#include <stdio.h> #include <unistd.h> #include <stdlib.h> #include <string.h> #include <fcntl.h> #include <libgen.h> #ifdef DEBUG #define dbg(fmt, args...) printf(fmt, __VA_ARGS__); #else #define dbg(fmt, args...) #endif /* * f2fs status */ #define F2FS_STATUS "/sys/kernel/debug/f2fs/status" #define KEY_NODE 0x00000001 #define KEY_META 0x00000010 unsigned long util; unsigned long used_node_blks; unsigned long used_data_blks; //unsigned long inline_inode; unsigned long free_segs; unsigned long valid_segs; unsigned long dirty_segs; unsigned long prefree_segs; unsigned long gc, bg_gc; unsigned long cp; unsigned long gc_data_blks; unsigned long gc_node_blks; //unsigned long extent_hit_ratio; unsigned long dirty_node, node_kb; unsigned long dirty_dents; unsigned long dirty_meta, meta_kb; unsigned long nat_caches; unsigned long dirty_sit; unsigned long free_nids; unsigned long ssr_blks; unsigned long lfs_blks; unsigned long memory_kb; struct options { int delay; int interval; char partname[32]; }; struct mm_table { const char *name; unsigned long *val; int flag; }; static int compare_mm_table(const void *a, const void *b) { dbg("[COMPARE] %s, %s\n", ((struct mm_table *)a)->name, ((struct mm_table *)b)->name); return strcmp(((struct mm_table *)a)->name, ((struct mm_table *)b)->name); } static inline void remove_newline(char **head) { again: if (**head == '\n') { *head = *head + 1; goto again; } } void f2fstat(struct options *opt) { int fd; int ret; char keyname[32]; char buf[4096]; struct mm_table key = { keyname, NULL }; struct mm_table *found; int f2fstat_table_cnt; char *head, *tail; int found_cnt = 0; static struct mm_table f2fstat_table[] = { { " - Data", &used_data_blks, 0 }, { " - Dirty", &dirty_segs, 0 }, { " - Free", &free_segs, 0 }, { " - NATs", &nat_caches, 0 }, { " - Node", &used_node_blks, 0 }, { " - Prefree", &prefree_segs, 0 }, { " - SITs", &dirty_sit, 0 }, { " - Valid", &valid_segs, 0 }, { " - dents", &dirty_dents, 0 }, { " - free_nids", &free_nids, 0 }, { " - meta", &dirty_meta, KEY_META }, { " - nodes", &dirty_node, KEY_NODE }, { "CP calls", &cp, 0 }, { "GC calls", &gc, 0 }, { "LFS", &lfs_blks, 0 }, { "Memory", &memory_kb, 0 }, { "SSR", &ssr_blks, 0 }, { "Utilization", &util, 0 }, }; f2fstat_table_cnt = sizeof(f2fstat_table)/sizeof(struct mm_table); fd = open(F2FS_STATUS, O_RDONLY); if (fd < 0) { perror("open " F2FS_STATUS); exit(EXIT_FAILURE); } ret = read(fd, buf, 4096); if (ret < 0) { perror("read " F2FS_STATUS); exit(EXIT_FAILURE); } buf[ret] = '\0'; head = buf; if (opt->partname[0] != '\0') { head = strstr(buf, opt->partname); if (head == NULL) exit(EXIT_FAILURE); } for (;;) { remove_newline(&head); tail = strchr(head, ':'); if (!tail) break; *tail = '\0'; if (strlen(head) >= sizeof(keyname)) { dbg("[OVER] %s\n", head); *tail = ':'; tail = strchr(head, '\n'); head = tail + 1; continue; } strcpy(keyname, head); found = bsearch(&key, f2fstat_table, f2fstat_table_cnt, sizeof(struct mm_table), compare_mm_table); dbg("[RESULT] %s (%s)\n", head, (found) ? "O" : "X"); head = tail + 1; if (!found) goto nextline; *(found->val) = strtoul(head, &tail, 10); if (found->flag) { int npages; tail = strstr(head, "in"); head = tail + 2; npages = strtoul(head, &tail, 10); switch (found->flag & (KEY_NODE | KEY_META)) { case KEY_NODE: node_kb = npages * 4; break; case KEY_META: meta_kb = npages * 4; break; } } if (++found_cnt == f2fstat_table_cnt) break; nextline: tail = strchr(head, '\n'); if (!tail) break; head = tail + 1; } close(fd); } void usage(void) { printf("Usage: f2fstat [option]\n" " -d delay (secs)\n" " -i interval of head info\n" " -p partition name (e.g. /dev/sda3)\n"); exit(EXIT_FAILURE); } void parse_option(int argc, char *argv[], struct options *opt) { char option; const char *option_string = "d:i:p:h"; while ((option = getopt(argc, argv, option_string)) != EOF) { switch (option) { case 'd': opt->delay = atoi(optarg); break; case 'i': opt->interval = atoi(optarg); break; case 'p': strcpy(opt->partname, basename(optarg)); break; default: usage(); break; } } } void print_head(void) { fprintf(stderr, "---utilization--- -----------main area-------- ---------balancing async------- ---gc--- ---alloc--- -----memory-----\n"); fprintf(stderr, "util node data free valid dirty prefree node dent meta sit nat fnid cp gc ssr lfs total node meta\n"); } int main(int argc, char *argv[]) { char format[] = "%3ld %6ld %6ld %6ld %6ld %6ld %6ld %5ld %5ld %3ld %5ld %5ld %3ld %3ld %3ld %6ld %6ld %6ld %6ld %6ld\n"; int head_interval; struct options opt = { .delay = 1, .interval = 20, .partname = { 0, }, }; parse_option(argc, argv, &opt); head_interval = opt.interval; print_head(); while (1) { if (head_interval-- == 0) { print_head(); head_interval = opt.interval; } f2fstat(&opt); fprintf(stderr, format, util, used_node_blks, used_data_blks, free_segs, valid_segs, dirty_segs, prefree_segs, dirty_node, dirty_dents, dirty_meta, dirty_sit, nat_caches, free_nids, cp, gc, ssr_blks, lfs_blks, memory_kb, node_kb, meta_kb); sleep(opt.delay); } return 0; }