1 #include <stdlib.h>
2 #include <stdio.h>
3 #include <string.h>
4 #include <unistd.h>
5 #include <errno.h>
6 #include <ctype.h>
7 #include <limits.h>
8
9 #define STRINGIFY_ARG(a) #a
10 #define STRINGIFY(a) STRINGIFY_ARG(a)
11
12 #define DEF_SORT_FUNC sort_nr_objs
13 #define SLABINFO_LINE_LEN 512 /* size of longest line */
14 #define SLABINFO_NAME_LEN 32 /* cache name size (will truncate) */
15 #define SLABINFO_FILE "/proc/slabinfo"
16 #define DEF_NR_ROWS 15 /* default nr of caches to show */
17
18 /* object representing a slab cache (each line of slabinfo) */
19 struct slab_info {
20 char name[SLABINFO_NAME_LEN]; /* name of this cache */
21 struct slab_info *next;
22 unsigned long nr_pages; /* size of cache in pages */
23 unsigned long nr_objs; /* number of objects in this cache */
24 unsigned long nr_active_objs; /* number of active objects */
25 unsigned long obj_size; /* size of each object */
26 unsigned long objs_per_slab; /* number of objects per slab */
27 unsigned long nr_slabs; /* number of slabs in this cache */
28 unsigned long use; /* percent full: total / active */
29 };
30
31 /* object representing system-wide statistics */
32 struct slab_stat {
33 unsigned long total_size; /* size of all objects */
34 unsigned long active_size; /* size of all active objects */
35 unsigned long nr_objs; /* total number of objects */
36 unsigned long nr_active_objs; /* total number of active objects */
37 unsigned long nr_slabs; /* total number of slabs */
38 unsigned long nr_active_slabs; /* total number of active slabs*/
39 unsigned long nr_caches; /* number of caches */
40 unsigned long nr_active_caches; /* number of active caches */
41 unsigned long avg_obj_size; /* average object size */
42 unsigned long min_obj_size; /* size of smallest object */
43 unsigned long max_obj_size; /* size of largest object */
44 };
45
46 typedef int (*sort_t)(const struct slab_info *, const struct slab_info *);
47 static sort_t sort_func;
48
49 /*
50 * get_slabinfo - open, read, and parse a slabinfo 2.x file, which has the
51 * following format:
52 *
53 * slabinfo - version: 2.1
54 * <name> <active_objs> <num_objs> <objsize> <objperslab> <pagesperslab>
55 * : tunables <limit> <batchcount> <sharedfactor>
56 * : slabdata <active_slabs> <num_slabs> <sharedavail>
57 *
58 * Returns the head of the new list of slab_info structures, or NULL on error.
59 */
get_slabinfo(struct slab_stat * stats)60 static struct slab_info * get_slabinfo(struct slab_stat *stats)
61 {
62 struct slab_info *head = NULL, *p = NULL, *prev = NULL;
63 FILE *slabfile;
64 char line[SLABINFO_LINE_LEN];
65 unsigned int major, minor;
66
67 slabfile = fopen(SLABINFO_FILE, "r");
68 if (!slabfile) {
69 perror("fopen");
70 return NULL;
71 }
72
73 if (!fgets(line, SLABINFO_LINE_LEN, slabfile)) {
74 fprintf(stderr, "cannot read from " SLABINFO_FILE "\n");
75 return NULL;
76 }
77
78 if (sscanf(line, "slabinfo - version: %u.%u", &major, &minor) != 2) {
79 fprintf(stderr, "unable to parse slabinfo version!\n");
80 return NULL;
81 }
82
83 if (major != 2 || minor > 1) {
84 fprintf(stderr, "we only support slabinfo 2.0 and 2.1!\n");
85 return NULL;
86 }
87
88 stats->min_obj_size = INT_MAX;
89
90 while (fgets(line, SLABINFO_LINE_LEN, slabfile)) {
91 unsigned long nr_active_slabs, pages_per_slab;
92 int ret;
93
94 if (line[0] == '#')
95 continue;
96
97 p = malloc(sizeof (struct slab_info));
98 if (!p) {
99 perror("malloc");
100 head = NULL;
101 break;
102 }
103 if (stats->nr_caches++ == 0)
104 head = prev = p;
105
106 ret = sscanf(line, "%" STRINGIFY(SLABINFO_NAME_LEN) "s"
107 " %lu %lu %lu %lu %lu : tunables %*d %*d %*d : \
108 slabdata %lu %lu %*d", p->name,
109 &p->nr_active_objs, &p->nr_objs,
110 &p->obj_size, &p->objs_per_slab,
111 &pages_per_slab,
112 &nr_active_slabs,
113 &p->nr_slabs);
114
115 if (ret != 8) {
116 fprintf(stderr, "unrecognizable data in slabinfo!\n");
117 head = NULL;
118 break;
119 }
120
121 if (p->obj_size < stats->min_obj_size)
122 stats->min_obj_size = p->obj_size;
123 if (p->obj_size > stats->max_obj_size)
124 stats->max_obj_size = p->obj_size;
125
126 p->nr_pages = p->nr_slabs * pages_per_slab;
127
128 if (p->nr_objs) {
129 p->use = 100 * p->nr_active_objs / p->nr_objs;
130 stats->nr_active_caches++;
131 } else
132 p->use = 0;
133
134 stats->nr_objs += p->nr_objs;
135 stats->nr_active_objs += p->nr_active_objs;
136 stats->total_size += p->nr_objs * p->obj_size;
137 stats->active_size += p->nr_active_objs * p->obj_size;
138 stats->nr_slabs += p->nr_slabs;
139 stats->nr_active_slabs += nr_active_slabs;
140
141 prev->next = p;
142 prev = p;
143 }
144
145 if (fclose(slabfile))
146 perror("fclose");
147
148 if (p)
149 p->next = NULL;
150 if (stats->nr_objs)
151 stats->avg_obj_size = stats->total_size / stats->nr_objs;
152
153 return head;
154 }
155
156 /*
157 * free_slablist - deallocate the memory associated with each node in the
158 * provided slab_info linked list
159 */
free_slablist(struct slab_info * list)160 static void free_slablist(struct slab_info *list)
161 {
162 while (list) {
163 struct slab_info *temp = list->next;
164 free(list);
165 list = temp;
166 }
167 }
168
merge_objs(struct slab_info * a,struct slab_info * b)169 static struct slab_info *merge_objs(struct slab_info *a, struct slab_info *b)
170 {
171 struct slab_info list;
172 struct slab_info *p = &list;
173
174 while (a && b) {
175 if (sort_func(a, b)) {
176 p->next = a;
177 p = a;
178 a = a->next;
179 } else {
180 p->next = b;
181 p = b;
182 b = b->next;
183 }
184 }
185
186 p->next = (a == NULL) ? b : a;
187 return list.next;
188 }
189
190 /*
191 * slabsort - merge sort the slab_info linked list based on sort_func
192 */
slabsort(struct slab_info * list)193 static struct slab_info *slabsort(struct slab_info *list)
194 {
195 struct slab_info *a, *b;
196
197 if (!list || !list->next)
198 return list;
199
200 a = list;
201 b = list->next;
202
203 while (b && b->next) {
204 list = list->next;
205 b = b->next->next;
206 }
207
208 b = list->next;
209 list->next = NULL;
210
211 return merge_objs(slabsort(a), slabsort(b));
212 }
213
214 /*
215 * Sort Routines. Each of these should be associated with a command-line
216 * search option. The functions should fit the prototype:
217 *
218 * int sort_foo(const struct slab_info *a, const struct slab_info *b)
219 *
220 * They return zero if the first parameter is smaller than the second.
221 * Otherwise, they return nonzero.
222 */
223
sort_name(const struct slab_info * a,const struct slab_info * b)224 static int sort_name(const struct slab_info *a, const struct slab_info *b)
225 {
226 return (strcmp(a->name, b->name) < 0 ) ? 1: 0;
227 }
228
229 #define BUILD_SORT_FUNC(VAL) \
230 static int sort_ ## VAL \
231 (const struct slab_info *a, const struct slab_info *b) { \
232 return (a-> VAL > b-> VAL); }
233
234 BUILD_SORT_FUNC(nr_objs)
BUILD_SORT_FUNC(nr_active_objs)235 BUILD_SORT_FUNC(nr_active_objs)
236 BUILD_SORT_FUNC(obj_size)
237 BUILD_SORT_FUNC(objs_per_slab)
238 BUILD_SORT_FUNC(nr_slabs)
239 BUILD_SORT_FUNC(use)
240 BUILD_SORT_FUNC(nr_pages)
241
242 /*
243 * set_sort_func - return the slab_sort_func that matches the given key.
244 * On unrecognizable key, the call returns NULL.
245 */
246 static void * set_sort_func(char key)
247 {
248 switch (tolower(key)) {
249 case 'a':
250 return sort_nr_active_objs;
251 case 'c':
252 return sort_nr_pages;
253 case 'l':
254 return sort_nr_slabs;
255 case 'n':
256 return sort_name;
257 case 'o':
258 return sort_nr_objs;
259 case 'p':
260 return sort_objs_per_slab;
261 case 's':
262 return sort_obj_size;
263 case 'u':
264 return sort_use;
265 default:
266 return NULL;
267 }
268 }
269
main(int argc,char * argv[])270 int main(int argc, char *argv[])
271 {
272 struct slab_info *list, *p;
273 struct slab_stat stats = { .nr_objs = 0 };
274 unsigned int page_size = getpagesize() / 1024, nr_rows = DEF_NR_ROWS, i;
275
276 sort_func = DEF_SORT_FUNC;
277
278 if (argc > 1) {
279 /* FIXME: Ugh. */
280 if (argc == 3 && !strcmp(argv[1], "-n")) {
281 errno = 0;
282 nr_rows = (unsigned int) strtoul(argv[2], NULL, 0);
283 if (errno) {
284 perror("strtoul");
285 exit(EXIT_FAILURE);
286 }
287 }
288 else if (argc == 3 && !strcmp(argv[1], "-s"))
289 sort_func = set_sort_func(argv[2][0]) ? : DEF_SORT_FUNC;
290 else {
291 fprintf(stderr, "usage: %s [options]\n\n", argv[0]);
292 fprintf(stderr, "options:\n");
293 fprintf(stderr, " -s S specify sort criteria S\n");
294 fprintf(stderr, " -h display this help\n\n");
295 fprintf(stderr, "Valid sort criteria:\n");
296 fprintf(stderr, " a: number of Active objects\n");
297 fprintf(stderr, " c: Cache size\n");
298 fprintf(stderr, " l: number of sLabs\n");
299 fprintf(stderr, " n: Name\n");
300 fprintf(stderr, " o: number of Objects\n");
301 fprintf(stderr, " p: objects Per slab\n");
302 fprintf(stderr, " s: object Size\n");
303 fprintf(stderr, " u: cache Utilization\n");
304 exit(EXIT_FAILURE);
305 }
306 }
307
308 list = get_slabinfo (&stats);
309 if (!list)
310 exit(EXIT_FAILURE);
311
312 printf(" Active / Total Objects (%% used) : %lu / %lu (%.1f%%)\n"
313 " Active / Total Slabs (%% used) : %lu / %lu (%.1f%%)\n"
314 " Active / Total Caches (%% used) : %lu / %lu (%.1f%%)\n"
315 " Active / Total Size (%% used) : %.2fK / %.2fK (%.1f%%)\n"
316 " Min / Avg / Max Object Size : %.2fK / %.2fK / %.2fK\n\n",
317 stats.nr_active_objs,
318 stats.nr_objs,
319 100.0 * stats.nr_active_objs / stats.nr_objs,
320 stats.nr_active_slabs,
321 stats.nr_slabs,
322 100.0 * stats.nr_active_slabs / stats.nr_slabs,
323 stats.nr_active_caches,
324 stats.nr_caches,
325 100.0 * stats.nr_active_caches / stats.nr_caches,
326 stats.active_size / 1024.0,
327 stats.total_size / 1024.0,
328 100.0 * stats.active_size / stats.total_size,
329 stats.min_obj_size / 1024.0,
330 stats.avg_obj_size / 1024.0,
331 stats.max_obj_size / 1024.0);
332
333 printf("%6s %6s %4s %8s %6s %8s %10s %-23s\n",
334 "OBJS", "ACTIVE", "USE", "OBJ SIZE", "SLABS",
335 "OBJ/SLAB", "CACHE SIZE", "NAME");
336
337 p = list = slabsort(list);
338 for (i = 0; i < nr_rows && p; i++) {
339 printf("%6lu %6lu %3lu%% %7.2fK %6lu %8lu %9luK %-23s\n",
340 p->nr_objs, p->nr_active_objs, p->use,
341 p->obj_size / 1024.0, p->nr_slabs,
342 p->objs_per_slab,
343 p->nr_pages * page_size,
344 p->name);
345 p = p->next;
346 }
347
348 free_slablist(list);
349
350 return 0;
351 }
352