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libvirt/tools/virsh-host.c
Ján Tomko 123196aa05 tools: use G_GNUC_UNUSED 
Use G_GNUC_UNUSED from GLib instead of ATTRIBUTE_UNUSED.

Signed-off-by: Ján Tomko <jtomko@redhat.com>
Reviewed-by: Michal Privoznik <mprivozn@redhat.com>
2019-10-15 11:25:25 +02:00

1933 lines
52 KiB
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/*
* virsh-host.c: Commands in "Host and Hypervisor" group.
*
* Copyright (C) 2005, 2007-2014 Red Hat, Inc.
*
* This library is free software; you can redistribute it and/or
* modify it under the terms of the GNU Lesser General Public
* License as published by the Free Software Foundation; either
* version 2.1 of the License, or (at your option) any later version.
*
* This library 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
* Lesser General Public License for more details.
*
* You should have received a copy of the GNU Lesser General Public
* License along with this library. If not, see
* <http://www.gnu.org/licenses/>.
*/
#include <config.h>
#include "virsh-host.h"
#include <libxml/parser.h>
#include <libxml/tree.h>
#include <libxml/xpath.h>
#include <libxml/xmlsave.h>
#include "internal.h"
#include "virbitmap.h"
#include "virbuffer.h"
#include "viralloc.h"
#include "virxml.h"
#include "virtypedparam.h"
#include "virstring.h"
#include "virfile.h"
#include "virenum.h"
/*
* "capabilities" command
*/
static const vshCmdInfo info_capabilities[] = {
{.name = "help",
.data = N_("capabilities")
},
{.name = "desc",
.data = N_("Returns capabilities of hypervisor/driver.")
},
{.name = NULL}
};
static bool
cmdCapabilities(vshControl *ctl, const vshCmd *cmd G_GNUC_UNUSED)
{
char *caps;
virshControlPtr priv = ctl->privData;
if ((caps = virConnectGetCapabilities(priv->conn)) == NULL) {
vshError(ctl, "%s", _("failed to get capabilities"));
return false;
}
vshPrint(ctl, "%s\n", caps);
VIR_FREE(caps);
return true;
}
/*
* "domcapabilities" command
*/
static const vshCmdInfo info_domcapabilities[] = {
{.name = "help",
.data = N_("domain capabilities")
},
{.name = "desc",
.data = N_("Returns capabilities of emulator with respect to host and libvirt.")
},
{.name = NULL}
};
static const vshCmdOptDef opts_domcapabilities[] = {
{.name = "virttype",
.type = VSH_OT_STRING,
.help = N_("virtualization type (/domain/@type)"),
},
{.name = "emulatorbin",
.type = VSH_OT_STRING,
.help = N_("path to emulator binary (/domain/devices/emulator)"),
},
{.name = "arch",
.type = VSH_OT_STRING,
.help = N_("domain architecture (/domain/os/type/@arch)"),
},
{.name = "machine",
.type = VSH_OT_STRING,
.help = N_("machine type (/domain/os/type/@machine)"),
},
{.name = NULL}
};
static bool
cmdDomCapabilities(vshControl *ctl, const vshCmd *cmd)
{
bool ret = false;
char *caps = NULL;
const char *virttype = NULL;
const char *emulatorbin = NULL;
const char *arch = NULL;
const char *machine = NULL;
const unsigned int flags = 0; /* No flags so far */
virshControlPtr priv = ctl->privData;
if (vshCommandOptStringReq(ctl, cmd, "virttype", &virttype) < 0 ||
vshCommandOptStringReq(ctl, cmd, "emulatorbin", &emulatorbin) < 0 ||
vshCommandOptStringReq(ctl, cmd, "arch", &arch) < 0 ||
vshCommandOptStringReq(ctl, cmd, "machine", &machine) < 0)
return ret;
caps = virConnectGetDomainCapabilities(priv->conn, emulatorbin,
arch, machine, virttype, flags);
if (!caps) {
vshError(ctl, "%s", _("failed to get emulator capabilities"));
goto cleanup;
}
vshPrint(ctl, "%s\n", caps);
ret = true;
cleanup:
VIR_FREE(caps);
return ret;
}
/*
* "freecell" command
*/
static const vshCmdInfo info_freecell[] = {
{.name = "help",
.data = N_("NUMA free memory")
},
{.name = "desc",
.data = N_("display available free memory for the NUMA cell.")
},
{.name = NULL}
};
static const vshCmdOptDef opts_freecell[] = {
{.name = "cellno",
.type = VSH_OT_INT,
.completer = virshCellnoCompleter,
.help = N_("NUMA cell number")
},
{.name = "all",
.type = VSH_OT_BOOL,
.help = N_("show free memory for all NUMA cells")
},
{.name = NULL}
};
static bool
cmdFreecell(vshControl *ctl, const vshCmd *cmd)
{
bool ret = false;
int cell = -1;
unsigned long long memory = 0;
xmlNodePtr *nodes = NULL;
unsigned long nodes_cnt;
unsigned long *nodes_id = NULL;
unsigned long long *nodes_free = NULL;
bool all = vshCommandOptBool(cmd, "all");
bool cellno = vshCommandOptBool(cmd, "cellno");
size_t i;
char *cap_xml = NULL;
xmlDocPtr xml = NULL;
xmlXPathContextPtr ctxt = NULL;
virshControlPtr priv = ctl->privData;
VSH_EXCLUSIVE_OPTIONS_VAR(all, cellno);
if (cellno && vshCommandOptInt(ctl, cmd, "cellno", &cell) < 0)
return false;
if (all) {
if (!(cap_xml = virConnectGetCapabilities(priv->conn))) {
vshError(ctl, "%s", _("unable to get node capabilities"));
goto cleanup;
}
xml = virXMLParseStringCtxt(cap_xml, _("(capabilities)"), &ctxt);
if (!xml) {
vshError(ctl, "%s", _("unable to get node capabilities"));
goto cleanup;
}
nodes_cnt = virXPathNodeSet("/capabilities/host/topology/cells/cell",
ctxt, &nodes);
if (nodes_cnt == -1) {
vshError(ctl, "%s", _("could not get information about "
"NUMA topology"));
goto cleanup;
}
nodes_free = vshCalloc(ctl, nodes_cnt, sizeof(*nodes_free));
nodes_id = vshCalloc(ctl, nodes_cnt, sizeof(*nodes_id));
for (i = 0; i < nodes_cnt; i++) {
unsigned long id;
char *val = virXMLPropString(nodes[i], "id");
if (virStrToLong_ulp(val, NULL, 10, &id)) {
vshError(ctl, "%s", _("conversion from string failed"));
VIR_FREE(val);
goto cleanup;
}
VIR_FREE(val);
nodes_id[i] = id;
if (virNodeGetCellsFreeMemory(priv->conn, &(nodes_free[i]),
id, 1) != 1) {
vshError(ctl, _("failed to get free memory for NUMA node "
"number: %lu"), id);
goto cleanup;
}
}
for (cell = 0; cell < nodes_cnt; cell++) {
vshPrint(ctl, "%5lu: %10llu KiB\n", nodes_id[cell],
(nodes_free[cell]/1024));
memory += nodes_free[cell];
}
vshPrintExtra(ctl, "--------------------\n");
vshPrintExtra(ctl, "%5s: %10llu KiB\n", _("Total"), memory/1024);
} else {
if (cellno) {
if (virNodeGetCellsFreeMemory(priv->conn, &memory, cell, 1) != 1)
goto cleanup;
vshPrint(ctl, "%d: %llu KiB\n", cell, (memory/1024));
} else {
if ((memory = virNodeGetFreeMemory(priv->conn)) == 0)
goto cleanup;
vshPrint(ctl, "%s: %llu KiB\n", _("Total"), (memory/1024));
}
}
ret = true;
cleanup:
xmlXPathFreeContext(ctxt);
xmlFreeDoc(xml);
VIR_FREE(nodes);
VIR_FREE(nodes_free);
VIR_FREE(nodes_id);
VIR_FREE(cap_xml);
return ret;
}
/*
* "freepages" command
*/
static const vshCmdInfo info_freepages[] = {
{.name = "help",
.data = N_("NUMA free pages")
},
{.name = "desc",
.data = N_("display available free pages for the NUMA cell.")
},
{.name = NULL}
};
static const vshCmdOptDef opts_freepages[] = {
{.name = "cellno",
.type = VSH_OT_INT,
.completer = virshCellnoCompleter,
.help = N_("NUMA cell number")
},
{.name = "pagesize",
.type = VSH_OT_INT,
.completer = virshAllocpagesPagesizeCompleter,
.help = N_("page size (in kibibytes)")
},
{.name = "all",
.type = VSH_OT_BOOL,
.help = N_("show free pages for all NUMA cells")
},
{.name = NULL}
};
static int
vshPageSizeSorter(const void *a, const void *b)
{
unsigned int pa = *(unsigned int *)a;
unsigned int pb = *(unsigned int *)b;
return pa - pb;
}
static bool
cmdFreepages(vshControl *ctl, const vshCmd *cmd)
{
bool ret = false;
unsigned int npages;
unsigned int *pagesize = NULL;
unsigned long long bytes = 0;
unsigned int kibibytes = 0;
int cell;
unsigned long long *counts = NULL;
size_t i, j;
xmlNodePtr *nodes = NULL;
int nodes_cnt;
char *cap_xml = NULL;
xmlDocPtr doc = NULL;
xmlXPathContextPtr ctxt = NULL;
bool all = vshCommandOptBool(cmd, "all");
bool cellno = vshCommandOptBool(cmd, "cellno");
bool pagesz = vshCommandOptBool(cmd, "pagesize");
virshControlPtr priv = ctl->privData;
VSH_EXCLUSIVE_OPTIONS_VAR(all, cellno);
if (vshCommandOptScaledInt(ctl, cmd, "pagesize", &bytes, 1024, UINT_MAX) < 0)
goto cleanup;
kibibytes = VIR_DIV_UP(bytes, 1024);
if (all) {
if (!(cap_xml = virConnectGetCapabilities(priv->conn))) {
vshError(ctl, "%s", _("unable to get node capabilities"));
goto cleanup;
}
if (!(doc = virXMLParseStringCtxt(cap_xml, _("capabilities"), &ctxt))) {
vshError(ctl, "%s", _("unable to parse node capabilities"));
goto cleanup;
}
if (!pagesz) {
nodes_cnt = virXPathNodeSet("/capabilities/host/cpu/pages", ctxt, &nodes);
if (nodes_cnt <= 0) {
/* Some drivers don't export page sizes under the
* XPath above. Do another trick to get them. */
nodes_cnt = virXPathNodeSet("/capabilities/host/topology/cells/cell/pages",
ctxt, &nodes);
if (nodes_cnt <= 0) {
vshError(ctl, "%s", _("could not get information about "
"supported page sizes"));
goto cleanup;
}
}
pagesize = vshCalloc(ctl, nodes_cnt, sizeof(*pagesize));
for (i = 0; i < nodes_cnt; i++) {
char *val = virXMLPropString(nodes[i], "size");
if (virStrToLong_uip(val, NULL, 10, &pagesize[i]) < 0) {
vshError(ctl, _("unable to parse page size: %s"), val);
VIR_FREE(val);
goto cleanup;
}
VIR_FREE(val);
}
/* Here, if we've done the trick few lines above,
* @pagesize array will contain duplicates. We should
* remove them otherwise not very nice output will be
* produced. */
qsort(pagesize, nodes_cnt, sizeof(*pagesize), vshPageSizeSorter);
for (i = 0; i < nodes_cnt - 1;) {
if (pagesize[i] == pagesize[i + 1]) {
memmove(pagesize + i, pagesize + i + 1,
(nodes_cnt - i + 1) * sizeof(*pagesize));
nodes_cnt--;
} else {
i++;
}
}
npages = nodes_cnt;
VIR_FREE(nodes);
} else {
pagesize = vshMalloc(ctl, sizeof(*pagesize));
pagesize[0] = kibibytes;
npages = 1;
}
counts = vshCalloc(ctl, npages, sizeof(*counts));
nodes_cnt = virXPathNodeSet("/capabilities/host/topology/cells/cell",
ctxt, &nodes);
for (i = 0; i < nodes_cnt; i++) {
char *val = virXMLPropString(nodes[i], "id");
if (virStrToLong_i(val, NULL, 10, &cell) < 0) {
vshError(ctl, _("unable to parse numa node id: %s"), val);
VIR_FREE(val);
goto cleanup;
}
VIR_FREE(val);
if (virNodeGetFreePages(priv->conn, npages, pagesize,
cell, 1, counts, 0) < 0)
goto cleanup;
vshPrint(ctl, _("Node %d:\n"), cell);
for (j = 0; j < npages; j++)
vshPrint(ctl, "%uKiB: %lld\n", pagesize[j], counts[j]);
vshPrint(ctl, "%c", '\n');
}
} else {
if (!cellno) {
vshError(ctl, "%s", _("missing cellno argument"));
goto cleanup;
}
if (vshCommandOptInt(ctl, cmd, "cellno", &cell) < 0)
goto cleanup;
if (cell < -1) {
vshError(ctl, "%s",
_("cell number must be non-negative integer or -1"));
goto cleanup;
}
if (!pagesz) {
vshError(ctl, "%s", _("missing pagesize argument"));
goto cleanup;
}
/* page size is expected in kibibytes */
pagesize = vshMalloc(ctl, sizeof(*pagesize));
pagesize[0] = kibibytes;
counts = vshMalloc(ctl, sizeof(*counts));
if (virNodeGetFreePages(priv->conn, 1, pagesize,
cell, 1, counts, 0) < 0)
goto cleanup;
vshPrint(ctl, "%uKiB: %lld\n", *pagesize, counts[0]);
}
ret = true;
cleanup:
xmlXPathFreeContext(ctxt);
xmlFreeDoc(doc);
VIR_FREE(cap_xml);
VIR_FREE(nodes);
VIR_FREE(counts);
VIR_FREE(pagesize);
return ret;
}
/*
* "allocpages" command
*/
static const vshCmdInfo info_allocpages[] = {
{.name = "help",
.data = N_("Manipulate pages pool size")
},
{.name = "desc",
.data = N_("Allocate or free some pages in the pool for NUMA cell.")
},
{.name = NULL}
};
static const vshCmdOptDef opts_allocpages[] = {
{.name = "pagesize",
.type = VSH_OT_INT,
.flags = VSH_OFLAG_REQ,
.completer = virshAllocpagesPagesizeCompleter,
.help = N_("page size (in kibibytes)")
},
{.name = "pagecount",
.type = VSH_OT_INT,
.flags = VSH_OFLAG_REQ,
.help = N_("page count")
},
{.name = "cellno",
.type = VSH_OT_INT,
.completer = virshCellnoCompleter,
.help = N_("NUMA cell number")
},
{.name = "add",
.type = VSH_OT_BOOL,
.help = N_("instead of setting new pool size add pages to it")
},
{.name = "all",
.type = VSH_OT_BOOL,
.help = N_("set on all NUMA cells")
},
{.name = NULL}
};
static bool
cmdAllocpages(vshControl *ctl, const vshCmd *cmd)
{
bool ret = false;
bool add = vshCommandOptBool(cmd, "add");
bool all = vshCommandOptBool(cmd, "all");
bool cellno = vshCommandOptBool(cmd, "cellno");
int startCell = -1;
int cellCount = 1;
unsigned int pageSizes[1];
unsigned long long pageCounts[1], tmp;
unsigned int flags = 0;
char *cap_xml = NULL;
xmlDocPtr xml = NULL;
xmlXPathContextPtr ctxt = NULL;
xmlNodePtr *nodes = NULL;
virshControlPtr priv = ctl->privData;
VSH_EXCLUSIVE_OPTIONS_VAR(all, cellno);
if (cellno && vshCommandOptInt(ctl, cmd, "cellno", &startCell) < 0)
return false;
if (vshCommandOptScaledInt(ctl, cmd, "pagesize", &tmp, 1024, UINT_MAX) < 0)
return false;
pageSizes[0] = VIR_DIV_UP(tmp, 1024);
if (vshCommandOptULongLong(ctl, cmd, "pagecount", &pageCounts[0]) < 0)
return false;
flags |= add ? VIR_NODE_ALLOC_PAGES_ADD : VIR_NODE_ALLOC_PAGES_SET;
if (all) {
unsigned long nodes_cnt;
size_t i;
if (!(cap_xml = virConnectGetCapabilities(priv->conn))) {
vshError(ctl, "%s", _("unable to get node capabilities"));
goto cleanup;
}
xml = virXMLParseStringCtxt(cap_xml, _("(capabilities)"), &ctxt);
if (!xml) {
vshError(ctl, "%s", _("unable to get node capabilities"));
goto cleanup;
}
nodes_cnt = virXPathNodeSet("/capabilities/host/topology/cells/cell",
ctxt, &nodes);
if (nodes_cnt == -1) {
vshError(ctl, "%s", _("could not get information about "
"NUMA topology"));
goto cleanup;
}
for (i = 0; i < nodes_cnt; i++) {
unsigned long id;
char *val = virXMLPropString(nodes[i], "id");
if (virStrToLong_ulp(val, NULL, 10, &id)) {
vshError(ctl, "%s", _("conversion from string failed"));
VIR_FREE(val);
goto cleanup;
}
VIR_FREE(val);
if (virNodeAllocPages(priv->conn, 1, pageSizes,
pageCounts, id, 1, flags) < 0)
goto cleanup;
}
} else {
if (virNodeAllocPages(priv->conn, 1, pageSizes, pageCounts,
startCell, cellCount, flags) < 0)
goto cleanup;
}
ret = true;
cleanup:
xmlXPathFreeContext(ctxt);
xmlFreeDoc(xml);
VIR_FREE(nodes);
VIR_FREE(cap_xml);
return ret;
}
/*
* "maxvcpus" command
*/
static const vshCmdInfo info_maxvcpus[] = {
{.name = "help",
.data = N_("connection vcpu maximum")
},
{.name = "desc",
.data = N_("Show maximum number of virtual CPUs for guests on this connection.")
},
{.name = NULL}
};
static const vshCmdOptDef opts_maxvcpus[] = {
{.name = "type",
.type = VSH_OT_STRING,
.help = N_("domain type")
},
{.name = NULL}
};
static bool
cmdMaxvcpus(vshControl *ctl, const vshCmd *cmd)
{
const char *type = NULL;
int vcpus = -1;
char *caps = NULL;
xmlDocPtr xml = NULL;
xmlXPathContextPtr ctxt = NULL;
virshControlPtr priv = ctl->privData;
bool ret = false;
if (vshCommandOptStringReq(ctl, cmd, "type", &type) < 0)
return false;
if ((caps = virConnectGetDomainCapabilities(priv->conn, NULL, NULL, NULL,
type, 0))) {
if (!(xml = virXMLParseStringCtxt(caps, _("(domainCapabilities)"), &ctxt)))
goto cleanup;
ignore_value(virXPathInt("string(./vcpu[1]/@max)", ctxt, &vcpus));
} else {
vshResetLibvirtError();
}
if (vcpus < 0 && (vcpus = virConnectGetMaxVcpus(priv->conn, type)) < 0)
goto cleanup;
vshPrint(ctl, "%d\n", vcpus);
ret = true;
cleanup:
xmlXPathFreeContext(ctxt);
xmlFreeDoc(xml);
VIR_FREE(caps);
return ret;
}
/*
* "nodeinfo" command
*/
static const vshCmdInfo info_nodeinfo[] = {
{.name = "help",
.data = N_("node information")
},
{.name = "desc",
.data = N_("Returns basic information about the node.")
},
{.name = NULL}
};
static bool
cmdNodeinfo(vshControl *ctl, const vshCmd *cmd G_GNUC_UNUSED)
{
virNodeInfo info;
virshControlPtr priv = ctl->privData;
if (virNodeGetInfo(priv->conn, &info) < 0) {
vshError(ctl, "%s", _("failed to get node information"));
return false;
}
vshPrint(ctl, "%-20s %s\n", _("CPU model:"), info.model);
vshPrint(ctl, "%-20s %d\n", _("CPU(s):"), info.cpus);
if (info.mhz)
vshPrint(ctl, "%-20s %d MHz\n", _("CPU frequency:"), info.mhz);
vshPrint(ctl, "%-20s %d\n", _("CPU socket(s):"), info.sockets);
vshPrint(ctl, "%-20s %d\n", _("Core(s) per socket:"), info.cores);
vshPrint(ctl, "%-20s %d\n", _("Thread(s) per core:"), info.threads);
vshPrint(ctl, "%-20s %d\n", _("NUMA cell(s):"), info.nodes);
vshPrint(ctl, "%-20s %lu KiB\n", _("Memory size:"), info.memory);
return true;
}
/*
* "nodecpumap" command
*/
static const vshCmdInfo info_node_cpumap[] = {
{.name = "help",
.data = N_("node cpu map")
},
{.name = "desc",
.data = N_("Displays the node's total number of CPUs, the number of"
" online CPUs and the list of online CPUs.")
},
{.name = NULL}
};
static const vshCmdOptDef opts_node_cpumap[] = {
{.name = "pretty",
.type = VSH_OT_BOOL,
.help = N_("return human readable output")
},
{.name = NULL}
};
static bool
cmdNodeCpuMap(vshControl *ctl, const vshCmd *cmd G_GNUC_UNUSED)
{
int cpu, cpunum;
unsigned char *cpumap = NULL;
unsigned int online;
bool pretty = vshCommandOptBool(cmd, "pretty");
bool ret = false;
virshControlPtr priv = ctl->privData;
cpunum = virNodeGetCPUMap(priv->conn, &cpumap, &online, 0);
if (cpunum < 0) {
vshError(ctl, "%s", _("Unable to get cpu map"));
goto cleanup;
}
vshPrint(ctl, "%-15s %d\n", _("CPUs present:"), cpunum);
vshPrint(ctl, "%-15s %d\n", _("CPUs online:"), online);
vshPrint(ctl, "%-15s ", _("CPU map:"));
if (pretty) {
char *str = virBitmapDataFormat(cpumap, VIR_CPU_MAPLEN(cpunum));
if (!str)
goto cleanup;
vshPrint(ctl, "%s", str);
VIR_FREE(str);
} else {
for (cpu = 0; cpu < cpunum; cpu++)
vshPrint(ctl, "%c", VIR_CPU_USED(cpumap, cpu) ? 'y' : '-');
}
vshPrint(ctl, "\n");
ret = true;
cleanup:
VIR_FREE(cpumap);
return ret;
}
/*
* "nodecpustats" command
*/
static const vshCmdInfo info_nodecpustats[] = {
{.name = "help",
.data = N_("Prints cpu stats of the node.")
},
{.name = "desc",
.data = N_("Returns cpu stats of the node, in nanoseconds.")
},
{.name = NULL}
};
static const vshCmdOptDef opts_node_cpustats[] = {
{.name = "cpu",
.type = VSH_OT_INT,
.help = N_("prints specified cpu statistics only.")
},
{.name = "percent",
.type = VSH_OT_BOOL,
.help = N_("prints by percentage during 1 second.")
},
{.name = NULL}
};
typedef enum {
VIRSH_CPU_USER,
VIRSH_CPU_SYSTEM,
VIRSH_CPU_IDLE,
VIRSH_CPU_IOWAIT,
VIRSH_CPU_INTR,
VIRSH_CPU_USAGE,
VIRSH_CPU_LAST
} virshCPUStats;
VIR_ENUM_DECL(virshCPUStats);
VIR_ENUM_IMPL(virshCPUStats,
VIRSH_CPU_LAST,
VIR_NODE_CPU_STATS_USER,
VIR_NODE_CPU_STATS_KERNEL,
VIR_NODE_CPU_STATS_IDLE,
VIR_NODE_CPU_STATS_IOWAIT,
VIR_NODE_CPU_STATS_INTR,
VIR_NODE_CPU_STATS_UTILIZATION);
const char *virshCPUOutput[] = {
N_("user:"),
N_("system:"),
N_("idle:"),
N_("iowait:"),
N_("intr:"),
N_("usage:")
};
static bool
cmdNodeCpuStats(vshControl *ctl, const vshCmd *cmd)
{
size_t i, j;
bool flag_percent = vshCommandOptBool(cmd, "percent");
int cpuNum = VIR_NODE_CPU_STATS_ALL_CPUS;
virNodeCPUStatsPtr params;
int nparams = 0;
bool ret = false;
unsigned long long cpu_stats[VIRSH_CPU_LAST] = { 0 };
bool present[VIRSH_CPU_LAST] = { false };
virshControlPtr priv = ctl->privData;
if (vshCommandOptInt(ctl, cmd, "cpu", &cpuNum) < 0)
return false;
if (virNodeGetCPUStats(priv->conn, cpuNum, NULL, &nparams, 0) != 0) {
vshError(ctl, "%s",
_("Unable to get number of cpu stats"));
return false;
}
if (nparams == 0) {
/* nothing to output */
return true;
}
memset(cpu_stats, 0, sizeof(cpu_stats));
params = vshCalloc(ctl, nparams, sizeof(*params));
for (i = 0; i < 2; i++) {
if (virNodeGetCPUStats(priv->conn, cpuNum, params, &nparams, 0) != 0) {
vshError(ctl, "%s", _("Unable to get node cpu stats"));
goto cleanup;
}
for (j = 0; j < nparams; j++) {
int field = virshCPUStatsTypeFromString(params[j].field);
if (field < 0)
continue;
if (i == 0) {
cpu_stats[field] = params[j].value;
present[field] = true;
} else if (present[field]) {
cpu_stats[field] = params[j].value - cpu_stats[field];
}
}
if (present[VIRSH_CPU_USAGE] || !flag_percent)
break;
sleep(1);
}
if (!flag_percent) {
for (i = 0; i < VIRSH_CPU_USAGE; i++) {
if (present[i]) {
vshPrint(ctl, "%-15s %20llu\n", _(virshCPUOutput[i]),
cpu_stats[i]);
}
}
} else {
if (present[VIRSH_CPU_USAGE]) {
vshPrint(ctl, "%-15s %5.1llu%%\n",
_("usage:"), cpu_stats[VIRSH_CPU_USAGE]);
vshPrint(ctl, "%-15s %5.1llu%%\n",
_("idle:"), 100 - cpu_stats[VIRSH_CPU_USAGE]);
} else {
double usage, total_time = 0;
for (i = 0; i < VIRSH_CPU_USAGE; i++)
total_time += cpu_stats[i];
usage = (cpu_stats[VIRSH_CPU_USER] + cpu_stats[VIRSH_CPU_SYSTEM])
/ total_time * 100;
vshPrint(ctl, "%-15s %5.1lf%%\n", _("usage:"), usage);
for (i = 0; i < VIRSH_CPU_USAGE; i++) {
if (present[i]) {
vshPrint(ctl, "%-15s %5.1lf%%\n", _(virshCPUOutput[i]),
cpu_stats[i] / total_time * 100);
}
}
}
}
ret = true;
cleanup:
VIR_FREE(params);
return ret;
}
/*
* "nodememstats" command
*/
static const vshCmdInfo info_nodememstats[] = {
{.name = "help",
.data = N_("Prints memory stats of the node.")
},
{.name = "desc",
.data = N_("Returns memory stats of the node, in kilobytes.")
},
{.name = NULL}
};
static const vshCmdOptDef opts_node_memstats[] = {
{.name = "cell",
.type = VSH_OT_INT,
.help = N_("prints specified cell statistics only.")
},
{.name = NULL}
};
static bool
cmdNodeMemStats(vshControl *ctl, const vshCmd *cmd)
{
int nparams = 0;
size_t i;
int cellNum = VIR_NODE_MEMORY_STATS_ALL_CELLS;
virNodeMemoryStatsPtr params = NULL;
bool ret = false;
virshControlPtr priv = ctl->privData;
if (vshCommandOptInt(ctl, cmd, "cell", &cellNum) < 0)
return false;
/* get the number of memory parameters */
if (virNodeGetMemoryStats(priv->conn, cellNum, NULL, &nparams, 0) != 0) {
vshError(ctl, "%s",
_("Unable to get number of memory stats"));
goto cleanup;
}
if (nparams == 0) {
/* nothing to output */
ret = true;
goto cleanup;
}
/* now go get all the memory parameters */
params = vshCalloc(ctl, nparams, sizeof(*params));
if (virNodeGetMemoryStats(priv->conn, cellNum, params, &nparams, 0) != 0) {
vshError(ctl, "%s", _("Unable to get memory stats"));
goto cleanup;
}
for (i = 0; i < nparams; i++)
vshPrint(ctl, "%-7s: %20llu KiB\n", params[i].field, params[i].value);
ret = true;
cleanup:
VIR_FREE(params);
return ret;
}
/*
* "nodesuspend" command
*/
static const vshCmdInfo info_nodesuspend[] = {
{.name = "help",
.data = N_("suspend the host node for a given time duration")
},
{.name = "desc",
.data = N_("Suspend the host node for a given time duration "
"and attempt to resume thereafter.")
},
{.name = NULL}
};
static const vshCmdOptDef opts_node_suspend[] = {
{.name = "target",
.type = VSH_OT_DATA,
.flags = VSH_OFLAG_REQ,
.help = N_("mem(Suspend-to-RAM), disk(Suspend-to-Disk), "
"hybrid(Hybrid-Suspend)")
},
{.name = "duration",
.type = VSH_OT_INT,
.flags = VSH_OFLAG_REQ,
.help = N_("Suspend duration in seconds, at least 60")
},
{.name = NULL}
};
static bool
cmdNodeSuspend(vshControl *ctl, const vshCmd *cmd)
{
const char *target = NULL;
unsigned int suspendTarget;
long long duration;
virshControlPtr priv = ctl->privData;
if (vshCommandOptStringReq(ctl, cmd, "target", &target) < 0)
return false;
if (vshCommandOptLongLong(ctl, cmd, "duration", &duration) < 0)
return false;
if (STREQ(target, "mem")) {
suspendTarget = VIR_NODE_SUSPEND_TARGET_MEM;
} else if (STREQ(target, "disk")) {
suspendTarget = VIR_NODE_SUSPEND_TARGET_DISK;
} else if (STREQ(target, "hybrid")) {
suspendTarget = VIR_NODE_SUSPEND_TARGET_HYBRID;
} else {
vshError(ctl, "%s", _("Invalid target"));
return false;
}
if (duration < 0) {
vshError(ctl, "%s", _("Invalid duration"));
return false;
}
if (virNodeSuspendForDuration(priv->conn, suspendTarget, duration, 0) < 0) {
vshError(ctl, "%s", _("The host was not suspended"));
return false;
}
return true;
}
/*
* "sysinfo" command
*/
static const vshCmdInfo info_sysinfo[] = {
{.name = "help",
.data = N_("print the hypervisor sysinfo")
},
{.name = "desc",
.data = N_("output an XML string for the hypervisor sysinfo, if available")
},
{.name = NULL}
};
static bool
cmdSysinfo(vshControl *ctl, const vshCmd *cmd G_GNUC_UNUSED)
{
char *sysinfo;
virshControlPtr priv = ctl->privData;
sysinfo = virConnectGetSysinfo(priv->conn, 0);
if (sysinfo == NULL) {
vshError(ctl, "%s", _("failed to get sysinfo"));
return false;
}
vshPrint(ctl, "%s", sysinfo);
VIR_FREE(sysinfo);
return true;
}
/*
* "hostname" command
*/
static const vshCmdInfo info_hostname[] = {
{.name = "help",
.data = N_("print the hypervisor hostname")
},
{.name = "desc",
.data = ""
},
{.name = NULL}
};
static bool
cmdHostname(vshControl *ctl, const vshCmd *cmd G_GNUC_UNUSED)
{
char *hostname;
virshControlPtr priv = ctl->privData;
hostname = virConnectGetHostname(priv->conn);
if (hostname == NULL) {
vshError(ctl, "%s", _("failed to get hostname"));
return false;
}
vshPrint(ctl, "%s\n", hostname);
VIR_FREE(hostname);
return true;
}
/*
* "uri" command
*/
static const vshCmdInfo info_uri[] = {
{.name = "help",
.data = N_("print the hypervisor canonical URI")
},
{.name = "desc",
.data = ""
},
{.name = NULL}
};
static bool
cmdURI(vshControl *ctl, const vshCmd *cmd G_GNUC_UNUSED)
{
char *uri;
virshControlPtr priv = ctl->privData;
uri = virConnectGetURI(priv->conn);
if (uri == NULL) {
vshError(ctl, "%s", _("failed to get URI"));
return false;
}
vshPrint(ctl, "%s\n", uri);
VIR_FREE(uri);
return true;
}
/* Extracts the CPU definition XML strings from a file which may contain either
* - just the CPU definitions,
* - domain XMLs,
* - capabilities XMLs, or
* - domain capabilities XMLs.
*
* Returns NULL terminated string list.
*/
static char **
vshExtractCPUDefXMLs(vshControl *ctl,
const char *xmlFile)
{
char **cpus = NULL;
char *buffer = NULL;
char *xmlStr = NULL;
xmlDocPtr xml = NULL;
xmlXPathContextPtr ctxt = NULL;
xmlNodePtr *nodes = NULL;
char *doc;
size_t i;
int n;
if (virFileReadAll(xmlFile, VSH_MAX_XML_FILE, &buffer) < 0)
goto error;
/* Strip possible XML declaration */
if (STRPREFIX(buffer, "<?xml") && (doc = strstr(buffer, "?>")))
doc += 2;
else
doc = buffer;
if (virAsprintf(&xmlStr, "<container>%s</container>", doc) < 0)
goto error;
if (!(xml = virXMLParseStringCtxt(xmlStr, xmlFile, &ctxt)))
goto error;
n = virXPathNodeSet("/container/cpu|"
"/container/domain/cpu|"
"/container/capabilities/host/cpu|"
"/container/domainCapabilities/cpu/"
"mode[@name='host-model' and @supported='yes']",
ctxt, &nodes);
if (n < 0)
goto error;
if (n == 0) {
vshError(ctl, _("File '%s' does not contain any <cpu> element or "
"valid domain XML, host capabilities XML, or "
"domain capabilities XML"), xmlFile);
goto error;
}
cpus = vshCalloc(ctl, n + 1, sizeof(const char *));
for (i = 0; i < n; i++) {
/* If the user provided domain capabilities XML, we need to replace
* <mode ...> element with <cpu>. */
if (xmlStrEqual(nodes[i]->name, BAD_CAST "mode")) {
xmlNodeSetName(nodes[i], (const xmlChar *)"cpu");
while (nodes[i]->properties) {
if (xmlRemoveProp(nodes[i]->properties) < 0) {
vshError(ctl,
_("Cannot extract CPU definition from domain "
"capabilities XML"));
goto error;
}
}
}
if (!(cpus[i] = virXMLNodeToString(xml, nodes[i]))) {
vshSaveLibvirtError();
goto error;
}
}
cleanup:
VIR_FREE(buffer);
VIR_FREE(xmlStr);
xmlFreeDoc(xml);
xmlXPathFreeContext(ctxt);
VIR_FREE(nodes);
return cpus;
error:
virStringListFree(cpus);
goto cleanup;
}
/*
* "cpu-compare" command
*/
static const vshCmdInfo info_cpu_compare[] = {
{.name = "help",
.data = N_("compare host CPU with a CPU described by an XML file")
},
{.name = "desc",
.data = N_("compare CPU with host CPU")
},
{.name = NULL}
};
static const vshCmdOptDef opts_cpu_compare[] = {
VIRSH_COMMON_OPT_FILE(N_("file containing an XML CPU description")),
{.name = "error",
.type = VSH_OT_BOOL,
.help = N_("report error if CPUs are incompatible")
},
{.name = NULL}
};
static bool
cmdCPUCompare(vshControl *ctl, const vshCmd *cmd)
{
const char *from = NULL;
bool ret = false;
int result;
char **cpus = NULL;
unsigned int flags = 0;
virshControlPtr priv = ctl->privData;
if (vshCommandOptBool(cmd, "error"))
flags |= VIR_CONNECT_COMPARE_CPU_FAIL_INCOMPATIBLE;
if (vshCommandOptStringReq(ctl, cmd, "file", &from) < 0)
return false;
if (!(cpus = vshExtractCPUDefXMLs(ctl, from)))
return false;
result = virConnectCompareCPU(priv->conn, cpus[0], flags);
switch (result) {
case VIR_CPU_COMPARE_INCOMPATIBLE:
vshPrint(ctl, _("CPU described in %s is incompatible with host CPU\n"),
from);
goto cleanup;
break;
case VIR_CPU_COMPARE_IDENTICAL:
vshPrint(ctl, _("CPU described in %s is identical to host CPU\n"),
from);
break;
case VIR_CPU_COMPARE_SUPERSET:
vshPrint(ctl, _("Host CPU is a superset of CPU described in %s\n"),
from);
break;
case VIR_CPU_COMPARE_ERROR:
default:
vshError(ctl, _("Failed to compare host CPU with %s"), from);
goto cleanup;
}
ret = true;
cleanup:
virStringListFree(cpus);
return ret;
}
/*
* "cpu-baseline" command
*/
static const vshCmdInfo info_cpu_baseline[] = {
{.name = "help",
.data = N_("compute baseline CPU")
},
{.name = "desc",
.data = N_("Compute baseline CPU for a set of given CPUs.")
},
{.name = NULL}
};
static const vshCmdOptDef opts_cpu_baseline[] = {
VIRSH_COMMON_OPT_FILE(N_("file containing XML CPU descriptions")),
{.name = "features",
.type = VSH_OT_BOOL,
.help = N_("Show features that are part of the CPU model type")
},
{.name = "migratable",
.type = VSH_OT_BOOL,
.help = N_("Do not include features that block migration")
},
{.name = NULL}
};
static bool
cmdCPUBaseline(vshControl *ctl, const vshCmd *cmd)
{
const char *from = NULL;
bool ret = false;
char *result = NULL;
char **list = NULL;
unsigned int flags = 0;
virshControlPtr priv = ctl->privData;
if (vshCommandOptBool(cmd, "features"))
flags |= VIR_CONNECT_BASELINE_CPU_EXPAND_FEATURES;
if (vshCommandOptBool(cmd, "migratable"))
flags |= VIR_CONNECT_BASELINE_CPU_MIGRATABLE;
if (vshCommandOptStringReq(ctl, cmd, "file", &from) < 0)
return false;
if (!(list = vshExtractCPUDefXMLs(ctl, from)))
return false;
result = virConnectBaselineCPU(priv->conn, (const char **)list,
virStringListLength((const char **)list),
flags);
if (result) {
vshPrint(ctl, "%s", result);
ret = true;
}
VIR_FREE(result);
virStringListFree(list);
return ret;
}
/*
* "cpu-models" command
*/
static const vshCmdInfo info_cpu_models[] = {
{.name = "help",
.data = N_("CPU models")
},
{.name = "desc",
.data = N_("Get the CPU models for an arch.")
},
{.name = NULL}
};
static const vshCmdOptDef opts_cpu_models[] = {
{.name = "arch",
.type = VSH_OT_DATA,
.flags = VSH_OFLAG_REQ,
.help = N_("architecture")
},
{.name = NULL}
};
static bool
cmdCPUModelNames(vshControl *ctl, const vshCmd *cmd)
{
char **models;
size_t i;
int nmodels;
const char *arch = NULL;
virshControlPtr priv = ctl->privData;
if (vshCommandOptStringReq(ctl, cmd, "arch", &arch) < 0)
return false;
nmodels = virConnectGetCPUModelNames(priv->conn, arch, &models, 0);
if (nmodels < 0) {
vshError(ctl, "%s", _("failed to get CPU model names"));
return false;
}
if (nmodels == 0) {
vshPrintExtra(ctl, "%s\n", _("all CPU models are accepted"));
} else {
for (i = 0; i < nmodels; i++) {
vshPrint(ctl, "%s\n", models[i]);
VIR_FREE(models[i]);
}
}
VIR_FREE(models);
return true;
}
/*
* "version" command
*/
static const vshCmdInfo info_version[] = {
{.name = "help",
.data = N_("show version")
},
{.name = "desc",
.data = N_("Display the system version information.")
},
{.name = NULL}
};
static const vshCmdOptDef opts_version[] = {
{.name = "daemon",
.type = VSH_OT_BOOL,
.help = N_("report daemon version too")
},
{.name = NULL}
};
static bool
cmdVersion(vshControl *ctl, const vshCmd *cmd G_GNUC_UNUSED)
{
unsigned long hvVersion;
const char *hvType;
unsigned long libVersion;
unsigned long includeVersion;
unsigned long apiVersion;
unsigned long daemonVersion;
int ret;
unsigned int major;
unsigned int minor;
unsigned int rel;
virshControlPtr priv = ctl->privData;
hvType = virConnectGetType(priv->conn);
if (hvType == NULL) {
vshError(ctl, "%s", _("failed to get hypervisor type"));
return false;
}
includeVersion = LIBVIR_VERSION_NUMBER;
major = includeVersion / 1000000;
includeVersion %= 1000000;
minor = includeVersion / 1000;
rel = includeVersion % 1000;
vshPrint(ctl, _("Compiled against library: libvirt %d.%d.%d\n"),
major, minor, rel);
ret = virGetVersion(&libVersion, hvType, &apiVersion);
if (ret < 0) {
vshError(ctl, "%s", _("failed to get the library version"));
return false;
}
major = libVersion / 1000000;
libVersion %= 1000000;
minor = libVersion / 1000;
rel = libVersion % 1000;
vshPrint(ctl, _("Using library: libvirt %d.%d.%d\n"),
major, minor, rel);
major = apiVersion / 1000000;
apiVersion %= 1000000;
minor = apiVersion / 1000;
rel = apiVersion % 1000;
vshPrint(ctl, _("Using API: %s %d.%d.%d\n"), hvType,
major, minor, rel);
ret = virConnectGetVersion(priv->conn, &hvVersion);
if (ret < 0) {
vshError(ctl, "%s", _("failed to get the hypervisor version"));
return false;
}
if (hvVersion == 0) {
vshPrint(ctl,
_("Cannot extract running %s hypervisor version\n"), hvType);
} else {
major = hvVersion / 1000000;
hvVersion %= 1000000;
minor = hvVersion / 1000;
rel = hvVersion % 1000;
vshPrint(ctl, _("Running hypervisor: %s %d.%d.%d\n"),
hvType, major, minor, rel);
}
if (vshCommandOptBool(cmd, "daemon")) {
ret = virConnectGetLibVersion(priv->conn, &daemonVersion);
if (ret < 0) {
vshError(ctl, "%s", _("failed to get the daemon version"));
} else {
major = daemonVersion / 1000000;
daemonVersion %= 1000000;
minor = daemonVersion / 1000;
rel = daemonVersion % 1000;
vshPrint(ctl, _("Running against daemon: %d.%d.%d\n"),
major, minor, rel);
}
}
return true;
}
static const vshCmdInfo info_node_memory_tune[] = {
{"help", N_("Get or set node memory parameters")},
{"desc", N_("Get or set node memory parameters\n"
" To get the memory parameters, use following command: \n\n"
" virsh # node-memory-tune")},
{NULL, NULL}
};
static const vshCmdOptDef opts_node_memory_tune[] = {
{.name = "shm-pages-to-scan",
.type = VSH_OT_INT,
.help = N_("number of pages to scan before the shared memory service "
"goes to sleep")
},
{.name = "shm-sleep-millisecs",
.type = VSH_OT_INT,
.help = N_("number of millisecs the shared memory service should "
"sleep before next scan")
},
{.name = "shm-merge-across-nodes",
.type = VSH_OT_INT,
.help = N_("Specifies if pages from different numa nodes can be merged")
},
{.name = NULL}
};
static bool
cmdNodeMemoryTune(vshControl *ctl, const vshCmd *cmd)
{
virTypedParameterPtr params = NULL;
int nparams = 0;
int maxparams = 0;
unsigned int flags = 0;
unsigned int value;
bool ret = false;
int rc = -1;
size_t i;
virshControlPtr priv = ctl->privData;
if ((rc = vshCommandOptUInt(ctl, cmd, "shm-pages-to-scan", &value)) < 0) {
goto cleanup;
} else if (rc > 0) {
if (virTypedParamsAddUInt(&params, &nparams, &maxparams,
VIR_NODE_MEMORY_SHARED_PAGES_TO_SCAN,
value) < 0)
goto save_error;
}
if ((rc = vshCommandOptUInt(ctl, cmd, "shm-sleep-millisecs", &value)) < 0) {
goto cleanup;
} else if (rc > 0) {
if (virTypedParamsAddUInt(&params, &nparams, &maxparams,
VIR_NODE_MEMORY_SHARED_SLEEP_MILLISECS,
value) < 0)
goto save_error;
}
if ((rc = vshCommandOptUInt(ctl, cmd, "shm-merge-across-nodes", &value)) < 0) {
goto cleanup;
} else if (rc > 0) {
if (virTypedParamsAddUInt(&params, &nparams, &maxparams,
VIR_NODE_MEMORY_SHARED_MERGE_ACROSS_NODES,
value) < 0)
goto save_error;
}
if (nparams == 0) {
/* Get the number of memory parameters */
if (virNodeGetMemoryParameters(priv->conn, NULL, &nparams, flags) != 0) {
vshError(ctl, "%s",
_("Unable to get number of memory parameters"));
goto cleanup;
}
if (nparams == 0) {
ret = true;
goto cleanup;
}
/* Now go get all the memory parameters */
params = vshCalloc(ctl, nparams, sizeof(*params));
if (virNodeGetMemoryParameters(priv->conn, params, &nparams, flags) != 0) {
vshError(ctl, "%s", _("Unable to get memory parameters"));
goto cleanup;
}
/* XXX: Need to sort the returned params once new parameter
* fields not of shared memory are added.
*/
vshPrint(ctl, _("Shared memory:\n"));
for (i = 0; i < nparams; i++) {
char *str = vshGetTypedParamValue(ctl, &params[i]);
vshPrint(ctl, "\t%-15s %s\n", params[i].field, str);
VIR_FREE(str);
}
} else {
if (virNodeSetMemoryParameters(priv->conn, params, nparams, flags) != 0)
goto error;
}
ret = true;
cleanup:
virTypedParamsFree(params, nparams);
return ret;
save_error:
vshSaveLibvirtError();
error:
vshError(ctl, "%s", _("Unable to change memory parameters"));
goto cleanup;
}
/*
* "hypervisor-cpu-compare" command
*/
static const vshCmdInfo info_hypervisor_cpu_compare[] = {
{.name = "help",
.data = N_("compare a CPU with the CPU created by a hypervisor on the host")
},
{.name = "desc",
.data = N_("compare CPU with hypervisor CPU")
},
{.name = NULL}
};
static const vshCmdOptDef opts_hypervisor_cpu_compare[] = {
VIRSH_COMMON_OPT_FILE(N_("file containing an XML CPU description")),
{.name = "virttype",
.type = VSH_OT_STRING,
.help = N_("virtualization type (/domain/@type)"),
},
{.name = "emulator",
.type = VSH_OT_STRING,
.help = N_("path to emulator binary (/domain/devices/emulator)"),
},
{.name = "arch",
.type = VSH_OT_STRING,
.help = N_("CPU architecture (/domain/os/type/@arch)"),
},
{.name = "machine",
.type = VSH_OT_STRING,
.help = N_("machine type (/domain/os/type/@machine)"),
},
{.name = "error",
.type = VSH_OT_BOOL,
.help = N_("report error if CPUs are incompatible")
},
{.name = NULL}
};
static bool
cmdHypervisorCPUCompare(vshControl *ctl,
const vshCmd *cmd)
{
const char *from = NULL;
const char *virttype = NULL;
const char *emulator = NULL;
const char *arch = NULL;
const char *machine = NULL;
bool ret = false;
int result;
char **cpus = NULL;
unsigned int flags = 0;
virshControlPtr priv = ctl->privData;
if (vshCommandOptBool(cmd, "error"))
flags |= VIR_CONNECT_COMPARE_CPU_FAIL_INCOMPATIBLE;
if (vshCommandOptStringReq(ctl, cmd, "file", &from) < 0 ||
vshCommandOptStringReq(ctl, cmd, "virttype", &virttype) < 0 ||
vshCommandOptStringReq(ctl, cmd, "emulator", &emulator) < 0 ||
vshCommandOptStringReq(ctl, cmd, "arch", &arch) < 0 ||
vshCommandOptStringReq(ctl, cmd, "machine", &machine) < 0)
return false;
if (!(cpus = vshExtractCPUDefXMLs(ctl, from)))
return false;
result = virConnectCompareHypervisorCPU(priv->conn, emulator, arch,
machine, virttype, cpus[0], flags);
switch (result) {
case VIR_CPU_COMPARE_INCOMPATIBLE:
vshPrint(ctl,
_("CPU described in %s is incompatible with the CPU provided "
"by hypervisor on the host\n"),
from);
goto cleanup;
break;
case VIR_CPU_COMPARE_IDENTICAL:
vshPrint(ctl,
_("CPU described in %s is identical to the CPU provided by "
"hypervisor on the host\n"),
from);
break;
case VIR_CPU_COMPARE_SUPERSET:
vshPrint(ctl,
_("The CPU provided by hypervisor on the host is a superset "
"of CPU described in %s\n"),
from);
break;
case VIR_CPU_COMPARE_ERROR:
default:
vshError(ctl, _("Failed to compare hypervisor CPU with %s"), from);
goto cleanup;
}
ret = true;
cleanup:
virStringListFree(cpus);
return ret;
}
/*
* "hypervisor-cpu-baseline" command
*/
static const vshCmdInfo info_hypervisor_cpu_baseline[] = {
{.name = "help",
.data = N_("compute baseline CPU usable by a specific hypervisor")
},
{.name = "desc",
.data = N_("Compute baseline CPU for a set of given CPUs. The result "
"will be tailored to the specified hypervisor.")
},
{.name = NULL}
};
static const vshCmdOptDef opts_hypervisor_cpu_baseline[] = {
VIRSH_COMMON_OPT_FILE(N_("file containing XML CPU descriptions")),
{.name = "virttype",
.type = VSH_OT_STRING,
.help = N_("virtualization type (/domain/@type)"),
},
{.name = "emulator",
.type = VSH_OT_STRING,
.help = N_("path to emulator binary (/domain/devices/emulator)"),
},
{.name = "arch",
.type = VSH_OT_STRING,
.help = N_("CPU architecture (/domain/os/type/@arch)"),
},
{.name = "machine",
.type = VSH_OT_STRING,
.help = N_("machine type (/domain/os/type/@machine)"),
},
{.name = "features",
.type = VSH_OT_BOOL,
.help = N_("Show features that are part of the CPU model type")
},
{.name = "migratable",
.type = VSH_OT_BOOL,
.help = N_("Do not include features that block migration")
},
{.name = NULL}
};
static bool
cmdHypervisorCPUBaseline(vshControl *ctl,
const vshCmd *cmd)
{
const char *from = NULL;
const char *virttype = NULL;
const char *emulator = NULL;
const char *arch = NULL;
const char *machine = NULL;
bool ret = false;
char *result = NULL;
char **list = NULL;
unsigned int flags = 0;
virshControlPtr priv = ctl->privData;
if (vshCommandOptBool(cmd, "features"))
flags |= VIR_CONNECT_BASELINE_CPU_EXPAND_FEATURES;
if (vshCommandOptBool(cmd, "migratable"))
flags |= VIR_CONNECT_BASELINE_CPU_MIGRATABLE;
if (vshCommandOptStringReq(ctl, cmd, "file", &from) < 0 ||
vshCommandOptStringReq(ctl, cmd, "virttype", &virttype) < 0 ||
vshCommandOptStringReq(ctl, cmd, "emulator", &emulator) < 0 ||
vshCommandOptStringReq(ctl, cmd, "arch", &arch) < 0 ||
vshCommandOptStringReq(ctl, cmd, "machine", &machine) < 0)
return false;
if (!(list = vshExtractCPUDefXMLs(ctl, from)))
return false;
result = virConnectBaselineHypervisorCPU(priv->conn, emulator, arch,
machine, virttype,
(const char **)list,
virStringListLength((const char **)list),
flags);
if (result) {
vshPrint(ctl, "%s", result);
ret = true;
}
VIR_FREE(result);
virStringListFree(list);
return ret;
}
const vshCmdDef hostAndHypervisorCmds[] = {
{.name = "allocpages",
.handler = cmdAllocpages,
.opts = opts_allocpages,
.info = info_allocpages,
.flags = 0
},
{.name = "capabilities",
.handler = cmdCapabilities,
.opts = NULL,
.info = info_capabilities,
.flags = 0
},
{.name = "cpu-baseline",
.handler = cmdCPUBaseline,
.opts = opts_cpu_baseline,
.info = info_cpu_baseline,
.flags = 0
},
{.name = "cpu-compare",
.handler = cmdCPUCompare,
.opts = opts_cpu_compare,
.info = info_cpu_compare,
.flags = 0
},
{.name = "cpu-models",
.handler = cmdCPUModelNames,
.opts = opts_cpu_models,
.info = info_cpu_models,
.flags = 0
},
{.name = "domcapabilities",
.handler = cmdDomCapabilities,
.opts = opts_domcapabilities,
.info = info_domcapabilities,
.flags = 0
},
{.name = "freecell",
.handler = cmdFreecell,
.opts = opts_freecell,
.info = info_freecell,
.flags = 0
},
{.name = "freepages",
.handler = cmdFreepages,
.opts = opts_freepages,
.info = info_freepages,
.flags = 0
},
{.name = "hostname",
.handler = cmdHostname,
.opts = NULL,
.info = info_hostname,
.flags = 0
},
{.name = "hypervisor-cpu-baseline",
.handler = cmdHypervisorCPUBaseline,
.opts = opts_hypervisor_cpu_baseline,
.info = info_hypervisor_cpu_baseline,
.flags = 0
},
{.name = "hypervisor-cpu-compare",
.handler = cmdHypervisorCPUCompare,
.opts = opts_hypervisor_cpu_compare,
.info = info_hypervisor_cpu_compare,
.flags = 0
},
{.name = "maxvcpus",
.handler = cmdMaxvcpus,
.opts = opts_maxvcpus,
.info = info_maxvcpus,
.flags = 0
},
{.name = "node-memory-tune",
.handler = cmdNodeMemoryTune,
.opts = opts_node_memory_tune,
.info = info_node_memory_tune,
.flags = 0
},
{.name = "nodecpumap",
.handler = cmdNodeCpuMap,
.opts = opts_node_cpumap,
.info = info_node_cpumap,
.flags = 0
},
{.name = "nodecpustats",
.handler = cmdNodeCpuStats,
.opts = opts_node_cpustats,
.info = info_nodecpustats,
.flags = 0
},
{.name = "nodeinfo",
.handler = cmdNodeinfo,
.opts = NULL,
.info = info_nodeinfo,
.flags = 0
},
{.name = "nodememstats",
.handler = cmdNodeMemStats,
.opts = opts_node_memstats,
.info = info_nodememstats,
.flags = 0
},
{.name = "nodesuspend",
.handler = cmdNodeSuspend,
.opts = opts_node_suspend,
.info = info_nodesuspend,
.flags = 0
},
{.name = "sysinfo",
.handler = cmdSysinfo,
.opts = NULL,
.info = info_sysinfo,
.flags = 0
},
{.name = "uri",
.handler = cmdURI,
.opts = NULL,
.info = info_uri,
.flags = 0
},
{.name = "version",
.handler = cmdVersion,
.opts = opts_version,
.info = info_version,
.flags = 0
},
{.name = NULL}
};
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