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libvirt/src/cpu/cpu.c
Daniel P. Berrangé 600462834f Remove all Author(s): lines from source file headers 
In many files there are header comments that contain an Author:
statement, supposedly reflecting who originally wrote the code.
In a large collaborative project like libvirt, any non-trivial
file will have been modified by a large number of different
contributors. IOW, the Author: comments are quickly out of date,
omitting people who have made significant contribitions.

In some places Author: lines have been added despite the person
merely being responsible for creating the file by moving existing
code out of another file. IOW, the Author: lines give an incorrect
record of authorship.

With this all in mind, the comments are useless as a means to identify
who to talk to about code in a particular file. Contributors will always
be better off using 'git log' and 'git blame' if they need to  find the
author of a particular bit of code.

This commit thus deletes all Author: comments from the source and adds
a rule to prevent them reappearing.

The Copyright headers are similarly misleading and inaccurate, however,
we cannot delete these as they have legal meaning, despite being largely
inaccurate. In addition only the copyright holder is permitted to change
their respective copyright statement.

Reviewed-by: Erik Skultety <eskultet@redhat.com>
Signed-off-by: Daniel P. Berrangé <berrange@redhat.com>
2018-12-13 16:08:38 +00:00

1078 lines
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/*
* cpu.c: internal functions for CPU manipulation
*
* Copyright (C) 2009-2013 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 "virlog.h"
#include "viralloc.h"
#include "virxml.h"
#include "cpu.h"
#include "cpu_map.h"
#include "cpu_x86.h"
#include "cpu_ppc64.h"
#include "cpu_s390.h"
#include "cpu_arm.h"
#include "capabilities.h"
#include "virstring.h"
#define VIR_FROM_THIS VIR_FROM_CPU
VIR_LOG_INIT("cpu.cpu");
static struct cpuArchDriver *drivers[] = {
&cpuDriverX86,
&cpuDriverPPC64,
&cpuDriverS390,
&cpuDriverArm,
};
static struct cpuArchDriver *
cpuGetSubDriver(virArch arch)
{
size_t i;
size_t j;
if (arch == VIR_ARCH_NONE) {
virReportError(VIR_ERR_INTERNAL_ERROR,
"%s", _("undefined hardware architecture"));
return NULL;
}
for (i = 0; i < ARRAY_CARDINALITY(drivers); i++) {
for (j = 0; j < drivers[i]->narch; j++) {
if (arch == drivers[i]->arch[j])
return drivers[i];
}
}
virReportError(VIR_ERR_NO_SUPPORT,
_("'%s' architecture is not supported by CPU driver"),
virArchToString(arch));
return NULL;
}
static struct cpuArchDriver *
cpuGetSubDriverByName(const char *name)
{
size_t i;
for (i = 0; i < ARRAY_CARDINALITY(drivers); i++) {
if (STREQ_NULLABLE(name, drivers[i]->name))
return drivers[i];
}
virReportError(VIR_ERR_INTERNAL_ERROR,
_("CPU driver '%s' does not exist"),
name);
return NULL;
}
/**
* virCPUCompareXML:
*
* @arch: CPU architecture
* @host: host CPU definition
* @xml: XML description of either guest or host CPU to be compared with @host
* @failIncompatible: return an error instead of VIR_CPU_COMPARE_INCOMPATIBLE
*
* Compares the CPU described by @xml with @host CPU.
*
* Returns VIR_CPU_COMPARE_ERROR on error, VIR_CPU_COMPARE_INCOMPATIBLE when
* the two CPUs are incompatible, VIR_CPU_COMPARE_IDENTICAL when the two CPUs
* are identical, VIR_CPU_COMPARE_SUPERSET when the @xml CPU is a superset of
* the @host CPU. If @failIncompatible is true, the function will return
* VIR_CPU_COMPARE_ERROR (and set VIR_ERR_CPU_INCOMPATIBLE error) when the
* two CPUs are incompatible.
*/
virCPUCompareResult
virCPUCompareXML(virArch arch,
virCPUDefPtr host,
const char *xml,
bool failIncompatible)
{
xmlDocPtr doc = NULL;
xmlXPathContextPtr ctxt = NULL;
virCPUDefPtr cpu = NULL;
virCPUCompareResult ret = VIR_CPU_COMPARE_ERROR;
VIR_DEBUG("arch=%s, host=%p, xml=%s",
virArchToString(arch), host, NULLSTR(xml));
if (!xml) {
virReportError(VIR_ERR_INVALID_ARG, "%s", _("missing CPU definition"));
goto cleanup;
}
if (!(doc = virXMLParseStringCtxt(xml, _("(CPU_definition)"), &ctxt)))
goto cleanup;
if (virCPUDefParseXML(ctxt, NULL, VIR_CPU_TYPE_AUTO, &cpu) < 0)
goto cleanup;
ret = virCPUCompare(arch, host, cpu, failIncompatible);
cleanup:
virCPUDefFree(cpu);
xmlXPathFreeContext(ctxt);
xmlFreeDoc(doc);
return ret;
}
/**
* virCPUCompare:
*
* @arch: CPU architecture
* @host: host CPU definition
* @cpu: either guest or host CPU to be compared with @host
* @failIncompatible: return an error instead of VIR_CPU_COMPARE_INCOMPATIBLE
*
* Compares the CPU described by @cpu with @host CPU.
*
* Returns VIR_CPU_COMPARE_ERROR on error, VIR_CPU_COMPARE_INCOMPATIBLE when
* the two CPUs are incompatible, VIR_CPU_COMPARE_IDENTICAL when the two CPUs
* are identical, VIR_CPU_COMPARE_SUPERSET when the @cpu CPU is a superset of
* the @host CPU. If @failIncompatible is true, the function will return
* VIR_CPU_COMPARE_ERROR (and set VIR_ERR_CPU_INCOMPATIBLE error) when the
* two CPUs are incompatible.
*/
virCPUCompareResult
virCPUCompare(virArch arch,
virCPUDefPtr host,
virCPUDefPtr cpu,
bool failIncompatible)
{
struct cpuArchDriver *driver;
VIR_DEBUG("arch=%s, host=%p, cpu=%p",
virArchToString(arch), host, cpu);
if (!(driver = cpuGetSubDriver(arch)))
return VIR_CPU_COMPARE_ERROR;
if (!driver->compare) {
virReportError(VIR_ERR_NO_SUPPORT,
_("cannot compare CPUs of %s architecture"),
virArchToString(arch));
return VIR_CPU_COMPARE_ERROR;
}
return driver->compare(host, cpu, failIncompatible);
}
/**
* cpuDecode:
*
* @cpu: CPU definition stub to be filled in
* @data: internal CPU data to be decoded into @cpu definition
* @models: list of CPU models that can be considered when decoding @data
*
* Decodes internal CPU data into a CPU definition consisting of a CPU model
* and a list of CPU features. The @cpu model stub is supposed to have arch,
* type, match and fallback members set, this function will add the rest. If
* @models list is NULL, all models supported by libvirt will be considered
* when decoding the data. In general, this function will select the model
* closest to the CPU specified by @data.
*
* For VIR_ARCH_I686 and VIR_ARCH_X86_64 architectures this means the computed
* CPU definition will have the shortest possible list of additional features.
*
* Returns 0 on success, -1 on error.
*/
int
cpuDecode(virCPUDefPtr cpu,
const virCPUData *data,
virDomainCapsCPUModelsPtr models)
{
struct cpuArchDriver *driver;
VIR_DEBUG("cpu=%p, data=%p, models=%p", cpu, data, models);
if (models) {
size_t i;
for (i = 0; i < models->nmodels; i++)
VIR_DEBUG("models[%zu]=%s", i, models->models[i].name);
}
if (cpu->type > VIR_CPU_TYPE_GUEST ||
cpu->mode != VIR_CPU_MODE_CUSTOM) {
virReportError(VIR_ERR_INVALID_ARG, "%s",
_("invalid CPU definition stub"));
return -1;
}
if ((driver = cpuGetSubDriver(data->arch)) == NULL)
return -1;
if (driver->decode == NULL) {
virReportError(VIR_ERR_NO_SUPPORT,
_("cannot decode CPU data for %s architecture"),
virArchToString(cpu->arch));
return -1;
}
return driver->decode(cpu, data, models);
}
/**
* cpuEncode:
*
* @arch: CPU architecture
* @cpu: CPU definition to be encoded into internal CPU driver representation
* @forced: where to store CPU data corresponding to forced features
* @required: where to store CPU data corresponding to required features
* @optional: where to store CPU data corresponding to optional features
* @disabled: where to store CPU data corresponding to disabled features
* @forbidden: where to store CPU data corresponding to forbidden features
* @vendor: where to store CPU data corresponding to CPU vendor
*
* Encode CPU definition from @cpu into internal CPU driver representation.
* Any of @forced, @required, @optional, @disabled, @forbidden and @vendor
* arguments can be NULL in case the caller is not interested in the
* corresponding data.
*
* Returns 0 on success, -1 on error.
*/
int
cpuEncode(virArch arch,
const virCPUDef *cpu,
virCPUDataPtr *forced,
virCPUDataPtr *required,
virCPUDataPtr *optional,
virCPUDataPtr *disabled,
virCPUDataPtr *forbidden,
virCPUDataPtr *vendor)
{
struct cpuArchDriver *driver;
VIR_DEBUG("arch=%s, cpu=%p, forced=%p, required=%p, "
"optional=%p, disabled=%p, forbidden=%p, vendor=%p",
virArchToString(arch), cpu, forced, required,
optional, disabled, forbidden, vendor);
if (!cpu->model) {
virReportError(VIR_ERR_INVALID_ARG, "%s",
_("no guest CPU model specified"));
return -1;
}
if ((driver = cpuGetSubDriver(arch)) == NULL)
return -1;
if (driver->encode == NULL) {
virReportError(VIR_ERR_NO_SUPPORT,
_("cannot encode CPU data for %s architecture"),
virArchToString(arch));
return -1;
}
return driver->encode(arch, cpu, forced, required,
optional, disabled, forbidden, vendor);
}
/**
* virCPUDataNew:
*
* Returns an allocated memory for virCPUData or NULL on error.
*/
virCPUDataPtr
virCPUDataNew(virArch arch)
{
virCPUDataPtr data;
if (VIR_ALLOC(data) < 0)
return NULL;
data->arch = arch;
return data;
}
/**
* virCPUDataFree:
*
* @data: CPU data structure to be freed
*
* Free internal CPU data.
*
* Returns nothing.
*/
void
virCPUDataFree(virCPUDataPtr data)
{
struct cpuArchDriver *driver;
VIR_DEBUG("data=%p", data);
if (!data)
return;
if ((driver = cpuGetSubDriver(data->arch)) && driver->dataFree)
driver->dataFree(data);
else
VIR_FREE(data);
}
/**
* virCPUGetHostIsSupported:
*
* @arch: CPU architecture
*
* Check whether virCPUGetHost is supported for @arch.
*
* Returns true if virCPUGetHost is supported, false otherwise.
*/
bool
virCPUGetHostIsSupported(virArch arch)
{
struct cpuArchDriver *driver;
VIR_DEBUG("arch=%s", virArchToString(arch));
return (driver = cpuGetSubDriver(arch)) && driver->getHost;
}
/**
* virCPUGetHost:
*
* @arch: CPU architecture
* @type: requested type of the CPU
* @nodeInfo: simplified CPU topology (optional)
* @models: list of CPU models that can be considered for host CPU
*
* Create CPU definition describing the host's CPU.
*
* The @type (either VIR_CPU_TYPE_HOST or VIR_CPU_TYPE_GUEST) specifies what
* type of CPU definition should be created. Specifically, VIR_CPU_TYPE_HOST
* CPUs may contain only features without any policy attribute. Requesting
* VIR_CPU_TYPE_GUEST provides better results because the CPU is allowed to
* contain disabled features.
*
* If @nodeInfo is not NULL (which is only allowed for VIR_CPU_TYPE_HOST CPUs),
* the CPU definition will have topology (sockets, cores, threads) filled in
* according to the content of @nodeInfo. The function fails only if @nodeInfo
* was not passed in and the assigned CPU driver was not able to detect the
* host CPU model. In other words, a CPU definition containing just the
* topology is a successful result even if detecting the host CPU model fails.
*
* It possible to limit the CPU model which may appear in the created CPU
* definition by passing non-NULL @models list. This is useful when requesting
* a CPU model usable on a specific hypervisor. If @models is NULL, any CPU
* model known to libvirt may appear in the result.
*
* Returns host CPU definition or NULL on error.
*/
virCPUDefPtr
virCPUGetHost(virArch arch,
virCPUType type,
virNodeInfoPtr nodeInfo,
virDomainCapsCPUModelsPtr models)
{
struct cpuArchDriver *driver;
virCPUDefPtr cpu = NULL;
VIR_DEBUG("arch=%s, type=%s, nodeInfo=%p, models=%p",
virArchToString(arch), virCPUTypeToString(type), nodeInfo,
models);
if (!(driver = cpuGetSubDriver(arch)))
return NULL;
if (VIR_ALLOC(cpu) < 0)
return NULL;
switch (type) {
case VIR_CPU_TYPE_HOST:
cpu->arch = arch;
cpu->type = type;
break;
case VIR_CPU_TYPE_GUEST:
if (nodeInfo) {
virReportError(VIR_ERR_INVALID_ARG,
_("cannot set topology for CPU type '%s'"),
virCPUTypeToString(type));
goto error;
}
cpu->type = type;
break;
case VIR_CPU_TYPE_AUTO:
case VIR_CPU_TYPE_LAST:
virReportError(VIR_ERR_INVALID_ARG,
_("unsupported CPU type: %s"),
virCPUTypeToString(type));
goto error;
}
if (nodeInfo) {
cpu->sockets = nodeInfo->sockets;
cpu->cores = nodeInfo->cores;
cpu->threads = nodeInfo->threads;
}
/* Try to get the host CPU model, but don't really fail if nodeInfo is
* filled in.
*/
if (driver->getHost) {
if (driver->getHost(cpu, models) < 0 &&
!nodeInfo)
goto error;
} else if (nodeInfo) {
VIR_DEBUG("cannot detect host CPU model for %s architecture",
virArchToString(arch));
} else {
virReportError(VIR_ERR_NO_SUPPORT,
_("cannot detect host CPU model for %s architecture"),
virArchToString(arch));
goto error;
}
return cpu;
error:
virCPUDefFree(cpu);
return NULL;
}
virCPUDefPtr
virCPUProbeHost(virArch arch)
{
virNodeInfo nodeinfo;
if (virCapabilitiesGetNodeInfo(&nodeinfo))
return NULL;
return virCPUGetHost(arch, VIR_CPU_TYPE_HOST, &nodeinfo, NULL);
}
/**
* virCPUBaseline:
*
* @arch: CPU architecture, use VIR_ARCH_NONE to autodetect from @cpus
* @cpus: list of host CPU definitions
* @ncpus: number of CPUs in @cpus
* @models: list of CPU models that can be considered for the baseline CPU
* @features: optional NULL terminated list of allowed features
* @migratable: requests non-migratable features to be removed from the result
*
* Computes the most feature-rich CPU which is compatible with all given
* CPUs. If @models is NULL, all models supported by libvirt will
* be considered when computing the baseline CPU model, otherwise the baseline
* CPU model will be one of the provided CPU @models.
*
* Returns baseline CPU definition or NULL on error.
*/
virCPUDefPtr
virCPUBaseline(virArch arch,
virCPUDefPtr *cpus,
unsigned int ncpus,
virDomainCapsCPUModelsPtr models,
const char **features,
bool migratable)
{
struct cpuArchDriver *driver;
size_t i;
VIR_DEBUG("arch=%s, ncpus=%u, models=%p, features=%p, migratable=%d",
virArchToString(arch), ncpus, models, features, migratable);
if (cpus) {
for (i = 0; i < ncpus; i++)
VIR_DEBUG("cpus[%zu]=%p", i, cpus[i]);
}
if (models) {
for (i = 0; i < models->nmodels; i++)
VIR_DEBUG("models[%zu]=%s", i, models->models[i].name);
}
if (!cpus && ncpus != 0) {
virReportError(VIR_ERR_INTERNAL_ERROR,
"%s", _("nonzero ncpus doesn't match with NULL cpus"));
return NULL;
}
if (ncpus < 1) {
virReportError(VIR_ERR_INVALID_ARG, "%s", _("no CPUs given"));
return NULL;
}
for (i = 0; i < ncpus; i++) {
if (!cpus[i]) {
virReportError(VIR_ERR_INVALID_ARG,
_("invalid CPU definition at index %zu"), i);
return NULL;
}
if (!cpus[i]->model) {
virReportError(VIR_ERR_INVALID_ARG,
_("no CPU model specified at index %zu"), i);
return NULL;
}
}
if (arch == VIR_ARCH_NONE)
arch = cpus[0]->arch;
if (!(driver = cpuGetSubDriver(arch)))
return NULL;
if (!driver->baseline) {
virReportError(VIR_ERR_NO_SUPPORT,
_("cannot compute baseline CPU of %s architecture"),
virArchToString(arch));
return NULL;
}
return driver->baseline(cpus, ncpus, models, features, migratable);
}
/**
* virCPUUpdate:
*
* @arch: CPU architecture
* @guest: guest CPU definition to be updated
* @host: host CPU definition
*
* Updates @guest CPU definition according to @host CPU. This is required to
* support guest CPU definitions specified relatively to host CPU, such as
* CPUs with VIR_CPU_MODE_CUSTOM and optional features or
* VIR_CPU_MATCH_MINIMUM, or CPUs with VIR_CPU_MODE_HOST_MODEL.
* When the guest CPU was not specified relatively, the function does nothing
* and returns success.
*
* Returns 0 on success, -1 on error.
*/
int
virCPUUpdate(virArch arch,
virCPUDefPtr guest,
const virCPUDef *host)
{
struct cpuArchDriver *driver;
VIR_DEBUG("arch=%s, guest=%p mode=%s model=%s, host=%p model=%s",
virArchToString(arch), guest, virCPUModeTypeToString(guest->mode),
NULLSTR(guest->model), host, NULLSTR(host ? host->model : NULL));
if (!(driver = cpuGetSubDriver(arch)))
return -1;
if (guest->mode == VIR_CPU_MODE_HOST_PASSTHROUGH)
return 0;
if (guest->mode == VIR_CPU_MODE_CUSTOM &&
guest->match != VIR_CPU_MATCH_MINIMUM) {
size_t i;
bool optional = false;
for (i = 0; i < guest->nfeatures; i++) {
if (guest->features[i].policy == VIR_CPU_FEATURE_OPTIONAL) {
optional = true;
break;
}
}
if (!optional)
return 0;
}
/* We get here if guest CPU is either
* - host-model
* - custom with minimum match
* - custom with optional features
*/
if (!driver->update) {
virReportError(VIR_ERR_NO_SUPPORT,
_("cannot update guest CPU for %s architecture"),
virArchToString(arch));
return -1;
}
if (driver->update(guest, host) < 0)
return -1;
VIR_DEBUG("model=%s", NULLSTR(guest->model));
return 0;
}
/**
* virCPUUpdateLive:
*
* @arch: CPU architecture
* @cpu: guest CPU definition to be updated
* @dataEnabled: CPU data of the virtual CPU
* @dataDisabled: CPU data with features requested by @cpu but disabled by the
* hypervisor
*
* Update custom mode CPU according to the virtual CPU created by the
* hypervisor. The function refuses to update the CPU in case cpu->check is set
* to VIR_CPU_CHECK_FULL.
*
* Returns -1 on error,
* 0 when the CPU was successfully updated,
* 1 when the operation does not make sense on the CPU or it is not
* supported for the given architecture.
*/
int
virCPUUpdateLive(virArch arch,
virCPUDefPtr cpu,
virCPUDataPtr dataEnabled,
virCPUDataPtr dataDisabled)
{
struct cpuArchDriver *driver;
VIR_DEBUG("arch=%s, cpu=%p, dataEnabled=%p, dataDisabled=%p",
virArchToString(arch), cpu, dataEnabled, dataDisabled);
if (!(driver = cpuGetSubDriver(arch)))
return -1;
if (!driver->updateLive)
return 1;
if (cpu->mode != VIR_CPU_MODE_CUSTOM)
return 1;
if (driver->updateLive(cpu, dataEnabled, dataDisabled) < 0)
return -1;
return 0;
}
/**
* virCPUCheckFeature:
*
* @arch: CPU architecture
* @cpu: CPU definition
* @feature: feature to be checked for
*
* Checks whether @feature is supported by the CPU described by @cpu.
*
* Returns 1 if the feature is supported, 0 if it's not supported, or
* -1 on error.
*/
int
virCPUCheckFeature(virArch arch,
const virCPUDef *cpu,
const char *feature)
{
struct cpuArchDriver *driver;
VIR_DEBUG("arch=%s, cpu=%p, feature=%s",
virArchToString(arch), cpu, feature);
if (!(driver = cpuGetSubDriver(arch)))
return -1;
if (!driver->checkFeature) {
virReportError(VIR_ERR_NO_SUPPORT,
_("cannot check guest CPU feature for %s architecture"),
virArchToString(arch));
return -1;
}
return driver->checkFeature(cpu, feature);
}
/**
* virCPUDataCheckFeature:
*
* @data: CPU data
* @feature: feature to be checked for
*
* Checks whether @feature is supported by the CPU described by @data.
*
* Returns 1 if the feature is supported, 0 if it's not supported, or
* -1 on error.
*/
int
virCPUDataCheckFeature(const virCPUData *data,
const char *feature)
{
struct cpuArchDriver *driver;
VIR_DEBUG("arch=%s, data=%p, feature=%s",
virArchToString(data->arch), data, feature);
if (!(driver = cpuGetSubDriver(data->arch)))
return -1;
if (!driver->dataCheckFeature) {
virReportError(VIR_ERR_NO_SUPPORT,
_("cannot check guest CPU feature for %s architecture"),
virArchToString(data->arch));
return -1;
}
return driver->dataCheckFeature(data, feature);
}
/**
* virCPUDataFormat:
*
* @data: internal CPU representation
*
* Formats @data into XML for test purposes.
*
* Returns string representation of the XML describing @data or NULL on error.
*/
char *
virCPUDataFormat(const virCPUData *data)
{
struct cpuArchDriver *driver;
VIR_DEBUG("data=%p", data);
if (!(driver = cpuGetSubDriver(data->arch)))
return NULL;
if (!driver->dataFormat) {
virReportError(VIR_ERR_NO_SUPPORT,
_("cannot format %s CPU data"),
virArchToString(data->arch));
return NULL;
}
return driver->dataFormat(data);
}
/**
* virCPUDataParse:
*
* @xmlStr: XML string produced by virCPUDataFormat
*
* Parses XML representation of virCPUData structure for test purposes.
*
* Returns internal CPU data structure parsed from the XML or NULL on error.
*/
virCPUDataPtr
virCPUDataParse(const char *xmlStr)
{
struct cpuArchDriver *driver;
xmlDocPtr xml = NULL;
xmlXPathContextPtr ctxt = NULL;
virCPUDataPtr data = NULL;
char *arch = NULL;
VIR_DEBUG("xmlStr=%s", xmlStr);
if (!(xml = virXMLParseStringCtxt(xmlStr, _("CPU data"), &ctxt))) {
virReportError(VIR_ERR_INTERNAL_ERROR, "%s",
_("cannot parse CPU data"));
goto cleanup;
}
if (!(arch = virXPathString("string(/cpudata/@arch)", ctxt))) {
virReportError(VIR_ERR_INTERNAL_ERROR, "%s",
_("missing CPU data architecture"));
goto cleanup;
}
if (!(driver = cpuGetSubDriverByName(arch)))
goto cleanup;
if (!driver->dataParse) {
virReportError(VIR_ERR_NO_SUPPORT,
_("cannot parse %s CPU data"), arch);
goto cleanup;
}
data = driver->dataParse(ctxt);
cleanup:
xmlXPathFreeContext(ctxt);
xmlFreeDoc(xml);
VIR_FREE(arch);
return data;
}
/** virCPUModelIsAllowed:
*
* @model: CPU model to be checked
* @models: list of supported CPU models
*
* Checks whether @model can be found in the list of supported @models.
* If @models is NULL, all models are supported.
*
* Returns true if @model is supported, false otherwise.
*/
bool
virCPUModelIsAllowed(const char *model,
virDomainCapsCPUModelsPtr models)
{
if (!models)
return true;
return !!virDomainCapsCPUModelsGet(models, model);
}
/**
* virCPUGetModels:
*
* @arch: CPU architecture
* @models: where to store the NULL-terminated list of supported models
*
* Fetches all CPU models supported by libvirt on @archName. If there are
* no restrictions on CPU models on @archName (i.e., the CPU model is just
* passed directly to a hypervisor), this function returns 0 and sets
* @models to NULL.
*
* Returns number of supported CPU models, 0 if any CPU model is supported,
* or -1 on error.
*/
int
virCPUGetModels(virArch arch, char ***models)
{
struct cpuArchDriver *driver;
VIR_DEBUG("arch=%s", virArchToString(arch));
if (!(driver = cpuGetSubDriver(arch)))
return -1;
if (!driver->getModels) {
if (models)
*models = NULL;
return 0;
}
return driver->getModels(models);
}
/**
* virCPUTranslate:
*
* @arch: CPU architecture
* @cpu: CPU definition to be translated
* @models: list of allowed CPU models (NULL if all are allowed)
*
* Translates @cpu model (if allowed by @cpu->fallback) to a closest CPU model
* from @models list.
*
* The function does nothing (and returns 0) if @cpu does not have to be
* translated.
*
* Returns -1 on error, 0 on success.
*/
int
virCPUTranslate(virArch arch,
virCPUDefPtr cpu,
virDomainCapsCPUModelsPtr models)
{
struct cpuArchDriver *driver;
VIR_DEBUG("arch=%s, cpu=%p, model=%s, models=%p",
virArchToString(arch), cpu, NULLSTR(cpu->model), models);
if (!(driver = cpuGetSubDriver(arch)))
return -1;
if (cpu->mode == VIR_CPU_MODE_HOST_MODEL ||
cpu->mode == VIR_CPU_MODE_HOST_PASSTHROUGH)
return 0;
if (virCPUModelIsAllowed(cpu->model, models))
return 0;
if (cpu->fallback != VIR_CPU_FALLBACK_ALLOW) {
virReportError(VIR_ERR_CONFIG_UNSUPPORTED,
_("CPU model %s is not supported by hypervisor"),
cpu->model);
return -1;
}
if (!driver->translate) {
virReportError(VIR_ERR_NO_SUPPORT,
_("cannot translate CPU model %s to a supported model"),
cpu->model);
return -1;
}
if (driver->translate(cpu, models) < 0)
return -1;
VIR_DEBUG("model=%s", NULLSTR(cpu->model));
return 0;
}
/**
* virCPUConvertLegacy:
*
* @arch: CPU architecture
* @cpu: CPU definition to be converted
*
* Convert legacy CPU definition into one that the corresponding cpu driver
* will be able to work with. Currently this is only implemented by the PPC
* driver, which needs to convert legacy POWERx_v* names into POWERx.
*
* Returns -1 on error, 0 on success.
*/
int
virCPUConvertLegacy(virArch arch,
virCPUDefPtr cpu)
{
struct cpuArchDriver *driver;
VIR_DEBUG("arch=%s, cpu=%p, model=%s",
virArchToString(arch), cpu, NULLSTR(cpu->model));
if (!(driver = cpuGetSubDriver(arch)))
return -1;
if (!driver->convertLegacy)
return 0;
if (driver->convertLegacy(cpu) < 0)
return -1;
VIR_DEBUG("model=%s", NULLSTR(cpu->model));
return 0;
}
static int
virCPUFeatureCompare(const void *p1,
const void *p2)
{
const virCPUFeatureDef *f1 = p1;
const virCPUFeatureDef *f2 = p2;
return strcmp(f1->name, f2->name);
}
/**
* virCPUExpandFeatures:
*
* @arch: CPU architecture
* @cpu: CPU definition to be expanded
*
* Add all features implicitly enabled by the CPU model to the list of
* features. The @cpu is expected to be either a host or a guest representation
* of a host CPU, i.e., only VIR_CPU_FEATURE_REQUIRE and
* VIR_CPU_FEATURE_DISABLE policies are supported.
*
* The updated list of features in the CPU definition is sorted.
*
* Return -1 on error, 0 on success.
*/
int
virCPUExpandFeatures(virArch arch,
virCPUDefPtr cpu)
{
struct cpuArchDriver *driver;
VIR_DEBUG("arch=%s, cpu=%p, model=%s, nfeatures=%zu",
virArchToString(arch), cpu, NULLSTR(cpu->model), cpu->nfeatures);
if (!(driver = cpuGetSubDriver(arch)))
return -1;
if (driver->expandFeatures &&
driver->expandFeatures(cpu) < 0)
return -1;
qsort(cpu->features, cpu->nfeatures, sizeof(*cpu->features),
virCPUFeatureCompare);
VIR_DEBUG("nfeatures=%zu", cpu->nfeatures);
return 0;
}
/**
* virCPUCopyMigratable:
*
* @arch: CPU architecture
* @cpu: CPU definition to be copied
*
* Makes a copy of @cpu with all features which would block migration removed.
* If this doesn't make sense for a given architecture, the function returns a
* plain copy of @cpu (i.e., a copy with no features removed).
*
* Returns the copy of the CPU or NULL on error.
*/
virCPUDefPtr
virCPUCopyMigratable(virArch arch,
virCPUDefPtr cpu)
{
struct cpuArchDriver *driver;
VIR_DEBUG("arch=%s, cpu=%p, model=%s",
virArchToString(arch), cpu, NULLSTR(cpu->model));
if (!(driver = cpuGetSubDriver(arch)))
return NULL;
if (driver->copyMigratable)
return driver->copyMigratable(cpu);
else
return virCPUDefCopy(cpu);
}
/**
* virCPUValidateFeatures:
*
* @arch: CPU architecture
* @cpu: CPU definition to be checked
*
* Checks whether all CPU features specified in @cpu are valid.
*
* Returns 0 on success (all features are valid), -1 on error.
*/
int
virCPUValidateFeatures(virArch arch,
virCPUDefPtr cpu)
{
struct cpuArchDriver *driver;
VIR_DEBUG("arch=%s, cpu=%p, nfeatures=%zu",
virArchToString(arch), cpu, cpu->nfeatures);
if (!(driver = cpuGetSubDriver(arch)))
return -1;
if (driver->validateFeatures)
return driver->validateFeatures(cpu);
else
return 0;
}
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