/*
** Zabbix
** Copyright (C) 2001-2023 Zabbix SIA
**
** 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., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301, USA.
**/
#include "zbxsysinfo.h"
#include "../sysinfo.h"
#include "inodes.h"
#include "zbxjson.h"
#include "log.h"
#include "zbxalgo.h"
static zbx_mntopt_t mntopts[] = {
{MNT_ASYNC, "asynchronous"},
#if defined(MNT_AUTOMOUNTED)
{MNT_AUTOMOUNTED, "automounted"},
#endif
#if defined(MNT_DISCARD)
{MNT_DISCARD, "discard"},
#endif
#if defined(MNT_EXTATTR)
{MNT_EXTATTR, "extattr"},
#endif
{MNT_IGNORE, "hidden"},
{MNT_LOG, "log"},
{MNT_NOATIME, "noatime"},
{MNT_NOCOREDUMP, "nocoredump"},
{MNT_NODEV, "nodev"},
{MNT_NODEVMTIME, "nodevmtime"},
{MNT_NOEXEC, "noexec"},
{MNT_NOSUID, "nosuid"},
{MNT_RDONLY, "read-only"},
#if defined(MNT_RELATIME)
{MNT_RELATIME, "relatime"},
#endif
{MNT_SOFTDEP, "soft dependencies"},
#if defined(MNT_SYMPERM)
{MNT_SYMPERM, "symperm"},
#endif
{MNT_SYNCHRONOUS, "synchronous"},
{MNT_UNION, "union"},
{MNT_EXPORTED, "NFS exported"},
{MNT_EXNORESPORT, "non-reserved ports"},
{MNT_EXPUBLIC, "WebNFS exports"},
{MNT_LOCAL, "local"},
{MNT_QUOTA, "with quotas"},
{0, NULL},
};
static int get_fs_size_stat(const char *fs, zbx_uint64_t *total, zbx_uint64_t *free,
zbx_uint64_t *used, double *pfree, double *pused, char **error)
{
#ifdef HAVE_SYS_STATVFS_H
# define ZBX_STATFS statvfs
# define ZBX_BSIZE f_frsize
#else
# define ZBX_STATFS statfs
# define ZBX_BSIZE f_bsize
#endif
struct ZBX_STATFS s;
if (0 != ZBX_STATFS(fs, &s))
{
*error = zbx_dsprintf(NULL, "Cannot obtain filesystem information: %s", zbx_strerror(errno));
zabbix_log(LOG_LEVEL_DEBUG,"%s failed with error: %s",__func__, *error);
return SYSINFO_RET_FAIL;
}
/* Available space could be negative (top bit set) if we hit disk space */
/* reserved for non-privileged users. Treat it as 0. */
if (0 != ZBX_IS_TOP_BIT_SET(s.f_bavail))
s.f_bavail = 0;
if (NULL != total)
*total = (zbx_uint64_t)s.f_blocks * s.ZBX_BSIZE;
if (NULL != free)
*free = (zbx_uint64_t)s.f_bavail * s.ZBX_BSIZE;
if (NULL != used)
*used = (zbx_uint64_t)(s.f_blocks - s.f_bfree) * s.ZBX_BSIZE;
if (NULL != pfree)
{
if (0 != s.f_blocks - s.f_bfree + s.f_bavail)
*pfree = (double)(100.0 * s.f_bavail) / (s.f_blocks - s.f_bfree + s.f_bavail);
else
*pfree = 0;
}
if (NULL != pused)
{
if (0 != s.f_blocks - s.f_bfree + s.f_bavail)
*pused = 100.0 - (double)(100.0 * s.f_bavail) / (s.f_blocks - s.f_bfree + s.f_bavail);
else
*pused = 0;
}
return SYSINFO_RET_OK;
#undef ZBX_STATFS
#undef ZBX_BSIZE
}
static int vfs_fs_used(const char *fs, AGENT_RESULT *result)
{
zbx_uint64_t value;
char *error;
if (SYSINFO_RET_OK != get_fs_size_stat(fs, NULL, NULL, &value, NULL, NULL, &error))
{
SET_MSG_RESULT(result, error);
return SYSINFO_RET_FAIL;
}
SET_UI64_RESULT(result, value);
return SYSINFO_RET_OK;
}
static int vfs_fs_free(const char *fs, AGENT_RESULT *result)
{
zbx_uint64_t value;
char *error;
if (SYSINFO_RET_OK != get_fs_size_stat(fs, NULL, &value, NULL, NULL, NULL, &error))
{
SET_MSG_RESULT(result, error);
return SYSINFO_RET_FAIL;
}
SET_UI64_RESULT(result, value);
return SYSINFO_RET_OK;
}
static int vfs_fs_total(const char *fs, AGENT_RESULT *result)
{
zbx_uint64_t value;
char *error;
if (SYSINFO_RET_OK != get_fs_size_stat(fs, &value, NULL, NULL, NULL, NULL, &error))
{
SET_MSG_RESULT(result, error);
return SYSINFO_RET_FAIL;
}
SET_UI64_RESULT(result, value);
return SYSINFO_RET_OK;
}
static int vfs_fs_pfree(const char *fs, AGENT_RESULT *result)
{
double value;
char *error;
if (SYSINFO_RET_OK != get_fs_size_stat(fs, NULL, NULL, NULL, &value, NULL, &error))
{
SET_MSG_RESULT(result, error);
return SYSINFO_RET_FAIL;
}
SET_DBL_RESULT(result, value);
return SYSINFO_RET_OK;
}
static int vfs_fs_pused(const char *fs, AGENT_RESULT *result)
{
double value;
char *error;
if (SYSINFO_RET_OK != get_fs_size_stat(fs, NULL, NULL, NULL, NULL, &value, &error))
{
SET_MSG_RESULT(result, error);
return SYSINFO_RET_FAIL;
}
SET_DBL_RESULT(result, value);
return SYSINFO_RET_OK;
}
static int vfs_fs_size_local(AGENT_REQUEST *request, AGENT_RESULT *result)
{
char *fsname, *mode;
if (2 < request->nparam)
{
SET_MSG_RESULT(result, zbx_strdup(NULL, "Too many parameters."));
return SYSINFO_RET_FAIL;
}
fsname = get_rparam(request, 0);
mode = get_rparam(request, 1);
if (NULL == fsname || '\0' == *fsname)
{
SET_MSG_RESULT(result, zbx_strdup(NULL, "Invalid first parameter."));
return SYSINFO_RET_FAIL;
}
if (NULL == mode || '\0' == *mode || 0 == strcmp(mode, "total")) /* default parameter */
return vfs_fs_total(fsname, result);
if (0 == strcmp(mode, "free"))
return vfs_fs_free(fsname, result);
if (0 == strcmp(mode, "pfree"))
return vfs_fs_pfree(fsname, result);
if (0 == strcmp(mode, "used"))
return vfs_fs_used(fsname, result);
if (0 == strcmp(mode, "pused"))
return vfs_fs_pused(fsname, result);
SET_MSG_RESULT(result, zbx_strdup(NULL, "Invalid second parameter."));
return SYSINFO_RET_FAIL;
}
int vfs_fs_size(AGENT_REQUEST *request, AGENT_RESULT *result)
{
return zbx_execute_threaded_metric(vfs_fs_size_local, request, result);
}
int vfs_fs_discovery(AGENT_REQUEST *request, AGENT_RESULT *result)
{
int i, rc;
struct statvfs *mntbuf;
struct zbx_json j;
if (0 == (rc = getmntinfo(&mntbuf, MNT_NOWAIT)))
{
SET_MSG_RESULT(result, zbx_dsprintf(NULL, "Cannot obtain system information: %s", zbx_strerror(errno)));
return SYSINFO_RET_FAIL;
}
zbx_json_initarray(&j, ZBX_JSON_STAT_BUF_LEN);
for (i = 0; i < rc; i++)
{
char *options;
options = zbx_format_mntopt_string(mntopts, mntbuf[i].f_flag & MNT_VISFLAGMASK);
zbx_json_addobject(&j, NULL);
zbx_json_addstring(&j, ZBX_LLD_MACRO_FSNAME, mntbuf[i].f_mntonname, ZBX_JSON_TYPE_STRING);
zbx_json_addstring(&j, ZBX_LLD_MACRO_FSTYPE, mntbuf[i].f_fstypename, ZBX_JSON_TYPE_STRING);
zbx_json_addstring(&j, ZBX_LLD_MACRO_FSOPTIONS, options, ZBX_JSON_TYPE_STRING);
zbx_json_close(&j);
zbx_free(options);
}
zbx_json_close(&j);
SET_STR_RESULT(result, zbx_strdup(NULL, j.buffer));
zbx_json_free(&j);
return SYSINFO_RET_OK;
}
static int vfs_fs_get_local(AGENT_REQUEST *request, AGENT_RESULT *result)
{
int i, rc;
struct statvfs *mntbuf;
struct zbx_json j;
zbx_uint64_t total, not_used, used;
zbx_uint64_t itotal, inot_used, iused;
double pfree, pused;
double ipfree, ipused;
char *error;
zbx_vector_ptr_t mntpoints;
zbx_mpoint_t *mntpoint;
char *mpoint;
int ret = SYSINFO_RET_FAIL;
/* check how many bytes to allocate for the mounted filesystems */
if (0 == (rc = getmntinfo(&mntbuf, MNT_NOWAIT)))
{
SET_MSG_RESULT(result, zbx_dsprintf(NULL, "Cannot obtain system information: %s", zbx_strerror(errno)));
return SYSINFO_RET_FAIL;
}
zbx_vector_ptr_create(&mntpoints);
for (i = 0; i < rc; i++)
{
mpoint = mntbuf[i].f_mntonname;
if (SYSINFO_RET_OK != get_fs_size_stat(mpoint, &total, ¬_used, &used, &pfree, &pused,&error))
{
zbx_free(error);
continue;
}
if (SYSINFO_RET_OK != get_fs_inode_stat(mpoint, &itotal, &inot_used, &iused, &ipfree, &ipused, "pused",
&error))
{
zbx_free(error);
continue;
}
mntpoint = (zbx_mpoint_t *)zbx_malloc(NULL, sizeof(zbx_mpoint_t));
zbx_strlcpy(mntpoint->fsname, mpoint, MAX_STRING_LEN);
zbx_strlcpy(mntpoint->fstype, mntbuf[i].f_fstypename, MAX_STRING_LEN);
mntpoint->bytes.total = total;
mntpoint->bytes.used = used;
mntpoint->bytes.not_used = not_used;
mntpoint->bytes.pfree = pfree;
mntpoint->bytes.pused = pused;
mntpoint->inodes.total = itotal;
mntpoint->inodes.used = iused;
mntpoint->inodes.not_used = inot_used;
mntpoint->inodes.pfree = ipfree;
mntpoint->inodes.pused = ipused;
mntpoint->options = zbx_format_mntopt_string(mntopts, mntbuf[i].f_flag & MNT_VISFLAGMASK);
zbx_vector_ptr_append(&mntpoints, mntpoint);
}
if (0 == (rc = getmntinfo(&mntbuf, MNT_NOWAIT)))
{
SET_MSG_RESULT(result, zbx_dsprintf(NULL, "Cannot obtain system information: %s", zbx_strerror(errno)));
goto out;
}
zbx_json_initarray(&j, ZBX_JSON_STAT_BUF_LEN);
for (i = 0; i < rc; i++)
{
int idx;
mpoint = mntbuf[i].f_mntonname;
if (FAIL != (idx = zbx_vector_ptr_search(&mntpoints, mpoint, ZBX_DEFAULT_STR_COMPARE_FUNC)))
{
mntpoint = (zbx_mpoint_t *)mntpoints.values[idx];
zbx_json_addobject(&j, NULL);
zbx_json_addstring(&j, ZBX_SYSINFO_TAG_FSNAME, mntpoint->fsname, ZBX_JSON_TYPE_STRING);
zbx_json_addstring(&j, ZBX_SYSINFO_TAG_FSTYPE, mntpoint->fstype, ZBX_JSON_TYPE_STRING);
zbx_json_addobject(&j, ZBX_SYSINFO_TAG_BYTES);
zbx_json_adduint64(&j, ZBX_SYSINFO_TAG_TOTAL, mntpoint->bytes.total);
zbx_json_adduint64(&j, ZBX_SYSINFO_TAG_FREE, mntpoint->bytes.not_used);
zbx_json_adduint64(&j, ZBX_SYSINFO_TAG_USED, mntpoint->bytes.used);
zbx_json_addfloat(&j, ZBX_SYSINFO_TAG_PFREE, mntpoint->bytes.pfree);
zbx_json_addfloat(&j, ZBX_SYSINFO_TAG_PUSED, mntpoint->bytes.pused);
zbx_json_close(&j);
zbx_json_addobject(&j, ZBX_SYSINFO_TAG_INODES);
zbx_json_adduint64(&j, ZBX_SYSINFO_TAG_TOTAL, mntpoint->inodes.total);
zbx_json_adduint64(&j, ZBX_SYSINFO_TAG_FREE, mntpoint->inodes.not_used);
zbx_json_adduint64(&j, ZBX_SYSINFO_TAG_USED, mntpoint->inodes.used);
zbx_json_addfloat(&j, ZBX_SYSINFO_TAG_PFREE, mntpoint->inodes.pfree);
zbx_json_addfloat(&j, ZBX_SYSINFO_TAG_PUSED, mntpoint->inodes.pused);
zbx_json_close(&j);
zbx_json_addstring(&j, ZBX_SYSINFO_TAG_FSOPTIONS, mntpoint->options, ZBX_JSON_TYPE_STRING);
zbx_json_close(&j);
}
}
zbx_json_close(&j);
SET_STR_RESULT(result, zbx_strdup(NULL, j.buffer));
zbx_json_free(&j);
ret = SYSINFO_RET_OK;
out:
zbx_vector_ptr_clear_ext(&mntpoints, (zbx_clean_func_t)zbx_mpoints_free);
zbx_vector_ptr_destroy(&mntpoints);
return ret;
}
int vfs_fs_get(AGENT_REQUEST *request, AGENT_RESULT *result)
{
return zbx_execute_threaded_metric(vfs_fs_get_local, request, result);
}