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1222 1223 1224 1225 1226 1227 1228 1229 1230 1231 1232 1233 1234 1235 1236 1237 1238 1239 1240 1241 1242 1243 1244 1245 1246 1247 1248 1249 1250 1251 1252 1253 1254 1255 1256 1257 1258 1259 1260 1261 1262 1263 1264 1265 1266 1267 1268 1269 1270 1271 1272 1273 1274 1275 1276 1277 1278 1279 1280 1281 1282 1283 1284 1285 1286 1287 1288 1289 1290 1291 1292 1293 1294 1295 1296 1297 1298 1299 1300 1301 1302 1303 1304 1305 1306 1307 1308 1309 1310 1311 1312 1313 1314 1315 1316 1317 1318 1319 1320 1321 1322 1323 1324 1325 1326 1327 1328 1329 1330 1331 1332 1333 1334 1335 1336 1337 1338 1339 1340 1341 1342 1343 1344 1345 1346 1347 1348 1349 1350 1351 1352 1353 1354 1355 1356 1357 1358 1359 1360 1361 1362 1363 1364 1365 1366 1367 1368 1369 1370 1371 1372 1373 1374 1375 1376 1377 1378 1379 1380 1381 1382 1383 1384 1385 1386 1387 1388 1389 1390 1391 1392 1393 | /* * Slabinfo: Tool to get reports about slabs * * (C) 2007 sgi, Christoph Lameter * (C) 2011 Linux Foundation, Christoph Lameter * * Compile with: * * gcc -o slabinfo slabinfo.c */ #include <stdio.h> #include <stdlib.h> #include <sys/types.h> #include <dirent.h> #include <strings.h> #include <string.h> #include <unistd.h> #include <stdarg.h> #include <getopt.h> #include <regex.h> #include <errno.h> #define MAX_SLABS 500 #define MAX_ALIASES 500 #define MAX_NODES 1024 struct slabinfo { char *name; int alias; int refs; int aliases, align, cache_dma, cpu_slabs, destroy_by_rcu; int hwcache_align, object_size, objs_per_slab; int sanity_checks, slab_size, store_user, trace; int order, poison, reclaim_account, red_zone; unsigned long partial, objects, slabs, objects_partial, objects_total; unsigned long alloc_fastpath, alloc_slowpath; unsigned long free_fastpath, free_slowpath; unsigned long free_frozen, free_add_partial, free_remove_partial; unsigned long alloc_from_partial, alloc_slab, free_slab, alloc_refill; unsigned long cpuslab_flush, deactivate_full, deactivate_empty; unsigned long deactivate_to_head, deactivate_to_tail; unsigned long deactivate_remote_frees, order_fallback; unsigned long cmpxchg_double_cpu_fail, cmpxchg_double_fail; unsigned long alloc_node_mismatch, deactivate_bypass; unsigned long cpu_partial_alloc, cpu_partial_free; int numa[MAX_NODES]; int numa_partial[MAX_NODES]; } slabinfo[MAX_SLABS]; struct aliasinfo { char *name; char *ref; struct slabinfo *slab; } aliasinfo[MAX_ALIASES]; int slabs = 0; int actual_slabs = 0; int aliases = 0; int alias_targets = 0; int highest_node = 0; char buffer[4096]; int show_empty = 0; int show_report = 0; int show_alias = 0; int show_slab = 0; int skip_zero = 1; int show_numa = 0; int show_track = 0; int show_first_alias = 0; int validate = 0; int shrink = 0; int show_inverted = 0; int show_single_ref = 0; int show_totals = 0; int sort_size = 0; int sort_active = 0; int set_debug = 0; int show_ops = 0; int show_activity = 0; /* Debug options */ int sanity = 0; int redzone = 0; int poison = 0; int tracking = 0; int tracing = 0; int page_size; regex_t pattern; static void fatal(const char *x, ...) { va_list ap; va_start(ap, x); vfprintf(stderr, x, ap); va_end(ap); exit(EXIT_FAILURE); } static void usage(void) { printf("slabinfo 4/15/2011. (c) 2007 sgi/(c) 2011 Linux Foundation.\n\n" "slabinfo [-ahnpvtsz] [-d debugopts] [slab-regexp]\n" "-a|--aliases Show aliases\n" "-A|--activity Most active slabs first\n" "-d<options>|--debug=<options> Set/Clear Debug options\n" "-D|--display-active Switch line format to activity\n" "-e|--empty Show empty slabs\n" "-f|--first-alias Show first alias\n" "-h|--help Show usage information\n" "-i|--inverted Inverted list\n" "-l|--slabs Show slabs\n" "-n|--numa Show NUMA information\n" "-o|--ops Show kmem_cache_ops\n" "-s|--shrink Shrink slabs\n" "-r|--report Detailed report on single slabs\n" "-S|--Size Sort by size\n" "-t|--tracking Show alloc/free information\n" "-T|--Totals Show summary information\n" "-v|--validate Validate slabs\n" "-z|--zero Include empty slabs\n" "-1|--1ref Single reference\n" "\nValid debug options (FZPUT may be combined)\n" "a / A Switch on all debug options (=FZUP)\n" "- Switch off all debug options\n" "f / F Sanity Checks (SLAB_DEBUG_FREE)\n" "z / Z Redzoning\n" "p / P Poisoning\n" "u / U Tracking\n" "t / T Tracing\n" ); } static unsigned long read_obj(const char *name) { FILE *f = fopen(name, "r"); if (!f) buffer[0] = 0; else { if (!fgets(buffer, sizeof(buffer), f)) buffer[0] = 0; fclose(f); if (buffer[strlen(buffer)] == '\n') buffer[strlen(buffer)] = 0; } return strlen(buffer); } /* * Get the contents of an attribute */ static unsigned long get_obj(const char *name) { if (!read_obj(name)) return 0; return atol(buffer); } static unsigned long get_obj_and_str(const char *name, char **x) { unsigned long result = 0; char *p; *x = NULL; if (!read_obj(name)) { x = NULL; return 0; } result = strtoul(buffer, &p, 10); while (*p == ' ') p++; if (*p) *x = strdup(p); return result; } static void set_obj(struct slabinfo *s, const char *name, int n) { char x[100]; FILE *f; snprintf(x, 100, "%s/%s", s->name, name); f = fopen(x, "w"); if (!f) fatal("Cannot write to %s\n", x); fprintf(f, "%d\n", n); fclose(f); } static unsigned long read_slab_obj(struct slabinfo *s, const char *name) { char x[100]; FILE *f; size_t l; snprintf(x, 100, "%s/%s", s->name, name); f = fopen(x, "r"); if (!f) { buffer[0] = 0; l = 0; } else { l = fread(buffer, 1, sizeof(buffer), f); buffer[l] = 0; fclose(f); } return l; } /* * Put a size string together */ static int store_size(char *buffer, unsigned long value) { unsigned long divisor = 1; char trailer = 0; int n; if (value > 1000000000UL) { divisor = 100000000UL; trailer = 'G'; } else if (value > 1000000UL) { divisor = 100000UL; trailer = 'M'; } else if (value > 1000UL) { divisor = 100; trailer = 'K'; } value /= divisor; n = sprintf(buffer, "%ld",value); if (trailer) { buffer[n] = trailer; n++; buffer[n] = 0; } if (divisor != 1) { memmove(buffer + n - 2, buffer + n - 3, 4); buffer[n-2] = '.'; n++; } return n; } static void decode_numa_list(int *numa, char *t) { int node; int nr; memset(numa, 0, MAX_NODES * sizeof(int)); if (!t) return; while (*t == 'N') { t++; node = strtoul(t, &t, 10); if (*t == '=') { t++; nr = strtoul(t, &t, 10); numa[node] = nr; if (node > highest_node) highest_node = node; } while (*t == ' ') t++; } } static void slab_validate(struct slabinfo *s) { if (strcmp(s->name, "*") == 0) return; set_obj(s, "validate", 1); } static void slab_shrink(struct slabinfo *s) { if (strcmp(s->name, "*") == 0) return; set_obj(s, "shrink", 1); } int line = 0; static void first_line(void) { if (show_activity) printf("Name Objects Alloc Free %%Fast Fallb O CmpX UL\n"); else printf("Name Objects Objsize Space " "Slabs/Part/Cpu O/S O %%Fr %%Ef Flg\n"); } /* * Find the shortest alias of a slab */ static struct aliasinfo *find_one_alias(struct slabinfo *find) { struct aliasinfo *a; struct aliasinfo *best = NULL; for(a = aliasinfo;a < aliasinfo + aliases; a++) { if (a->slab == find && (!best || strlen(best->name) < strlen(a->name))) { best = a; if (strncmp(a->name,"kmall", 5) == 0) return best; } } return best; } static unsigned long slab_size(struct slabinfo *s) { return s->slabs * (page_size << s->order); } static unsigned long slab_activity(struct slabinfo *s) { return s->alloc_fastpath + s->free_fastpath + s->alloc_slowpath + s->free_slowpath; } static void slab_numa(struct slabinfo *s, int mode) { int node; if (strcmp(s->name, "*") == 0) return; if (!highest_node) { printf("\n%s: No NUMA information available.\n", s->name); return; } if (skip_zero && !s->slabs) return; if (!line) { printf("\n%-21s:", mode ? "NUMA nodes" : "Slab"); for(node = 0; node <= highest_node; node++) printf(" %4d", node); printf("\n----------------------"); for(node = 0; node <= highest_node; node++) printf("-----"); printf("\n"); } printf("%-21s ", mode ? "All slabs" : s->name); for(node = 0; node <= highest_node; node++) { char b[20]; store_size(b, s->numa[node]); printf(" %4s", b); } printf("\n"); if (mode) { printf("%-21s ", "Partial slabs"); for(node = 0; node <= highest_node; node++) { char b[20]; store_size(b, s->numa_partial[node]); printf(" %4s", b); } printf("\n"); } line++; } static void show_tracking(struct slabinfo *s) { printf("\n%s: Kernel object allocation\n", s->name); printf("-----------------------------------------------------------------------\n"); if (read_slab_obj(s, "alloc_calls")) printf("%s", buffer); else printf("No Data\n"); printf("\n%s: Kernel object freeing\n", s->name); printf("------------------------------------------------------------------------\n"); if (read_slab_obj(s, "free_calls")) printf("%s", buffer); else printf("No Data\n"); } static void ops(struct slabinfo *s) { if (strcmp(s->name, "*") == 0) return; if (read_slab_obj(s, "ops")) { printf("\n%s: kmem_cache operations\n", s->name); printf("--------------------------------------------\n"); printf("%s", buffer); } else printf("\n%s has no kmem_cache operations\n", s->name); } static const char *onoff(int x) { if (x) return "On "; return "Off"; } static void slab_stats(struct slabinfo *s) { unsigned long total_alloc; unsigned long total_free; unsigned long total; if (!s->alloc_slab) return; total_alloc = s->alloc_fastpath + s->alloc_slowpath; total_free = s->free_fastpath + s->free_slowpath; if (!total_alloc) return; printf("\n"); printf("Slab Perf Counter Alloc Free %%Al %%Fr\n"); printf("--------------------------------------------------\n"); printf("Fastpath %8lu %8lu %3lu %3lu\n", s->alloc_fastpath, s->free_fastpath, s->alloc_fastpath * 100 / total_alloc, s->free_fastpath * 100 / total_free); printf("Slowpath %8lu %8lu %3lu %3lu\n", total_alloc - s->alloc_fastpath, s->free_slowpath, (total_alloc - s->alloc_fastpath) * 100 / total_alloc, s->free_slowpath * 100 / total_free); printf("Page Alloc %8lu %8lu %3lu %3lu\n", s->alloc_slab, s->free_slab, s->alloc_slab * 100 / total_alloc, s->free_slab * 100 / total_free); printf("Add partial %8lu %8lu %3lu %3lu\n", s->deactivate_to_head + s->deactivate_to_tail, s->free_add_partial, (s->deactivate_to_head + s->deactivate_to_tail) * 100 / total_alloc, s->free_add_partial * 100 / total_free); printf("Remove partial %8lu %8lu %3lu %3lu\n", s->alloc_from_partial, s->free_remove_partial, s->alloc_from_partial * 100 / total_alloc, s->free_remove_partial * 100 / total_free); printf("Cpu partial list %8lu %8lu %3lu %3lu\n", s->cpu_partial_alloc, s->cpu_partial_free, s->cpu_partial_alloc * 100 / total_alloc, s->cpu_partial_free * 100 / total_free); printf("RemoteObj/SlabFrozen %8lu %8lu %3lu %3lu\n", s->deactivate_remote_frees, s->free_frozen, s->deactivate_remote_frees * 100 / total_alloc, s->free_frozen * 100 / total_free); printf("Total %8lu %8lu\n\n", total_alloc, total_free); if (s->cpuslab_flush) printf("Flushes %8lu\n", s->cpuslab_flush); total = s->deactivate_full + s->deactivate_empty + s->deactivate_to_head + s->deactivate_to_tail + s->deactivate_bypass; if (total) { printf("\nSlab Deactivation Ocurrences %%\n"); printf("-------------------------------------------------\n"); printf("Slab full %7lu %3lu%%\n", s->deactivate_full, (s->deactivate_full * 100) / total); printf("Slab empty %7lu %3lu%%\n", s->deactivate_empty, (s->deactivate_empty * 100) / total); printf("Moved to head of partial list %7lu %3lu%%\n", s->deactivate_to_head, (s->deactivate_to_head * 100) / total); printf("Moved to tail of partial list %7lu %3lu%%\n", s->deactivate_to_tail, (s->deactivate_to_tail * 100) / total); printf("Deactivation bypass %7lu %3lu%%\n", s->deactivate_bypass, (s->deactivate_bypass * 100) / total); printf("Refilled from foreign frees %7lu %3lu%%\n", s->alloc_refill, (s->alloc_refill * 100) / total); printf("Node mismatch %7lu %3lu%%\n", s->alloc_node_mismatch, (s->alloc_node_mismatch * 100) / total); } if (s->cmpxchg_double_fail || s->cmpxchg_double_cpu_fail) printf("\nCmpxchg_double Looping\n------------------------\n"); printf("Locked Cmpxchg Double redos %lu\nUnlocked Cmpxchg Double redos %lu\n", s->cmpxchg_double_fail, s->cmpxchg_double_cpu_fail); } static void report(struct slabinfo *s) { if (strcmp(s->name, "*") == 0) return; printf("\nSlabcache: %-20s Aliases: %2d Order : %2d Objects: %lu\n", s->name, s->aliases, s->order, s->objects); if (s->hwcache_align) printf("** Hardware cacheline aligned\n"); if (s->cache_dma) printf("** Memory is allocated in a special DMA zone\n"); if (s->destroy_by_rcu) printf("** Slabs are destroyed via RCU\n"); if (s->reclaim_account) printf("** Reclaim accounting active\n"); printf("\nSizes (bytes) Slabs Debug Memory\n"); printf("------------------------------------------------------------------------\n"); printf("Object : %7d Total : %7ld Sanity Checks : %s Total: %7ld\n", s->object_size, s->slabs, onoff(s->sanity_checks), s->slabs * (page_size << s->order)); printf("SlabObj: %7d Full : %7ld Redzoning : %s Used : %7ld\n", s->slab_size, s->slabs - s->partial - s->cpu_slabs, onoff(s->red_zone), s->objects * s->object_size); printf("SlabSiz: %7d Partial: %7ld Poisoning : %s Loss : %7ld\n", page_size << s->order, s->partial, onoff(s->poison), s->slabs * (page_size << s->order) - s->objects * s->object_size); printf("Loss : %7d CpuSlab: %7d Tracking : %s Lalig: %7ld\n", s->slab_size - s->object_size, s->cpu_slabs, onoff(s->store_user), (s->slab_size - s->object_size) * s->objects); printf("Align : %7d Objects: %7d Tracing : %s Lpadd: %7ld\n", s->align, s->objs_per_slab, onoff(s->trace), ((page_size << s->order) - s->objs_per_slab * s->slab_size) * s->slabs); ops(s); show_tracking(s); slab_numa(s, 1); slab_stats(s); } static void slabcache(struct slabinfo *s) { char size_str[20]; char dist_str[40]; char flags[20]; char *p = flags; if (strcmp(s->name, "*") == 0) return; if (actual_slabs == 1) { report(s); return; } if (skip_zero && !show_empty && !s->slabs) return; if (show_empty && s->slabs) return; store_size(size_str, slab_size(s)); snprintf(dist_str, 40, "%lu/%lu/%d", s->slabs - s->cpu_slabs, s->partial, s->cpu_slabs); if (!line++) first_line(); if (s->aliases) *p++ = '*'; if (s->cache_dma) *p++ = 'd'; if (s->hwcache_align) *p++ = 'A'; if (s->poison) *p++ = 'P'; if (s->reclaim_account) *p++ = 'a'; if (s->red_zone) *p++ = 'Z'; if (s->sanity_checks) *p++ = 'F'; if (s->store_user) *p++ = 'U'; if (s->trace) *p++ = 'T'; *p = 0; if (show_activity) { unsigned long total_alloc; unsigned long total_free; total_alloc = s->alloc_fastpath + s->alloc_slowpath; total_free = s->free_fastpath + s->free_slowpath; printf("%-21s %8ld %10ld %10ld %3ld %3ld %5ld %1d %4ld %4ld\n", s->name, s->objects, total_alloc, total_free, total_alloc ? (s->alloc_fastpath * 100 / total_alloc) : 0, total_free ? (s->free_fastpath * 100 / total_free) : 0, s->order_fallback, s->order, s->cmpxchg_double_fail, s->cmpxchg_double_cpu_fail); } else printf("%-21s %8ld %7d %8s %14s %4d %1d %3ld %3ld %s\n", s->name, s->objects, s->object_size, size_str, dist_str, s->objs_per_slab, s->order, s->slabs ? (s->partial * 100) / s->slabs : 100, s->slabs ? (s->objects * s->object_size * 100) / (s->slabs * (page_size << s->order)) : 100, flags); } /* * Analyze debug options. Return false if something is amiss. */ static int debug_opt_scan(char *opt) { if (!opt || !opt[0] || strcmp(opt, "-") == 0) return 1; if (strcasecmp(opt, "a") == 0) { sanity = 1; poison = 1; redzone = 1; tracking = 1; return 1; } for ( ; *opt; opt++) switch (*opt) { case 'F' : case 'f': if (sanity) return 0; sanity = 1; break; case 'P' : case 'p': if (poison) return 0; poison = 1; break; case 'Z' : case 'z': if (redzone) return 0; redzone = 1; break; case 'U' : case 'u': if (tracking) return 0; tracking = 1; break; case 'T' : case 't': if (tracing) return 0; tracing = 1; break; default: return 0; } return 1; } static int slab_empty(struct slabinfo *s) { if (s->objects > 0) return 0; /* * We may still have slabs even if there are no objects. Shrinking will * remove them. */ if (s->slabs != 0) set_obj(s, "shrink", 1); return 1; } static void slab_debug(struct slabinfo *s) { if (strcmp(s->name, "*") == 0) return; if (sanity && !s->sanity_checks) { set_obj(s, "sanity", 1); } if (!sanity && s->sanity_checks) { if (slab_empty(s)) set_obj(s, "sanity", 0); else fprintf(stderr, "%s not empty cannot disable sanity checks\n", s->name); } if (redzone && !s->red_zone) { if (slab_empty(s)) set_obj(s, "red_zone", 1); else fprintf(stderr, "%s not empty cannot enable redzoning\n", s->name); } if (!redzone && s->red_zone) { if (slab_empty(s)) set_obj(s, "red_zone", 0); else fprintf(stderr, "%s not empty cannot disable redzoning\n", s->name); } if (poison && !s->poison) { if (slab_empty(s)) set_obj(s, "poison", 1); else fprintf(stderr, "%s not empty cannot enable poisoning\n", s->name); } if (!poison && s->poison) { if (slab_empty(s)) set_obj(s, "poison", 0); else fprintf(stderr, "%s not empty cannot disable poisoning\n", s->name); } if (tracking && !s->store_user) { if (slab_empty(s)) set_obj(s, "store_user", 1); else fprintf(stderr, "%s not empty cannot enable tracking\n", s->name); } if (!tracking && s->store_user) { if (slab_empty(s)) set_obj(s, "store_user", 0); else fprintf(stderr, "%s not empty cannot disable tracking\n", s->name); } if (tracing && !s->trace) { if (slabs == 1) set_obj(s, "trace", 1); else fprintf(stderr, "%s can only enable trace for one slab at a time\n", s->name); } if (!tracing && s->trace) set_obj(s, "trace", 1); } static void totals(void) { struct slabinfo *s; int used_slabs = 0; char b1[20], b2[20], b3[20], b4[20]; unsigned long long max = 1ULL << 63; /* Object size */ unsigned long long min_objsize = max, max_objsize = 0, avg_objsize; /* Number of partial slabs in a slabcache */ unsigned long long min_partial = max, max_partial = 0, avg_partial, total_partial = 0; /* Number of slabs in a slab cache */ unsigned long long min_slabs = max, max_slabs = 0, avg_slabs, total_slabs = 0; /* Size of the whole slab */ unsigned long long min_size = max, max_size = 0, avg_size, total_size = 0; /* Bytes used for object storage in a slab */ unsigned long long min_used = max, max_used = 0, avg_used, total_used = 0; /* Waste: Bytes used for alignment and padding */ unsigned long long min_waste = max, max_waste = 0, avg_waste, total_waste = 0; /* Number of objects in a slab */ unsigned long long min_objects = max, max_objects = 0, avg_objects, total_objects = 0; /* Waste per object */ unsigned long long min_objwaste = max, max_objwaste = 0, avg_objwaste, total_objwaste = 0; /* Memory per object */ unsigned long long min_memobj = max, max_memobj = 0, avg_memobj, total_objsize = 0; /* Percentage of partial slabs per slab */ unsigned long min_ppart = 100, max_ppart = 0, avg_ppart, total_ppart = 0; /* Number of objects in partial slabs */ unsigned long min_partobj = max, max_partobj = 0, avg_partobj, total_partobj = 0; /* Percentage of partial objects of all objects in a slab */ unsigned long min_ppartobj = 100, max_ppartobj = 0, avg_ppartobj, total_ppartobj = 0; for (s = slabinfo; s < slabinfo + slabs; s++) { unsigned long long size; unsigned long used; unsigned long long wasted; unsigned long long objwaste; unsigned long percentage_partial_slabs; unsigned long percentage_partial_objs; if (!s->slabs || !s->objects) continue; used_slabs++; size = slab_size(s); used = s->objects * s->object_size; wasted = size - used; objwaste = s->slab_size - s->object_size; percentage_partial_slabs = s->partial * 100 / s->slabs; if (percentage_partial_slabs > 100) percentage_partial_slabs = 100; percentage_partial_objs = s->objects_partial * 100 / s->objects; if (percentage_partial_objs > 100) percentage_partial_objs = 100; if (s->object_size < min_objsize) min_objsize = s->object_size; if (s->partial < min_partial) min_partial = s->partial; if (s->slabs < min_slabs) min_slabs = s->slabs; if (size < min_size) min_size = size; if (wasted < min_waste) min_waste = wasted; if (objwaste < min_objwaste) min_objwaste = objwaste; if (s->objects < min_objects) min_objects = s->objects; if (used < min_used) min_used = used; if (s->objects_partial < min_partobj) min_partobj = s->objects_partial; if (percentage_partial_slabs < min_ppart) min_ppart = percentage_partial_slabs; if (percentage_partial_objs < min_ppartobj) min_ppartobj = percentage_partial_objs; if (s->slab_size < min_memobj) min_memobj = s->slab_size; if (s->object_size > max_objsize) max_objsize = s->object_size; if (s->partial > max_partial) max_partial = s->partial; if (s->slabs > max_slabs) max_slabs = s->slabs; if (size > max_size) max_size = size; if (wasted > max_waste) max_waste = wasted; if (objwaste > max_objwaste) max_objwaste = objwaste; if (s->objects > max_objects) max_objects = s->objects; if (used > max_used) max_used = used; if (s->objects_partial > max_partobj) max_partobj = s->objects_partial; if (percentage_partial_slabs > max_ppart) max_ppart = percentage_partial_slabs; if (percentage_partial_objs > max_ppartobj) max_ppartobj = percentage_partial_objs; if (s->slab_size > max_memobj) max_memobj = s->slab_size; total_partial += s->partial; total_slabs += s->slabs; total_size += size; total_waste += wasted; total_objects += s->objects; total_used += used; total_partobj += s->objects_partial; total_ppart += percentage_partial_slabs; total_ppartobj += percentage_partial_objs; total_objwaste += s->objects * objwaste; total_objsize += s->objects * s->slab_size; } if (!total_objects) { printf("No objects\n"); return; } if (!used_slabs) { printf("No slabs\n"); return; } /* Per slab averages */ avg_partial = total_partial / used_slabs; avg_slabs = total_slabs / used_slabs; avg_size = total_size / used_slabs; avg_waste = total_waste / used_slabs; avg_objects = total_objects / used_slabs; avg_used = total_used / used_slabs; avg_partobj = total_partobj / used_slabs; avg_ppart = total_ppart / used_slabs; avg_ppartobj = total_ppartobj / used_slabs; /* Per object object sizes */ avg_objsize = total_used / total_objects; avg_objwaste = total_objwaste / total_objects; avg_partobj = total_partobj * 100 / total_objects; avg_memobj = total_objsize / total_objects; printf("Slabcache Totals\n"); printf("----------------\n"); printf("Slabcaches : %3d Aliases : %3d->%-3d Active: %3d\n", slabs, aliases, alias_targets, used_slabs); store_size(b1, total_size);store_size(b2, total_waste); store_size(b3, total_waste * 100 / total_used); printf("Memory used: %6s # Loss : %6s MRatio:%6s%%\n", b1, b2, b3); store_size(b1, total_objects);store_size(b2, total_partobj); store_size(b3, total_partobj * 100 / total_objects); printf("# Objects : %6s # PartObj: %6s ORatio:%6s%%\n", b1, b2, b3); printf("\n"); printf("Per Cache Average Min Max Total\n"); printf("---------------------------------------------------------\n"); store_size(b1, avg_objects);store_size(b2, min_objects); store_size(b3, max_objects);store_size(b4, total_objects); printf("#Objects %10s %10s %10s %10s\n", b1, b2, b3, b4); store_size(b1, avg_slabs);store_size(b2, min_slabs); store_size(b3, max_slabs);store_size(b4, total_slabs); printf("#Slabs %10s %10s %10s %10s\n", b1, b2, b3, b4); store_size(b1, avg_partial);store_size(b2, min_partial); store_size(b3, max_partial);store_size(b4, total_partial); printf("#PartSlab %10s %10s %10s %10s\n", b1, b2, b3, b4); store_size(b1, avg_ppart);store_size(b2, min_ppart); store_size(b3, max_ppart); store_size(b4, total_partial * 100 / total_slabs); printf("%%PartSlab%10s%% %10s%% %10s%% %10s%%\n", b1, b2, b3, b4); store_size(b1, avg_partobj);store_size(b2, min_partobj); store_size(b3, max_partobj); store_size(b4, total_partobj); printf("PartObjs %10s %10s %10s %10s\n", b1, b2, b3, b4); store_size(b1, avg_ppartobj);store_size(b2, min_ppartobj); store_size(b3, max_ppartobj); store_size(b4, total_partobj * 100 / total_objects); printf("%% PartObj%10s%% %10s%% %10s%% %10s%%\n", b1, b2, b3, b4); store_size(b1, avg_size);store_size(b2, min_size); store_size(b3, max_size);store_size(b4, total_size); printf("Memory %10s %10s %10s %10s\n", b1, b2, b3, b4); store_size(b1, avg_used);store_size(b2, min_used); store_size(b3, max_used);store_size(b4, total_used); printf("Used %10s %10s %10s %10s\n", b1, b2, b3, b4); store_size(b1, avg_waste);store_size(b2, min_waste); store_size(b3, max_waste);store_size(b4, total_waste); printf("Loss %10s %10s %10s %10s\n", b1, b2, b3, b4); printf("\n"); printf("Per Object Average Min Max\n"); printf("---------------------------------------------\n"); store_size(b1, avg_memobj);store_size(b2, min_memobj); store_size(b3, max_memobj); printf("Memory %10s %10s %10s\n", b1, b2, b3); store_size(b1, avg_objsize);store_size(b2, min_objsize); store_size(b3, max_objsize); printf("User %10s %10s %10s\n", b1, b2, b3); store_size(b1, avg_objwaste);store_size(b2, min_objwaste); store_size(b3, max_objwaste); printf("Loss %10s %10s %10s\n", b1, b2, b3); } static void sort_slabs(void) { struct slabinfo *s1,*s2; for (s1 = slabinfo; s1 < slabinfo + slabs; s1++) { for (s2 = s1 + 1; s2 < slabinfo + slabs; s2++) { int result; if (sort_size) result = slab_size(s1) < slab_size(s2); else if (sort_active) result = slab_activity(s1) < slab_activity(s2); else result = strcasecmp(s1->name, s2->name); if (show_inverted) result = -result; if (result > 0) { struct slabinfo t; memcpy(&t, s1, sizeof(struct slabinfo)); memcpy(s1, s2, sizeof(struct slabinfo)); memcpy(s2, &t, sizeof(struct slabinfo)); } } } } static void sort_aliases(void) { struct aliasinfo *a1,*a2; for (a1 = aliasinfo; a1 < aliasinfo + aliases; a1++) { for (a2 = a1 + 1; a2 < aliasinfo + aliases; a2++) { char *n1, *n2; n1 = a1->name; n2 = a2->name; if (show_alias && !show_inverted) { n1 = a1->ref; n2 = a2->ref; } if (strcasecmp(n1, n2) > 0) { struct aliasinfo t; memcpy(&t, a1, sizeof(struct aliasinfo)); memcpy(a1, a2, sizeof(struct aliasinfo)); memcpy(a2, &t, sizeof(struct aliasinfo)); } } } } static void link_slabs(void) { struct aliasinfo *a; struct slabinfo *s; for (a = aliasinfo; a < aliasinfo + aliases; a++) { for (s = slabinfo; s < slabinfo + slabs; s++) if (strcmp(a->ref, s->name) == 0) { a->slab = s; s->refs++; break; } if (s == slabinfo + slabs) fatal("Unresolved alias %s\n", a->ref); } } static void alias(void) { struct aliasinfo *a; char *active = NULL; sort_aliases(); link_slabs(); for(a = aliasinfo; a < aliasinfo + aliases; a++) { if (!show_single_ref && a->slab->refs == 1) continue; if (!show_inverted) { if (active) { if (strcmp(a->slab->name, active) == 0) { printf(" %s", a->name); continue; } } printf("\n%-12s <- %s", a->slab->name, a->name); active = a->slab->name; } else printf("%-20s -> %s\n", a->name, a->slab->name); } if (active) printf("\n"); } static void rename_slabs(void) { struct slabinfo *s; struct aliasinfo *a; for (s = slabinfo; s < slabinfo + slabs; s++) { if (*s->name != ':') continue; if (s->refs > 1 && !show_first_alias) continue; a = find_one_alias(s); if (a) s->name = a->name; else { s->name = "*"; actual_slabs--; } } } static int slab_mismatch(char *slab) { return regexec(&pattern, slab, 0, NULL, 0); } static void read_slab_dir(void) { DIR *dir; struct dirent *de; struct slabinfo *slab = slabinfo; struct aliasinfo *alias = aliasinfo; char *p; char *t; int count; if (chdir("/sys/kernel/slab") && chdir("/sys/slab")) fatal("SYSFS support for SLUB not active\n"); dir = opendir("."); while ((de = readdir(dir))) { if (de->d_name[0] == '.' || (de->d_name[0] != ':' && slab_mismatch(de->d_name))) continue; switch (de->d_type) { case DT_LNK: alias->name = strdup(de->d_name); count = readlink(de->d_name, buffer, sizeof(buffer)-1); if (count < 0) fatal("Cannot read symlink %s\n", de->d_name); buffer[count] = 0; p = buffer + count; while (p > buffer && p[-1] != '/') p--; alias->ref = strdup(p); alias++; break; case DT_DIR: if (chdir(de->d_name)) fatal("Unable to access slab %s\n", slab->name); slab->name = strdup(de->d_name); slab->alias = 0; slab->refs = 0; slab->aliases = get_obj("aliases"); slab->align = get_obj("align"); slab->cache_dma = get_obj("cache_dma"); slab->cpu_slabs = get_obj("cpu_slabs"); slab->destroy_by_rcu = get_obj("destroy_by_rcu"); slab->hwcache_align = get_obj("hwcache_align"); slab->object_size = get_obj("object_size"); slab->objects = get_obj("objects"); slab->objects_partial = get_obj("objects_partial"); slab->objects_total = get_obj("objects_total"); slab->objs_per_slab = get_obj("objs_per_slab"); slab->order = get_obj("order"); slab->partial = get_obj("partial"); slab->partial = get_obj_and_str("partial", &t); decode_numa_list(slab->numa_partial, t); free(t); slab->poison = get_obj("poison"); slab->reclaim_account = get_obj("reclaim_account"); slab->red_zone = get_obj("red_zone"); slab->sanity_checks = get_obj("sanity_checks"); slab->slab_size = get_obj("slab_size"); slab->slabs = get_obj_and_str("slabs", &t); decode_numa_list(slab->numa, t); free(t); slab->store_user = get_obj("store_user"); slab->trace = get_obj("trace"); slab->alloc_fastpath = get_obj("alloc_fastpath"); slab->alloc_slowpath = get_obj("alloc_slowpath"); slab->free_fastpath = get_obj("free_fastpath"); slab->free_slowpath = get_obj("free_slowpath"); slab->free_frozen= get_obj("free_frozen"); slab->free_add_partial = get_obj("free_add_partial"); slab->free_remove_partial = get_obj("free_remove_partial"); slab->alloc_from_partial = get_obj("alloc_from_partial"); slab->alloc_slab = get_obj("alloc_slab"); slab->alloc_refill = get_obj("alloc_refill"); slab->free_slab = get_obj("free_slab"); slab->cpuslab_flush = get_obj("cpuslab_flush"); slab->deactivate_full = get_obj("deactivate_full"); slab->deactivate_empty = get_obj("deactivate_empty"); slab->deactivate_to_head = get_obj("deactivate_to_head"); slab->deactivate_to_tail = get_obj("deactivate_to_tail"); slab->deactivate_remote_frees = get_obj("deactivate_remote_frees"); slab->order_fallback = get_obj("order_fallback"); slab->cmpxchg_double_cpu_fail = get_obj("cmpxchg_double_cpu_fail"); slab->cmpxchg_double_fail = get_obj("cmpxchg_double_fail"); slab->cpu_partial_alloc = get_obj("cpu_partial_alloc"); slab->cpu_partial_free = get_obj("cpu_partial_free"); slab->alloc_node_mismatch = get_obj("alloc_node_mismatch"); slab->deactivate_bypass = get_obj("deactivate_bypass"); chdir(".."); if (slab->name[0] == ':') alias_targets++; slab++; break; default : fatal("Unknown file type %lx\n", de->d_type); } } closedir(dir); slabs = slab - slabinfo; actual_slabs = slabs; aliases = alias - aliasinfo; if (slabs > MAX_SLABS) fatal("Too many slabs\n"); if (aliases > MAX_ALIASES) fatal("Too many aliases\n"); } static void output_slabs(void) { struct slabinfo *slab; for (slab = slabinfo; slab < slabinfo + slabs; slab++) { if (slab->alias) continue; if (show_numa) slab_numa(slab, 0); else if (show_track) show_tracking(slab); else if (validate) slab_validate(slab); else if (shrink) slab_shrink(slab); else if (set_debug) slab_debug(slab); else if (show_ops) ops(slab); else if (show_slab) slabcache(slab); else if (show_report) report(slab); } } struct option opts[] = { { "aliases", 0, NULL, 'a' }, { "activity", 0, NULL, 'A' }, { "debug", 2, NULL, 'd' }, { "display-activity", 0, NULL, 'D' }, { "empty", 0, NULL, 'e' }, { "first-alias", 0, NULL, 'f' }, { "help", 0, NULL, 'h' }, { "inverted", 0, NULL, 'i'}, { "numa", 0, NULL, 'n' }, { "ops", 0, NULL, 'o' }, { "report", 0, NULL, 'r' }, { "shrink", 0, NULL, 's' }, { "slabs", 0, NULL, 'l' }, { "track", 0, NULL, 't'}, { "validate", 0, NULL, 'v' }, { "zero", 0, NULL, 'z' }, { "1ref", 0, NULL, '1'}, { NULL, 0, NULL, 0 } }; int main(int argc, char *argv[]) { int c; int err; char *pattern_source; page_size = getpagesize(); while ((c = getopt_long(argc, argv, "aAd::Defhil1noprstvzTS", opts, NULL)) != -1) switch (c) { case '1': show_single_ref = 1; break; case 'a': show_alias = 1; break; case 'A': sort_active = 1; break; case 'd': set_debug = 1; if (!debug_opt_scan(optarg)) fatal("Invalid debug option '%s'\n", optarg); break; case 'D': show_activity = 1; break; case 'e': show_empty = 1; break; case 'f': show_first_alias = 1; break; case 'h': usage(); return 0; case 'i': show_inverted = 1; break; case 'n': show_numa = 1; break; case 'o': show_ops = 1; break; case 'r': show_report = 1; break; case 's': shrink = 1; break; case 'l': show_slab = 1; break; case 't': show_track = 1; break; case 'v': validate = 1; break; case 'z': skip_zero = 0; break; case 'T': show_totals = 1; break; case 'S': sort_size = 1; break; default: fatal("%s: Invalid option '%c'\n", argv[0], optopt); } if (!show_slab && !show_alias && !show_track && !show_report && !validate && !shrink && !set_debug && !show_ops) show_slab = 1; if (argc > optind) pattern_source = argv[optind]; else pattern_source = ".*"; err = regcomp(&pattern, pattern_source, REG_ICASE|REG_NOSUB); if (err) fatal("%s: Invalid pattern '%s' code %d\n", argv[0], pattern_source, err); read_slab_dir(); if (show_alias) alias(); else if (show_totals) totals(); else { link_slabs(); rename_slabs(); sort_slabs(); output_slabs(); } return 0; } |