src/statgrab/statgrab.c

/* 
 * i-scream central monitoring system
 * http://www.i-scream.org
 * Copyright (C) 2000-2004 i-scream
 * 
 * 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.
 * 
 * This program is distributed in the hope that it will be useful,
 * but WITHOUT ANY WARRANTY; without even the implied warranty of
 * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the
 * GNU General Public License for more details.
 * 
 * You should have received a copy of the GNU General Public License
 * along with this program; if not, write to the Free Software
 * Foundation, Inc., 59 Temple Place - Suite 330, Boston, MA  02111-1307, USA.
 *
 * $Id: statgrab.c,v 1.19 2004/02/13 15:13:37 ats Exp $
 */

#ifdef HAVE_CONFIG_H
#include "config.h"
#endif

#include <statgrab.h>
#include <string.h>
#include <stdio.h>
#include <stdarg.h>
#include <stdlib.h>
#include <unistd.h>

typedef enum {
        LONG_LONG = 0,
        TIME_T,
        FLOAT,
        DOUBLE,
        STRING,
        INT,
        BOOL,
        DUPLEX
} stat_type;

typedef enum {
        DISPLAY_LINUX = 0,
        DISPLAY_BSD,
        DISPLAY_MRTG,
        DISPLAY_PLAIN
} display_mode_type;

typedef enum {
        REPEAT_NONE = 0,
        REPEAT_ONCE,
        REPEAT_FOREVER
} repeat_mode_type;

typedef struct {
        char *name;
        stat_type type;
        void *stat;
} stat;

stat *stats = NULL;
int num_stats = 0;
int alloc_stats = 0;
#define INCREMENT_STATS 64

display_mode_type display_mode = DISPLAY_LINUX;
repeat_mode_type repeat_mode = REPEAT_NONE;
int repeat_time = 1;
int use_cpu_percent = 0;
int use_diffs = 0;

/* Exit with an error message. */
void die(const char *s) {
        fprintf(stderr, "fatal: %s\n", s);
        exit(1);
}

/* Remove all the recorded stats. */
void clear_stats() {
        int i;

        for (i = 0; i < num_stats; i++)
                free(stats[i].name);
        num_stats = 0;
}

/* Add a stat. The varargs make up the name, joined with dots; the name is
   terminated with a NULL. */
void add_stat(stat_type type, void *stat, ...) {
        va_list ap;
        int len = 0;
        char *name, *p;

        /* Figure out how long the name will be, including dots and trailing
           \0. */
        va_start(ap, stat);
        while (1) {
                const char *part = va_arg(ap, const char *);
                if (part == NULL)
                        break;
                len += 1 + strlen(part);
        }
        va_end(ap);

        /* Paste the name together. */
        name = malloc(len);
        if (name == NULL)
                die("out of memory");
        p = name;
        va_start(ap, stat);
        while (1) {
                const char *part = va_arg(ap, const char *);
                int partlen;
                if (part == NULL)
                        break;
                partlen = strlen(part);
                memcpy(p, part, partlen);
                p += partlen;
                *p++ = '.';
        }
        va_end(ap);
        *--p = '\0';

        /* Replace spaces with underscores. */
        for (p = name; *p != '\0'; p++) {
                if (*p == ' ')
                        *p = '_';
        }

        /* Stretch the stats array if necessary. */
        if (num_stats >= alloc_stats) {
                alloc_stats += INCREMENT_STATS;
                stats = realloc(stats, alloc_stats * sizeof *stats);
                if (stats == NULL)
                        die("out of memory");
        }

        stats[num_stats].name = name;
        stats[num_stats].type = type;
        stats[num_stats].stat = stat;
        ++num_stats;
}

/* Compare two stats by name for qsort and bsearch. */
int stats_compare(const void *a, const void *b) {
        return strcmp(((stat *)a)->name, ((stat *)b)->name);
}

/* Compare up to the length of the key for bsearch. */
int stats_compare_prefix(const void *key, const void *item) {
        const char *kn = ((stat *)key)->name;
        const char *in = ((stat *)item)->name;

        return strncmp(kn, in, strlen(kn));
}

void populate_const() {
        static int zero = 0;

        /* Constants, for use with MRTG mode. */
        add_stat(INT, &zero, "const", "0", NULL);
}

void populate_cpu() {
        if (use_cpu_percent) {
                cpu_percent_t *cpu_p = cpu_percent_usage();

                if (cpu_p != NULL) {
                        add_stat(FLOAT, &cpu_p->user,
                                 "cpu", "user", NULL);
                        add_stat(FLOAT, &cpu_p->kernel,
                                 "cpu", "kernel", NULL);
                        add_stat(FLOAT, &cpu_p->idle,
                                 "cpu", "idle", NULL);
                        add_stat(FLOAT, &cpu_p->iowait,
                                 "cpu", "iowait", NULL);
                        add_stat(FLOAT, &cpu_p->swap,
                                 "cpu", "swap", NULL);
                        add_stat(FLOAT, &cpu_p->nice,
                                 "cpu", "nice", NULL);
                        add_stat(TIME_T, &cpu_p->time_taken,
                                 "cpu", "time_taken", NULL);
                }
        } else {
                cpu_states_t *cpu_s;

                cpu_s = use_diffs ? get_cpu_diff() : get_cpu_totals();
                if (cpu_s != NULL) {
                        add_stat(LONG_LONG, &cpu_s->user,
                                 "cpu", "user", NULL);
                        add_stat(LONG_LONG, &cpu_s->kernel,
                                 "cpu", "kernel", NULL);
                        add_stat(LONG_LONG, &cpu_s->idle,
                                 "cpu", "idle", NULL);
                        add_stat(LONG_LONG, &cpu_s->iowait,
                                 "cpu", "iowait", NULL);
                        add_stat(LONG_LONG, &cpu_s->swap,
                                 "cpu", "swap", NULL);
                        add_stat(LONG_LONG, &cpu_s->nice,
                                 "cpu", "nice", NULL);
                        add_stat(LONG_LONG, &cpu_s->total,
                                 "cpu", "total", NULL);
                        add_stat(TIME_T, &cpu_s->systime,
                                 "cpu", "systime", NULL);
                }
        }
}

void populate_mem() {
        mem_stat_t *mem = get_memory_stats();

        if (mem != NULL) {
                add_stat(LONG_LONG, &mem->total, "mem", "total", NULL);
                add_stat(LONG_LONG, &mem->free, "mem", "free", NULL);
                add_stat(LONG_LONG, &mem->used, "mem", "used", NULL);
                add_stat(LONG_LONG, &mem->cache, "mem", "cache", NULL);
        }
}

void populate_load() {
        load_stat_t *load = get_load_stats();

        if (load != NULL) {
                add_stat(DOUBLE, &load->min1, "load", "min1", NULL);
                add_stat(DOUBLE, &load->min5, "load", "min5", NULL);
                add_stat(DOUBLE, &load->min15, "load", "min15", NULL);
        }
}

void populate_user() {
        user_stat_t *user = get_user_stats();

        if (user != NULL) {
                add_stat(INT, &user->num_entries, "user", "num", NULL);
                add_stat(STRING, &user->name_list, "user", "names", NULL);
        }
}

void populate_swap() {
        swap_stat_t *swap = get_swap_stats();

        if (swap != NULL) {
                add_stat(LONG_LONG, &swap->total, "swap", "total", NULL);
                add_stat(LONG_LONG, &swap->used, "swap", "used", NULL);
                add_stat(LONG_LONG, &swap->free, "swap", "free", NULL);
        }
}

void populate_general() {
        general_stat_t *gen = get_general_stats();

        if (gen != NULL) {
                add_stat(STRING, &gen->os_name,
                         "general", "os_name", NULL);
                add_stat(STRING, &gen->os_release,
                         "general", "os_release", NULL);
                add_stat(STRING, &gen->os_version,
                         "general", "os_version", NULL);
                add_stat(STRING, &gen->platform, "general", "platform", NULL);
                add_stat(STRING, &gen->hostname, "general", "hostname", NULL);
                add_stat(TIME_T, &gen->uptime, "general", "uptime", NULL);
        }
}

void populate_fs() {
        int n, i;
        disk_stat_t *disk = get_disk_stats(&n);

        if (disk != NULL) {
                for (i = 0; i < n; i++) {
                        /* FIXME it'd be nicer if libstatgrab did this */
                        char *buf, *name, *p;
                        const char *device = disk[i].device_name;

                        if (strcmp(device, "/") == 0)
                                device = "root";

                        buf = strdup(device);
                        if (buf == NULL)
                                die("out of memory");

                        name = buf;
                        if (strlen(name) == 2 && name[1] == ':')
                                name[1] = '\0';
                        if (strncmp(name, "/dev/", 5) == 0)
                                name += 5;
                        while ((p = strchr(name, '/')) != NULL)
                                *p = '_';

                        add_stat(STRING, &disk[i].device_name,
                                 "fs", name, "device_name", NULL);
                        add_stat(STRING, &disk[i].fs_type,
                                 "fs", name, "fs_type", NULL);
                        add_stat(STRING, &disk[i].mnt_point,
                                 "fs", name, "mnt_point", NULL);
                        add_stat(LONG_LONG, &disk[i].size,
                                 "fs", name, "size", NULL);
                        add_stat(LONG_LONG, &disk[i].used,
                                 "fs", name, "used", NULL);
                        add_stat(LONG_LONG, &disk[i].avail,
                                 "fs", name, "avail", NULL);
                        add_stat(LONG_LONG, &disk[i].total_inodes,
                                 "fs", name, "total_inodes", NULL);
                        add_stat(LONG_LONG, &disk[i].used_inodes,
                                 "fs", name, "used_inodes", NULL);
                        add_stat(LONG_LONG, &disk[i].free_inodes,
                                 "fs", name, "free_inodes", NULL);

                        free(buf);
                }
        }
}

void populate_disk() {
        int n, i;
        diskio_stat_t *diskio;

        diskio = use_diffs ? get_diskio_stats_diff(&n) : get_diskio_stats(&n);
        if (diskio != NULL) {
                for (i = 0; i < n; i++) {
                        const char *name = diskio[i].disk_name;
        
                        add_stat(STRING, &diskio[i].disk_name,
                                 "disk", name, "disk_name", NULL);
                        add_stat(LONG_LONG, &diskio[i].read_bytes,
                                 "disk", name, "read_bytes", NULL);
                        add_stat(LONG_LONG, &diskio[i].write_bytes,
                                 "disk", name, "write_bytes", NULL);
                        add_stat(TIME_T, &diskio[i].systime,
                                 "disk", name, "systime", NULL);
                }
        }
}

void populate_proc() {
        process_stat_t *proc = get_process_stats();

        if (proc != NULL) {
                add_stat(INT, &proc->total, "proc", "total", NULL);
                add_stat(INT, &proc->running, "proc", "running", NULL);
                add_stat(INT, &proc->sleeping, "proc", "sleeping", NULL);
                add_stat(INT, &proc->stopped, "proc", "stopped", NULL);
                add_stat(INT, &proc->zombie, "proc", "zombie", NULL);
        }
}

void populate_net() {
        int n, i;
        network_stat_t *net;
        network_iface_stat_t *iface;

        net = use_diffs ? get_network_stats_diff(&n) : get_network_stats(&n);
        if (net != NULL) {
                for (i = 0; i < n; i++) {
                        const char *name = net[i].interface_name;
        
                        add_stat(STRING, &net[i].interface_name,
                                 "net", name, "interface_name", NULL);
                        add_stat(LONG_LONG, &net[i].tx,
                                 "net", name, "tx", NULL);
                        add_stat(LONG_LONG, &net[i].rx,
                                 "net", name, "rx", NULL);
                        add_stat(TIME_T, &net[i].systime,
                                 "net", name, "systime", NULL);
                }
        }

        iface = get_network_iface_stats(&n);
        if (iface != NULL) {
                for (i = 0; i < n; i++) {
                        const char *name = iface[i].interface_name;

                        add_stat(INT, &iface[i].speed,
                                 "net", name, "speed", NULL);
                        add_stat(BOOL, &iface[i].up,
                                 "net", name, "up", NULL);
                        add_stat(DUPLEX, &iface[i].dup,
                                 "net", name, "duplex", NULL);
                }
        }
}

void populate_page() {
        page_stat_t *page;

        page = use_diffs ? get_page_stats_diff() : get_page_stats();
        if (page != NULL) {
                add_stat(LONG_LONG, &page->pages_pagein, "page", "in", NULL);
                add_stat(LONG_LONG, &page->pages_pageout, "page", "out", NULL);
                add_stat(TIME_T, &page->systime, "page", "systime", NULL);
        }
}

typedef struct {
        const char *name;
        void (*populate)();
        int interesting;
} toplevel;
toplevel toplevels[] = {
        {"const.", populate_const, 0},
        {"cpu.", populate_cpu, 0},
        {"mem.", populate_mem, 0},
        {"load.", populate_load, 0},
        {"user.", populate_user, 0},
        {"swap.", populate_swap, 0},
        {"general.", populate_general, 0},
        {"fs.", populate_fs, 0},
        {"disk.", populate_disk, 0},
        {"proc.", populate_proc, 0},
        {"net.", populate_net, 0},
        {"page.", populate_page, 0},
        {NULL, NULL, 0}
};

/* Set the "interesting" flag on the sections that we actually need to
   fetch. */
void select_interesting(int argc, char **argv) {
        toplevel *t;

        if (argc == 0) {
                for (t = &toplevels[0]; t->name != NULL; t++)
                        t->interesting = 1;
        } else {
                int i;

                for (i = 0; i < argc; i++) {
                        for (t = &toplevels[0]; t->name != NULL; t++) {
                                if (strncmp(argv[i], t->name,
                                            strlen(t->name)) == 0) {
                                        t->interesting = 1;
                                        break;
                                }
                        }
                }
        }
}

/* Clear and rebuild the stats array. */
void get_stats() {
        toplevel *t;

        clear_stats();

        for (t = &toplevels[0]; t->name != NULL; t++) {
                if (t->interesting)
                        t->populate();
        }

        qsort(stats, num_stats, sizeof *stats, stats_compare);
}

/* Print the value of a stat. */
void print_stat_value(const stat *s) {
        void *v = s->stat;

        switch (s->type) {
        case LONG_LONG:
                printf("%lld", *(long long *)v);
                break;
        case TIME_T:
                /* FIXME option for formatted time? */
                printf("%ld", *(time_t *)v);
                break;
        case FLOAT:
                printf("%f", *(float *)v);
                break;
        case DOUBLE:
                printf("%f", *(double *)v);
                break;
        case STRING:
                /* FIXME escaping? */
                printf("%s", *(char **)v);
                break;
        case INT:
                printf("%d", *(int *)v);
                break;
        case BOOL:
                printf("%s", *(int *)v ? "true" : "false");
                break;
        case DUPLEX:
                switch (*(statgrab_duplex *) v) {
                case FULL_DUPLEX:
                        printf("full");
                        break;
                case HALF_DUPLEX:
                        printf("half");
                        break;
                default:
                        printf("unknown");
                        break;
                }
                break;
        }
}

/* Print the name and value of a stat. */
void print_stat(const stat *s) {
        switch (display_mode) {
        case DISPLAY_LINUX:
                printf("%s = ", s->name);
                break;
        case DISPLAY_BSD:
                printf("%s: ", s->name);
                break;
        case DISPLAY_MRTG:
        case DISPLAY_PLAIN:
                break;
        }
        print_stat_value(s);
        printf("\n");
}

/* Print stats as specified on the provided command line. */
void print_stats(int argc, char **argv) {
        int i;

        if (argc == optind) {
                /* Print all stats. */
                for (i = 0; i < num_stats; i++)
                        print_stat(&stats[i]);
        } else {
                /* Print selected stats. */
                for (i = optind; i < argc; i++) {
                        char *name = argv[i];
                        stat key;
                        const stat *s, *end;
                        int (*compare)(const void *, const void *);

                        key.name = name;
                        if (name[strlen(name) - 1] == '.')
                                compare = stats_compare_prefix;
                        else
                                compare = stats_compare;

                        s = (const stat *)bsearch(&key, stats, num_stats,
                                                  sizeof *stats, compare);
                        if (s == NULL) {
                                printf("Unknown stat %s\n", name);
                                continue;
                        }

                        /* Find the range of stats the user wanted. */
                        for (; s >= stats; s--) {
                                if (compare(&key, s) != 0)
                                        break;
                        }
                        s++;
                        for (end = s; end < &stats[num_stats]; end++) {
                                if (compare(&key, end) != 0)
                                        break;
                        }

                        /* And print them. */
                        for (; s < end; s++) {
                                print_stat(s);
                        }
                }
        }
}

void usage() {
        printf("Usage: statgrab [OPTION]... [STAT]...\n"
               "Display system statistics.\n"
               "\n"
               "If no STATs are given, all will be displayed. Specify 'STAT.' to display all\n"
               "statistics starting with that prefix.\n"
               "\n");
        printf("  -l         Linux sysctl-style output (default)\n"
               "  -b         BSD sysctl-style output\n"
               "  -m         MRTG-compatible output\n"
               "  -u         Plain output (only show values)\n"
               "  -n         Display cumulative stats once (default)\n"
               "  -s         Display stat differences repeatedly\n"
               "  -o         Display stat differences once\n"
               "  -t DELAY   When repeating, wait DELAY seconds between updates (default 1)\n"
               "  -p         Display CPU usage differences as percentages rather than\n"
               "             absolute values\n"
               "\n");
        printf("Version %s - report bugs to <%s>.\n",
               PACKAGE_VERSION, PACKAGE_BUGREPORT);
        exit(1);
}

int main(int argc, char **argv) {
        opterr = 0;
        while (1) {
                int c = getopt(argc, argv, "lbmunsot:p");
                if (c == -1)
                        break;
                switch (c) {
                case 'l':
                        display_mode = DISPLAY_LINUX;
                        break;
                case 'b':
                        display_mode = DISPLAY_BSD;
                        break;
                case 'm':
                        display_mode = DISPLAY_MRTG;
                        break;
                case 'u':
                        display_mode = DISPLAY_PLAIN;
                        break;
                case 'n':
                        repeat_mode = REPEAT_NONE;
                        break;
                case 's':
                        repeat_mode = REPEAT_FOREVER;
                        break;
                case 'o':
                        repeat_mode = REPEAT_ONCE;
                        break;
                case 't':
                        repeat_time = atoi(optarg);
                        break;
                case 'p':
                        use_cpu_percent = 1;
                        break;
                default:
                        usage();
                }
        }

        if (display_mode == DISPLAY_MRTG) {
                if ((argc - optind) != 2)
                        die("mrtg mode: must specify exactly two stats");
                if (repeat_mode == REPEAT_FOREVER)
                        die("mrtg mode: cannot repeat display");
        }

        if (use_cpu_percent && repeat_mode == REPEAT_NONE)
                die("CPU percentage usage display requires stat differences");

        if (repeat_mode == REPEAT_NONE)
                use_diffs = 0;
        else
                use_diffs = 1;

        select_interesting(argc - optind, &argv[optind]);

        /* We don't care if statgrab_init fails, because we can just display
           the statistics that can be read as non-root. */
        statgrab_init();
        if (statgrab_drop_privileges() != 0)
                die("Failed to drop setuid/setgid privileges");

        switch (repeat_mode) {
        case REPEAT_NONE:
                get_stats();
                print_stats(argc, argv);
                break;
        case REPEAT_ONCE:
                get_stats();
                sleep(repeat_time);
                get_stats();
                print_stats(argc, argv);
                break;
        case REPEAT_FOREVER:
                while (1) {
                        get_stats();
                        print_stats(argc, argv);
                        printf("\n");
                        sleep(repeat_time);
                }
        }

        if (display_mode == DISPLAY_MRTG) {
                printf("\n");
                printf("statgrab\n");
        }

        return 0;
}

Revision:	1.20
Committed:	Sat Feb 14 00:06:00 2004 UTC (20 years, 3 months ago) by ats
Content type:	text/plain
Branch:	MAIN
Changes since 1.19:	+7 -1 lines
Log Message:	Add support for interface .up.
#	Content
1	/*
2	* i-scream central monitoring system
3	* http://www.i-scream.org
4	* Copyright (C) 2000-2004 i-scream
5	*
6	* This program is free software; you can redistribute it and/or
7	* modify it under the terms of the GNU General Public License
8	* as published by the Free Software Foundation; either version 2
9	* of the License, or (at your option) any later version.
10	*
11	* This program is distributed in the hope that it will be useful,
12	* but WITHOUT ANY WARRANTY; without even the implied warranty of
13	* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
14	* GNU General Public License for more details.
15	*
16	* You should have received a copy of the GNU General Public License
17	* along with this program; if not, write to the Free Software
18	* Foundation, Inc., 59 Temple Place - Suite 330, Boston, MA 02111-1307, USA.
19	*
20	* $Id: statgrab.c,v 1.19 2004/02/13 15:13:37 ats Exp $
21	*/
22
23	#ifdef HAVE_CONFIG_H
24	#include "config.h"
25	#endif
26
27	#include <statgrab.h>
28	#include <string.h>
29	#include <stdio.h>
30	#include <stdarg.h>
31	#include <stdlib.h>
32	#include <unistd.h>
33
34	typedef enum {
35	LONG_LONG = 0,
36	TIME_T,
37	FLOAT,
38	DOUBLE,
39	STRING,
40	INT,
41	BOOL,
42	DUPLEX
43	} stat_type;
44
45	typedef enum {
46	DISPLAY_LINUX = 0,
47	DISPLAY_BSD,
48	DISPLAY_MRTG,
49	DISPLAY_PLAIN
50	} display_mode_type;
51
52	typedef enum {
53	REPEAT_NONE = 0,
54	REPEAT_ONCE,
55	REPEAT_FOREVER
56	} repeat_mode_type;
57
58	typedef struct {
59	char *name;
60	stat_type type;
61	void *stat;
62	} stat;
63
64	stat *stats = NULL;
65	int num_stats = 0;
66	int alloc_stats = 0;
67	#define INCREMENT_STATS 64
68
69	display_mode_type display_mode = DISPLAY_LINUX;
70	repeat_mode_type repeat_mode = REPEAT_NONE;
71	int repeat_time = 1;
72	int use_cpu_percent = 0;
73	int use_diffs = 0;
74
75	/* Exit with an error message. */
76	void die(const char *s) {
77	fprintf(stderr, "fatal: %s\n", s);
78	exit(1);
79	}
80
81	/* Remove all the recorded stats. */
82	void clear_stats() {
83	int i;
84
85	for (i = 0; i < num_stats; i++)
86	free(stats[i].name);
87	num_stats = 0;
88	}
89
90	/* Add a stat. The varargs make up the name, joined with dots; the name is
91	terminated with a NULL. */
92	void add_stat(stat_type type, void *stat, ...) {
93	va_list ap;
94	int len = 0;
95	char name, p;
96
97	/* Figure out how long the name will be, including dots and trailing
98	\0. */
99	va_start(ap, stat);
100	while (1) {
101	const char part = va_arg(ap, const char );
102	if (part == NULL)
103	break;
104	len += 1 + strlen(part);
105	}
106	va_end(ap);
107
108	/* Paste the name together. */
109	name = malloc(len);
110	if (name == NULL)
111	die("out of memory");
112	p = name;
113	va_start(ap, stat);
114	while (1) {
115	const char part = va_arg(ap, const char );
116	int partlen;
117	if (part == NULL)
118	break;
119	partlen = strlen(part);
120	memcpy(p, part, partlen);
121	p += partlen;
122	*p++ = '.';
123	}
124	va_end(ap);
125	*--p = '\0';
126
127	/* Replace spaces with underscores. */
128	for (p = name; *p != '\0'; p++) {
129	if (*p == ' ')
130	*p = '_';
131	}
132
133	/* Stretch the stats array if necessary. */
134	if (num_stats >= alloc_stats) {
135	alloc_stats += INCREMENT_STATS;
136	stats = realloc(stats, alloc_stats * sizeof *stats);
137	if (stats == NULL)
138	die("out of memory");
139	}
140
141	stats[num_stats].name = name;
142	stats[num_stats].type = type;
143	stats[num_stats].stat = stat;
144	++num_stats;
145	}
146
147	/* Compare two stats by name for qsort and bsearch. */
148	int stats_compare(const void a, const void b) {
149	return strcmp(((stat )a)->name, ((stat )b)->name);
150	}
151
152	/* Compare up to the length of the key for bsearch. */
153	int stats_compare_prefix(const void key, const void item) {
154	const char kn = ((stat )key)->name;
155	const char in = ((stat )item)->name;
156
157	return strncmp(kn, in, strlen(kn));
158	}
159
160	void populate_const() {
161	static int zero = 0;
162
163	/* Constants, for use with MRTG mode. */
164	add_stat(INT, &zero, "const", "0", NULL);
165	}
166
167	void populate_cpu() {
168	if (use_cpu_percent) {
169	cpu_percent_t *cpu_p = cpu_percent_usage();
170
171	if (cpu_p != NULL) {
172	add_stat(FLOAT, &cpu_p->user,
173	"cpu", "user", NULL);
174	add_stat(FLOAT, &cpu_p->kernel,
175	"cpu", "kernel", NULL);
176	add_stat(FLOAT, &cpu_p->idle,
177	"cpu", "idle", NULL);
178	add_stat(FLOAT, &cpu_p->iowait,
179	"cpu", "iowait", NULL);
180	add_stat(FLOAT, &cpu_p->swap,
181	"cpu", "swap", NULL);
182	add_stat(FLOAT, &cpu_p->nice,
183	"cpu", "nice", NULL);
184	add_stat(TIME_T, &cpu_p->time_taken,
185	"cpu", "time_taken", NULL);
186	}
187	} else {
188	cpu_states_t *cpu_s;
189
190	cpu_s = use_diffs ? get_cpu_diff() : get_cpu_totals();
191	if (cpu_s != NULL) {
192	add_stat(LONG_LONG, &cpu_s->user,
193	"cpu", "user", NULL);
194	add_stat(LONG_LONG, &cpu_s->kernel,
195	"cpu", "kernel", NULL);
196	add_stat(LONG_LONG, &cpu_s->idle,
197	"cpu", "idle", NULL);
198	add_stat(LONG_LONG, &cpu_s->iowait,
199	"cpu", "iowait", NULL);
200	add_stat(LONG_LONG, &cpu_s->swap,
201	"cpu", "swap", NULL);
202	add_stat(LONG_LONG, &cpu_s->nice,
203	"cpu", "nice", NULL);
204	add_stat(LONG_LONG, &cpu_s->total,
205	"cpu", "total", NULL);
206	add_stat(TIME_T, &cpu_s->systime,
207	"cpu", "systime", NULL);
208	}
209	}
210	}
211
212	void populate_mem() {
213	mem_stat_t *mem = get_memory_stats();
214
215	if (mem != NULL) {
216	add_stat(LONG_LONG, &mem->total, "mem", "total", NULL);
217	add_stat(LONG_LONG, &mem->free, "mem", "free", NULL);
218	add_stat(LONG_LONG, &mem->used, "mem", "used", NULL);
219	add_stat(LONG_LONG, &mem->cache, "mem", "cache", NULL);
220	}
221	}
222
223	void populate_load() {
224	load_stat_t *load = get_load_stats();
225
226	if (load != NULL) {
227	add_stat(DOUBLE, &load->min1, "load", "min1", NULL);
228	add_stat(DOUBLE, &load->min5, "load", "min5", NULL);
229	add_stat(DOUBLE, &load->min15, "load", "min15", NULL);
230	}
231	}
232
233	void populate_user() {
234	user_stat_t *user = get_user_stats();
235
236	if (user != NULL) {
237	add_stat(INT, &user->num_entries, "user", "num", NULL);
238	add_stat(STRING, &user->name_list, "user", "names", NULL);
239	}
240	}
241
242	void populate_swap() {
243	swap_stat_t *swap = get_swap_stats();
244
245	if (swap != NULL) {
246	add_stat(LONG_LONG, &swap->total, "swap", "total", NULL);
247	add_stat(LONG_LONG, &swap->used, "swap", "used", NULL);
248	add_stat(LONG_LONG, &swap->free, "swap", "free", NULL);
249	}
250	}
251
252	void populate_general() {
253	general_stat_t *gen = get_general_stats();
254
255	if (gen != NULL) {
256	add_stat(STRING, &gen->os_name,
257	"general", "os_name", NULL);
258	add_stat(STRING, &gen->os_release,
259	"general", "os_release", NULL);
260	add_stat(STRING, &gen->os_version,
261	"general", "os_version", NULL);
262	add_stat(STRING, &gen->platform, "general", "platform", NULL);
263	add_stat(STRING, &gen->hostname, "general", "hostname", NULL);
264	add_stat(TIME_T, &gen->uptime, "general", "uptime", NULL);
265	}
266	}
267
268	void populate_fs() {
269	int n, i;
270	disk_stat_t *disk = get_disk_stats(&n);
271
272	if (disk != NULL) {
273	for (i = 0; i < n; i++) {
274	/* FIXME it'd be nicer if libstatgrab did this */
275	char buf, name, *p;
276	const char *device = disk[i].device_name;
277
278	if (strcmp(device, "/") == 0)
279	device = "root";
280
281	buf = strdup(device);
282	if (buf == NULL)
283	die("out of memory");
284
285	name = buf;
286	if (strlen(name) == 2 && name[1] == ':')
287	name[1] = '\0';
288	if (strncmp(name, "/dev/", 5) == 0)
289	name += 5;
290	while ((p = strchr(name, '/')) != NULL)
291	*p = '_';
292
293	add_stat(STRING, &disk[i].device_name,
294	"fs", name, "device_name", NULL);
295	add_stat(STRING, &disk[i].fs_type,
296	"fs", name, "fs_type", NULL);
297	add_stat(STRING, &disk[i].mnt_point,
298	"fs", name, "mnt_point", NULL);
299	add_stat(LONG_LONG, &disk[i].size,
300	"fs", name, "size", NULL);
301	add_stat(LONG_LONG, &disk[i].used,
302	"fs", name, "used", NULL);
303	add_stat(LONG_LONG, &disk[i].avail,
304	"fs", name, "avail", NULL);
305	add_stat(LONG_LONG, &disk[i].total_inodes,
306	"fs", name, "total_inodes", NULL);
307	add_stat(LONG_LONG, &disk[i].used_inodes,
308	"fs", name, "used_inodes", NULL);
309	add_stat(LONG_LONG, &disk[i].free_inodes,
310	"fs", name, "free_inodes", NULL);
311
312	free(buf);
313	}
314	}
315	}
316
317	void populate_disk() {
318	int n, i;
319	diskio_stat_t *diskio;
320
321	diskio = use_diffs ? get_diskio_stats_diff(&n) : get_diskio_stats(&n);
322	if (diskio != NULL) {
323	for (i = 0; i < n; i++) {
324	const char *name = diskio[i].disk_name;
325
326	add_stat(STRING, &diskio[i].disk_name,
327	"disk", name, "disk_name", NULL);
328	add_stat(LONG_LONG, &diskio[i].read_bytes,
329	"disk", name, "read_bytes", NULL);
330	add_stat(LONG_LONG, &diskio[i].write_bytes,
331	"disk", name, "write_bytes", NULL);
332	add_stat(TIME_T, &diskio[i].systime,
333	"disk", name, "systime", NULL);
334	}
335	}
336	}
337
338	void populate_proc() {
339	process_stat_t *proc = get_process_stats();
340
341	if (proc != NULL) {
342	add_stat(INT, &proc->total, "proc", "total", NULL);
343	add_stat(INT, &proc->running, "proc", "running", NULL);
344	add_stat(INT, &proc->sleeping, "proc", "sleeping", NULL);
345	add_stat(INT, &proc->stopped, "proc", "stopped", NULL);
346	add_stat(INT, &proc->zombie, "proc", "zombie", NULL);
347	}
348	}
349
350	void populate_net() {
351	int n, i;
352	network_stat_t *net;
353	network_iface_stat_t *iface;
354
355	net = use_diffs ? get_network_stats_diff(&n) : get_network_stats(&n);
356	if (net != NULL) {
357	for (i = 0; i < n; i++) {
358	const char *name = net[i].interface_name;
359
360	add_stat(STRING, &net[i].interface_name,
361	"net", name, "interface_name", NULL);
362	add_stat(LONG_LONG, &net[i].tx,
363	"net", name, "tx", NULL);
364	add_stat(LONG_LONG, &net[i].rx,
365	"net", name, "rx", NULL);
366	add_stat(TIME_T, &net[i].systime,
367	"net", name, "systime", NULL);
368	}
369	}
370
371	iface = get_network_iface_stats(&n);
372	if (iface != NULL) {
373	for (i = 0; i < n; i++) {
374	const char *name = iface[i].interface_name;
375
376	add_stat(INT, &iface[i].speed,
377	"net", name, "speed", NULL);
378	add_stat(BOOL, &iface[i].up,
379	"net", name, "up", NULL);
380	add_stat(DUPLEX, &iface[i].dup,
381	"net", name, "duplex", NULL);
382	}
383	}
384	}
385
386	void populate_page() {
387	page_stat_t *page;
388
389	page = use_diffs ? get_page_stats_diff() : get_page_stats();
390	if (page != NULL) {
391	add_stat(LONG_LONG, &page->pages_pagein, "page", "in", NULL);
392	add_stat(LONG_LONG, &page->pages_pageout, "page", "out", NULL);
393	add_stat(TIME_T, &page->systime, "page", "systime", NULL);
394	}
395	}
396
397	typedef struct {
398	const char *name;
399	void (*populate)();
400	int interesting;
401	} toplevel;
402	toplevel toplevels[] = {
403	{"const.", populate_const, 0},
404	{"cpu.", populate_cpu, 0},
405	{"mem.", populate_mem, 0},
406	{"load.", populate_load, 0},
407	{"user.", populate_user, 0},
408	{"swap.", populate_swap, 0},
409	{"general.", populate_general, 0},
410	{"fs.", populate_fs, 0},
411	{"disk.", populate_disk, 0},
412	{"proc.", populate_proc, 0},
413	{"net.", populate_net, 0},
414	{"page.", populate_page, 0},
415	{NULL, NULL, 0}
416	};
417
418	/* Set the "interesting" flag on the sections that we actually need to
419	fetch. */
420	void select_interesting(int argc, char **argv) {
421	toplevel *t;
422
423	if (argc == 0) {
424	for (t = &toplevels[0]; t->name != NULL; t++)
425	t->interesting = 1;
426	} else {
427	int i;
428
429	for (i = 0; i < argc; i++) {
430	for (t = &toplevels[0]; t->name != NULL; t++) {
431	if (strncmp(argv[i], t->name,
432	strlen(t->name)) == 0) {
433	t->interesting = 1;
434	break;
435	}
436	}
437	}
438	}
439	}
440
441	/* Clear and rebuild the stats array. */
442	void get_stats() {
443	toplevel *t;
444
445	clear_stats();
446
447	for (t = &toplevels[0]; t->name != NULL; t++) {
448	if (t->interesting)
449	t->populate();
450	}
451
452	qsort(stats, num_stats, sizeof *stats, stats_compare);
453	}
454
455	/* Print the value of a stat. */
456	void print_stat_value(const stat *s) {
457	void *v = s->stat;
458
459	switch (s->type) {
460	case LONG_LONG:
461	printf("%lld", (long long )v);
462	break;
463	case TIME_T:
464	/* FIXME option for formatted time? */
465	printf("%ld", (time_t )v);
466	break;
467	case FLOAT:
468	printf("%f", (float )v);
469	break;
470	case DOUBLE:
471	printf("%f", (double )v);
472	break;
473	case STRING:
474	/* FIXME escaping? */
475	printf("%s", (char *)v);
476	break;
477	case INT:
478	printf("%d", (int )v);
479	break;
480	case BOOL:
481	printf("%s", (int )v ? "true" : "false");
482	break;
483	case DUPLEX:
484	switch ((statgrab_duplex ) v) {
485	case FULL_DUPLEX:
486	printf("full");
487	break;
488	case HALF_DUPLEX:
489	printf("half");
490	break;
491	default:
492	printf("unknown");
493	break;
494	}
495	break;
496	}
497	}
498
499	/* Print the name and value of a stat. */
500	void print_stat(const stat *s) {
501	switch (display_mode) {
502	case DISPLAY_LINUX:
503	printf("%s = ", s->name);
504	break;
505	case DISPLAY_BSD:
506	printf("%s: ", s->name);
507	break;
508	case DISPLAY_MRTG:
509	case DISPLAY_PLAIN:
510	break;
511	}
512	print_stat_value(s);
513	printf("\n");
514	}
515
516	/* Print stats as specified on the provided command line. */
517	void print_stats(int argc, char **argv) {
518	int i;
519
520	if (argc == optind) {
521	/* Print all stats. */
522	for (i = 0; i < num_stats; i++)
523	print_stat(&stats[i]);
524	} else {
525	/* Print selected stats. */
526	for (i = optind; i < argc; i++) {
527	char *name = argv[i];
528	stat key;
529	const stat s, end;
530	int (compare)(const void , const void *);
531
532	key.name = name;
533	if (name[strlen(name) - 1] == '.')
534	compare = stats_compare_prefix;
535	else
536	compare = stats_compare;
537
538	s = (const stat *)bsearch(&key, stats, num_stats,
539	sizeof *stats, compare);
540	if (s == NULL) {
541	printf("Unknown stat %s\n", name);
542	continue;
543	}
544
545	/* Find the range of stats the user wanted. */
546	for (; s >= stats; s--) {
547	if (compare(&key, s) != 0)
548	break;
549	}
550	s++;
551	for (end = s; end < &stats[num_stats]; end++) {
552	if (compare(&key, end) != 0)
553	break;
554	}
555
556	/* And print them. */
557	for (; s < end; s++) {
558	print_stat(s);
559	}
560	}
561	}
562	}
563
564	void usage() {
565	printf("Usage: statgrab [OPTION]... [STAT]...\n"
566	"Display system statistics.\n"
567	"\n"
568	"If no STATs are given, all will be displayed. Specify 'STAT.' to display all\n"
569	"statistics starting with that prefix.\n"
570	"\n");
571	printf(" -l Linux sysctl-style output (default)\n"
572	" -b BSD sysctl-style output\n"
573	" -m MRTG-compatible output\n"
574	" -u Plain output (only show values)\n"
575	" -n Display cumulative stats once (default)\n"
576	" -s Display stat differences repeatedly\n"
577	" -o Display stat differences once\n"
578	" -t DELAY When repeating, wait DELAY seconds between updates (default 1)\n"
579	" -p Display CPU usage differences as percentages rather than\n"
580	" absolute values\n"
581	"\n");
582	printf("Version %s - report bugs to <%s>.\n",
583	PACKAGE_VERSION, PACKAGE_BUGREPORT);
584	exit(1);
585	}
586
587	int main(int argc, char **argv) {
588	opterr = 0;
589	while (1) {
590	int c = getopt(argc, argv, "lbmunsot:p");
591	if (c == -1)
592	break;
593	switch (c) {
594	case 'l':
595	display_mode = DISPLAY_LINUX;
596	break;
597	case 'b':
598	display_mode = DISPLAY_BSD;
599	break;
600	case 'm':
601	display_mode = DISPLAY_MRTG;
602	break;
603	case 'u':
604	display_mode = DISPLAY_PLAIN;
605	break;
606	case 'n':
607	repeat_mode = REPEAT_NONE;
608	break;
609	case 's':
610	repeat_mode = REPEAT_FOREVER;
611	break;
612	case 'o':
613	repeat_mode = REPEAT_ONCE;
614	break;
615	case 't':
616	repeat_time = atoi(optarg);
617	break;
618	case 'p':
619	use_cpu_percent = 1;
620	break;
621	default:
622	usage();
623	}
624	}
625
626	if (display_mode == DISPLAY_MRTG) {
627	if ((argc - optind) != 2)
628	die("mrtg mode: must specify exactly two stats");
629	if (repeat_mode == REPEAT_FOREVER)
630	die("mrtg mode: cannot repeat display");
631	}
632
633	if (use_cpu_percent && repeat_mode == REPEAT_NONE)
634	die("CPU percentage usage display requires stat differences");
635
636	if (repeat_mode == REPEAT_NONE)
637	use_diffs = 0;
638	else
639	use_diffs = 1;
640
641	select_interesting(argc - optind, &argv[optind]);
642
643	/* We don't care if statgrab_init fails, because we can just display
644	the statistics that can be read as non-root. */
645	statgrab_init();
646	if (statgrab_drop_privileges() != 0)
647	die("Failed to drop setuid/setgid privileges");
648
649	switch (repeat_mode) {
650	case REPEAT_NONE:
651	get_stats();
652	print_stats(argc, argv);
653	break;
654	case REPEAT_ONCE:
655	get_stats();
656	sleep(repeat_time);
657	get_stats();
658	print_stats(argc, argv);
659	break;
660	case REPEAT_FOREVER:
661	while (1) {
662	get_stats();
663	print_stats(argc, argv);
664	printf("\n");
665	sleep(repeat_time);
666	}
667	}
668
669	if (display_mode == DISPLAY_MRTG) {
670	printf("\n");
671	printf("statgrab\n");
672	}
673
674	return 0;
675	}
676