/* * 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 * . */ #include #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) { virCPUDefPtr cpu = NULL; virCPUCompareResult ret = VIR_CPU_COMPARE_ERROR; VIR_DEBUG("arch=%s, host=%p, xml=%s", virArchToString(arch), host, NULLSTR(xml)); if (virCPUDefParseXMLString(xml, VIR_CPU_TYPE_AUTO, &cpu) < 0) goto cleanup; ret = virCPUCompare(arch, host, cpu, failIncompatible); cleanup: virCPUDefFree(cpu); 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; } /** * virCPUDataAddFeature: * * @cpuData: CPU data * @name: feature to be added to @cpuData * * Adds a feature called @name to @cpuData. * * Returns 0 on success, -1 on error. */ int virCPUDataAddFeature(virCPUDataPtr cpuData, const char *name) { struct cpuArchDriver *driver; VIR_DEBUG("arch=%s, cpuData=%p, name=%s", virArchToString(cpuData->arch), cpuData, name); if (!(driver = cpuGetSubDriver(cpuData->arch))) return -1; if (!driver->dataAddFeature) { virReportError(VIR_ERR_NO_SUPPORT, _("cannot add guest CPU feature for %s architecture"), virArchToString(cpuData->arch)); return -1; } return driver->dataAddFeature(cpuData, name); }