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src.rivoreo.one / vzctl / 20540fabf694eac5d748e7e0f21c0c1fd5a4ec16 / . / src / vzlist.c
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/*
* Copyright (C) 2000-2008, Parallels, Inc. All rights reserved.
*
* 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
*/
#include <stdio.h>
#include <unistd.h>
#include <stdlib.h>
#include <ctype.h>
#include <string.h>
#include <sys/types.h>
#include <sys/stat.h>
#include <sys/socket.h>
#include <sys/wait.h>
#include <dirent.h>
#include <fcntl.h>
#include <arpa/inet.h>
#include <getopt.h>
#include <fnmatch.h>
#include <sys/ioctl.h>
#include <errno.h>
#include <linux/vzcalluser.h>
#include "vzlist.h"
#include "config.h"
#include "fs.h"
#include "res.h"
#include "logger.h"
#include "util.h"
#include "types.h"
static struct Cveinfo *veinfo = NULL;
static int n_veinfo = 0;
static char g_outbuffer[4096] = "";
static char *p_outbuffer = g_outbuffer;
static char *e_buf = g_outbuffer + sizeof(g_outbuffer) - 1;
static char *host_pattern = NULL;
static char *name_pattern = NULL;
static char *desc_pattern = NULL;
static int vzctlfd;
static struct Cfield_order *g_field_order = NULL;
struct Cfield_order *last_field = NULL;
static char *default_field_order = "veid,numproc,status,ip,hostname";
static char *default_nm_field_order = "veid,numproc,status,ip,name";
static int g_sort_field = 0;
static int *g_ve_list = NULL;
static int n_ve_list = 0;
static int veid_only = 0;
static int sort_rev = 0;
static int show_hdr = 1;
static int all_ve = 0;
static int only_stopped_ve = 0;
static int with_names = 0;
char logbuf[32];
char *plogbuf = logbuf;
static int get_run_ve_proc(int);
#if HAVE_VZLIST_IOCTL
static int get_run_ve_ioctl(int);
static inline int get_run_ve(int update)
{
int ret;
ret = get_run_ve_ioctl(update);
if (ret)
ret = get_run_ve_proc(update);
return ret;
}
#else
#define get_run_ve get_run_ve_proc
#endif
static void print_hostname(struct Cveinfo *p, int index);
static void print_name(struct Cveinfo *p, int index);
static void print_ip(struct Cveinfo *p, int index);
static void print_description(struct Cveinfo *p, int index);
/* Print functions */
static void print_veid(struct Cveinfo *p, int index)
{
p_outbuffer += snprintf(p_outbuffer, e_buf - p_outbuffer, "%10d", p->veid);
}
static void print_status(struct Cveinfo *p, int index)
{
p_outbuffer += snprintf(p_outbuffer, e_buf - p_outbuffer, "%-7s", ve_status[p->status]);
}
static void print_laverage(struct Cveinfo *p, int index)
{
if (p->la == NULL)
p_outbuffer += snprintf(p_outbuffer, e_buf - p_outbuffer, "%14s", "-");
else
p_outbuffer += snprintf(p_outbuffer, e_buf - p_outbuffer, "%1.2f/%1.2f/%1.2f",
p->la->la[0], p->la->la[1], p->la->la[2]);
}
static void print_cpulimit(struct Cveinfo *p, int index)
{
if (p->cpu == NULL)
p_outbuffer += snprintf(p_outbuffer, e_buf - p_outbuffer, "%7s", "-");
else
p_outbuffer += snprintf(p_outbuffer, e_buf - p_outbuffer, "%7lu",
p->cpu->limit[index]);
}
static void print_onboot(struct Cveinfo *p, int index)
{
p_outbuffer += snprintf(p_outbuffer, e_buf-p_outbuffer,
p->onboot == YES ? "yes" : "no");
}
static void print_bootorder(struct Cveinfo *p, int index)
{
if (p->bootorder == NULL)
p_outbuffer += snprintf(p_outbuffer, e_buf-p_outbuffer,
"%10s", "-");
else
p_outbuffer += snprintf(p_outbuffer, e_buf-p_outbuffer,
"%10lu", p->bootorder[index]);
}
#define PRINT_UL_RES(fn, res, name) \
static void fn(struct Cveinfo *p, int index) \
{ \
if (p->res == NULL || \
(p->status != VE_RUNNING && \
(index == 0 || index == 1 || index == 4))) \
p_outbuffer += snprintf(p_outbuffer, e_buf - p_outbuffer, "%10s", "-"); \
else \
p_outbuffer += snprintf(p_outbuffer, e_buf - p_outbuffer, "%10lu", \
p->res->name[index]); \
} \
PRINT_UL_RES(print_ubc_kmemsize, ubc, kmemsize)
PRINT_UL_RES(print_ubc_lockedpages, ubc, lockedpages)
PRINT_UL_RES(print_ubc_privvmpages, ubc, privvmpages)
PRINT_UL_RES(print_ubc_shmpages, ubc, shmpages)
PRINT_UL_RES(print_ubc_numproc, ubc, numproc)
PRINT_UL_RES(print_ubc_physpages, ubc, physpages)
PRINT_UL_RES(print_ubc_vmguarpages, ubc, vmguarpages)
PRINT_UL_RES(print_ubc_oomguarpages, ubc, oomguarpages)
PRINT_UL_RES(print_ubc_numtcpsock, ubc, numtcpsock)
PRINT_UL_RES(print_ubc_numflock, ubc, numflock)
PRINT_UL_RES(print_ubc_numpty, ubc, numpty)
PRINT_UL_RES(print_ubc_numsiginfo, ubc, numsiginfo)
PRINT_UL_RES(print_ubc_tcpsndbuf, ubc, tcpsndbuf)
PRINT_UL_RES(print_ubc_tcprcvbuf, ubc, tcprcvbuf)
PRINT_UL_RES(print_ubc_othersockbuf, ubc, othersockbuf)
PRINT_UL_RES(print_ubc_dgramrcvbuf, ubc, dgramrcvbuf)
PRINT_UL_RES(print_ubc_numothersock, ubc, numothersock)
PRINT_UL_RES(print_ubc_dcachesize, ubc, dcachesize)
PRINT_UL_RES(print_ubc_numfile, ubc, numfile)
PRINT_UL_RES(print_ubc_numiptent, ubc, numiptent)
PRINT_UL_RES(print_ubc_swappages, ubc, swappages)
#define PRINT_DQ_RES(fn, res, name) \
static void fn(struct Cveinfo *p, int index) \
{ \
if (p->res == NULL || \
(p->status != VE_RUNNING && (index == 0))) \
p_outbuffer += snprintf(p_outbuffer, e_buf - p_outbuffer, "%10s", "-"); \
else \
p_outbuffer += snprintf(p_outbuffer, e_buf - p_outbuffer, "%10lu", \
p->res->name[index]); \
} \
PRINT_DQ_RES(print_dq_blocks, quota, diskspace)
PRINT_DQ_RES(print_dq_inodes, quota, diskinodes)
/* Sort functions */
inline int check_empty_param(const void *val1, const void *val2)
{
if (val1 == NULL && val2 == NULL)
return 0;
else if (val1 == NULL)
return -1;
else if (val2 == NULL)
return 1;
return 2;
}
int none_sort_fn(const void *val1, const void *val2)
{
return 0;
}
int laverage_sort_fn(const void *val1, const void *val2)
{
const struct Cla *la1 = ((const struct Cveinfo *)val1)->la;
const struct Cla *la2 = ((const struct Cveinfo *)val2)->la;
int res;
if ((res = check_empty_param(la1, la2)) == 2)
return res;
res = (la1->la[0] - la2->la[0]) * 100;
if (res != 0)
return res;
res = (la1->la[1] - la2->la[1]) * 100;
if (res != 0)
return res;
return (la1->la[2] - la2->la[2]) * 100;
}
int id_sort_fn(const void *val1, const void *val2)
{
int ret;
ret = (((const struct Cveinfo*)val1)->veid >
((const struct Cveinfo*)val2)->veid);
return ret;
}
int status_sort_fn(const void *val1, const void *val2)
{
int res;
res = ((const struct Cveinfo*)val1)->status -
((const struct Cveinfo*)val2)->status;
if (!res)
res = id_sort_fn(val1, val2);
return res;
}
int bootorder_sort_fn(const void *val1, const void *val2)
{
int ret;
unsigned long *r1 = ((const struct Cveinfo*)val1)->bootorder;
unsigned long *r2 = ((const struct Cveinfo*)val2)->bootorder;
ret = check_empty_param(r1, r2);
switch (ret) {
case 0: /* both NULL */
return !id_sort_fn(val1, val2);
case 2: /* both not NULL */
break;
default: /* one is NULL, other is not */
return ret;
}
if (*r1 == *r2)
return !id_sort_fn(val1, val2);
return (*r1 > *r2);
}
#define SORT_STR_FN(fn, name) \
int fn(const void *val1, const void *val2) \
{ \
const char *h1 = ((const struct Cveinfo*)val1)->name; \
const char *h2 = ((const struct Cveinfo*)val2)->name; \
int ret; \
if ((ret = check_empty_param(h1, h2)) == 2) \
ret = strcmp(h1, h2); \
return ret; \
}
SORT_STR_FN(hostnm_sort_fn, hostname)
SORT_STR_FN(name_sort_fn, name)
SORT_STR_FN(description_sort_fn, description)
SORT_STR_FN(ip_sort_fn, ip)
#define SORT_UL_RES(fn, type, res, name, index) \
int fn(const void *val1, const void *val2) \
{ \
const struct type *r1 = ((const struct Cveinfo *)val1)->res; \
const struct type *r2 = ((const struct Cveinfo *)val2)->res; \
int ret; \
if ((ret = check_empty_param(r1, r2)) == 2) \
ret = r1->name[index] > r2->name[index]; \
return ret; \
}
SORT_UL_RES(kmemsize_h_sort_fn, Cubc, ubc, kmemsize, 0)
SORT_UL_RES(kmemsize_m_sort_fn, Cubc, ubc, kmemsize, 1)
SORT_UL_RES(kmemsize_l_sort_fn, Cubc, ubc, kmemsize, 2)
SORT_UL_RES(kmemsize_b_sort_fn, Cubc, ubc, kmemsize, 3)
SORT_UL_RES(kmemsize_f_sort_fn, Cubc, ubc, kmemsize, 4)
SORT_UL_RES(lockedpages_h_sort_fn, Cubc, ubc, lockedpages, 0)
SORT_UL_RES(lockedpages_m_sort_fn, Cubc, ubc, lockedpages, 1)
SORT_UL_RES(lockedpages_l_sort_fn, Cubc, ubc, lockedpages, 2)
SORT_UL_RES(lockedpages_b_sort_fn, Cubc, ubc, lockedpages, 3)
SORT_UL_RES(lockedpages_f_sort_fn, Cubc, ubc, lockedpages, 4)
SORT_UL_RES(privvmpages_h_sort_fn, Cubc, ubc, privvmpages, 0)
SORT_UL_RES(privvmpages_m_sort_fn, Cubc, ubc, privvmpages, 1)
SORT_UL_RES(privvmpages_l_sort_fn, Cubc, ubc, privvmpages, 2)
SORT_UL_RES(privvmpages_b_sort_fn, Cubc, ubc, privvmpages, 3)
SORT_UL_RES(privvmpages_f_sort_fn, Cubc, ubc, privvmpages, 4)
SORT_UL_RES(shmpages_h_sort_fn, Cubc, ubc, shmpages, 0)
SORT_UL_RES(shmpages_m_sort_fn, Cubc, ubc, shmpages, 1)
SORT_UL_RES(shmpages_l_sort_fn, Cubc, ubc, shmpages, 2)
SORT_UL_RES(shmpages_b_sort_fn, Cubc, ubc, shmpages, 3)
SORT_UL_RES(shmpages_f_sort_fn, Cubc, ubc, shmpages, 4)
SORT_UL_RES(numproc_h_sort_fn, Cubc, ubc, numproc, 0)
SORT_UL_RES(numproc_m_sort_fn, Cubc, ubc, numproc, 1)
SORT_UL_RES(numproc_l_sort_fn, Cubc, ubc, numproc, 2)
SORT_UL_RES(numproc_b_sort_fn, Cubc, ubc, numproc, 3)
SORT_UL_RES(numproc_f_sort_fn, Cubc, ubc, numproc, 4)
SORT_UL_RES(physpages_h_sort_fn, Cubc, ubc, physpages, 0)
SORT_UL_RES(physpages_m_sort_fn, Cubc, ubc, physpages, 1)
SORT_UL_RES(physpages_l_sort_fn, Cubc, ubc, physpages, 2)
SORT_UL_RES(physpages_b_sort_fn, Cubc, ubc, physpages, 3)
SORT_UL_RES(physpages_f_sort_fn, Cubc, ubc, physpages, 4)
SORT_UL_RES(vmguarpages_h_sort_fn, Cubc, ubc, vmguarpages, 0)
SORT_UL_RES(vmguarpages_m_sort_fn, Cubc, ubc, vmguarpages, 1)
SORT_UL_RES(vmguarpages_l_sort_fn, Cubc, ubc, vmguarpages, 2)
SORT_UL_RES(vmguarpages_b_sort_fn, Cubc, ubc, vmguarpages, 3)
SORT_UL_RES(vmguarpages_f_sort_fn, Cubc, ubc, vmguarpages, 4)
SORT_UL_RES(oomguarpages_h_sort_fn, Cubc, ubc, oomguarpages, 0)
SORT_UL_RES(oomguarpages_m_sort_fn, Cubc, ubc, oomguarpages, 1)
SORT_UL_RES(oomguarpages_l_sort_fn, Cubc, ubc, oomguarpages, 2)
SORT_UL_RES(oomguarpages_b_sort_fn, Cubc, ubc, oomguarpages, 3)
SORT_UL_RES(oomguarpages_f_sort_fn, Cubc, ubc, oomguarpages, 4)
SORT_UL_RES(numtcpsock_h_sort_fn, Cubc, ubc, numtcpsock, 0)
SORT_UL_RES(numtcpsock_m_sort_fn, Cubc, ubc, numtcpsock, 1)
SORT_UL_RES(numtcpsock_l_sort_fn, Cubc, ubc, numtcpsock, 2)
SORT_UL_RES(numtcpsock_b_sort_fn, Cubc, ubc, numtcpsock, 3)
SORT_UL_RES(numtcpsock_f_sort_fn, Cubc, ubc, numtcpsock, 4)
SORT_UL_RES(numflock_h_sort_fn, Cubc, ubc, numflock, 0)
SORT_UL_RES(numflock_m_sort_fn, Cubc, ubc, numflock, 1)
SORT_UL_RES(numflock_l_sort_fn, Cubc, ubc, numflock, 2)
SORT_UL_RES(numflock_b_sort_fn, Cubc, ubc, numflock, 3)
SORT_UL_RES(numflock_f_sort_fn, Cubc, ubc, numflock, 4)
SORT_UL_RES(numpty_h_sort_fn, Cubc, ubc, numpty, 0)
SORT_UL_RES(numpty_m_sort_fn, Cubc, ubc, numpty, 1)
SORT_UL_RES(numpty_l_sort_fn, Cubc, ubc, numpty, 2)
SORT_UL_RES(numpty_b_sort_fn, Cubc, ubc, numpty, 3)
SORT_UL_RES(numpty_f_sort_fn, Cubc, ubc, numpty, 4)
SORT_UL_RES(numsiginfo_h_sort_fn, Cubc, ubc, numsiginfo, 0)
SORT_UL_RES(numsiginfo_m_sort_fn, Cubc, ubc, numsiginfo, 1)
SORT_UL_RES(numsiginfo_l_sort_fn, Cubc, ubc, numsiginfo, 2)
SORT_UL_RES(numsiginfo_b_sort_fn, Cubc, ubc, numsiginfo, 3)
SORT_UL_RES(numsiginfo_f_sort_fn, Cubc, ubc, numsiginfo, 4)
SORT_UL_RES(tcpsndbuf_h_sort_fn, Cubc, ubc, tcpsndbuf, 0)
SORT_UL_RES(tcpsndbuf_m_sort_fn, Cubc, ubc, tcpsndbuf, 1)
SORT_UL_RES(tcpsndbuf_l_sort_fn, Cubc, ubc, tcpsndbuf, 2)
SORT_UL_RES(tcpsndbuf_b_sort_fn, Cubc, ubc, tcpsndbuf, 3)
SORT_UL_RES(tcpsndbuf_f_sort_fn, Cubc, ubc, tcpsndbuf, 4)
SORT_UL_RES(tcprcvbuf_h_sort_fn, Cubc, ubc, tcprcvbuf, 0)
SORT_UL_RES(tcprcvbuf_m_sort_fn, Cubc, ubc, tcprcvbuf, 1)
SORT_UL_RES(tcprcvbuf_l_sort_fn, Cubc, ubc, tcprcvbuf, 2)
SORT_UL_RES(tcprcvbuf_b_sort_fn, Cubc, ubc, tcprcvbuf, 3)
SORT_UL_RES(tcprcvbuf_f_sort_fn, Cubc, ubc, tcprcvbuf, 4)
SORT_UL_RES(othersockbuf_h_sort_fn, Cubc, ubc, othersockbuf, 0)
SORT_UL_RES(othersockbuf_m_sort_fn, Cubc, ubc, othersockbuf, 1)
SORT_UL_RES(othersockbuf_l_sort_fn, Cubc, ubc, othersockbuf, 2)
SORT_UL_RES(othersockbuf_b_sort_fn, Cubc, ubc, othersockbuf, 3)
SORT_UL_RES(othersockbuf_f_sort_fn, Cubc, ubc, othersockbuf, 4)
SORT_UL_RES(dgramrcvbuf_h_sort_fn, Cubc, ubc, dgramrcvbuf, 0)
SORT_UL_RES(dgramrcvbuf_m_sort_fn, Cubc, ubc, dgramrcvbuf, 1)
SORT_UL_RES(dgramrcvbuf_l_sort_fn, Cubc, ubc, dgramrcvbuf, 2)
SORT_UL_RES(dgramrcvbuf_b_sort_fn, Cubc, ubc, dgramrcvbuf, 3)
SORT_UL_RES(dgramrcvbuf_f_sort_fn, Cubc, ubc, dgramrcvbuf, 4)
SORT_UL_RES(numothersock_h_sort_fn, Cubc, ubc, numothersock, 0)
SORT_UL_RES(numothersock_m_sort_fn, Cubc, ubc, numothersock, 1)
SORT_UL_RES(numothersock_l_sort_fn, Cubc, ubc, numothersock, 2)
SORT_UL_RES(numothersock_b_sort_fn, Cubc, ubc, numothersock, 3)
SORT_UL_RES(numothersock_f_sort_fn, Cubc, ubc, numothersock, 4)
SORT_UL_RES(dcachesize_h_sort_fn, Cubc, ubc, dcachesize, 0)
SORT_UL_RES(dcachesize_m_sort_fn, Cubc, ubc, dcachesize, 1)
SORT_UL_RES(dcachesize_l_sort_fn, Cubc, ubc, dcachesize, 2)
SORT_UL_RES(dcachesize_b_sort_fn, Cubc, ubc, dcachesize, 3)
SORT_UL_RES(dcachesize_f_sort_fn, Cubc, ubc, dcachesize, 4)
SORT_UL_RES(numfile_h_sort_fn, Cubc, ubc, numfile, 0)
SORT_UL_RES(numfile_m_sort_fn, Cubc, ubc, numfile, 1)
SORT_UL_RES(numfile_l_sort_fn, Cubc, ubc, numfile, 2)
SORT_UL_RES(numfile_b_sort_fn, Cubc, ubc, numfile, 3)
SORT_UL_RES(numfile_f_sort_fn, Cubc, ubc, numfile, 4)
SORT_UL_RES(numiptent_h_sort_fn, Cubc, ubc, numiptent, 0)
SORT_UL_RES(numiptent_m_sort_fn, Cubc, ubc, numiptent, 1)
SORT_UL_RES(numiptent_l_sort_fn, Cubc, ubc, numiptent, 2)
SORT_UL_RES(numiptent_b_sort_fn, Cubc, ubc, numiptent, 3)
SORT_UL_RES(numiptent_f_sort_fn, Cubc, ubc, numiptent, 4)
SORT_UL_RES(swappages_h_sort_fn, Cubc, ubc, swappages, 0)
SORT_UL_RES(swappages_m_sort_fn, Cubc, ubc, swappages, 1)
SORT_UL_RES(swappages_l_sort_fn, Cubc, ubc, swappages, 2)
SORT_UL_RES(swappages_b_sort_fn, Cubc, ubc, swappages, 3)
SORT_UL_RES(swappages_f_sort_fn, Cubc, ubc, swappages, 4)
SORT_UL_RES(dqblocks_u_sort_fn, Cquota, quota, diskspace, 0)
SORT_UL_RES(dqblocks_s_sort_fn, Cquota, quota, diskspace, 1)
SORT_UL_RES(dqblocks_h_sort_fn, Cquota, quota, diskspace, 2)
SORT_UL_RES(dqinodes_u_sort_fn, Cquota, quota, diskinodes, 0)
SORT_UL_RES(dqinodes_s_sort_fn, Cquota, quota, diskinodes, 1)
SORT_UL_RES(dqinodes_h_sort_fn, Cquota, quota, diskinodes, 2)
SORT_UL_RES(cpulimit_sort_fn, Ccpu, cpu, limit, 0)
SORT_UL_RES(cpuunits_sort_fn, Ccpu, cpu, limit, 1)
struct Cfield field_names[] =
{
/* ctid should have index 0 */
{"ctid", "CTID", "%10s", 0, RES_NONE, print_veid, id_sort_fn},
/* veid is for backward compatibility -- will be removed later */
{"veid", "CTID", "%10s", 0, RES_NONE, print_veid, id_sort_fn},
/* vpsid is for backward compatibility -- will be removed later */
{"vpsid" , "CTID", "%10s", 0, RES_NONE, print_veid, id_sort_fn},
{"hostname", "HOSTNAME", "%-32s", 0, RES_HOSTNAME, print_hostname, hostnm_sort_fn},
{"name", "NAME", "%-32s", 0, RES_NAME, print_name, name_sort_fn},
{"description", "DESCRIPTION", "%-32s", 0, RES_DESCRIPTION, print_description, description_sort_fn },
{"ip", "IP_ADDR", "%-15s", 0, RES_IP, print_ip, ip_sort_fn},
{"status", "STATUS", "%-7s", 0, RES_NONE, print_status, status_sort_fn},
/* UBC */
{"kmemsize", "KMEMSIZE", "%10s", 0, RES_UBC, print_ubc_kmemsize, kmemsize_h_sort_fn},
{"kmemsize.m", "KMEMSIZE.M", "%10s", 1, RES_UBC, print_ubc_kmemsize, kmemsize_m_sort_fn},
{"kmemsize.b", "KMEMSIZE.B", "%10s", 2, RES_UBC, print_ubc_kmemsize, kmemsize_b_sort_fn},
{"kmemsize.l", "KMEMSIZE.L", "%10s", 3, RES_UBC, print_ubc_kmemsize, kmemsize_l_sort_fn},
{"kmemsize.f", "KMEMSIZE.F", "%10s", 4, RES_UBC, print_ubc_kmemsize, kmemsize_f_sort_fn},
{"lockedpages", "LOCKEDP", "%10s", 0, RES_UBC, print_ubc_lockedpages, lockedpages_h_sort_fn},
{"lockedpages.m", "LOCKEDP.M", "%10s", 1, RES_UBC, print_ubc_lockedpages, lockedpages_m_sort_fn},
{"lockedpages.b", "LOCKEDP.B", "%10s", 2, RES_UBC, print_ubc_lockedpages, lockedpages_b_sort_fn},
{"lockedpages.l", "LOCKEDP.L", "%10s", 3, RES_UBC, print_ubc_lockedpages, lockedpages_l_sort_fn},
{"lockedpages.f", "LOCKEDP.F", "%10s", 4, RES_UBC, print_ubc_lockedpages, lockedpages_f_sort_fn},
{"privvmpages", "PRIVVMP", "%10s", 0, RES_UBC, print_ubc_privvmpages, privvmpages_h_sort_fn},
{"privvmpages.m", "PRIVVMP.M", "%10s", 1, RES_UBC, print_ubc_privvmpages, privvmpages_m_sort_fn},
{"privvmpages.b", "PRIVVMP.B", "%10s", 2, RES_UBC, print_ubc_privvmpages, privvmpages_b_sort_fn},
{"privvmpages.l", "PRIVVMP.L", "%10s", 3, RES_UBC, print_ubc_privvmpages, privvmpages_l_sort_fn},
{"privvmpages.f", "PRIVVMP.F", "%10s", 4, RES_UBC, print_ubc_privvmpages, privvmpages_f_sort_fn},
{"shmpages", "SHMP", "%10s", 0, RES_UBC, print_ubc_shmpages, shmpages_h_sort_fn},
{"shmpages.m", "SHMP.M", "%10s", 1, RES_UBC, print_ubc_shmpages, shmpages_m_sort_fn},
{"shmpages.b", "SHMP.B", "%10s", 2, RES_UBC, print_ubc_shmpages, shmpages_b_sort_fn},
{"shmpages.l", "SHMP.L", "%10s", 3, RES_UBC, print_ubc_shmpages, shmpages_l_sort_fn},
{"shmpages.f", "SHMP.F", "%10s", 4, RES_UBC, print_ubc_shmpages, shmpages_f_sort_fn},
{"numproc", "NPROC", "%10s", 0, RES_UBC, print_ubc_numproc, numproc_h_sort_fn},
{"numproc.m", "NPROC.M", "%10s", 1, RES_UBC, print_ubc_numproc, numproc_m_sort_fn},
{"numproc.b", "NPROC.B", "%10s", 2, RES_UBC, print_ubc_numproc, numproc_b_sort_fn},
{"numproc.l", "NPROC.L", "%10s", 3, RES_UBC, print_ubc_numproc, numproc_l_sort_fn},
{"numproc.f", "NPROC.F", "%10s", 4, RES_UBC, print_ubc_numproc, numproc_f_sort_fn},
{"physpages", "PHYSP", "%10s", 0, RES_UBC, print_ubc_physpages, physpages_h_sort_fn},
{"physpages.m", "PHYSP.M", "%10s", 1, RES_UBC, print_ubc_physpages, physpages_m_sort_fn},
{"physpages.b", "PHYSP.B", "%10s", 2, RES_UBC, print_ubc_physpages, physpages_b_sort_fn},
{"physpages.l", "PHYSP.L", "%10s", 3, RES_UBC, print_ubc_physpages, physpages_l_sort_fn},
{"physpages.f", "PHYSP.F", "%10s", 4, RES_UBC, print_ubc_physpages, physpages_f_sort_fn},
{"vmguarpages", "VMGUARP", "%10s", 0, RES_UBC, print_ubc_vmguarpages, vmguarpages_h_sort_fn},
{"vmguarpages.m", "VMGUARP.M", "%10s", 1, RES_UBC,print_ubc_vmguarpages, vmguarpages_m_sort_fn},
{"vmguarpages.b", "VMGUARP.B", "%10s", 2, RES_UBC,print_ubc_vmguarpages, vmguarpages_b_sort_fn},
{"vmguarpages.l", "VMGUARP.L", "%10s", 3, RES_UBC,print_ubc_vmguarpages, vmguarpages_l_sort_fn},
{"vmguarpages.f", "VMGUARP.F", "%10s", 4, RES_UBC,print_ubc_vmguarpages, vmguarpages_f_sort_fn},
{"oomguarpages", "OOMGUARP", "%10s", 0, RES_UBC,print_ubc_oomguarpages, oomguarpages_h_sort_fn},
{"oomguarpages.m", "OOMGUARP.M", "%10s", 1, RES_UBC,print_ubc_oomguarpages, oomguarpages_m_sort_fn},
{"oomguarpages.b", "OOMGUARP.B", "%10s", 2, RES_UBC,print_ubc_oomguarpages, oomguarpages_b_sort_fn},
{"oomguarpages.l", "OOMGUARP.L", "%10s", 3, RES_UBC,print_ubc_oomguarpages, oomguarpages_l_sort_fn},
{"oomguarpages.f", "OOMGUARP.F", "%10s", 4, RES_UBC,print_ubc_oomguarpages, oomguarpages_f_sort_fn},
{"numtcpsock", "NTCPSOCK", "%10s", 0, RES_UBC,print_ubc_numtcpsock, numtcpsock_h_sort_fn},
{"numtcpsock.m", "NTCPSOCK.M", "%10s", 1, RES_UBC,print_ubc_numtcpsock, numtcpsock_m_sort_fn},
{"numtcpsock.b", "NTCPSOCK.B", "%10s", 2, RES_UBC,print_ubc_numtcpsock, numtcpsock_b_sort_fn},
{"numtcpsock.l", "NTCPSOCK.L", "%10s", 3, RES_UBC,print_ubc_numtcpsock, numtcpsock_l_sort_fn},
{"numtcpsock.f", "NTCPSOCK.F", "%10s", 4, RES_UBC,print_ubc_numtcpsock, numtcpsock_f_sort_fn},
{"numflock", "NFLOCK", "%10s", 0, RES_UBC,print_ubc_numflock, numflock_h_sort_fn},
{"numflock.m", "NFLOCK.M", "%10s", 1, RES_UBC,print_ubc_numflock, numflock_m_sort_fn},
{"numflock.b", "NFLOCK.B", "%10s", 2, RES_UBC,print_ubc_numflock, numflock_b_sort_fn},
{"numflock.l", "NFLOCK.L", "%10s", 3, RES_UBC,print_ubc_numflock, numflock_l_sort_fn},
{"numflock.f", "NFLOCK.F", "%10s", 4, RES_UBC,print_ubc_numflock, numflock_f_sort_fn},
{"numpty", "NPTY", "%10s", 0, RES_UBC,print_ubc_numpty, numpty_h_sort_fn},
{"numpty.m", "NPTY.M", "%10s", 1, RES_UBC,print_ubc_numpty, numpty_m_sort_fn},
{"numpty.b", "NPTY.B", "%10s", 2, RES_UBC,print_ubc_numpty, numpty_b_sort_fn},
{"numpty.l", "NPTY.L", "%10s", 3, RES_UBC,print_ubc_numpty, numpty_l_sort_fn},
{"numpty.f", "NPTY.F", "%10s", 4, RES_UBC,print_ubc_numpty, numpty_f_sort_fn},
{"numsiginfo", "NSIGINFO", "%10s", 0, RES_UBC,print_ubc_numsiginfo, numsiginfo_h_sort_fn},
{"numsiginfo.m", "NSIGINFO.M", "%10s", 1, RES_UBC,print_ubc_numsiginfo, numsiginfo_m_sort_fn},
{"numsiginfo.b", "NSIGINFO.B", "%10s", 2, RES_UBC,print_ubc_numsiginfo, numsiginfo_b_sort_fn},
{"numsiginfo.l", "NSIGINFO.L", "%10s", 3, RES_UBC,print_ubc_numsiginfo, numsiginfo_l_sort_fn},
{"numsiginfo.f", "NSIGINFO.F", "%10s", 4, RES_UBC,print_ubc_numsiginfo, numsiginfo_f_sort_fn},
{"tcpsndbuf", "TCPSNDB", "%10s", 0, RES_UBC,print_ubc_tcpsndbuf, tcpsndbuf_h_sort_fn},
{"tcpsndbuf.m", "TCPSNDB.M", "%10s", 1, RES_UBC,print_ubc_tcpsndbuf, tcpsndbuf_m_sort_fn},
{"tcpsndbuf.b", "TCPSNDB.B", "%10s", 2, RES_UBC,print_ubc_tcpsndbuf, tcpsndbuf_b_sort_fn},
{"tcpsndbuf.l", "TCPSNDB.L", "%10s", 3, RES_UBC,print_ubc_tcpsndbuf, tcpsndbuf_l_sort_fn},
{"tcpsndbuf.f", "TCPSNDB.F", "%10s", 4, RES_UBC,print_ubc_tcpsndbuf, tcpsndbuf_f_sort_fn},
{"tcprcvbuf", "TCPRCVB", "%10s", 0, RES_UBC,print_ubc_tcprcvbuf, tcprcvbuf_h_sort_fn},
{"tcprcvbuf.m", "TCPRCVB.M", "%10s", 1, RES_UBC,print_ubc_tcprcvbuf, tcprcvbuf_m_sort_fn},
{"tcprcvbuf.b", "TCPRCVB.B", "%10s", 2, RES_UBC,print_ubc_tcprcvbuf, tcprcvbuf_b_sort_fn},
{"tcprcvbuf.l", "TCPRCVB.L", "%10s", 3, RES_UBC,print_ubc_tcprcvbuf, tcprcvbuf_l_sort_fn},
{"tcprcvbuf.f", "TCPRCVB.F", "%10s", 4, RES_UBC,print_ubc_tcprcvbuf, tcprcvbuf_f_sort_fn},
{"othersockbuf", "OTHSOCKB", "%10s", 0, RES_UBC,print_ubc_othersockbuf, othersockbuf_h_sort_fn},
{"othersockbuf.m", "OTHSOCKB.M", "%10s", 1, RES_UBC,print_ubc_othersockbuf, othersockbuf_m_sort_fn},
{"othersockbuf.b", "OTHSOCKB.B", "%10s", 2, RES_UBC,print_ubc_othersockbuf, othersockbuf_b_sort_fn},
{"othersockbuf.l", "OTHSOCKB.L", "%10s", 3, RES_UBC,print_ubc_othersockbuf, othersockbuf_l_sort_fn},
{"othersockbuf.f", "OTHSOCKB.F", "%10s", 4, RES_UBC,print_ubc_othersockbuf, othersockbuf_f_sort_fn},
{"dgramrcvbuf", "DGRAMRB", "%10s", 0, RES_UBC,print_ubc_dgramrcvbuf, dgramrcvbuf_h_sort_fn},
{"dgramrcvbuf.m", "DGRAMRB.M", "%10s", 1, RES_UBC,print_ubc_dgramrcvbuf, dgramrcvbuf_m_sort_fn},
{"dgramrcvbuf.b", "DGRAMRB.B", "%10s", 2, RES_UBC,print_ubc_dgramrcvbuf, dgramrcvbuf_b_sort_fn},
{"dgramrcvbuf.l", "DGRAMRB.L", "%10s", 3, RES_UBC,print_ubc_dgramrcvbuf, dgramrcvbuf_l_sort_fn},
{"dgramrcvbuf.f", "DGRAMRB.F", "%10s", 4, RES_UBC,print_ubc_dgramrcvbuf, dgramrcvbuf_f_sort_fn},
{"numothersock", "NOTHSOCK", "%10s", 0, RES_UBC,print_ubc_numothersock, numothersock_h_sort_fn},
{"numothersock.m", "NOTHSOCK.M", "%10s", 1, RES_UBC,print_ubc_numothersock, numothersock_m_sort_fn},
{"numothersock.b", "NOTHSOCK.B", "%10s", 2, RES_UBC,print_ubc_numothersock, numothersock_b_sort_fn},
{"numothersock.l", "NOTHSOCK.L", "%10s", 3, RES_UBC,print_ubc_numothersock, numothersock_l_sort_fn},
{"numothersock.f", "NOTHSOCK.F", "%10s", 4, RES_UBC,print_ubc_numothersock, numothersock_f_sort_fn},
{"dcachesize", "DCACHESZ", "%10s", 0, RES_UBC,print_ubc_dcachesize, dcachesize_h_sort_fn},
{"dcachesize.m", "DCACHESZ.M", "%10s", 1, RES_UBC,print_ubc_dcachesize, dcachesize_h_sort_fn},
{"dcachesize.b", "DCACHESZ.B", "%10s", 2, RES_UBC,print_ubc_dcachesize, dcachesize_h_sort_fn},
{"dcachesize.l", "DCACHESZ.L", "%10s", 3, RES_UBC,print_ubc_dcachesize, dcachesize_h_sort_fn},
{"dcachesize.f", "DCACHESZ.F", "%10s", 4, RES_UBC,print_ubc_dcachesize, dcachesize_h_sort_fn},
{"numfile", "NFILE", "%10s", 0, RES_UBC,print_ubc_numfile, numfile_h_sort_fn},
{"numfile.m", "NFILE.M", "%10s", 1, RES_UBC,print_ubc_numfile, numfile_m_sort_fn},
{"numfile.b", "NFILE.B", "%10s", 2, RES_UBC,print_ubc_numfile, numfile_b_sort_fn},
{"numfile.l", "NFILE.L", "%10s", 3, RES_UBC,print_ubc_numfile, numfile_l_sort_fn},
{"numfile.f", "NFILE.F", "%10s", 4, RES_UBC,print_ubc_numfile, numfile_f_sort_fn},
{"numiptent", "NIPTENT", "%10s", 0, RES_UBC,print_ubc_numiptent, numiptent_h_sort_fn},
{"numiptent.m", "NIPTENT.M", "%10s", 1, RES_UBC,print_ubc_numiptent, numiptent_m_sort_fn},
{"numiptent.b", "NIPTENT.B", "%10s", 2, RES_UBC,print_ubc_numiptent, numiptent_b_sort_fn},
{"numiptent.l", "NIPTENT.L", "%10s", 3, RES_UBC,print_ubc_numiptent, numiptent_l_sort_fn},
{"numiptent.f", "NIPTENT.F", "%10s", 4, RES_UBC,print_ubc_numiptent, numiptent_f_sort_fn},
{"swappages", "SWAPP", "%10s", 0, RES_UBC,print_ubc_swappages, swappages_h_sort_fn},
{"swappages.m", "SWAPP.M", "%10s", 1, RES_UBC,print_ubc_swappages, swappages_m_sort_fn},
{"swappages.b", "SWAPP.B", "%10s", 2, RES_UBC,print_ubc_swappages, swappages_b_sort_fn},
{"swappages.l", "SWAPP.L", "%10s", 3, RES_UBC,print_ubc_swappages, swappages_l_sort_fn},
{"swappages.f", "SWAPP.F", "%10s", 4, RES_UBC,print_ubc_swappages, swappages_f_sort_fn},
{"diskspace", "DQBLOCKS", "%10s", 0, RES_QUOTA, print_dq_blocks, dqblocks_u_sort_fn},
{"diskspace.s", "DQBLOCKS.S", "%10s", 1, RES_QUOTA, print_dq_blocks, dqblocks_s_sort_fn},
{"diskspace.h", "DQBLOCKS.H", "%10s", 2, RES_QUOTA, print_dq_blocks, dqblocks_h_sort_fn},
{"diskinodes", "DQINODES", "%10s", 0, RES_QUOTA, print_dq_inodes, dqinodes_u_sort_fn},
{"diskinodes.s", "DQINODES.S", "%10s", 1, RES_QUOTA, print_dq_inodes, dqinodes_u_sort_fn},
{"diskinodes.h", "DQINODES.H", "%10s", 2, RES_QUOTA, print_dq_inodes, dqinodes_u_sort_fn},
{"laverage", "LAVERAGE", "%14s", 0, RES_LA, print_laverage, laverage_sort_fn},
{"cpulimit", "CPULIM", "%7s", 0, RES_CPU, print_cpulimit, cpulimit_sort_fn},
{"cpuunits", "CPUUNI", "%7s", 1, RES_CPU, print_cpulimit, cpuunits_sort_fn},
{"onboot", "ONBOOT", "%-9s", 0, RES_ONBOOT, print_onboot, none_sort_fn},
{"bootorder", "BOOTORDER", "%10s", 0, RES_BOOTORDER,
print_bootorder, bootorder_sort_fn},
};
static void print_hostname(struct Cveinfo *p, int index)
{
int r;
char *str = "-";
if (p->hostname != NULL)
str = p->hostname;
r = snprintf(p_outbuffer, e_buf - p_outbuffer, "%-32s", str);
if (last_field != NULL &&
field_names[last_field->order].res_type != RES_HOSTNAME)
{
r = 32;
}
p_outbuffer += r;
}
static void print_name(struct Cveinfo *p, int index)
{
int r;
char *str = "-";
if (p->name != NULL)
str = p->name;
r = snprintf(p_outbuffer, e_buf - p_outbuffer, "%-32s", str);
if (last_field != NULL &&
field_names[last_field->order].res_type != RES_NAME)
{
r = 32;
}
p_outbuffer += r;
}
static void print_description(struct Cveinfo *p, int index)
{
int r;
char *str = "-";
if (p->description != NULL)
str = p->description;
r = snprintf(p_outbuffer, e_buf - p_outbuffer, "%-32s", str);
if (last_field != NULL &&
field_names[last_field->order].res_type != RES_DESCRIPTION)
{
r = 32;
}
p_outbuffer += r;
}
static void print_ip(struct Cveinfo *p, int index)
{
int r;
char *str = "-";
char *ch;
if (p->ip != NULL)
str = p->ip;
if (last_field != NULL &&
field_names[last_field->order].res_type != RES_IP)
{
/* Fixme: dont destroy original string */
if ((ch = strchr(str, ' ')) != NULL)
*ch = 0;
}
r = snprintf(p_outbuffer, e_buf - p_outbuffer, "%-15s", str);
if (last_field != NULL &&
field_names[last_field->order].res_type != RES_IP)
{
r = 15;
}
p_outbuffer += r;
}
void *x_malloc(int size)
{
void *p;
if ((p = malloc(size)) == NULL) {
printf("Error: unable to allocate %d bytes\n", size);
exit(1);
}
return p;
}
void *x_realloc(void *ptr, int size)
{
void *tmp;
if ((tmp = realloc(ptr, size)) == NULL) {
printf("Error: unable to allocate %d bytes\n", size);
exit(1);
}
return tmp;
}
void usage()
{
fprintf(stderr, "Usage: vzlist [-a] [-o name[,name...]] [-s {name|-name}] [-h <pattern>] [-N <pattern>]\n");
fprintf(stderr, "\t\t[-H] [-S] [veid [veid ...]|-1]\n");
fprintf(stderr, " vzlist -L\n\n");
fprintf(stderr, "\t--all -a\t list of all containers\n");
fprintf(stderr, "\t--output -o\t output only specified parameters\n");
fprintf(stderr, "\t--hostname -h\t hostname search pattern\n");
fprintf(stderr, "\t--name -n\t display container's name\n");
fprintf(stderr, "\t--name_filter -N\t name search patter\n");
fprintf(stderr, "\t--description -d\t description search pattern\n");
fprintf(stderr, "\t--sort -s\t sort by specified parameter, - sign before parametr\n");
fprintf(stderr, "\t\t\t mean sort in reverse order\n");
fprintf(stderr, "\t--no-header -H\t supress display header\n");
fprintf(stderr, "\t--stopped -S\t list of stopped Ve\n");
fprintf(stderr, "\t--list -L\t list of allowed parameters\n");
return;
}
int id_search_fn(const void* val1, const void* val2)
{
return (*(const int *)val1 - ((const struct Cveinfo*)val2)->veid);
}
int veid_search_fn(const void* val1, const void* val2)
{
return (*(const int *)val1 - *(const int *)val2);
}
void print_hdr()
{
struct Cfield_order *p;
int f;
for (p = g_field_order; p != NULL; p = p->next) {
f = p->order;
printf(field_names[f].hdr_fmt, field_names[f].hdr);
if (p->next != NULL)
printf(" ");
}
printf("\n");
}
/*
1 - match
0 - do not match
*/
inline int check_pattern(char *str, char *pat)
{
if (pat == NULL)
return 1;
if (str == NULL)
return 0;
return !fnmatch(pat, str, 0);
}
int filter_by_hostname()
{
int i;
for (i = 0; i < n_veinfo; i++) {
if (!check_pattern(veinfo[i].hostname, host_pattern))
veinfo[i].hide = 1;
}
return 0;
}
int filter_by_name()
{
int i;
for (i = 0; i < n_veinfo; i++) {
if (!check_pattern(veinfo[i].name, name_pattern))
veinfo[i].hide = 1;
}
return 0;
}
int filter_by_description()
{
int i;
for (i = 0; i < n_veinfo; i++) {
if (!check_pattern(veinfo[i].description, desc_pattern))
veinfo[i].hide = 1;
}
return 0;
}
void print_ve()
{
struct Cfield_order *p;
int i, f, idx;
/* If sort order != veid (already sorted by) */
if (g_sort_field) {
qsort(veinfo, n_veinfo, sizeof(struct Cveinfo),
field_names[g_sort_field].sort_fn);
}
if (!(veid_only || !show_hdr))
print_hdr();
for (i = 0; i < n_veinfo; i++) {
if (sort_rev)
idx = n_veinfo - i - 1;
else
idx = i;
if (veinfo[idx].hide)
continue;
if (only_stopped_ve && veinfo[idx].status == VE_RUNNING)
continue;
for (p = g_field_order; p != NULL; p = p->next) {
f = p->order;
field_names[f].print_fn(&veinfo[idx],
field_names[f].index);
if (p_outbuffer >= e_buf)
break;
if (p->next != NULL)
*p_outbuffer++ = ' ';
}
printf("%s\n", g_outbuffer);
g_outbuffer[0] = 0;
p_outbuffer = g_outbuffer;
}
}
void add_elem(struct Cveinfo *ve)
{
veinfo = (struct Cveinfo *)x_realloc(veinfo,
sizeof(struct Cveinfo) * ++n_veinfo);
memcpy(&veinfo[n_veinfo - 1], ve, sizeof(struct Cveinfo));
return;
}
inline struct Cveinfo *find_ve(int veid)
{
return (struct Cveinfo *) bsearch(&veid, veinfo, n_veinfo,
sizeof(struct Cveinfo), id_search_fn);
}
void update_ve(int veid, char *ip, int status)
{
struct Cveinfo *tmp, ve;
tmp = find_ve(veid);
if (tmp == NULL) {
memset(&ve, 0, sizeof(struct Cveinfo));
ve.veid = veid;
ve.status = status;
ve.ip = ip;
add_elem(&ve);
qsort(veinfo, n_veinfo, sizeof(struct Cveinfo), id_sort_fn);
return;
} else {
if (tmp->ip == NULL)
tmp->ip = ip;
else if (ip != NULL)
free(ip);
tmp->status = status;
}
return;
}
void update_ubc(int veid, struct Cubc *ubc)
{
struct Cveinfo *tmp;
if ((tmp = find_ve(veid)) != NULL)
tmp->ubc = ubc;
return ;
}
void update_quota(int veid, struct Cquota *quota)
{
struct Cveinfo *tmp;
if ((tmp = find_ve(veid)) == NULL)
return;
tmp->quota = x_malloc(sizeof(*quota));
memcpy(tmp->quota, quota, sizeof(*quota));
return;
}
void update_cpu(int veid, unsigned long limit, unsigned long units)
{
struct Cveinfo *tmp;
struct Ccpu *cpu;
if ((tmp = find_ve(veid)) == NULL)
return;
cpu = x_malloc(sizeof(*cpu));
cpu->limit[0] = limit;
cpu->limit[1] = units;
tmp->cpu = cpu;
return;
}
void update_la(int veid, struct Cla *la)
{
struct Cveinfo *tmp;
if ((tmp = find_ve(veid)) == NULL)
return;
tmp->la = x_malloc(sizeof(*la));
memcpy(tmp->la, la, sizeof(*la));
return;
}
char *parse_var(char *var)
{
char *sp, *ep;
if (var == NULL)
return NULL;
sp = var;
while (*sp && (*sp == '"' || isspace(*sp))) sp++;
ep = var + strlen(var) - 1;
while (ep > sp && (*ep == '"' || isspace(*ep))) *ep-- = 0;
return strdup(sp);
}
#define MERGE_QUOTA(name, quota, dq) \
do { \
if (dq.name != NULL) { \
quota->name[1] = dq.name[0]; \
quota->name[2] = dq.name[1]; \
} \
} while(0);
void merge_conf(struct Cveinfo *ve, vps_res *res)
{
if (ve->ubc == NULL) {
ve->ubc = x_malloc(sizeof(struct Cubc));
memset(ve->ubc, 0, sizeof(struct Cubc));
#define MERGE_UBC(name, ubc, res) \
do { \
if (res == NULL || res->ub.name == NULL) \
break; \
ubc->name[2] = res->ub.name[0]; \
ubc->name[3] = res->ub.name[1]; \
} while(0);
MERGE_UBC(kmemsize, ve->ubc, res);
MERGE_UBC(lockedpages, ve->ubc, res);
MERGE_UBC(privvmpages, ve->ubc, res);
MERGE_UBC(shmpages, ve->ubc, res);
MERGE_UBC(numproc, ve->ubc, res);
MERGE_UBC(physpages, ve->ubc, res);
MERGE_UBC(vmguarpages, ve->ubc, res);
MERGE_UBC(oomguarpages, ve->ubc, res);
MERGE_UBC(numtcpsock, ve->ubc, res);
MERGE_UBC(numflock, ve->ubc, res);
MERGE_UBC(numpty, ve->ubc, res);
MERGE_UBC(numsiginfo, ve->ubc, res);
MERGE_UBC(tcpsndbuf, ve->ubc, res);
MERGE_UBC(tcprcvbuf, ve->ubc, res);
MERGE_UBC(othersockbuf, ve->ubc, res);
MERGE_UBC(dgramrcvbuf, ve->ubc, res);
MERGE_UBC(numothersock, ve->ubc, res);
MERGE_UBC(dcachesize, ve->ubc, res);
MERGE_UBC(numfile, ve->ubc, res);
MERGE_UBC(numiptent, ve->ubc, res);
MERGE_UBC(swappages, ve->ubc, res);
#undef MERGE_UBC
}
if (ve->ip == NULL && !list_empty(&res->net.ip)) {
ve->ip = strdup(list2str(NULL, &res->net.ip));
}
if (ve->quota == NULL &&
res->dq.diskspace != NULL &&
res->dq.diskinodes != NULL)
{
ve->quota = x_malloc(sizeof(struct Cquota));
memset(ve->quota, 0, sizeof(struct Cquota));
MERGE_QUOTA(diskspace, ve->quota, res->dq);
MERGE_QUOTA(diskinodes, ve->quota, res->dq);
}
if (ve->cpu == NULL &&
(res->cpu.units != NULL || res->cpu.limit != NULL))
{
ve->cpu = x_malloc(sizeof(struct Ccpu));
memset(ve->cpu, 0, sizeof(struct Ccpu));
if (res->cpu.units != NULL)
ve->cpu->limit[0] = *res->cpu.units;
if (res->cpu.limit != NULL)
ve->cpu->limit[1] = *res->cpu.limit;
}
if (res->misc.hostname != NULL)
ve->hostname = strdup(res->misc.hostname);
if (res->misc.description != NULL)
ve->description = strdup(res->misc.description);
if (res->name.name != NULL) {
int veid_nm = get_veid_by_name(res->name.name);
if (veid_nm == ve->veid)
ve->name = strdup(res->name.name);
}
if (res->fs.root != NULL)
ve->ve_root = strdup(res->fs.root);
if (res->fs.private != NULL)
ve->ve_private = strdup(res->fs.private);
ve->onboot = res->misc.onboot;
if (res->misc.bootorder != NULL) {
ve->bootorder = x_malloc(sizeof(*ve->bootorder));
*ve->bootorder = *res->misc.bootorder;
}
}
int read_ves_param()
{
int i;
char buf[128];
vps_param *param;
char *ve_root = NULL;
char *ve_private = NULL;
int veid;
param = init_vps_param();
/* Parse global config file */
vps_parse_config(0, GLOBAL_CFG, param, NULL);
if (param->res.fs.root != NULL)
ve_root = strdup(param->res.fs.root_orig);
if (param->res.fs.private != NULL)
ve_private = strdup(param->res.fs.private_orig);
free_vps_param(param);
for (i = 0; i < n_veinfo; i++) {
veid = veinfo[i].veid;
param = init_vps_param();
snprintf(buf, sizeof(buf), VPS_CONF_DIR "%d.conf", veid);
vps_parse_config(veid, buf, param, NULL);
merge_conf(&veinfo[i], &param->res);
if (veinfo[i].ve_root == NULL)
veinfo[i].ve_root = subst_VEID(veinfo[i].veid, ve_root);
if (veinfo[i].ve_private == NULL)
veinfo[i].ve_private = subst_VEID(veinfo[i].veid,
ve_private);
free_vps_param(param);
}
free(ve_root);
free(ve_private);
return 0;
}
int check_veid_restr(int veid)
{
if (g_ve_list == NULL)
return 1;
return (bsearch(&veid, g_ve_list, n_ve_list,
sizeof(*g_ve_list), veid_search_fn) != NULL);
}
#define UPDATE_UBC(str,name,ubc,held,maxheld,barrier,limit,failcnt) \
do { \
if (!strcmp(str, #name)) { \
ubc->name[0] = held; \
ubc->name[1] = maxheld; \
ubc->name[2] = barrier; \
ubc->name[3] = limit; \
ubc->name[4] = failcnt; \
} \
} while(0); \
int get_ub()
{
char buf[256];
int veid, prev_veid;
unsigned long held, maxheld, barrier, limit, failcnt;
char name[32];
FILE *fp;
char *s;
struct Cveinfo ve;
if ((fp = fopen(PROCUBC, "r")) == NULL) {
fprintf(stderr, "Unable to open %s\n", PROCUBC);
return 1;
}
veid = 0;
memset(&ve, 0, sizeof(struct Cveinfo));
while (!feof(fp)) {
if (fgets(buf, sizeof(buf), fp) == NULL)
break;
if ((s = strchr(buf, ':')) != NULL) {
prev_veid = veid;
if (sscanf(buf, "%d:", &veid) != 1)
continue;
if (prev_veid && check_veid_restr(prev_veid)) {
update_ubc(prev_veid, ve.ubc);
}
ve.ubc = x_malloc(sizeof(struct Cubc));
memset(ve.ubc, 0, sizeof(struct Cubc));
s++;
} else {
s = buf;
}
if (sscanf(s, "%s %lu %lu %lu %lu %lu",
name, &held, &maxheld, &barrier, &limit, &failcnt) != 6)
{
continue;
}
UPDATE_UBC(name, kmemsize, ve.ubc, held, maxheld, barrier, \
limit, failcnt)
UPDATE_UBC(name, lockedpages, ve.ubc, held, maxheld, barrier, \
limit, failcnt)
UPDATE_UBC(name, privvmpages, ve.ubc, held, maxheld, barrier, \
limit, failcnt)
UPDATE_UBC(name, shmpages, ve.ubc, held, maxheld, barrier, \
limit, failcnt)
UPDATE_UBC(name, numproc, ve.ubc, held, maxheld, barrier, \
limit, failcnt)
UPDATE_UBC(name, physpages, ve.ubc, held, maxheld, barrier, \
limit, failcnt)
UPDATE_UBC(name, vmguarpages, ve.ubc, held, maxheld, barrier, \
limit, failcnt)
UPDATE_UBC(name, oomguarpages, ve.ubc, held, maxheld, barrier, \
limit, failcnt)
UPDATE_UBC(name, numtcpsock, ve.ubc, held, maxheld, barrier, \
limit, failcnt)
UPDATE_UBC(name, numflock, ve.ubc, held, maxheld, barrier, \
limit, failcnt)
UPDATE_UBC(name, numpty, ve.ubc, held, maxheld, barrier, \
limit, failcnt)
UPDATE_UBC(name, numsiginfo, ve.ubc, held, maxheld, barrier, \
limit, failcnt)
UPDATE_UBC(name, tcpsndbuf, ve.ubc, held, maxheld, barrier, \
limit, failcnt)
UPDATE_UBC(name, tcprcvbuf, ve.ubc, held, maxheld, barrier, \
limit, failcnt)
UPDATE_UBC(name, othersockbuf, ve.ubc, held, maxheld, barrier, \
limit, failcnt)
UPDATE_UBC(name, dgramrcvbuf, ve.ubc, held, maxheld, barrier, \
limit, failcnt)
UPDATE_UBC(name, numothersock, ve.ubc, held, maxheld, barrier, \
limit, failcnt)
UPDATE_UBC(name, dcachesize, ve.ubc, held, maxheld, barrier, \
limit, failcnt)
UPDATE_UBC(name, numfile, ve.ubc, held, maxheld, barrier, \
limit, failcnt)
UPDATE_UBC(name, numiptent, ve.ubc, held, maxheld, barrier, \
limit, failcnt)
UPDATE_UBC(name, swappages, ve.ubc, held, maxheld, barrier, \
limit, failcnt)
}
if (veid && check_veid_restr(veid)) {
update_ubc(veid, ve.ubc);
}
fclose(fp);
return 0;
}
char *remove_sp(char *str)
{
char *sp, *ep, *tp;
int skip;
if (str == NULL)
return NULL;
tp = str;
sp = tp;
ep = str + strlen(str);
skip = 0;
while (sp < ep) {
*tp = *sp;
if (isspace(*sp)) {
*tp = ' ';
skip++;
} else
skip = 0;
if (skip <= 1)
tp++;
sp++;
}
*tp = 0;
return strdup(str);
}
char *invert_ip(char *ips)
{
char *tmp, *p, *ep, *tp;
size_t len;
int rc;
unsigned int ip[4];
int family;
char ip_str[64];
if (ips == NULL)
return NULL;
len = strlen(ips);
tp = tmp = x_malloc(len + 2);
tmp[0] = 0;
p = ep = ips + len;
/* Iterate in reverse order */
while (p-- > ips) {
/* Skip spaces */
while (p > ips && isspace(*p)) {--p;}
ep = p;
/* find the string begin from */
while (p > ips && !isspace(*(p - 1))) { --p;}
len = ep - p + 1;
if (len >= sizeof(ip_str))
continue;
strncpy(ip_str, p, len);
ip_str[len] = 0;
if ((family = get_netaddr(ip_str, ip)) == -1)
continue;;
if ((inet_ntop(family, ip, ip_str, sizeof(ip_str) - 1)) == NULL)
continue;
rc = sprintf(tp, "%s ", ip_str);
if (rc == -1)
break;
tp += rc;
}
return tmp;
}
static int get_run_ve_proc(int update)
{
FILE *fp;
struct Cveinfo ve;
char buf[16384];
char ips[16384];
int res, veid, classid, nproc;
if ((fp = fopen(PROCVEINFO, "r")) == NULL) {
fprintf(stderr, "Unable to open %s\n", PROCVEINFO);
return 1;
}
memset(&ve, 0, sizeof(struct Cveinfo));
while (!feof(fp)) {
if (fgets(buf, sizeof(buf), fp) == NULL)
break;
res = sscanf(buf, "%d %d %d %[^\n]",
&veid, &classid, &nproc, ips);
if (res < 3 || !veid)
continue;
if (!check_veid_restr(veid))
continue;
memset(&ve, 0, sizeof(struct Cveinfo));
if (res == 4) {
ve.ip = invert_ip(ips);
}
ve.veid = veid;
ve.status = VE_RUNNING;
if (update)
update_ve(veid, ve.ip, ve.status);
else
add_elem(&ve);
}
if (!update)
qsort(veinfo, n_veinfo, sizeof(struct Cveinfo), id_sort_fn);
fclose(fp);
return 0;
}
#if HAVE_VZLIST_IOCTL
static inline int get_ve_ips(unsigned int id, char **str)
{
int ret = -1;
struct vzlist_veipv4ctl veip;
uint32_t *addr;
veip.veid = id;
veip.num = 256;
addr = x_malloc(veip.num * sizeof(*veip.ip));
for (;;) {
veip.ip = addr;
ret = ioctl(vzctlfd, VZCTL_GET_VEIPS, &veip);
if (ret < 0)
goto out;
else if (ret <= veip.num)
break;
veip.num = ret;
addr = x_realloc(addr, veip.num * sizeof(*veip.ip));
}
if (ret > 0) {
char *buf, *cp;
int i;
buf = x_malloc(ret * (16 * sizeof(char)) + 1);
cp = buf;
for (i = ret - 1; i >= 0; i--)
cp += sprintf(cp, "%d.%d.%d.%d ", NIPQUAD(addr[i]));
*cp = '\0';
*str = buf;
} else
*str = strdup("");
out:
free(addr);
return ret;
}
static int get_run_ve_ioctl(int update)
{
int ret = -1;
struct vzlist_veidctl veid;
int nves;
void *buf = NULL;
int i;
vzctlfd = open(VZCTLDEV, O_RDWR);
if (vzctlfd < 0)
goto error;
veid.num = 256;
buf = x_malloc(veid.num * sizeof(envid_t));
while (1) {
veid.id = buf;
ret = ioctl(vzctlfd, VZCTL_GET_VEIDS, &veid);
if (ret < 0)
goto out;
if (ret <= veid.num)
break;
veid.num = ret + 20;
buf = x_realloc(buf, veid.num * sizeof(envid_t));
}
nves = ret;
for (i = 0; i < nves; i++) {
struct Cveinfo ve;
envid_t id;
id = veid.id[i];
if (!id || !check_veid_restr(id))
continue;
memset(&ve, '\0', sizeof(ve));
ve.veid = id;
ve.status = VE_RUNNING;
ret = get_ve_ips(id, &ve.ip);
if (ret < 0) {
if (errno != ESRCH)
goto out;
continue;
}
if (update)
update_ve(id, ve.ip, ve.status);
else
add_elem(&ve);
}
if (!update)
qsort(veinfo, n_veinfo, sizeof(struct Cveinfo), id_sort_fn);
ret = 0;
out:
free(buf);
close(vzctlfd);
error:
return ret;
}
#endif
int get_run_quota_stat()
{
unsigned long usage, softlimit, hardlimit, time, exp;
int veid = 0, prev_veid = 0;
struct Cquota quota;
FILE *fp;
char buf[128];
char str[11];
if ((fp = fopen(PROCQUOTA, "r")) == NULL) {
return 1;
}
veid = 0;
while (!feof(fp)) {
if (fgets(buf, sizeof(buf), fp) == NULL)
break;
if (strchr(buf, ':') != NULL) {
prev_veid = veid;
if (sscanf(buf, "%d:", &veid) != 1)
continue;
if (prev_veid)
update_quota(prev_veid, &quota);
memset(&quota, 0, sizeof(quota));
continue;
}
if (sscanf(buf, "%10s %lu %lu %lu %lu %lu", str, &usage,
&softlimit, &hardlimit, &time, &exp) == 6)
{
if (!strcmp(str, "1k-blocks")) {
quota.diskspace[0] = usage;
quota.diskspace[1] = softlimit;
quota.diskspace[2] = hardlimit;
} else if (!strcmp(str, "inodes")) {
quota.diskinodes[0] = usage;
quota.diskinodes[1] = softlimit;
quota.diskinodes[2] = hardlimit;
}
}
}
if (veid)
update_quota(veid, &quota);
fclose(fp);
return 0;
}
int get_stop_quota_stat(int veid)
{
char buf[255];
char res[16];
FILE *fp;
unsigned long usage, softlimit, hardlimit;
int status;
struct Cquota quota;
snprintf(buf, sizeof(buf), VZQUOTA " show %d 2>/dev/null", veid);
if ((fp = popen(buf, "r")) == NULL)
return 1;
memset(&quota, 0, sizeof(quota));
while(!feof(fp)) {
if (fgets(buf, sizeof(buf), fp) == NULL)
break;
if (sscanf(buf, "%15s %lu %lu %lu", res, &usage,
&softlimit, &hardlimit) != 4)
{
continue;
}
if (!strcmp(res, "1k-blocks")) {
quota.diskspace[0] = usage;
quota.diskspace[1] = softlimit;
quota.diskspace[2] = hardlimit;
} else if (!strcmp(res, "inodes")) {
quota.diskinodes[0] = usage;
quota.diskinodes[1] = softlimit;
quota.diskinodes[2] = hardlimit;
}
}
status = pclose(fp);
if (WEXITSTATUS(status))
return 1;
update_quota(veid, &quota);
return 0;
}
int get_stop_quota_stats()
{
int i;
for (i = 0; i < n_veinfo; i++) {
if (veinfo[i].status == VE_STOPPED && !veinfo[i].hide)
get_stop_quota_stat(veinfo[i].veid);
}
return 0;
}
int get_ve_la(int veid)
{
struct vz_cpu_stat stat;
struct vzctl_cpustatctl statctl;
struct Cla la;
statctl.veid = veid;
statctl.cpustat = &stat;
if (ioctl(vzctlfd, VZCTL_GET_CPU_STAT, &statctl) != 0)
return 1;
la.la[0] = stat.avenrun[0].val_int + (stat.avenrun[0].val_frac * 0.01);
la.la[1] = stat.avenrun[1].val_int + (stat.avenrun[1].val_frac * 0.01);
la.la[2] = stat.avenrun[2].val_int + (stat.avenrun[2].val_frac * 0.01);
update_la(veid, &la);
return 0;
}
int get_ves_la()
{
int i;
if ((vzctlfd = open(VZCTLDEV, O_RDWR)) < 0)
return 1;
for (i = 0; i < n_veinfo; i++) {
if (veinfo[i].hide)
continue;
get_ve_la(veinfo[i].veid);
}
close(vzctlfd);
return 0;
}
int get_mounted_status()
{
int i;
for (i = 0; i < n_veinfo; i++) {
if (veinfo[i].ve_root == NULL)
continue;
if (veinfo[i].status == VE_RUNNING)
continue;
if (veinfo[i].ve_private == NULL ||
!stat_file(veinfo[i].ve_private))
{
veinfo[i].hide = 1;
continue;
}
if (vps_is_mounted(veinfo[i].ve_root))
veinfo[i].status = VE_MOUNTED;
}
return 0;
}
int get_ves_cpu()
{
unsigned long tmp;
int veid, id, weight, rate;
FILE *fp;
char buf[128];
if ((fp = fopen(PROCFSHED, "r")) == NULL) {
fprintf(stderr, "Unable to open %s\n", PROCFSHED);
return 1;
}
veid = 0;
while (!feof(fp)) {
if (fgets(buf, sizeof(buf), fp) == NULL)
break;
if (sscanf(buf, "%d %d %lu %d %d",
&veid, &id, &tmp, &weight, &rate) != 5)
{
continue;
}
if (id && !veid) {
rate = (rate * 100) / 1024;
weight = MAXCPUUNITS / weight;
update_cpu(id, rate, weight);
}
}
fclose(fp);
return 0;
}
int get_ve_list()
{
DIR *dp;
struct dirent *ep;
int veid, res;
struct Cveinfo ve;
char str[6];
dp = opendir(VPS_CONF_DIR);
if (dp == NULL) {
return -1;
}
memset(&ve, 0, sizeof(struct Cveinfo));
ve.status = VE_STOPPED;
while ((ep = readdir (dp))) {
res = sscanf(ep->d_name, "%d.%5s", &veid, str);
if (!(res == 2 && !strcmp(str, "conf")))
continue;
if (!check_veid_restr(veid))
continue;
ve.veid = veid;
add_elem(&ve);
}
closedir(dp);
if (veinfo != NULL)
qsort(veinfo, n_veinfo, sizeof(struct Cveinfo), id_sort_fn);
return 0;
}
int search_field(char *name)
{
unsigned int i;
if (name == NULL)
return -1;
for (i = 0; i < sizeof(field_names) / sizeof(*field_names); i++) {
if (!strcmp(name, field_names[i].name))
return i;
}
return -1;
}
int build_field_order(char *fields)
{
struct Cfield_order *tmp, *prev = NULL;
char *sp, *ep, *p;
char name[32];
int order;
size_t nm_len;
sp = fields;
if (fields == NULL)
sp = default_field_order;
ep = sp + strlen(sp);
do {
if ((p = strchr(sp, ',')) == NULL)
p = ep;
nm_len = p - sp + 1;
if (nm_len > sizeof(name) - 1) {
fprintf(stderr, "Invalid field: %s\n", sp);
return 1;
}
snprintf(name, nm_len, "%s", sp);
sp = p + 1;
if ((order = search_field(name)) < 0) {
fprintf(stderr, "Unknown field: %s\n", name);
return 1;
}
tmp = x_malloc(sizeof(struct Cfield_order));
tmp->order = order;
tmp->next = NULL;
if (prev == NULL)
g_field_order = tmp;
else
prev->next = tmp;
prev = tmp;
} while (sp < ep);
last_field = prev;
return 0;
}
static inline int check_param(int res_type)
{
struct Cfield_order *p;
for (p = g_field_order; p != NULL; p = p->next) {
if (field_names[p->order].res_type == res_type)
return 1;
}
return 0;
}
int collect()
{
int update = 0;
int ret;
if (all_ve || g_ve_list != NULL || only_stopped_ve) {
get_ve_list();
update = 1;
}
get_run_ve(update);
if (!only_stopped_ve && (ret = get_ub()))
return ret;
/* No CT found, exit with error */
if (!n_veinfo) {
fprintf(stderr, "Container(s) not found\n");
return 1;
}
if (check_param(RES_QUOTA))
get_run_quota_stat();
if (check_param(RES_LA))
get_ves_la();
if (check_param(RES_CPU))
if ((ret = get_ves_cpu()))
return 1;
read_ves_param();
get_mounted_status();
if (host_pattern != NULL)
filter_by_hostname();
if (name_pattern != NULL)
filter_by_name();
if (desc_pattern != NULL)
filter_by_description();
return 0;
}
void print_names()
{
unsigned int i;
for (i = 0; i < sizeof(field_names) / sizeof(*field_names); i++)
printf("%-15s %-15s\n", field_names[i].name,
field_names[i].hdr);
return;
}
void free_veinfo()
{
int i;
for (i = 0; i < n_veinfo; i++) {
if (veinfo[i].ip != NULL)
free(veinfo[i].ip);
if (veinfo[i].hostname != NULL)
free(veinfo[i].hostname);
if (veinfo[i].name != NULL)
free(veinfo[i].name);
if (veinfo[i].description != NULL)
free(veinfo[i].description);
if (veinfo[i].ubc != NULL)
free(veinfo[i].ubc);
if (veinfo[i].quota != NULL)
free(veinfo[i].quota);
if (veinfo[i].la != NULL)
free(veinfo[i].la);
if (veinfo[i].cpu != NULL)
free(veinfo[i].cpu);
if (veinfo[i].ve_root != NULL)
free(veinfo[i].ve_root);
if (veinfo[i].ve_private != NULL)
free(veinfo[i].ve_private);
if (veinfo[i].bootorder != NULL)
free(veinfo[i].bootorder);
}
}
static struct option list_options[] =
{
{"no-header", no_argument, NULL, 'H'},
{"stopped", no_argument, NULL, 'S'},
{"all", no_argument, NULL, 'a'},
{"name", no_argument, NULL, 'n'},
{"name_filter", required_argument, NULL, 'N'},
{"hostname", required_argument, NULL, 'h'},
{"description", required_argument, NULL, 'd'},
{"output", required_argument, NULL, 'o'},
{"sort", required_argument, NULL, 's'},
{"list", no_argument, NULL, 'L'},
{"help", no_argument, NULL, 'e'},
{ NULL, 0, NULL, 0 }
};
int main(int argc, char **argv)
{
int ret;
char *f_order = NULL;
char *ep, *p;
int veid, c;
while (1) {
int option_index = -1;
c = getopt_long(argc, argv, "HSanN:h:d:o:s:Le1", list_options,
&option_index);
if (c == -1)
break;
switch(c) {
case 'S' :
only_stopped_ve = 1;
break;
case 'H' :
show_hdr = 0;
break;
case 'L' :
print_names();
return 0;
case 'a' :
all_ve = 1;
break;
case 'h' :
host_pattern = strdup(optarg);
break;
case 'd' :
desc_pattern = strdup(optarg);
break;
case 'o' :
f_order = strdup(optarg);
break;
case 's' :
p = optarg;
if (p[0] == '-') {
p++;
sort_rev = 1;
}
if ((g_sort_field = search_field(p)) < 0) {
printf("Invalid sort field name: %s\n", optarg);
return 1;
}
break;
case '1' :
f_order = strdup("veid");
veid_only = 1;
break;
case 'n' :
f_order = strdup(default_nm_field_order);
with_names = 1;
break;
case 'N' :
name_pattern = strdup(optarg);
break;
default :
usage();
return 1;
}
}
if (optind < argc) {
while (optind < argc) {
veid = strtol(argv[optind], &ep, 10);
if (*ep != 0 || !veid) {
veid = get_veid_by_name(argv[optind]);
if (veid < 0) {
fprintf(stderr,
"CT ID %s is invalid.\n",
argv[optind]);
return 1;
}
}
optind++;
g_ve_list = x_realloc(g_ve_list,
sizeof(*g_ve_list) * ++n_ve_list);
g_ve_list[n_ve_list - 1] = veid;
}
qsort(g_ve_list, n_ve_list, sizeof(*g_ve_list), id_sort_fn);
}
init_log(NULL, 0, 0, 0, 0, NULL);
if (build_field_order(f_order))
return 1;
if (getuid()) {
fprintf(stderr, "This program can only be run under root.\n");
return 1;
}
if ((ret = collect()))
return ret;
print_ve();
free_veinfo();
free(host_pattern);
free(name_pattern);
free(f_order);
return 0;
}