/* -*- Mode: C; tab-width: 4; c-basic-offset: 4; indent-tabs-mode: nil -*- */ /* * Detailed statistics management. For simple stats like total number of * "get" requests, we use inline code in memcached.c and friends, but when * stats detail mode is activated, the code here records more information. * * Author: * Steven Grimm */ #include "memcached.h" #include #include #include #include /* * Stats are tracked on the basis of key prefixes. This is a simple * fixed-size hash of prefixes; we run the prefixes through the same * CRC function used by the cache hashtable. */ typedef struct _prefix_stats PREFIX_STATS; struct _prefix_stats { char *prefix; size_t prefix_len; uint64_t num_gets; uint64_t num_sets; uint64_t num_deletes; uint64_t num_hits; PREFIX_STATS *next; }; #define PREFIX_HASH_SIZE 256 static PREFIX_STATS *prefix_stats[PREFIX_HASH_SIZE]; static int num_prefixes = 0; static int total_prefix_size = 0; void stats_prefix_init() { memset(prefix_stats, 0, sizeof(prefix_stats)); } /* * Cleans up all our previously collected stats. NOTE: the stats lock is * assumed to be held when this is called. */ void stats_prefix_clear() { int i; for (i = 0; i < PREFIX_HASH_SIZE; i++) { PREFIX_STATS *cur, *next; for (cur = prefix_stats[i]; cur != NULL; cur = next) { next = cur->next; free(cur->prefix); free(cur); } prefix_stats[i] = NULL; } num_prefixes = 0; total_prefix_size = 0; } /* * Returns the stats structure for a prefix, creating it if it's not already * in the list. */ /*@null@*/ static PREFIX_STATS *stats_prefix_find(const char *key, const size_t nkey) { PREFIX_STATS *pfs; uint32_t hashval; size_t length; bool bailout = true; assert(key != NULL); for (length = 0; length < nkey && key[length] != '\0'; length++) { if (key[length] == settings.prefix_delimiter) { bailout = false; break; } } if (bailout) { return NULL; } hashval = hash(key, length, 0) % PREFIX_HASH_SIZE; for (pfs = prefix_stats[hashval]; NULL != pfs; pfs = pfs->next) { if (strncmp(pfs->prefix, key, length) == 0) return pfs; } pfs = calloc(sizeof(PREFIX_STATS), 1); if (NULL == pfs) { perror("Can't allocate space for stats structure: calloc"); return NULL; } pfs->prefix = malloc(length + 1); if (NULL == pfs->prefix) { perror("Can't allocate space for copy of prefix: malloc"); free(pfs); return NULL; } strncpy(pfs->prefix, key, length); pfs->prefix[length] = '\0'; /* because strncpy() sucks */ pfs->prefix_len = length; pfs->next = prefix_stats[hashval]; prefix_stats[hashval] = pfs; num_prefixes++; total_prefix_size += length; return pfs; } /* * Records a "get" of a key. */ void stats_prefix_record_get(const char *key, const size_t nkey, const bool is_hit) { PREFIX_STATS *pfs; STATS_LOCK(); pfs = stats_prefix_find(key, nkey); if (NULL != pfs) { pfs->num_gets++; if (is_hit) { pfs->num_hits++; } } STATS_UNLOCK(); } /* * Records a "delete" of a key. */ void stats_prefix_record_delete(const char *key, const size_t nkey) { PREFIX_STATS *pfs; STATS_LOCK(); pfs = stats_prefix_find(key, nkey); if (NULL != pfs) { pfs->num_deletes++; } STATS_UNLOCK(); } /* * Records a "set" of a key. */ void stats_prefix_record_set(const char *key, const size_t nkey) { PREFIX_STATS *pfs; STATS_LOCK(); pfs = stats_prefix_find(key, nkey); if (NULL != pfs) { pfs->num_sets++; } STATS_UNLOCK(); } /* * Returns stats in textual form suitable for writing to a client. */ /*@null@*/ char *stats_prefix_dump(int *length) { const char *format = "PREFIX %s get %llu hit %llu set %llu del %llu\r\n"; PREFIX_STATS *pfs; char *buf; int i, pos; size_t size = 0, written = 0, total_written = 0; /* * Figure out how big the buffer needs to be. This is the sum of the * lengths of the prefixes themselves, plus the size of one copy of * the per-prefix output with 20-digit values for all the counts, * plus space for the "END" at the end. */ STATS_LOCK(); size = strlen(format) + total_prefix_size + num_prefixes * (strlen(format) - 2 /* %s */ + 4 * (20 - 4)) /* %llu replaced by 20-digit num */ + sizeof("END\r\n"); buf = malloc(size); if (NULL == buf) { perror("Can't allocate stats response: malloc"); STATS_UNLOCK(); return NULL; } pos = 0; for (i = 0; i < PREFIX_HASH_SIZE; i++) { for (pfs = prefix_stats[i]; NULL != pfs; pfs = pfs->next) { written = snprintf(buf + pos, size-pos, format, pfs->prefix, pfs->num_gets, pfs->num_hits, pfs->num_sets, pfs->num_deletes); pos += written; total_written += written; assert(total_written < size); } } STATS_UNLOCK(); memcpy(buf + pos, "END\r\n", 6); *length = pos + 5; return buf; } #ifdef UNIT_TEST /**************************************************************************** To run unit tests, compile with $(CC) -DUNIT_TEST stats.c assoc.o (need assoc.o to get the hash() function). ****************************************************************************/ struct settings settings; static char *current_test = ""; static int test_count = 0; static int fail_count = 0; static void fail(char *what) { printf("\tFAIL: %s\n", what); fflush(stdout); fail_count++; } static void test_equals_int(char *what, int a, int b) { test_count++; if (a != b) fail(what); } static void test_equals_ptr(char *what, void *a, void *b) { test_count++; if (a != b) fail(what); } static void test_equals_str(char *what, const char *a, const char *b) { test_count++; if (strcmp(a, b)) fail(what); } static void test_equals_ull(char *what, uint64_t a, uint64_t b) { test_count++; if (a != b) fail(what); } static void test_notequals_ptr(char *what, void *a, void *b) { test_count++; if (a == b) fail(what); } static void test_notnull_ptr(char *what, void *a) { test_count++; if (NULL == a) fail(what); } static void test_prefix_find() { PREFIX_STATS *pfs1, *pfs2; pfs1 = stats_prefix_find("abc"); test_notnull_ptr("initial prefix find", pfs1); test_equals_ull("request counts", 0ULL, pfs1->num_gets + pfs1->num_sets + pfs1->num_deletes + pfs1->num_hits); pfs2 = stats_prefix_find("abc"); test_equals_ptr("find of same prefix", pfs1, pfs2); pfs2 = stats_prefix_find("abc:"); test_equals_ptr("find of same prefix, ignoring delimiter", pfs1, pfs2); pfs2 = stats_prefix_find("abc:d"); test_equals_ptr("find of same prefix, ignoring extra chars", pfs1, pfs2); pfs2 = stats_prefix_find("xyz123"); test_notequals_ptr("find of different prefix", pfs1, pfs2); pfs2 = stats_prefix_find("ab:"); test_notequals_ptr("find of shorter prefix", pfs1, pfs2); } static void test_prefix_record_get() { PREFIX_STATS *pfs; stats_prefix_record_get("abc:123", 0); pfs = stats_prefix_find("abc:123"); test_equals_ull("get count after get #1", 1, pfs->num_gets); test_equals_ull("hit count after get #1", 0, pfs->num_hits); stats_prefix_record_get("abc:456", 0); test_equals_ull("get count after get #2", 2, pfs->num_gets); test_equals_ull("hit count after get #2", 0, pfs->num_hits); stats_prefix_record_get("abc:456", 1); test_equals_ull("get count after get #3", 3, pfs->num_gets); test_equals_ull("hit count after get #3", 1, pfs->num_hits); stats_prefix_record_get("def:", 1); test_equals_ull("get count after get #4", 3, pfs->num_gets); test_equals_ull("hit count after get #4", 1, pfs->num_hits); } static void test_prefix_record_delete() { PREFIX_STATS *pfs; stats_prefix_record_delete("abc:123"); pfs = stats_prefix_find("abc:123"); test_equals_ull("get count after delete #1", 0, pfs->num_gets); test_equals_ull("hit count after delete #1", 0, pfs->num_hits); test_equals_ull("delete count after delete #1", 1, pfs->num_deletes); test_equals_ull("set count after delete #1", 0, pfs->num_sets); stats_prefix_record_delete("def:"); test_equals_ull("delete count after delete #2", 1, pfs->num_deletes); } static void test_prefix_record_set() { PREFIX_STATS *pfs; stats_prefix_record_set("abc:123"); pfs = stats_prefix_find("abc:123"); test_equals_ull("get count after set #1", 0, pfs->num_gets); test_equals_ull("hit count after set #1", 0, pfs->num_hits); test_equals_ull("delete count after set #1", 0, pfs->num_deletes); test_equals_ull("set count after set #1", 1, pfs->num_sets); stats_prefix_record_delete("def:"); test_equals_ull("set count after set #2", 1, pfs->num_sets); } static void test_prefix_dump() { int hashval = hash("abc", 3, 0) % PREFIX_HASH_SIZE; char tmp[500]; char *expected; int keynum; int length; test_equals_str("empty stats", "END\r\n", stats_prefix_dump(&length)); test_equals_int("empty stats length", 5, length); stats_prefix_record_set("abc:123"); expected = "PREFIX abc get 0 hit 0 set 1 del 0\r\nEND\r\n"; test_equals_str("stats after set", expected, stats_prefix_dump(&length)); test_equals_int("stats length after set", strlen(expected), length); stats_prefix_record_get("abc:123", 0); expected = "PREFIX abc get 1 hit 0 set 1 del 0\r\nEND\r\n"; test_equals_str("stats after get #1", expected, stats_prefix_dump(&length)); test_equals_int("stats length after get #1", strlen(expected), length); stats_prefix_record_get("abc:123", 1); expected = "PREFIX abc get 2 hit 1 set 1 del 0\r\nEND\r\n"; test_equals_str("stats after get #2", expected, stats_prefix_dump(&length)); test_equals_int("stats length after get #2", strlen(expected), length); stats_prefix_record_delete("abc:123"); expected = "PREFIX abc get 2 hit 1 set 1 del 1\r\nEND\r\n"; test_equals_str("stats after del #1", expected, stats_prefix_dump(&length)); test_equals_int("stats length after del #1", strlen(expected), length); /* The order of results might change if we switch hash functions. */ stats_prefix_record_delete("def:123"); expected = "PREFIX abc get 2 hit 1 set 1 del 1\r\n" "PREFIX def get 0 hit 0 set 0 del 1\r\n" "END\r\n"; test_equals_str("stats after del #2", expected, stats_prefix_dump(&length)); test_equals_int("stats length after del #2", strlen(expected), length); /* Find a key that hashes to the same bucket as "abc" */ for (keynum = 0; keynum < PREFIX_HASH_SIZE * 100; keynum++) { snprintf(tmp, sizeof(tmp), "%d", keynum); if (hashval == hash(tmp, strlen(tmp), 0) % PREFIX_HASH_SIZE) { break; } } stats_prefix_record_set(tmp); snprintf(tmp, sizeof(tmp), "PREFIX %d get 0 hit 0 set 1 del 0\r\n" "PREFIX abc get 2 hit 1 set 1 del 1\r\n" "PREFIX def get 0 hit 0 set 0 del 1\r\n" "END\r\n", keynum); test_equals_str("stats with two stats in one bucket", tmp, stats_prefix_dump(&length)); test_equals_int("stats length with two stats in one bucket", strlen(tmp), length); } static void run_test(char *what, void (*func)(void)) { current_test = what; test_count = fail_count = 0; puts(what); fflush(stdout); stats_prefix_clear(); (func)(); printf("\t%d / %d pass\n", (test_count - fail_count), test_count); } /* In case we're compiled in thread mode */ void mt_stats_lock() { } void mt_stats_unlock() { } main(int argc, char **argv) { stats_prefix_init(); settings.prefix_delimiter = ':'; run_test("stats_prefix_find", test_prefix_find); run_test("stats_prefix_record_get", test_prefix_record_get); run_test("stats_prefix_record_delete", test_prefix_record_delete); run_test("stats_prefix_record_set", test_prefix_record_set); run_test("stats_prefix_dump", test_prefix_dump); } #endif