/* * nstat.c handy utility to read counters /proc/net/netstat and snmp * * This program is free software; you can redistribute it and/or * modify it under the terms of the GNU General Public License * as published by the Free Software Foundation; either version * 2 of the License, or (at your option) any later version. * * Authors: Alexey Kuznetsov, */ #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include int dump_zeros = 0; int reset_history = 0; int ignore_history = 0; int no_output = 0; int json_output = 0; int no_update = 0; int scan_interval = 0; int time_constant = 0; double W; char **patterns; int npatterns; char info_source[128]; int source_mismatch; static int generic_proc_open(const char *env, char *name) { char store[128]; char *p = getenv(env); if (!p) { p = getenv("PROC_ROOT") ? : "/proc"; snprintf(store, sizeof(store)-1, "%s/%s", p, name); p = store; } return open(p, O_RDONLY); } static int net_netstat_open(void) { return generic_proc_open("PROC_NET_NETSTAT", "net/netstat"); } static int net_snmp_open(void) { return generic_proc_open("PROC_NET_SNMP", "net/snmp"); } static int net_snmp6_open(void) { return generic_proc_open("PROC_NET_SNMP6", "net/snmp6"); } struct nstat_ent { struct nstat_ent *next; char *id; unsigned long long val; double rate; }; struct nstat_ent *kern_db; struct nstat_ent *hist_db; static const char *useless_numbers[] = { "IpForwarding", "IpDefaultTTL", "TcpRtoAlgorithm", "TcpRtoMin", "TcpRtoMax", "TcpMaxConn", "TcpCurrEstab" }; static int useless_number(const char *id) { int i; for (i=0; iid = strdup(idbuf); n->val = val; n->rate = rate; n->next = db; db = n; } while (db) { n = db; db = db->next; n->next = kern_db; kern_db = n; } } static int count_spaces(const char *line) { int count = 0; char c; while ((c = *line++) != 0) count += c == ' ' || c == '\n'; return count; } static void load_ugly_table(FILE *fp) { char buf[4096]; struct nstat_ent *db = NULL; struct nstat_ent *n; while (fgets(buf, sizeof(buf), fp) != NULL) { char idbuf[sizeof(buf)]; int off; char *p; int count1, count2, skip = 0; p = strchr(buf, ':'); if (!p) abort(); count1 = count_spaces(buf); *p = 0; idbuf[0] = 0; strncat(idbuf, buf, sizeof(idbuf) - 1); off = p - buf; p += 2; while (*p) { char *next; if ((next = strchr(p, ' ')) != NULL) *next++ = 0; else if ((next = strchr(p, '\n')) != NULL) *next++ = 0; if (off < sizeof(idbuf)) { idbuf[off] = 0; strncat(idbuf, p, sizeof(idbuf) - off - 1); } n = malloc(sizeof(*n)); if (!n) abort(); n->id = strdup(idbuf); n->rate = 0; n->next = db; db = n; p = next; } n = db; if (fgets(buf, sizeof(buf), fp) == NULL) abort(); count2 = count_spaces(buf); if (count2 > count1) skip = count2 - count1; do { p = strrchr(buf, ' '); if (!p) abort(); *p = 0; if (sscanf(p+1, "%llu", &n->val) != 1) abort(); /* Trick to skip "dummy" trailing ICMP MIB in 2.4 */ if (skip) skip--; else n = n->next; } while (p > buf + off + 2); } while (db) { n = db; db = db->next; if (useless_number(n->id)) { free(n->id); free(n); } else { n->next = kern_db; kern_db = n; } } } static void load_snmp(void) { FILE *fp = fdopen(net_snmp_open(), "r"); if (fp) { load_ugly_table(fp); fclose(fp); } } static void load_snmp6(void) { FILE *fp = fdopen(net_snmp6_open(), "r"); if (fp) { load_good_table(fp); fclose(fp); } } static void load_netstat(void) { FILE *fp = fdopen(net_netstat_open(), "r"); if (fp) { load_ugly_table(fp); fclose(fp); } } static void dump_kern_db(FILE *fp, int to_hist) { struct nstat_ent *n, *h; const char *eol = "\n"; h = hist_db; if (json_output) fprintf(fp, "{ \"%s\":{", info_source); else fprintf(fp, "#%s\n", info_source); for (n=kern_db; n; n=n->next) { unsigned long long val = n->val; if (!dump_zeros && !val && !n->rate) continue; if (!match(n->id)) { struct nstat_ent *h1; if (!to_hist) continue; for (h1 = h; h1; h1 = h1->next) { if (strcmp(h1->id, n->id) == 0) { val = h1->val; h = h1->next; break; } } } if (json_output) { fprintf(fp, "%s \"%s\":%llu", eol, n->id, val); eol = ",\n"; } else fprintf(fp, "%-32s%-16llu%6.1f\n", n->id, val, n->rate); } if (json_output) fprintf(fp, "\n} }\n"); } static void dump_incr_db(FILE *fp) { struct nstat_ent *n, *h; const char *eol = "\n"; h = hist_db; if (json_output) fprintf(fp, "{ \"%s\":{", info_source); else fprintf(fp, "#%s\n", info_source); for (n=kern_db; n; n=n->next) { int ovfl = 0; unsigned long long val = n->val; struct nstat_ent *h1; for (h1 = h; h1; h1 = h1->next) { if (strcmp(h1->id, n->id) == 0) { if (val < h1->val) { ovfl = 1; val = h1->val; } val -= h1->val; h = h1->next; break; } } if (!dump_zeros && !val && !n->rate) continue; if (!match(n->id)) continue; if (json_output) { fprintf(fp, "%s \"%s\":%llu", eol, n->id, val); eol = ",\n"; } else fprintf(fp, "%-32s%-16llu%6.1f%s\n", n->id, val, n->rate, ovfl?" (overflow)":""); } if (json_output) fprintf(fp, "\n} }\n"); } static int children; static void sigchild(int signo) { } static void update_db(int interval) { struct nstat_ent *n, *h; n = kern_db; kern_db = NULL; load_netstat(); load_snmp6(); load_snmp(); h = kern_db; kern_db = n; for (n = kern_db; n; n = n->next) { struct nstat_ent *h1; for (h1 = h; h1; h1 = h1->next) { if (strcmp(h1->id, n->id) == 0) { double sample; unsigned long long incr = h1->val - n->val; n->val = h1->val; sample = (double)incr * 1000.0 / interval; if (interval >= scan_interval) { n->rate += W*(sample-n->rate); } else if (interval >= 1000) { if (interval >= time_constant) { n->rate = sample; } else { double w = W*(double)interval/scan_interval; n->rate += w*(sample-n->rate); } } while (h != h1) { struct nstat_ent *tmp = h; h = h->next; free(tmp->id); free(tmp); }; h = h1->next; free(h1->id); free(h1); break; } } } } #define T_DIFF(a,b) (((a).tv_sec-(b).tv_sec)*1000 + ((a).tv_usec-(b).tv_usec)/1000) static void server_loop(int fd) { struct timeval snaptime = { 0 }; struct pollfd p; p.fd = fd; p.events = p.revents = POLLIN; sprintf(info_source, "%d.%lu sampling_interval=%d time_const=%d", getpid(), (unsigned long)random(), scan_interval/1000, time_constant/1000); load_netstat(); load_snmp6(); load_snmp(); for (;;) { int status; int tdiff; struct timeval now; gettimeofday(&now, NULL); tdiff = T_DIFF(now, snaptime); if (tdiff >= scan_interval) { update_db(tdiff); snaptime = now; tdiff = 0; } if (poll(&p, 1, tdiff + scan_interval) > 0 && (p.revents&POLLIN)) { int clnt = accept(fd, NULL, NULL); if (clnt >= 0) { pid_t pid; if (children >= 5) { close(clnt); } else if ((pid = fork()) != 0) { if (pid>0) children++; close(clnt); } else { FILE *fp = fdopen(clnt, "w"); if (fp) { if (tdiff > 0) update_db(tdiff); dump_kern_db(fp, 0); } exit(0); } } } while (children && waitpid(-1, &status, WNOHANG) > 0) children--; } } static int verify_forging(int fd) { struct ucred cred; socklen_t olen = sizeof(cred); if (getsockopt(fd, SOL_SOCKET, SO_PEERCRED, (void*)&cred, &olen) || olen < sizeof(cred)) return -1; if (cred.uid == getuid() || cred.uid == 0) return 0; return -1; } static void usage(void) __attribute__((noreturn)); static void usage(void) { fprintf(stderr, "Usage: nstat [OPTION] [ PATTERN [ PATTERN ] ]\n" " -h, --help this message\n" " -a, --ignore ignore history\n" " -d, --scan=SECS sample every statistics every SECS\n" " -j, --json format output in JSON\n" " -n, --nooutput do history only\n" " -r, --reset reset history\n" " -s, --noupdate don\'t update history\n" " -t, --interval=SECS report average over the last SECS\n" " -V, --version output version information\n" " -z, --zeros show entries with zero activity\n"); exit(-1); } static const struct option longopts[] = { { "help", 0, 0, 'h' }, { "ignore", 0, 0, 'a' }, { "scan", 1, 0, 'd'}, { "nooutput", 0, 0, 'n' }, { "json", 0, 0, 'j' }, { "reset", 0, 0, 'r' }, { "noupdate", 0, 0, 's' }, { "interval", 1, 0, 't' }, { "version", 0, 0, 'V' }, { "zeros", 0, 0, 'z' }, { 0 } }; int main(int argc, char *argv[]) { char *hist_name; struct sockaddr_un sun; FILE *hist_fp = NULL; int ch; int fd; while ((ch = getopt_long(argc, argv, "h?vVzrnasd:t:j", longopts, NULL)) != EOF) { switch(ch) { case 'z': dump_zeros = 1; break; case 'r': reset_history = 1; break; case 'a': ignore_history = 1; break; case 's': no_update = 1; break; case 'n': no_output = 1; break; case 'd': scan_interval = 1000*atoi(optarg); break; case 't': if (sscanf(optarg, "%d", &time_constant) != 1 || time_constant <= 0) { fprintf(stderr, "nstat: invalid time constant divisor\n"); exit(-1); } break; case 'j': json_output = 1; break; case 'v': case 'V': printf("nstat utility, iproute2-ss%s\n", SNAPSHOT); exit(0); case 'h': case '?': default: usage(); } } argc -= optind; argv += optind; sun.sun_family = AF_UNIX; sun.sun_path[0] = 0; sprintf(sun.sun_path+1, "nstat%d", getuid()); if (scan_interval > 0) { if (time_constant == 0) time_constant = 60; time_constant *= 1000; W = 1 - 1/exp(log(10)*(double)scan_interval/time_constant); if ((fd = socket(AF_UNIX, SOCK_STREAM, 0)) < 0) { perror("nstat: socket"); exit(-1); } if (bind(fd, (struct sockaddr*)&sun, 2+1+strlen(sun.sun_path+1)) < 0) { perror("nstat: bind"); exit(-1); } if (listen(fd, 5) < 0) { perror("nstat: listen"); exit(-1); } if (daemon(0, 0)) { perror("nstat: daemon"); exit(-1); } signal(SIGPIPE, SIG_IGN); signal(SIGCHLD, sigchild); server_loop(fd); exit(0); } patterns = argv; npatterns = argc; if ((hist_name = getenv("NSTAT_HISTORY")) == NULL) { hist_name = malloc(128); sprintf(hist_name, "/tmp/.nstat.u%d", getuid()); } if (reset_history) unlink(hist_name); if (!ignore_history || !no_update) { struct stat stb; fd = open(hist_name, O_RDWR|O_CREAT|O_NOFOLLOW, 0600); if (fd < 0) { perror("nstat: open history file"); exit(-1); } if ((hist_fp = fdopen(fd, "r+")) == NULL) { perror("nstat: fdopen history file"); exit(-1); } if (flock(fileno(hist_fp), LOCK_EX)) { perror("nstat: flock history file"); exit(-1); } if (fstat(fileno(hist_fp), &stb) != 0) { perror("nstat: fstat history file"); exit(-1); } if (stb.st_nlink != 1 || stb.st_uid != getuid()) { fprintf(stderr, "nstat: something is so wrong with history file, that I prefer not to proceed.\n"); exit(-1); } if (!ignore_history) { FILE *tfp; long uptime = -1; if ((tfp = fopen("/proc/uptime", "r")) != NULL) { if (fscanf(tfp, "%ld", &uptime) != 1) uptime = -1; fclose(tfp); } if (uptime >= 0 && time(NULL) >= stb.st_mtime+uptime) { fprintf(stderr, "nstat: history is aged out, resetting\n"); ftruncate(fileno(hist_fp), 0); } } load_good_table(hist_fp); hist_db = kern_db; kern_db = NULL; } if ((fd = socket(AF_UNIX, SOCK_STREAM, 0)) >= 0 && (connect(fd, (struct sockaddr*)&sun, 2+1+strlen(sun.sun_path+1)) == 0 || (strcpy(sun.sun_path+1, "nstat0"), connect(fd, (struct sockaddr*)&sun, 2+1+strlen(sun.sun_path+1)) == 0)) && verify_forging(fd) == 0) { FILE *sfp = fdopen(fd, "r"); load_good_table(sfp); if (hist_db && source_mismatch) { fprintf(stderr, "nstat: history is stale, ignoring it.\n"); hist_db = NULL; } fclose(sfp); } else { if (fd >= 0) close(fd); if (hist_db && info_source[0] && strcmp(info_source, "kernel")) { fprintf(stderr, "nstat: history is stale, ignoring it.\n"); hist_db = NULL; info_source[0] = 0; } load_netstat(); load_snmp6(); load_snmp(); if (info_source[0] == 0) strcpy(info_source, "kernel"); } if (!no_output) { if (ignore_history || hist_db == NULL) dump_kern_db(stdout, 0); else dump_incr_db(stdout); } if (!no_update) { ftruncate(fileno(hist_fp), 0); rewind(hist_fp); json_output = 0; dump_kern_db(hist_fp, 1); fclose(hist_fp); } exit(0); }