Parses a string enumerating cpuid flags and their behavior.
The syntax is: cpuid = "host,<flagname>=[01xks],..."
Supports:
0: clear this flag
1: set this flag
x: don't care, use the default handling
k: use the host value
s: as k, but keep stable across migrations
For multiple bit flags there have to be numbers passed (hex or dec),
like: family=0x10,model=4
Signed-off-by: Andre Przywara <andre.przywara@xxxxxxx>
--
Andre Przywara
AMD-Operating System Research Center (OSRC), Dresden, Germany
Tel: +49 351 448-3567-12
>From 869e1ff302b403bfcc4644ec23dccfcf96c82859 Mon Sep 17 00:00:00 2001
From: Andre Przywara <andre.przywara@xxxxxxx>
Date: Thu, 19 Aug 2010 11:51:00 +0200
Subject: [PATCH 1/3] xl: implement parsing of cpuid parameter and translate to
Xen interface
parses a string enumerating cpuid flags and their behavior. Supports:
0: clear this flag
1: set this flag
x: don't care, use the default handling
k: use the host value
s: as k, but keep stable across migrations
The syntax is: cpuid = "host,<flagname>=[01xks],..."
Instead of the bits there can also be numbers passed (hex or dec),
like: family=0x10,model=4
Signed-off-by: Andre Przywara <andre.przywara@xxxxxxx>
---
tools/libxl/libxl.c | 219 ++++++++++++++++++++++++++++++++++++++++++++++
tools/libxl/libxl.h | 1 +
tools/libxl/xl_cmdimpl.c | 11 +++
3 files changed, 231 insertions(+), 0 deletions(-)
diff --git a/tools/libxl/libxl.c b/tools/libxl/libxl.c
index 4e1fd04..b61f859 100644
--- a/tools/libxl/libxl.c
+++ b/tools/libxl/libxl.c
@@ -3524,6 +3524,225 @@ uint32_t libxl_vm_get_start_time(libxl_ctx *ctx,
uint32_t domid)
return ret;
}
+#define CPUID_REG_INV 0
+#define CPUID_REG_EAX 1
+#define CPUID_REG_EBX 2
+#define CPUID_REG_ECX 3
+#define CPUID_REG_EDX 4
+
+/* mapping CPUID features to names
+ * holds a "name" for each feature, specified by the "leaf" number (and an
+ * optional "subleaf" in ECX), the "reg"ister (EAX-EDX) used and a number of
+ * bits starting with "bit" and being "length" bits long.
+ * Used for the static structure describing all features.
+ */
+struct cpuid_flags {
+ char* name;
+ uint32_t leaf;
+ uint32_t subleaf;
+ int reg;
+ int bit;
+ int length;
+};
+
+/* go through the dynamic array finding the entry for a specified leaf.
+ * if no entry exists, allocate one and return that.
+ */
+static libxl_cpuid_policy_list cpuid_find_match(libxl_cpuid_policy_list *list,
+ uint32_t leaf, uint32_t subleaf)
+{
+ int i = 0;
+
+ if (*list != NULL) {
+ for (i = 0; (*list)[i].input[0] != XEN_CPUID_INPUT_UNUSED; i++) {
+ if ((*list)[i].input[0] == leaf && (*list)[i].input[1] == subleaf)
+ return *list + i;
+ }
+ }
+ *list = realloc(*list, sizeof((*list)[0]) * (i + 2));
+ (*list)[i].input[0] = leaf;
+ (*list)[i].input[1] = subleaf;
+ memset((*list)[i].policy, 0, 4 * sizeof(char*));
+ (*list)[i + 1].input[0] = XEN_CPUID_INPUT_UNUSED;
+ return *list + i;
+}
+
+/* parse a single key=value pair and translate it into the libxc
+ * used interface using 32-characters strings for each register.
+ * Will overwrite earlier entries and thus can be called multiple
+ * times.
+ */
+int libxl_cpuid_parse_config(libxl_cpuid_policy_list *cpuid, const char* str)
+{
+#define NA XEN_CPUID_INPUT_UNUSED
+ struct cpuid_flags cpuid_flags[] = {
+ {"maxleaf", 0x00000000, NA, CPUID_REG_EAX, 0, 32},
+ /* the following two entries are subject to tweaking later in the code */
+ {"family", 0x00000001, NA, CPUID_REG_EAX, 8, 8},
+ {"model", 0x00000001, NA, CPUID_REG_EAX, 4, 8},
+ {"stepping", 0x00000001, NA, CPUID_REG_EAX, 0, 4},
+ {"localapicid", 0x00000001, NA, CPUID_REG_EBX, 24, 8},
+ {"proccount", 0x00000001, NA, CPUID_REG_EBX, 16, 8},
+ {"clflush", 0x00000001, NA, CPUID_REG_EBX, 8, 8},
+ {"brandid", 0x00000001, NA, CPUID_REG_EBX, 0, 8},
+ {"f16c", 0x00000001, NA, CPUID_REG_ECX, 29, 1},
+ {"avx", 0x00000001, NA, CPUID_REG_ECX, 28, 1},
+ {"osxsave", 0x00000001, NA, CPUID_REG_ECX, 27, 1},
+ {"xsave", 0x00000001, NA, CPUID_REG_ECX, 26, 1},
+ {"aes", 0x00000001, NA, CPUID_REG_ECX, 25, 1},
+ {"popcnt", 0x00000001, NA, CPUID_REG_ECX, 23, 1},
+ {"movbe", 0x00000001, NA, CPUID_REG_ECX, 22, 1},
+ {"x2apic", 0x00000001, NA, CPUID_REG_ECX, 21, 1},
+ {"sse4.2", 0x00000001, NA, CPUID_REG_ECX, 20, 1},
+ {"sse4.1", 0x00000001, NA, CPUID_REG_ECX, 19, 1},
+ {"dca", 0x00000001, NA, CPUID_REG_ECX, 18, 1},
+ {"pdcm", 0x00000001, NA, CPUID_REG_ECX, 15, 1},
+ {"xtpr", 0x00000001, NA, CPUID_REG_ECX, 14, 1},
+ {"cmpxchg16", 0x00000001, NA, CPUID_REG_ECX, 13, 1},
+ {"cntxid", 0x00000001, NA, CPUID_REG_ECX, 10, 1},
+ {"ssse3", 0x00000001, NA, CPUID_REG_ECX, 9, 1},
+ {"tm2", 0x00000001, NA, CPUID_REG_ECX, 8, 1},
+ {"est", 0x00000001, NA, CPUID_REG_ECX, 7, 1},
+ {"smx", 0x00000001, NA, CPUID_REG_ECX, 6, 1},
+ {"vmx", 0x00000001, NA, CPUID_REG_ECX, 5, 1},
+ {"dscpl", 0x00000001, NA, CPUID_REG_ECX, 4, 1},
+ {"monitor", 0x00000001, NA, CPUID_REG_ECX, 3, 1},
+ {"dtes64", 0x00000001, NA, CPUID_REG_ECX, 2, 1},
+ {"sse3", 0x00000001, NA, CPUID_REG_ECX, 0, 1},
+ {"pbe", 0x00000001, NA, CPUID_REG_EDX, 31, 1},
+ {"ia64", 0x00000001, NA, CPUID_REG_EDX, 30, 1},
+ {"tm", 0x00000001, NA, CPUID_REG_EDX, 29, 1},
+ {"htt", 0x00000001, NA, CPUID_REG_EDX, 28, 1},
+ {"ss", 0x00000001, NA, CPUID_REG_EDX, 27, 1},
+ {"sse2", 0x00000001, NA, CPUID_REG_EDX, 26, 1},
+ {"sse", 0x00000001, NA, CPUID_REG_EDX, 25, 1},
+ {"fxsr", 0x00000001, NA, CPUID_REG_EDX, 24, 1},
+ {"mmx", 0x00000001, NA, CPUID_REG_EDX, 23, 1},
+ {"acpi", 0x00000001, NA, CPUID_REG_EDX, 22, 1},
+ {"ds", 0x00000001, NA, CPUID_REG_EDX, 21, 1},
+ {"clfsh", 0x00000001, NA, CPUID_REG_EDX, 19, 1},
+ {"psn", 0x00000001, NA, CPUID_REG_EDX, 18, 1},
+ {"pse36", 0x00000001, NA, CPUID_REG_EDX, 17, 1},
+ {"pat", 0x00000001, NA, CPUID_REG_EDX, 16, 1},
+ {"cmov", 0x00000001, NA, CPUID_REG_EDX, 15, 1},
+ {"mca", 0x00000001, NA, CPUID_REG_EDX, 14, 1},
+ {"pge", 0x00000001, NA, CPUID_REG_EDX, 13, 1},
+ {"mtrr", 0x00000001, NA, CPUID_REG_EDX, 12, 1},
+ {"sysenter", 0x00000001, NA, CPUID_REG_EDX, 11, 1},
+ {"apic", 0x00000001, NA, CPUID_REG_EDX, 9, 1},
+ {"cmpxchg8", 0x00000001, NA, CPUID_REG_EDX, 8, 1},
+ {"mce", 0x00000001, NA, CPUID_REG_EDX, 7, 1},
+ {"pae", 0x00000001, NA, CPUID_REG_EDX, 6, 1},
+ {"msr", 0x00000001, NA, CPUID_REG_EDX, 5, 1},
+ {"tsc", 0x00000001, NA, CPUID_REG_EDX, 4, 1},
+ {"pse", 0x00000001, NA, CPUID_REG_EDX, 3, 1},
+ {"de", 0x00000001, NA, CPUID_REG_EDX, 2, 1},
+ {"vme", 0x00000001, NA, CPUID_REG_EDX, 1, 1},
+ {"fpu", 0x00000001, NA, CPUID_REG_EDX, 0, 1},
+ {"topoext", 0x80000001, NA, CPUID_REG_ECX, 22, 1},
+ {"tbm", 0x80000001, NA, CPUID_REG_ECX, 21, 1},
+ {"nodeid", 0x80000001, NA, CPUID_REG_ECX, 19, 1},
+ {"fma4", 0x80000001, NA, CPUID_REG_ECX, 16, 1},
+ {"lwp", 0x80000001, NA, CPUID_REG_ECX, 15, 1},
+ {"wdt", 0x80000001, NA, CPUID_REG_ECX, 13, 1},
+ {"skinit", 0x80000001, NA, CPUID_REG_ECX, 12, 1},
+ {"xop", 0x80000001, NA, CPUID_REG_ECX, 11, 1},
+ {"ibs", 0x80000001, NA, CPUID_REG_ECX, 10, 1},
+ {"osvw", 0x80000001, NA, CPUID_REG_ECX, 10, 1},
+ {"3dnowprefetch",0x80000001, NA, CPUID_REG_ECX, 8, 1},
+ {"misalignsse", 0x80000001, NA, CPUID_REG_ECX, 7, 1},
+ {"sse4a", 0x80000001, NA, CPUID_REG_ECX, 6, 1},
+ {"abm", 0x80000001, NA, CPUID_REG_ECX, 5, 1},
+ {"altmovcr8", 0x80000001, NA, CPUID_REG_ECX, 4, 1},
+ {"extapic", 0x80000001, NA, CPUID_REG_ECX, 3, 1},
+ {"svm", 0x80000001, NA, CPUID_REG_ECX, 2, 1},
+ {"cmplegacy", 0x80000001, NA, CPUID_REG_ECX, 1, 1},
+ {"lahfsahf", 0x80000001, NA, CPUID_REG_ECX, 0, 1},
+ {"3dnow", 0x80000001, NA, CPUID_REG_EDX, 31, 1},
+ {"3dnowext", 0x80000001, NA, CPUID_REG_EDX, 30, 1},
+ {"lm", 0x80000001, NA, CPUID_REG_EDX, 29, 1},
+ {"rdtscp", 0x80000001, NA, CPUID_REG_EDX, 27, 1},
+ {"page1gb", 0x80000001, NA, CPUID_REG_EDX, 26, 1},
+ {"ffxsr", 0x80000001, NA, CPUID_REG_EDX, 25, 1},
+ {"mmxext", 0x80000001, NA, CPUID_REG_EDX, 22, 1},
+ {"nx", 0x80000001, NA, CPUID_REG_EDX, 20, 1},
+ {"syscall", 0x80000001, NA, CPUID_REG_EDX, 11, 1},
+ {"procpkg", 0x00000004, 0, CPUID_REG_EAX, 26, 6},
+ {"apicidsize", 0x80000008, NA, CPUID_REG_ECX, 12, 4},
+ {"nc", 0x80000008, NA, CPUID_REG_ECX, 0, 8},
+
+ {NULL, 0, CPUID_REG_INV, 0, 0}
+ };
+#undef NA
+ char *sep, *val, *endptr;
+ int i;
+ struct cpuid_flags *flag;
+ struct libxl__cpuid_policy *entry;
+ unsigned long num;
+ char flags[33], *resstr;
+
+ sep = strchr(str, '=');
+ if (sep == NULL) {
+ return 1;
+ } else {
+ val = sep + 1;
+ }
+ for (flag = cpuid_flags; flag->name != NULL; flag++) {
+ if(!strncmp(str, flag->name, sep - str) && flag->name[sep - str] == 0)
+ break;
+ }
+ if (flag->name == NULL) {
+ return 2;
+ }
+ entry = cpuid_find_match(cpuid, flag->leaf, flag->subleaf);
+ resstr = entry->policy[flag->reg - 1];
+ if (resstr == NULL) {
+ resstr = strdup("xxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxx");
+ }
+ num = strtoull(val, &endptr, 0);
+ flags[flag->length] = 0;
+ if (endptr != val) {
+ /* is this was a valid number, write the binary form into the string */
+ for (i = 0; i < flag->length; i++) {
+ flags[flag->length - 1 - i] = "01"[!!(num & (1 << i))];
+ }
+ } else {
+ switch(val[0]) {
+ case 'x': case 'k': case 's':
+ memset(flags, val[0], flag->length);
+ break;
+ default:
+ return 3;
+ }
+ }
+ /* the family and model entry is potentially split up across
+ * two fields in Fn0000_0001_EAX, so handle them here separately.
+ */
+ if (!strncmp(str, "family", sep - str)) {
+ if (num < 16) {
+ memcpy(resstr + (32 - 4) - flag->bit, flags + 4, 4);
+ memcpy(resstr + (32 - 8) - 20, "00000000", 8);
+ } else {
+ num -= 15;
+ memcpy(resstr + (32 - 4) - flag->bit, "1111", 4);
+ for (i = 0; i < 7; i++) {
+ flags[7 - i] = "01"[num & 1];
+ num >>= 1;
+ }
+ memcpy(resstr + (32 - 8) - 20, flags, 8);
+ }
+ } else if (!strncmp(str, "model", sep - str)) {
+ memcpy(resstr + (32 - 4) - 16, flags, 4);
+ memcpy(resstr + (32 - 4) - flag->bit, flags + 4, 4);
+ } else {
+ memcpy(resstr + (32 - flag->length) - flag->bit, flags,
+ flag->length);
+ }
+ entry->policy[flag->reg - 1] = resstr;
+
+ return 0;
+}
+
char *libxl_tmem_list(libxl_ctx *ctx, uint32_t domid, int use_long)
{
int rc;
diff --git a/tools/libxl/libxl.h b/tools/libxl/libxl.h
index c1c40b1..a1e0fa4 100644
--- a/tools/libxl/libxl.h
+++ b/tools/libxl/libxl.h
@@ -411,6 +411,7 @@ int libxl_device_pci_shutdown(libxl_ctx *ctx, uint32_t
domid);
int libxl_device_pci_list_assigned(libxl_ctx *ctx, libxl_device_pci **list,
uint32_t domid, int *num);
int libxl_device_pci_list_assignable(libxl_ctx *ctx, libxl_device_pci **list,
int *num);
int libxl_device_pci_parse_bdf(libxl_ctx *ctx, libxl_device_pci *pcidev, const
char *str);
+int libxl_cpuid_parse_config(libxl_cpuid_policy_list *cpuid, const char* str);
/*
* Functions for allowing users of libxl to store private data
diff --git a/tools/libxl/xl_cmdimpl.c b/tools/libxl/xl_cmdimpl.c
index 8dbf860..e9940f9 100644
--- a/tools/libxl/xl_cmdimpl.c
+++ b/tools/libxl/xl_cmdimpl.c
@@ -1075,6 +1075,17 @@ skip_vfb:
}
}
+ if (!xlu_cfg_get_string(config, "cpuid", &buf)) {
+ char *buf2, *p, *strtok_ptr;
+
+ buf2 = strdup(buf);
+ p = strtok_r(buf2, ",", &strtok_ptr);
+ for (p = strtok_r(NULL, ",", &strtok_ptr); p != NULL;
+ p = strtok_r(NULL, ",", &strtok_ptr))
+ libxl_cpuid_parse_config(&b_info->cpuid, p);
+ free(buf2);
+ }
+
if (c_info->hvm == 1) {
/* init dm from c and b */
init_dm_info(dm_info, c_info, b_info);
--
1.6.4
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