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cpu_x86: Introduce virCPUx86DataItem container struct

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The following patches introduce CPU features read from MSR in addition
to those queried via CPUID instruction. Let's introduce a container
struct which will be able to describe either feature type.

Signed-off-by: Jiri Denemark <jdenemar@redhat.com>
Reviewed-by: Ján Tomko <jtomko@redhat.com>
This commit is contained in:
Jiri Denemark 2019-03-13 17:01:19 +01:00
parent 2878278c74
commit 3673269e3a
5 changed files with 183 additions and 154 deletions
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312
src/cpu/cpu_x86.c
View File

@ -45,7 +45,7 @@ typedef struct _virCPUx86Vendor virCPUx86Vendor;
typedef virCPUx86Vendor *virCPUx86VendorPtr;
struct _virCPUx86Vendor {
char *name;
virCPUx86CPUID cpuid;
virCPUx86DataItem cpuid;
};
typedef struct _virCPUx86Feature virCPUx86Feature;
@ -57,17 +57,19 @@ struct _virCPUx86Feature {
};
#define CPUID(...) { .cpuid = {__VA_ARGS__} }
#define KVM_FEATURE_DEF(Name, Eax_in, Eax) \
static virCPUx86CPUID Name ## _cpuid[] = { \
{ .eax_in = Eax_in, .eax = Eax }, \
static virCPUx86DataItem Name ## _data[] = { \
CPUID(.eax_in = Eax_in, .eax = Eax), \
}
#define KVM_FEATURE(Name) \
{ \
.name = (char *) Name, \
.data = { \
.len = ARRAY_CARDINALITY(Name ## _cpuid), \
.data = Name ## _cpuid \
.len = ARRAY_CARDINALITY(Name ## _data), \
.items = Name ## _data, \
} \
}
@ -288,17 +290,17 @@ x86FeatureFindInternal(const char *name)
static int
virCPUx86CPUIDSorter(const void *a, const void *b)
{
virCPUx86CPUID *da = (virCPUx86CPUID *) a;
virCPUx86CPUID *db = (virCPUx86CPUID *) b;
virCPUx86DataItemPtr da = (virCPUx86DataItemPtr) a;
virCPUx86DataItemPtr db = (virCPUx86DataItemPtr) b;
if (da->eax_in > db->eax_in)
if (da->cpuid.eax_in > db->cpuid.eax_in)
return 1;
else if (da->eax_in < db->eax_in)
else if (da->cpuid.eax_in < db->cpuid.eax_in)
return -1;
if (da->ecx_in > db->ecx_in)
if (da->cpuid.ecx_in > db->cpuid.ecx_in)
return 1;
else if (da->ecx_in < db->ecx_in)
else if (da->cpuid.ecx_in < db->cpuid.ecx_in)
return -1;
return 0;
@ -306,7 +308,7 @@ virCPUx86CPUIDSorter(const void *a, const void *b)
/* skips all zero CPUID leaves */
static virCPUx86CPUID *
static virCPUx86DataItemPtr
x86DataCpuidNext(virCPUx86DataIteratorPtr iterator)
{
const virCPUx86Data *data = iterator->data;
@ -315,24 +317,26 @@ x86DataCpuidNext(virCPUx86DataIteratorPtr iterator)
return NULL;
while (++iterator->pos < data->len) {
if (!x86cpuidMatch(data->data + iterator->pos, &cpuidNull))
return data->data + iterator->pos;
virCPUx86DataItemPtr item = data->items + iterator->pos;
if (!x86cpuidMatch(&item->cpuid, &cpuidNull))
return item;
}
return NULL;
}
static virCPUx86CPUID *
static virCPUx86DataItemPtr
x86DataCpuid(const virCPUx86Data *data,
const virCPUx86CPUID *cpuid)
const virCPUx86DataItem *cpuid)
{
size_t i;
for (i = 0; i < data->len; i++) {
if (data->data[i].eax_in == cpuid->eax_in &&
data->data[i].ecx_in == cpuid->ecx_in)
return data->data + i;
if (data->items[i].cpuid.eax_in == cpuid->cpuid.eax_in &&
data->items[i].cpuid.ecx_in == cpuid->cpuid.ecx_in)
return data->items + i;
}
return NULL;
@ -344,7 +348,7 @@ virCPUx86DataClear(virCPUx86Data *data)
if (!data)
return;
VIR_FREE(data->data);
VIR_FREE(data->items);
}
@ -364,12 +368,12 @@ x86DataCopy(virCPUx86Data *dst, const virCPUx86Data *src)
{
size_t i;
if (VIR_ALLOC_N(dst->data, src->len) < 0)
if (VIR_ALLOC_N(dst->items, src->len) < 0)
return -1;
dst->len = src->len;
for (i = 0; i < src->len; i++)
dst->data[i] = src->data[i];
dst->items[i] = src->items[i];
return 0;
}
@ -377,19 +381,19 @@ x86DataCopy(virCPUx86Data *dst, const virCPUx86Data *src)
static int
virCPUx86DataAddCPUIDInt(virCPUx86Data *data,
const virCPUx86CPUID *cpuid)
const virCPUx86DataItem *cpuid)
{
virCPUx86CPUID *existing;
virCPUx86DataItemPtr existing;
if ((existing = x86DataCpuid(data, cpuid))) {
x86cpuidSetBits(existing, cpuid);
x86cpuidSetBits(&existing->cpuid, &cpuid->cpuid);
} else {
if (VIR_APPEND_ELEMENT_COPY(data->data, data->len,
*((virCPUx86CPUID *)cpuid)) < 0)
if (VIR_APPEND_ELEMENT_COPY(data->items, data->len,
*((virCPUx86DataItemPtr)cpuid)) < 0)
return -1;
qsort(data->data, data->len,
sizeof(virCPUx86CPUID), virCPUx86CPUIDSorter);
qsort(data->items, data->len,
sizeof(virCPUx86DataItem), virCPUx86CPUIDSorter);
}
return 0;
@ -401,14 +405,14 @@ x86DataAdd(virCPUx86Data *data1,
const virCPUx86Data *data2)
{
virCPUx86DataIterator iter = virCPUx86DataIteratorInit(data2);
virCPUx86CPUID *cpuid1;
virCPUx86CPUID *cpuid2;
virCPUx86DataItemPtr cpuid1;
virCPUx86DataItemPtr cpuid2;
while ((cpuid2 = x86DataCpuidNext(&iter))) {
cpuid1 = x86DataCpuid(data1, cpuid2);
if (cpuid1) {
x86cpuidSetBits(cpuid1, cpuid2);
x86cpuidSetBits(&cpuid1->cpuid, &cpuid2->cpuid);
} else {
if (virCPUx86DataAddCPUIDInt(data1, cpuid2) < 0)
return -1;
@ -424,12 +428,12 @@ x86DataSubtract(virCPUx86Data *data1,
const virCPUx86Data *data2)
{
virCPUx86DataIterator iter = virCPUx86DataIteratorInit(data1);
virCPUx86CPUID *cpuid1;
virCPUx86CPUID *cpuid2;
virCPUx86DataItemPtr cpuid1;
virCPUx86DataItemPtr cpuid2;
while ((cpuid1 = x86DataCpuidNext(&iter))) {
cpuid2 = x86DataCpuid(data2, cpuid1);
x86cpuidClearBits(cpuid1, cpuid2);
if ((cpuid2 = x86DataCpuid(data2, cpuid1)))
x86cpuidClearBits(&cpuid1->cpuid, &cpuid2->cpuid);
}
}
@ -439,15 +443,15 @@ x86DataIntersect(virCPUx86Data *data1,
const virCPUx86Data *data2)
{
virCPUx86DataIterator iter = virCPUx86DataIteratorInit(data1);
virCPUx86CPUID *cpuid1;
virCPUx86CPUID *cpuid2;
virCPUx86DataItemPtr cpuid1;
virCPUx86DataItemPtr cpuid2;
while ((cpuid1 = x86DataCpuidNext(&iter))) {
cpuid2 = x86DataCpuid(data2, cpuid1);
if (cpuid2)
x86cpuidAndBits(cpuid1, cpuid2);
x86cpuidAndBits(&cpuid1->cpuid, &cpuid2->cpuid);
else
x86cpuidClearBits(cpuid1, cpuid1);
x86cpuidClearBits(&cpuid1->cpuid, &cpuid1->cpuid);
}
}
@ -466,12 +470,12 @@ x86DataIsSubset(const virCPUx86Data *data,
const virCPUx86Data *subset)
{
virCPUx86DataIterator iter = virCPUx86DataIteratorInit((virCPUx86Data *)subset);
const virCPUx86CPUID *cpuid;
const virCPUx86CPUID *cpuidSubset;
const virCPUx86DataItem *cpuid;
const virCPUx86DataItem *cpuidSubset;
while ((cpuidSubset = x86DataCpuidNext(&iter))) {
if (!(cpuid = x86DataCpuid(data, cpuidSubset)) ||
!x86cpuidMatchMasked(cpuid, cpuidSubset))
!x86cpuidMatchMasked(&cpuid->cpuid, &cpuidSubset->cpuid))
return false;
}
@ -506,14 +510,14 @@ static virCPUx86VendorPtr
x86DataToVendor(const virCPUx86Data *data,
virCPUx86MapPtr map)
{
virCPUx86CPUID *cpuid;
virCPUx86DataItemPtr cpuid;
size_t i;
for (i = 0; i < map->nvendors; i++) {
virCPUx86VendorPtr vendor = map->vendors[i];
if ((cpuid = x86DataCpuid(data, &vendor->cpuid)) &&
x86cpuidMatchMasked(cpuid, &vendor->cpuid)) {
x86cpuidClearBits(cpuid, &vendor->cpuid);
x86cpuidMatchMasked(&cpuid->cpuid, &vendor->cpuid.cpuid)) {
x86cpuidClearBits(&cpuid->cpuid, &vendor->cpuid.cpuid);
return vendor;
}
}
@ -524,8 +528,10 @@ x86DataToVendor(const virCPUx86Data *data,
static int
virCPUx86VendorToCPUID(const char *vendor,
virCPUx86CPUID *cpuid)
virCPUx86DataItemPtr data)
{
virCPUx86CPUIDPtr cpuid = &data->cpuid;
if (strlen(vendor) != VENDOR_STRING_LENGTH) {
virReportError(VIR_ERR_INTERNAL_ERROR,
_("Invalid CPU vendor string '%s'"), vendor);
@ -598,14 +604,16 @@ x86DataToSignatureFull(const virCPUx86Data *data,
unsigned int *model,
unsigned int *stepping)
{
virCPUx86CPUID leaf1 = { .eax_in = 0x1 };
virCPUx86CPUID *cpuid;
virCPUx86DataItem leaf1 = CPUID(.eax_in = 0x1);
virCPUx86DataItemPtr item;
virCPUx86CPUIDPtr cpuid;
*family = *model = *stepping = 0;
if (!(cpuid = x86DataCpuid(data, &leaf1)))
if (!(item = x86DataCpuid(data, &leaf1)))
return;
cpuid = &item->cpuid;
*family = ((cpuid->eax >> 20) & 0xff) + ((cpuid->eax >> 8) & 0xf);
*model = ((cpuid->eax >> 12) & 0xf0) + ((cpuid->eax >> 4) & 0xf);
*stepping = cpuid->eax & 0xf;
@ -618,13 +626,13 @@ x86DataToSignatureFull(const virCPUx86Data *data,
static uint32_t
x86DataToSignature(const virCPUx86Data *data)
{
virCPUx86CPUID leaf1 = { .eax_in = 0x1 };
virCPUx86CPUID *cpuid;
virCPUx86DataItem leaf1 = CPUID(.eax_in = 0x1);
virCPUx86DataItemPtr cpuid;
if (!(cpuid = x86DataCpuid(data, &leaf1)))
return 0;
return cpuid->eax & SIGNATURE_MASK;
return cpuid->cpuid.eax & SIGNATURE_MASK;
}
@ -632,7 +640,7 @@ static int
x86DataAddSignature(virCPUx86Data *data,
uint32_t signature)
{
virCPUx86CPUID cpuid = { .eax_in = 0x1, .eax = signature };
virCPUx86DataItem cpuid = CPUID(.eax_in = 0x1, .eax = signature);
return virCPUx86DataAddCPUIDInt(data, &cpuid);
}
@ -857,13 +865,14 @@ x86FeatureNames(virCPUx86MapPtr map,
static int
x86ParseCPUID(xmlXPathContextPtr ctxt,
virCPUx86CPUID *cpuid)
virCPUx86DataItemPtr item)
{
virCPUx86CPUIDPtr cpuid;
unsigned long eax_in, ecx_in;
unsigned long eax, ebx, ecx, edx;
int ret_eax_in, ret_ecx_in, ret_eax, ret_ebx, ret_ecx, ret_edx;
memset(cpuid, 0, sizeof(*cpuid));
memset(item, 0, sizeof(*item));
eax_in = ecx_in = 0;
eax = ebx = ecx = edx = 0;
@ -878,6 +887,7 @@ x86ParseCPUID(xmlXPathContextPtr ctxt,
ret_eax == -2 || ret_ebx == -2 || ret_ecx == -2 || ret_edx == -2)
return -1;
cpuid = &item->cpuid;
cpuid->eax_in = eax_in;
cpuid->ecx_in = ecx_in;
cpuid->eax = eax;
@ -896,7 +906,7 @@ x86FeatureParse(xmlXPathContextPtr ctxt,
virCPUx86MapPtr map = data;
xmlNodePtr *nodes = NULL;
virCPUx86FeaturePtr feature;
virCPUx86CPUID cpuid;
virCPUx86DataItem cpuid;
size_t i;
int n;
char *str = NULL;
@ -1139,16 +1149,16 @@ x86ModelCompare(virCPUx86ModelPtr model1,
virCPUx86CompareResult result = EQUAL;
virCPUx86DataIterator iter1 = virCPUx86DataIteratorInit(&model1->data);
virCPUx86DataIterator iter2 = virCPUx86DataIteratorInit(&model2->data);
virCPUx86CPUID *cpuid1;
virCPUx86CPUID *cpuid2;
virCPUx86DataItemPtr cpuid1;
virCPUx86DataItemPtr cpuid2;
while ((cpuid1 = x86DataCpuidNext(&iter1))) {
virCPUx86CompareResult match = SUPERSET;
if ((cpuid2 = x86DataCpuid(&model2->data, cpuid1))) {
if (x86cpuidMatch(cpuid1, cpuid2))
if (x86cpuidMatch(&cpuid1->cpuid, &cpuid2->cpuid))
continue;
else if (!x86cpuidMatchMasked(cpuid1, cpuid2))
else if (!x86cpuidMatchMasked(&cpuid1->cpuid, &cpuid2->cpuid))
match = SUBSET;
}
@ -1162,9 +1172,9 @@ x86ModelCompare(virCPUx86ModelPtr model1,
virCPUx86CompareResult match = SUBSET;
if ((cpuid1 = x86DataCpuid(&model1->data, cpuid2))) {
if (x86cpuidMatch(cpuid2, cpuid1))
if (x86cpuidMatch(&cpuid2->cpuid, &cpuid1->cpuid))
continue;
else if (!x86cpuidMatchMasked(cpuid2, cpuid1))
else if (!x86cpuidMatchMasked(&cpuid2->cpuid, &cpuid1->cpuid))
match = SUPERSET;
}
@ -1448,11 +1458,12 @@ static char *
virCPUx86DataFormat(const virCPUData *data)
{
virCPUx86DataIterator iter = virCPUx86DataIteratorInit(&data->data.x86);
virCPUx86CPUID *cpuid;
virCPUx86DataItemPtr item;
virBuffer buf = VIR_BUFFER_INITIALIZER;
virBufferAddLit(&buf, "<cpudata arch='x86'>\n");
while ((cpuid = x86DataCpuidNext(&iter))) {
while ((item = x86DataCpuidNext(&iter))) {
virCPUx86CPUIDPtr cpuid = &item->cpuid;
virBufferAsprintf(&buf,
" <cpuid eax_in='0x%08x' ecx_in='0x%08x'"
" eax='0x%08x' ebx='0x%08x'"
@ -1474,7 +1485,7 @@ virCPUx86DataParse(xmlXPathContextPtr ctxt)
{
xmlNodePtr *nodes = NULL;
virCPUDataPtr cpuData = NULL;
virCPUx86CPUID cpuid;
virCPUx86DataItem cpuid;
size_t i;
int n;
@ -2060,7 +2071,7 @@ x86EncodePolicy(virCPUx86Data *data,
*data = model->data;
model->data.len = 0;
model->data.data = NULL;
model->data.items = NULL;
x86ModelFree(model);
return 0;
@ -2214,17 +2225,18 @@ cpuidCall(virCPUx86CPUID *cpuid)
*/
static int
cpuidSetLeaf4(virCPUDataPtr data,
virCPUx86CPUID *subLeaf0)
virCPUx86DataItemPtr subLeaf0)
{
virCPUx86CPUID cpuid = *subLeaf0;
virCPUx86DataItem item = *subLeaf0;
virCPUx86CPUIDPtr cpuid = &item.cpuid;
if (virCPUx86DataAddCPUID(data, subLeaf0) < 0)
return -1;
while (cpuid.eax & 0x1f) {
cpuid.ecx_in++;
cpuidCall(&cpuid);
if (virCPUx86DataAddCPUID(data, &cpuid) < 0)
while (cpuid->eax & 0x1f) {
cpuid->ecx_in++;
cpuidCall(cpuid);
if (virCPUx86DataAddCPUID(data, &item) < 0)
return -1;
}
return 0;
@ -2237,18 +2249,19 @@ cpuidSetLeaf4(virCPUDataPtr data,
*/
static int
cpuidSetLeaf7(virCPUDataPtr data,
virCPUx86CPUID *subLeaf0)
virCPUx86DataItemPtr subLeaf0)
{
virCPUx86CPUID cpuid = { .eax_in = 0x7 };
virCPUx86DataItem item = CPUID(.eax_in = 0x7);
virCPUx86CPUIDPtr cpuid = &item.cpuid;
uint32_t sub;
if (virCPUx86DataAddCPUID(data, subLeaf0) < 0)
return -1;
for (sub = 1; sub <= subLeaf0->eax; sub++) {
cpuid.ecx_in = sub;
cpuidCall(&cpuid);
if (virCPUx86DataAddCPUID(data, &cpuid) < 0)
for (sub = 1; sub <= subLeaf0->cpuid.eax; sub++) {
cpuid->ecx_in = sub;
cpuidCall(cpuid);
if (virCPUx86DataAddCPUID(data, &item) < 0)
return -1;
}
return 0;
@ -2264,15 +2277,16 @@ cpuidSetLeaf7(virCPUDataPtr data,
*/
static int
cpuidSetLeafB(virCPUDataPtr data,
virCPUx86CPUID *subLeaf0)
virCPUx86DataItemPtr subLeaf0)
{
virCPUx86CPUID cpuid = *subLeaf0;
virCPUx86DataItem item = *subLeaf0;
virCPUx86CPUIDPtr cpuid = &item.cpuid;
while (cpuid.ecx & 0xff00) {
if (virCPUx86DataAddCPUID(data, &cpuid) < 0)
while (cpuid->ecx & 0xff00) {
if (virCPUx86DataAddCPUID(data, &item) < 0)
return -1;
cpuid.ecx_in++;
cpuidCall(&cpuid);
cpuid->ecx_in++;
cpuidCall(cpuid);
}
return 0;
}
@ -2288,9 +2302,10 @@ cpuidSetLeafB(virCPUDataPtr data,
*/
static int
cpuidSetLeafD(virCPUDataPtr data,
virCPUx86CPUID *subLeaf0)
virCPUx86DataItemPtr subLeaf0)
{
virCPUx86CPUID cpuid = { .eax_in = 0xd };
virCPUx86DataItem item = CPUID(.eax_in = 0xd);
virCPUx86CPUIDPtr cpuid = &item.cpuid;
virCPUx86CPUID sub0;
virCPUx86CPUID sub1;
uint32_t sub;
@ -2298,13 +2313,13 @@ cpuidSetLeafD(virCPUDataPtr data,
if (virCPUx86DataAddCPUID(data, subLeaf0) < 0)
return -1;
cpuid.ecx_in = 1;
cpuidCall(&cpuid);
if (virCPUx86DataAddCPUID(data, &cpuid) < 0)
cpuid->ecx_in = 1;
cpuidCall(cpuid);
if (virCPUx86DataAddCPUID(data, &item) < 0)
return -1;
sub0 = *subLeaf0;
sub1 = cpuid;
sub0 = subLeaf0->cpuid;
sub1 = *cpuid;
for (sub = 2; sub < 64; sub++) {
if (sub < 32 &&
!(sub0.eax & (1 << sub)) &&
@ -2315,9 +2330,9 @@ cpuidSetLeafD(virCPUDataPtr data,
!(sub1.edx & (1 << (sub - 32))))
continue;
cpuid.ecx_in = sub;
cpuidCall(&cpuid);
if (virCPUx86DataAddCPUID(data, &cpuid) < 0)
cpuid->ecx_in = sub;
cpuidCall(cpuid);
if (virCPUx86DataAddCPUID(data, &item) < 0)
return -1;
}
return 0;
@ -2335,10 +2350,11 @@ cpuidSetLeafD(virCPUDataPtr data,
*/
static int
cpuidSetLeafResID(virCPUDataPtr data,
virCPUx86CPUID *subLeaf0,
virCPUx86DataItemPtr subLeaf0,
uint32_t res)
{
virCPUx86CPUID cpuid = { .eax_in = subLeaf0->eax_in };
virCPUx86DataItem item = CPUID(.eax_in = subLeaf0->cpuid.eax_in);
virCPUx86CPUIDPtr cpuid = &item.cpuid;
uint32_t sub;
if (virCPUx86DataAddCPUID(data, subLeaf0) < 0)
@ -2347,9 +2363,9 @@ cpuidSetLeafResID(virCPUDataPtr data,
for (sub = 1; sub < 32; sub++) {
if (!(res & (1 << sub)))
continue;
cpuid.ecx_in = sub;
cpuidCall(&cpuid);
if (virCPUx86DataAddCPUID(data, &cpuid) < 0)
cpuid->ecx_in = sub;
cpuidCall(cpuid);
if (virCPUx86DataAddCPUID(data, &item) < 0)
return -1;
}
return 0;
@ -2363,31 +2379,32 @@ cpuidSetLeafResID(virCPUDataPtr data,
*/
static int
cpuidSetLeaf12(virCPUDataPtr data,
virCPUx86CPUID *subLeaf0)
virCPUx86DataItemPtr subLeaf0)
{
virCPUx86CPUID cpuid = { .eax_in = 0x7 };
virCPUx86CPUID *cpuid7;
virCPUx86DataItem item = CPUID(.eax_in = 0x7);
virCPUx86CPUIDPtr cpuid = &item.cpuid;
virCPUx86DataItemPtr cpuid7;
if (!(cpuid7 = x86DataCpuid(&data->data.x86, &cpuid)) ||
!(cpuid7->ebx & (1 << 2)))
if (!(cpuid7 = x86DataCpuid(&data->data.x86, &item)) ||
!(cpuid7->cpuid.ebx & (1 << 2)))
return 0;
if (virCPUx86DataAddCPUID(data, subLeaf0) < 0)
return -1;
cpuid.eax_in = 0x12;
cpuid.ecx_in = 1;
cpuidCall(&cpuid);
if (virCPUx86DataAddCPUID(data, &cpuid) < 0)
cpuid->eax_in = 0x12;
cpuid->ecx_in = 1;
cpuidCall(cpuid);
if (virCPUx86DataAddCPUID(data, &item) < 0)
return -1;
cpuid.ecx_in = 2;
cpuidCall(&cpuid);
while (cpuid.eax & 0xf) {
if (virCPUx86DataAddCPUID(data, &cpuid) < 0)
cpuid->ecx_in = 2;
cpuidCall(cpuid);
while (cpuid->eax & 0xf) {
if (virCPUx86DataAddCPUID(data, &item) < 0)
return -1;
cpuid.ecx_in++;
cpuidCall(&cpuid);
cpuid->ecx_in++;
cpuidCall(cpuid);
}
return 0;
}
@ -2399,18 +2416,19 @@ cpuidSetLeaf12(virCPUDataPtr data,
*/
static int
cpuidSetLeaf14(virCPUDataPtr data,
virCPUx86CPUID *subLeaf0)
virCPUx86DataItemPtr subLeaf0)
{
virCPUx86CPUID cpuid = { .eax_in = 0x14 };
virCPUx86DataItem item = CPUID(.eax_in = 0x14);
virCPUx86CPUIDPtr cpuid = &item.cpuid;
uint32_t sub;
if (virCPUx86DataAddCPUID(data, subLeaf0) < 0)
return -1;
for (sub = 1; sub <= subLeaf0->eax; sub++) {
cpuid.ecx_in = sub;
cpuidCall(&cpuid);
if (virCPUx86DataAddCPUID(data, &cpuid) < 0)
for (sub = 1; sub <= subLeaf0->cpuid.eax; sub++) {
cpuid->ecx_in = sub;
cpuidCall(cpuid);
if (virCPUx86DataAddCPUID(data, &item) < 0)
return -1;
}
return 0;
@ -2424,21 +2442,22 @@ cpuidSetLeaf14(virCPUDataPtr data,
*/
static int
cpuidSetLeaf17(virCPUDataPtr data,
virCPUx86CPUID *subLeaf0)
virCPUx86DataItemPtr subLeaf0)
{
virCPUx86CPUID cpuid = { .eax_in = 0x17 };
virCPUx86DataItem item = CPUID(.eax_in = 0x17);
virCPUx86CPUIDPtr cpuid = &item.cpuid;
uint32_t sub;
if (subLeaf0->eax < 3)
if (subLeaf0->cpuid.eax < 3)
return 0;
if (virCPUx86DataAddCPUID(data, subLeaf0) < 0)
return -1;
for (sub = 1; sub <= subLeaf0->eax; sub++) {
cpuid.ecx_in = sub;
cpuidCall(&cpuid);
if (virCPUx86DataAddCPUID(data, &cpuid) < 0)
for (sub = 1; sub <= subLeaf0->cpuid.eax; sub++) {
cpuid->ecx_in = sub;
cpuidCall(cpuid);
if (virCPUx86DataAddCPUID(data, &item) < 0)
return -1;
}
return 0;
@ -2451,39 +2470,40 @@ cpuidSet(uint32_t base, virCPUDataPtr data)
int rc;
uint32_t max;
uint32_t leaf;
virCPUx86CPUID cpuid = { .eax_in = base };
virCPUx86DataItem item = CPUID(.eax_in = base);
virCPUx86CPUIDPtr cpuid = &item.cpuid;
cpuidCall(&cpuid);
max = cpuid.eax;
cpuidCall(cpuid);
max = cpuid->eax;
for (leaf = base; leaf <= max; leaf++) {
cpuid.eax_in = leaf;
cpuid.ecx_in = 0;
cpuidCall(&cpuid);
cpuid->eax_in = leaf;
cpuid->ecx_in = 0;
cpuidCall(cpuid);
/* Handle CPUID leaves that depend on previously queried bits or
* which provide additional sub leaves for ecx_in > 0
*/
if (leaf == 0x4)
rc = cpuidSetLeaf4(data, &cpuid);
rc = cpuidSetLeaf4(data, &item);
else if (leaf == 0x7)
rc = cpuidSetLeaf7(data, &cpuid);
rc = cpuidSetLeaf7(data, &item);
else if (leaf == 0xb)
rc = cpuidSetLeafB(data, &cpuid);
rc = cpuidSetLeafB(data, &item);
else if (leaf == 0xd)
rc = cpuidSetLeafD(data, &cpuid);
rc = cpuidSetLeafD(data, &item);
else if (leaf == 0xf)
rc = cpuidSetLeafResID(data, &cpuid, cpuid.edx);
rc = cpuidSetLeafResID(data, &item, cpuid->edx);
else if (leaf == 0x10)
rc = cpuidSetLeafResID(data, &cpuid, cpuid.ebx);
rc = cpuidSetLeafResID(data, &item, cpuid->ebx);
else if (leaf == 0x12)
rc = cpuidSetLeaf12(data, &cpuid);
rc = cpuidSetLeaf12(data, &item);
else if (leaf == 0x14)
rc = cpuidSetLeaf14(data, &cpuid);
rc = cpuidSetLeaf14(data, &item);
else if (leaf == 0x17)
rc = cpuidSetLeaf17(data, &cpuid);
rc = cpuidSetLeaf17(data, &item);
else
rc = virCPUx86DataAddCPUID(data, &cpuid);
rc = virCPUx86DataAddCPUID(data, &item);
if (rc < 0)
return -1;
@ -3059,7 +3079,7 @@ virCPUx86ValidateFeatures(virCPUDefPtr cpu)
int
virCPUx86DataAddCPUID(virCPUDataPtr cpuData,
const virCPUx86CPUID *cpuid)
const virCPUx86DataItem *cpuid)
{
return virCPUx86DataAddCPUIDInt(&cpuData->data.x86, cpuid);
}
@ -3093,7 +3113,7 @@ int
virCPUx86DataSetVendor(virCPUDataPtr cpuData,
const char *vendor)
{
virCPUx86CPUID cpuid = { 0 };
virCPUx86DataItem cpuid = CPUID(0);
if (virCPUx86VendorToCPUID(vendor, &cpuid) < 0)
return -1;

2
src/cpu/cpu_x86.h
View File

@ -27,7 +27,7 @@
extern struct cpuArchDriver cpuDriverX86;
int virCPUx86DataAddCPUID(virCPUDataPtr cpuData,
const virCPUx86CPUID *cpuid);
const virCPUx86DataItem *cpuid);
int virCPUx86DataSetSignature(virCPUDataPtr cpuData,
unsigned int family,

9
src/cpu/cpu_x86_data.h
View File

@ -23,6 +23,7 @@
typedef struct _virCPUx86CPUID virCPUx86CPUID;
typedef virCPUx86CPUID *virCPUx86CPUIDPtr;
struct _virCPUx86CPUID {
uint32_t eax_in;
uint32_t ecx_in;
@ -68,10 +69,16 @@ struct _virCPUx86CPUID {
# define VIR_CPU_X86_DATA_INIT { 0 }
typedef struct _virCPUx86DataItem virCPUx86DataItem;
typedef virCPUx86DataItem *virCPUx86DataItemPtr;
struct _virCPUx86DataItem {
virCPUx86CPUID cpuid;
};
typedef struct _virCPUx86Data virCPUx86Data;
struct _virCPUx86Data {
size_t len;
virCPUx86CPUID *data;
virCPUx86DataItem *items;
};
#endif /* LIBVIRT_CPU_X86_DATA_H */

8
src/libxl/libxl_capabilities.c
View File

@ -66,13 +66,15 @@ struct guest_arch {
static int
libxlCapsAddCPUID(virCPUDataPtr data, virCPUx86CPUID *cpuid, ssize_t ncaps)
{
virCPUx86DataItem item = { 0 };
size_t i;
for (i = 0; i < ncaps; i++) {
virCPUx86CPUID *c = &cpuid[i];
item.cpuid = cpuid[i];
if (virCPUx86DataAddCPUID(data, c) < 0) {
VIR_DEBUG("Failed to add CPUID(%x,%x)", c->eax_in, c->ecx_in);
if (virCPUx86DataAddCPUID(data, &item) < 0) {
VIR_DEBUG("Failed to add CPUID(%x,%x)",
cpuid[i].eax_in, cpuid[i].ecx_in);
return -1;
}
}

6
src/qemu/qemu_monitor_json.c
View File

@ -7189,7 +7189,7 @@ static virCPUDataPtr
qemuMonitorJSONParseCPUx86Features(virJSONValuePtr data)
{
virCPUDataPtr cpudata = NULL;
virCPUx86CPUID cpuid;
virCPUx86DataItem item = { 0 };
size_t i;
if (!(cpudata = virCPUDataNew(VIR_ARCH_X86_64)))
@ -7197,8 +7197,8 @@ qemuMonitorJSONParseCPUx86Features(virJSONValuePtr data)
for (i = 0; i < virJSONValueArraySize(data); i++) {
if (qemuMonitorJSONParseCPUx86FeatureWord(virJSONValueArrayGet(data, i),
&cpuid) < 0 ||
virCPUx86DataAddCPUID(cpudata, &cpuid) < 0)
&item.cpuid) < 0 ||
virCPUx86DataAddCPUID(cpudata, &item) < 0)
goto error;
}