more details. * * You should have received a copy of the GNU Lesser General Public * License along with this library; if not, write to the Free Software * Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA */ #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include "c.h" #include "fileutils.h" #include "nls.h" #include "strutils.h" #include "proc/sysinfo.h" #include "proc/version.h" #define UNIT_B 1 #define UNIT_k 1000 #define UNIT_K 1024 #define UNIT_m 1000000 #define UNIT_M 1048576 static unsigned long dataUnit = UNIT_K; static char szDataUnit[3] = "K"; #define VMSTAT 0 #define DISKSTAT 0x00000001 #define VMSUMSTAT 0x00000002 #define SLABSTAT 0x00000004 #define PARTITIONSTAT 0x00000008 #define DISKSUMSTAT 0x00000010 static int statMode = VMSTAT; /* "-a" means "show active/inactive" */ static int a_option; /* "-w" means "wide output" */ static int w_option; static unsigned sleep_time = 1; static int infinite_updates = 0; static unsigned long num_updates; /* window height */ static unsigned int height; static unsigned int moreheaders = TRUE; static void __attribute__ ((__noreturn__)) usage(FILE * out) { fputs(USAGE_HEADER, out); fprintf(out, _(" %s [options] [delay [count]]\n"), program_invocation_short_name); fputs(USAGE_OPTIONS, out); fputs(_(" -a, --active active/inactive memory\n"), out); fputs(_(" -f, --forks number of forks since boot\n"), out); fputs(_(" -m, --slabs slabinfo\n"), out); fputs(_(" -n, --one-header do not redisplay header\n"), out); fputs(_(" -s, --stats event counter statistics\n"), out); fputs(_(" -d, --disk disk statistics\n"), out); fputs(_(" -D, --disk-sum summarize disk statistics\n"), out); fputs(_(" -p, --partition partition specific statistics\n"), out); fputs(_(" -S, --unit define display unit\n"), out); fputs(_(" -w, --wide wide output\n"), out); fputs(USAGE_SEPARATOR, out); fputs(USAGE_HELP, out); fputs(USAGE_VERSION, out); fprintf(out, USAGE_MAN_TAIL("vmstat(8)")); exit(out == stderr ? EXIT_FAILURE : EXIT_SUCCESS); } #if 0 /* produce: " 6 ", "123 ", "123k ", etc. */ static int format_1024(unsigned long long val64, char *restrict dst) { unsigned oldval; const char suffix[] = " kmgtpe"; unsigned level = 0; unsigned val32; if (val64 < 1000) { /* special case to avoid "6.0 " when plain " 6 " would do */ val32 = val64; return sprintf(dst, "%3u ", val32); } while (val64 > 0xffffffffull) { level++; val64 /= 1024; } val32 = val64; while (val32 > 999) { level++; oldval = val32; val32 /= 1024; } if (val32 < 10) { unsigned fract = (oldval % 1024) * 10 / 1024; return sprintf(dst, "%u.%u%c ", val32, fract, suffix[level]); } return sprintf(dst, "%3u%c ", val32, suffix[level]); } /* produce: " 6 ", "123 ", "123k ", etc. */ static int format_1000(unsigned long long val64, char *restrict dst) { unsigned oldval; const char suffix[] = " kmgtpe"; unsigned level = 0; unsigned val32; if (val64 < 1000) { /* special case to avoid "6.0 " when plain " 6 " would do */ val32 = val64; return sprintf(dst, "%3u ", val32); } while (val64 > 0xffffffffull) { level++; val64 /= 1000; } val32 = val64; while (val32 > 999) { level++; oldval = val32; val32 /= 1000; } if (val32 < 10) { unsigned fract = (oldval % 1000) / 100; return sprintf(dst, "%u.%u%c ", val32, fract, suffix[level]); } return sprintf(dst, "%3u%c ", val32, suffix[level]); } #endif static void new_header(void) { /* Translation Hint: Translating folloging header & fields * that follow (marked with max x chars) might not work, * unless manual page is translated as well. */ const char header[] = "procs -----------memory---------- ---swap-- -----io---- -system-- ------cpu-----\n"; const char wide_header[] = "procs -----------------------memory---------------------- ---swap-- -----io---- -system-- --------cpu--------\n"; const char format[] = "%2s %2s %6s %6s %6s %6s %4s %4s %5s %5s %4s %4s %2s %2s %2s %2s %2s\n"; const char wide_format[] = "%2s %2s %12s %12s %12s %12s %4s %4s %5s %5s %4s %4s %3s %3s %3s %3s %3s\n"; printf(w_option ? _(wide_header) : _(header)); printf( w_option ? wide_format : format, /* Translation Hint: max 2 chars */ _("r"), /* Translation Hint: max 2 chars */ _("b"), /* Translation Hint: max 6 chars */ _("swpd"), /* Translation Hint: max 6 chars */ _("free"), /* Translation Hint: max 6 chars */ a_option ? _("inact") : /* Translation Hint: max 6 chars */ _("buff"), /* Translation Hint: max 6 chars */ a_option ? _("active") : /* Translation Hint: max 6 chars */ _("cache"), /* Translation Hint: max 4 chars */ _("si"), /* Translation Hint: max 4 chars */ _("so"), /* Translation Hint: max 5 chars */ _("bi"), /* Translation Hint: max 5 chars */ _("bo"), /* Translation Hint: max 4 chars */ _("in"), /* Translation Hint: max 4 chars */ _("cs"), /* Translation Hint: max 2 chars */ _("us"), /* Translation Hint: max 2 chars */ _("sy"), /* Translation Hint: max 2 chars */ _("id"), /* Translation Hint: max 2 chars */ _("wa"), /* Translation Hint: max 2 chars */ _("st")); } static unsigned long unitConvert(unsigned long size) { float cvSize; cvSize = (float)size / dataUnit * ((statMode == SLABSTAT) ? 1 : 1024); return ((unsigned long)cvSize); } static void new_format(void) { const char format[] = "%2u %2u %6lu %6lu %6lu %6lu %4u %4u %5u %5u %4u %4u %2u %2u %2u %2u %2u\n"; const char wide_format[] = "%2u %2u %12lu %12lu %12lu %12lu %4u %4u %5u %5u %4u %4u %3u %3u %3u %3u %3u\n"; unsigned int tog = 0; /* toggle switch for cleaner code */ unsigned int i; unsigned int hz = Hertz; unsigned int running, blocked, dummy_1, dummy_2; jiff cpu_use[2], cpu_nic[2], cpu_sys[2], cpu_idl[2], cpu_iow[2], cpu_xxx[2], cpu_yyy[2], cpu_zzz[2]; jiff duse, dsys, didl, diow, dstl, Div, divo2; unsigned long pgpgin[2], pgpgout[2], pswpin[2], pswpout[2]; unsigned int intr[2], ctxt[2]; unsigned int sleep_half; unsigned long kb_per_page = sysconf(_SC_PAGESIZE) / 1024ul; int debt = 0; /* handle idle ticks running backwards */ sleep_half = (sleep_time / 2); new_header(); meminfo(); getstat(cpu_use, cpu_nic, cpu_sys, cpu_idl, cpu_iow, cpu_xxx, cpu_yyy, cpu_zzz, pgpgin, pgpgout, pswpin, pswpout, intr, ctxt, &running, &blocked, &dummy_1, &dummy_2); duse = *cpu_use + *cpu_nic; dsys = *cpu_sys + *cpu_xxx + *cpu_yyy; didl = *cpu_idl; diow = *cpu_iow; dstl = *cpu_zzz; Div = duse + dsys + didl + diow + dstl; if (!Div) Div = 1, didl = 1; divo2 = Div / 2UL; printf(w_option ? wide_format : format, running, blocked, unitConvert(kb_swap_used), unitConvert(kb_main_free), unitConvert(a_option?kb_inactive:kb_main_buffers), unitConvert(a_option?kb_active:kb_main_cached), (unsigned)( (unitConvert(*pswpin * kb_per_page) * hz + divo2) / Div ), (unsigned)( (unitConvert(*pswpout * kb_per_page) * hz + divo2) / Div ), (unsigned)( (*pgpgin * hz + divo2) / Div ), (unsigned)( (*pgpgout * hz + divo2) / Div ), (unsigned)( (*intr * hz + divo2) / Div ), (unsigned)( (*ctxt * hz + divo2) / Div ), (unsigned)( (100*duse + divo2) / Div ), (unsigned)( (100*dsys + divo2) / Div ), (unsigned)( (100*didl + divo2) / Div ), (unsigned)( (100*diow + divo2) / Div ), (unsigned)( (100*dstl + divo2) / Div ) ); /* main loop */ for (i = 1; infinite_updates || i < num_updates; i++) { sleep(sleep_time); if (moreheaders && ((i % height) == 0)) new_header(); tog = !tog; meminfo(); getstat(cpu_use + tog, cpu_nic + tog, cpu_sys + tog, cpu_idl + tog, cpu_iow + tog, cpu_xxx + tog, cpu_yyy + tog, cpu_zzz + tog, pgpgin + tog, pgpgout + tog, pswpin + tog, pswpout + tog, intr + tog, ctxt + tog, &running, &blocked, &dummy_1, &dummy_2); duse = cpu_use[tog] - cpu_use[!tog] + cpu_nic[tog] - cpu_nic[!tog]; dsys = cpu_sys[tog] - cpu_sys[!tog] + cpu_xxx[tog] - cpu_xxx[!tog] + cpu_yyy[tog] - cpu_yyy[!tog]; didl = cpu_idl[tog] - cpu_idl[!tog]; diow = cpu_iow[tog] - cpu_iow[!tog]; dstl = cpu_zzz[tog] - cpu_zzz[!tog]; /* idle can run backwards for a moment -- kernel "feature" */ if (debt) { didl = (int)didl + debt; debt = 0; } if ((int)didl < 0) { debt = (int)didl; didl = 0; } Div = duse + dsys + didl + diow + dstl; if (!Div) Div = 1, didl = 1; divo2 = Div / 2UL; printf(w_option ? wide_format : format, running, blocked, unitConvert(kb_swap_used),unitConvert(kb_main_free), unitConvert(a_option?kb_inactive:kb_main_buffers), unitConvert(a_option?kb_active:kb_main_cached), /*si */ (unsigned)( ( unitConvert((pswpin [tog] - pswpin [!tog])*kb_per_page)+sleep_half )/sleep_time ), /* so */ (unsigned)( ( unitConvert((pswpout[tog] - pswpout[!tog])*kb_per_page)+sleep_half )/sleep_time ), /* bi */ (unsigned)( ( pgpgin [tog] - pgpgin [!tog] +sleep_half )/sleep_time ), /* bo */ (unsigned)( ( pgpgout[tog] - pgpgout[!tog] +sleep_half )/sleep_time ), /* in */ (unsigned)( ( intr [tog] - intr [!tog] +sleep_half )/sleep_time ), /* cs */ (unsigned)( ( ctxt [tog] - ctxt [!tog] +sleep_half )/sleep_time ), /* us */ (unsigned)( (100*duse+divo2)/Div ), /* sy */ (unsigned)( (100*dsys+divo2)/Div ), /* id */ (unsigned)( (100*didl+divo2)/Div ), /* wa */ (unsigned)( (100*diow+divo2)/Div ), /* st */ (unsigned)( (100*dstl+divo2)/Div ) ); } } static void diskpartition_header(const char *partition_name) { printf("%-10s %10s %10s %10s %10s\n", partition_name, /* Translation Hint: Translating folloging disk partition * header fields that follow (marked with max x chars) might * not work, unless manual page is translated as well. */ /* Translation Hint: max 10 chars. The word is * expected to be centralized, use spaces at the end * to do that. */ _("reads "), /* Translation Hint: max 10 chars */ _("read sectors"), /* Translation Hint: max 10 chars. The word is * expected to be centralized, use spaces at the end * to do that. */ _("writes "), /* Translation Hint: max 10 chars */ _("requested writes")); } static int diskpartition_format(const char *partition_name) { FILE *fDiskstat; struct disk_stat *disks; struct partition_stat *partitions, *current_partition = NULL; unsigned long ndisks, j, k, npartitions; const char format[] = "%20u %10llu %10u %10llu\n"; fDiskstat = fopen("/proc/diskstats", "rb"); if (!fDiskstat) xerrx(EXIT_FAILURE, _("your kernel does not support diskstat. (2.5.70 or above required)")); fclose(fDiskstat); ndisks = getdiskstat(&disks, &partitions); npartitions = getpartitions_num(disks, ndisks); for (k = 0; k < npartitions; k++) { if (!strcmp(partition_name, partitions[k].partition_name)) { current_partition = &(partitions[k]); } } if (!current_partition) { free(disks); free(partitions); return -1; } diskpartition_header(partition_name); printf(format, current_partition->reads, current_partition->reads_sectors, current_partition->writes, current_partition->requested_writes); fflush(stdout); free(disks); free(partitions); for (j = 1; infinite_updates || j < num_updates; j++) { if (moreheaders && ((j % height) == 0)) diskpartition_header(partition_name); sleep(sleep_time); ndisks = getdiskstat(&disks, &partitions); npartitions = getpartitions_num(disks, ndisks); current_partition = NULL; for (k = 0; k < npartitions; k++) { if (!strcmp (partition_name, partitions[k].partition_name)) { current_partition = &(partitions[k]); } } if (!current_partition) { free(disks); free(partitions); return -1; } printf(format, current_partition->reads, current_partition->reads_sectors, current_partition->writes, current_partition->requested_writes); fflush(stdout); free(disks); free(partitions); } return 0; } static void diskheader(void) { /* Translation Hint: Translating folloging header & fields * that follow (marked with max x chars) might not work, * unless manual page is translated as well. */ printf(_("disk- ------------reads------------ ------------writes----------- -----IO------\n")); printf("%5s %6s %6s %7s %7s %6s %6s %7s %7s %6s %6s\n", " ", /* Translation Hint: max 6 chars */ _("total"), /* Translation Hint: max 6 chars */ _("merged"), /* Translation Hint: max 7 chars */ _("sectors"), /* Translation Hint: max 7 chars */ _("ms"), /* Translation Hint: max 6 chars */ _("total"), /* Translation Hint: max 6 chars */ _("merged"), /* Translation Hint: max 7 chars */ _("sectors"), /* Translation Hint: max 7 chars */ _("ms"), /* Translation Hint: max 6 chars */ _("cur"), /* Translation Hint: max 6 chars */ _("sec")); } static void diskformat(void) { FILE *fDiskstat; struct disk_stat *disks; struct partition_stat *partitions; unsigned long ndisks, i, j, k; const char format[] = "%-5s %6u %6u %7llu %7u %6u %6u %7llu %7u %6u %6u\n"; if ((fDiskstat = fopen("/proc/diskstats", "rb"))) { fclose(fDiskstat); ndisks = getdiskstat(&disks, &partitions); if (!moreheaders) diskheader(); for (k = 0; k < ndisks; k++) { if (moreheaders && ((k % height) == 0)) diskheader(); printf(format, disks[k].disk_name, disks[k].reads, disks[k].merged_reads, disks[k].reads_sectors, disks[k].milli_reading, disks[k].writes, disks[k].merged_writes, disks[k].written_sectors, disks[k].milli_writing, disks[k].inprogress_IO ? disks[k].inprogress_IO / 1000 : 0, disks[k].milli_spent_IO ? disks[k]. milli_spent_IO / 1000 : 0); fflush(stdout); } free(disks); free(partitions); for (j = 1; infinite_updates || j < num_updates; j++) { sleep(sleep_time); ndisks = getdiskstat(&disks, &partitions); for (i = 0; i < ndisks; i++, k++) { if (moreheaders && ((k % height) == 0)) diskheader(); printf(format, disks[i].disk_name, disks[i].reads, disks[i].merged_reads, disks[i].reads_sectors, disks[i].milli_reading, disks[i].writes, disks[i].merged_writes, disks[i].written_sectors, disks[i].milli_writing, disks[i].inprogress_IO ? disks[i].inprogress_IO / 1000 : 0, disks[i].milli_spent_IO ? disks[i]. milli_spent_IO / 1000 : 0); fflush(stdout); } free(disks); free(partitions); } } else xerrx(EXIT_FAILURE, _("your kernel does not support diskstat (2.5.70 or above required)")); } static void slabheader(void) { printf("%-24s %6s %6s %6s %6s\n", /* Translation Hint: Translating folloging slab fields that * follow (marked with max x chars) might not work, unless * manual page is translated as well. */ /* Translation Hint: max 24 chars */ _("Cache"), /* Translation Hint: max 6 chars */ _("Num"), /* Translation Hint: max 6 chars */ _("Total"), /* Translation Hint: max 6 chars */ _("Size"), /* Translation Hint: max 6 chars */ _("Pages")); } static void slabformat(void) { FILE *fSlab; struct slab_cache *slabs; unsigned long nSlab, i, j, k; const char format[] = "%-24s %6u %6u %6u %6u\n"; fSlab = fopen("/proc/slabinfo", "rb"); if (!fSlab) { xwarnx(_("your kernel does not support slabinfo or your permissions are insufficient")); return; } if (!moreheaders) slabheader(); nSlab = getslabinfo(&slabs); for (k = 0; k < nSlab; k++) { if (moreheaders && ((k % height) == 0)) slabheader(); printf(format, slabs[k].name, slabs[k].active_objs, slabs[k].num_objs, slabs[k].objsize, slabs[k].objperslab); } free(slabs); for (j = 1, k = 1; infinite_updates || j < num_updates; j++) { sleep(sleep_time); nSlab = getslabinfo(&slabs); for (i = 0; i < nSlab; i++, k++) { if (moreheaders && ((k % height) == 0)) slabheader(); printf(format, slabs[i].name, slabs[i].active_objs, slabs[i].num_objs, slabs[i].objsize, slabs[i].objperslab); } free(slabs); } fclose(fSlab); } static void disksum_format(void) { FILE *fDiskstat; struct disk_stat *disks; struct partition_stat *partitions; int ndisks, i; unsigned long reads, merged_reads, read_sectors, milli_reading, writes, merged_writes, written_sectors, milli_writing, inprogress_IO, milli_spent_IO, weighted_milli_spent_IO; reads = merged_reads = read_sectors = milli_reading = writes = merged_writes = written_sectors = milli_writing = inprogress_IO = milli_spent_IO = weighted_milli_spent_IO = 0; if ((fDiskstat = fopen("/proc/diskstats", "rb"))) { fclose(fDiskstat); ndisks = getdiskstat(&disks, &partitions); printf(_("%13d disks \n"), ndisks); printf(_("%13d partitions \n"), getpartitions_num(disks, ndisks)); for (i = 0; i < ndisks; i++) { reads += disks[i].reads; merged_reads += disks[i].merged_reads; read_sectors += disks[i].reads_sectors; milli_reading += disks[i].milli_reading; writes += disks[i].writes; merged_writes += disks[i].merged_writes; written_sectors += disks[i].written_sectors; milli_writing += disks[i].milli_writing; inprogress_IO += disks[i].inprogress_IO ? disks[i].inprogress_IO / 1000 : 0; milli_spent_IO += disks[i].milli_spent_IO ? disks[i].milli_spent_IO / 1000 : 0; } printf(_("%13lu total reads\n"), reads); printf(_("%13lu merged reads\n"), merged_reads); printf(_("%13lu read sectors\n"), read_sectors); printf(_("%13lu milli reading\n"), milli_reading); printf(_("%13lu writes\n"), writes); printf(_("%13lu merged writes\n"), merged_writes); printf(_("%13lu written sectors\n"), written_sectors); printf(_("%13lu milli writing\n"), milli_writing); printf(_("%13lu inprogress IO\n"), inprogress_IO); printf(_("%13lu milli spent IO\n"), milli_spent_IO); free(disks); free(partitions); } } static void sum_format(void) { unsigned int running, blocked, btime, processes; jiff cpu_use, cpu_nic, cpu_sys, cpu_idl, cpu_iow, cpu_xxx, cpu_yyy, cpu_zzz; unsigned long pgpgin, pgpgout, pswpin, pswpout; unsigned int intr, ctxt; meminfo(); getstat(&cpu_use, &cpu_nic, &cpu_sys, &cpu_idl, &cpu_iow, &cpu_xxx, &cpu_yyy, &cpu_zzz, &pgpgin, &pgpgout, &pswpin, &pswpout, &intr, &ctxt, &running, &blocked, &btime, &processes); printf(_("%13lu %s total memory\n"), unitConvert(kb_main_total), szDataUnit); printf(_("%13lu %s used memory\n"), unitConvert(kb_main_used), szDataUnit); printf(_("%13lu %s active memory\n"), unitConvert(kb_active), szDataUnit); printf(_("%13lu %s inactive memory\n"), unitConvert(kb_inactive), szDataUnit); printf(_("%13lu %s free memory\n"), unitConvert(kb_main_free), szDataUnit); printf(_("%13lu %s buffer memory\n"), unitConvert(kb_main_buffers), szDataUnit); printf(_("%13lu %s swap cache\n"), unitConvert(kb_main_cached), szDataUnit); printf(_("%13lu %s total swap\n"), unitConvert(kb_swap_total), szDataUnit); printf(_("%13lu %s used swap\n"), unitConvert(kb_swap_used), szDataUnit); printf(_("%13lu %s free swap\n"), unitConvert(kb_swap_free), szDataUnit); printf(_("%13lld non-nice user cpu ticks\n"), cpu_use); printf(_("%13lld nice user cpu ticks\n"), cpu_nic); printf(_("%13lld system cpu ticks\n"), cpu_sys); printf(_("%13lld idle cpu ticks\n"), cpu_idl); printf(_("%13lld IO-wait cpu ticks\n"), cpu_iow); printf(_("%13lld IRQ cpu ticks\n"), cpu_xxx); printf(_("%13lld softirq cpu ticks\n"), cpu_yyy); printf(_("%13lld stolen cpu ticks\n"), cpu_zzz); printf(_("%13lu pages paged in\n"), pgpgin); printf(_("%13lu pages paged out\n"), pgpgout); printf(_("%13lu pages swapped in\n"), pswpin); printf(_("%13lu pages swapped out\n"), pswpout); printf(_("%13u interrupts\n"), intr); printf(_("%13u CPU context switches\n"), ctxt); printf(_("%13u boot time\n"), btime); printf(_("%13u forks\n"), processes); } static void fork_format(void) { unsigned int running, blocked, btime, processes; jiff cpu_use, cpu_nic, cpu_sys, cpu_idl, cpu_iow, cpu_xxx, cpu_yyy, cpu_zzz; unsigned long pgpgin, pgpgout, pswpin, pswpout; unsigned int intr, ctxt; getstat(&cpu_use, &cpu_nic, &cpu_sys, &cpu_idl, &cpu_iow, &cpu_xxx, &cpu_yyy, &cpu_zzz, &pgpgin, &pgpgout, &pswpin, &pswpout, &intr, &ctxt, &running, &blocked, &btime, &processes); printf(_("%13u forks\n"), processes); } static int winhi(void) { struct winsize win; int rows = 24; if (ioctl(STDOUT_FILENO, TIOCGWINSZ, &win) != -1 && 0 < win.ws_row) rows = win.ws_row; return rows; } int main(int argc, char *argv[]) { char *partition = NULL; int c; long tmp; static const struct option longopts[] = { {"active", no_argument, NULL, 'a'}, {"forks", no_argument, NULL, 'f'}, {"slabs", no_argument, NULL, 'm'}, {"one-header", no_argument, NULL, 'n'}, {"stats", no_argument, NULL, 's'}, {"disk", no_argument, NULL, 'd'}, {"disk-sum", no_argument, NULL, 'D'}, {"partition", required_argument, NULL, 'p'}, {"unit", required_argument, NULL, 'S'}, {"wide", no_argument, NULL, 'w'}, {"help", no_argument, NULL, 'h'}, {"version", no_argument, NULL, 'V'}, {NULL, 0, NULL, 0} }; #ifdef HAVE_PROGRAM_INVOCATION_NAME program_invocation_name = program_invocation_short_name; #endif setlocale (LC_ALL, ""); bindtextdomain(PACKAGE, LOCALEDIR); textdomain(PACKAGE); atexit(close_stdout); while ((c = getopt_long(argc, argv, "afmnsdDp:S:whV", longopts, NULL)) != EOF) switch (c) { case 'V': printf(PROCPS_NG_VERSION); return EXIT_SUCCESS; case 'h': usage(stdout); case 'd': statMode |= DISKSTAT; break; case 'a': /* active/inactive mode */ a_option = 1; break; case 'f': /* FIXME: check for conflicting args */ fork_format(); exit(0); case 'm': statMode |= SLABSTAT; break; case 'D': statMode |= DISKSUMSTAT; break; case 'n': /* print only one header */ moreheaders = FALSE; break; case 'p': statMode |= PARTITIONSTAT; partition = optarg; if (memcmp(partition, "/dev/", 5) == 0) partition += 5; break; case 'S': switch (optarg[0]) { case 'b': case 'B': dataUnit = UNIT_B; break; case 'k': dataUnit = UNIT_k; break; case 'K': dataUnit = UNIT_K; break; case 'm': dataUnit = UNIT_m; break; case 'M': dataUnit = UNIT_M; break; default: xerrx(EXIT_FAILURE, /* Translation Hint: do not change argument characters */ _("-S requires k, K, m or M (default is KiB)")); } szDataUnit[0] = optarg[0]; break; case 's': statMode |= VMSUMSTAT; break; case 'w': w_option = 1; break; default: /* no other aguments defined yet. */ usage(stderr); } if (optind < argc) { tmp = strtol_or_err(argv[optind++], _("failed to parse argument")); if (tmp < 1) xerrx(EXIT_FAILURE, _("delay must be positive integer")); else if (UINT_MAX < tmp) xerrx(EXIT_FAILURE, _("too large delay value")); sleep_time = tmp; infinite_updates = 1; } if (optind < argc) { num_updates = strtol_or_err(argv[optind++], _("failed to parse argument")); infinite_updates = 0; } if (optind < argc) usage(stderr); if (moreheaders) { int wheight = winhi() - 3; height = ((wheight > 0) ? wheight : 22); } setlinebuf(stdout); switch (statMode) { case (VMSTAT): new_format(); break; case (VMSUMSTAT): sum_format(); break; case (DISKSTAT): diskformat(); break; case (PARTITIONSTAT): if (diskpartition_format(partition) == -1) printf(_("partition was not found\n")); break; case (SLABSTAT): slabformat(); break; case (DISKSUMSTAT): disksum_format(); break; default: usage(stderr); break; } return 0; }