174fe6c29SRuslan Bukin /*
2*85f87cf4SRuslan Bukin * Copyright (c) 2013-2019, Intel Corporation
374fe6c29SRuslan Bukin *
474fe6c29SRuslan Bukin * Redistribution and use in source and binary forms, with or without
574fe6c29SRuslan Bukin * modification, are permitted provided that the following conditions are met:
674fe6c29SRuslan Bukin *
774fe6c29SRuslan Bukin * * Redistributions of source code must retain the above copyright notice,
874fe6c29SRuslan Bukin * this list of conditions and the following disclaimer.
974fe6c29SRuslan Bukin * * Redistributions in binary form must reproduce the above copyright notice,
1074fe6c29SRuslan Bukin * this list of conditions and the following disclaimer in the documentation
1174fe6c29SRuslan Bukin * and/or other materials provided with the distribution.
1274fe6c29SRuslan Bukin * * Neither the name of Intel Corporation nor the names of its contributors
1374fe6c29SRuslan Bukin * may be used to endorse or promote products derived from this software
1474fe6c29SRuslan Bukin * without specific prior written permission.
1574fe6c29SRuslan Bukin *
1674fe6c29SRuslan Bukin * THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS"
1774fe6c29SRuslan Bukin * AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE
1874fe6c29SRuslan Bukin * IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE
1974fe6c29SRuslan Bukin * ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT OWNER OR CONTRIBUTORS BE
2074fe6c29SRuslan Bukin * LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR
2174fe6c29SRuslan Bukin * CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF
2274fe6c29SRuslan Bukin * SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS
2374fe6c29SRuslan Bukin * INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN
2474fe6c29SRuslan Bukin * CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE)
2574fe6c29SRuslan Bukin * ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE
2674fe6c29SRuslan Bukin * POSSIBILITY OF SUCH DAMAGE.
2774fe6c29SRuslan Bukin */
2874fe6c29SRuslan Bukin
2974fe6c29SRuslan Bukin #include "pt_cpu.h"
3074fe6c29SRuslan Bukin #include "pt_cpuid.h"
3174fe6c29SRuslan Bukin
3274fe6c29SRuslan Bukin #include "intel-pt.h"
3374fe6c29SRuslan Bukin
3474fe6c29SRuslan Bukin #include <limits.h>
3574fe6c29SRuslan Bukin #include <stdlib.h>
3674fe6c29SRuslan Bukin
3774fe6c29SRuslan Bukin
3874fe6c29SRuslan Bukin static const char * const cpu_vendors[] = {
3974fe6c29SRuslan Bukin "",
4074fe6c29SRuslan Bukin "GenuineIntel"
4174fe6c29SRuslan Bukin };
4274fe6c29SRuslan Bukin
4374fe6c29SRuslan Bukin enum {
4474fe6c29SRuslan Bukin pt_cpuid_vendor_size = 12
4574fe6c29SRuslan Bukin };
4674fe6c29SRuslan Bukin
4774fe6c29SRuslan Bukin union cpu_vendor {
4874fe6c29SRuslan Bukin /* The raw data returned from cpuid. */
4974fe6c29SRuslan Bukin struct {
5074fe6c29SRuslan Bukin uint32_t ebx;
5174fe6c29SRuslan Bukin uint32_t edx;
5274fe6c29SRuslan Bukin uint32_t ecx;
5374fe6c29SRuslan Bukin } cpuid;
5474fe6c29SRuslan Bukin
5574fe6c29SRuslan Bukin /* The resulting vendor string. */
5674fe6c29SRuslan Bukin char vendor_string[pt_cpuid_vendor_size];
5774fe6c29SRuslan Bukin };
5874fe6c29SRuslan Bukin
cpu_vendor(void)5974fe6c29SRuslan Bukin static enum pt_cpu_vendor cpu_vendor(void)
6074fe6c29SRuslan Bukin {
6174fe6c29SRuslan Bukin union cpu_vendor vendor;
6274fe6c29SRuslan Bukin uint32_t eax;
6374fe6c29SRuslan Bukin size_t i;
6474fe6c29SRuslan Bukin
6574fe6c29SRuslan Bukin memset(&vendor, 0, sizeof(vendor));
6674fe6c29SRuslan Bukin eax = 0;
6774fe6c29SRuslan Bukin
6874fe6c29SRuslan Bukin pt_cpuid(0u, &eax, &vendor.cpuid.ebx, &vendor.cpuid.ecx,
6974fe6c29SRuslan Bukin &vendor.cpuid.edx);
7074fe6c29SRuslan Bukin
7174fe6c29SRuslan Bukin for (i = 0; i < sizeof(cpu_vendors)/sizeof(*cpu_vendors); i++)
7274fe6c29SRuslan Bukin if (strncmp(vendor.vendor_string,
7374fe6c29SRuslan Bukin cpu_vendors[i], pt_cpuid_vendor_size) == 0)
7474fe6c29SRuslan Bukin return (enum pt_cpu_vendor) i;
7574fe6c29SRuslan Bukin
7674fe6c29SRuslan Bukin return pcv_unknown;
7774fe6c29SRuslan Bukin }
7874fe6c29SRuslan Bukin
cpu_info(void)7974fe6c29SRuslan Bukin static uint32_t cpu_info(void)
8074fe6c29SRuslan Bukin {
8174fe6c29SRuslan Bukin uint32_t eax, ebx, ecx, edx;
8274fe6c29SRuslan Bukin
8374fe6c29SRuslan Bukin eax = 0;
8474fe6c29SRuslan Bukin ebx = 0;
8574fe6c29SRuslan Bukin ecx = 0;
8674fe6c29SRuslan Bukin edx = 0;
8774fe6c29SRuslan Bukin pt_cpuid(1u, &eax, &ebx, &ecx, &edx);
8874fe6c29SRuslan Bukin
8974fe6c29SRuslan Bukin return eax;
9074fe6c29SRuslan Bukin }
9174fe6c29SRuslan Bukin
pt_cpu_parse(struct pt_cpu * cpu,const char * s)9274fe6c29SRuslan Bukin int pt_cpu_parse(struct pt_cpu *cpu, const char *s)
9374fe6c29SRuslan Bukin {
9474fe6c29SRuslan Bukin const char sep = '/';
9574fe6c29SRuslan Bukin char *endptr;
9674fe6c29SRuslan Bukin long family, model, stepping;
9774fe6c29SRuslan Bukin
9874fe6c29SRuslan Bukin if (!cpu || !s)
9974fe6c29SRuslan Bukin return -pte_invalid;
10074fe6c29SRuslan Bukin
10174fe6c29SRuslan Bukin family = strtol(s, &endptr, 0);
10274fe6c29SRuslan Bukin if (s == endptr || *endptr == '\0' || *endptr != sep)
10374fe6c29SRuslan Bukin return -pte_invalid;
10474fe6c29SRuslan Bukin
10574fe6c29SRuslan Bukin if (family < 0 || family > USHRT_MAX)
10674fe6c29SRuslan Bukin return -pte_invalid;
10774fe6c29SRuslan Bukin
10874fe6c29SRuslan Bukin /* skip separator */
10974fe6c29SRuslan Bukin s = endptr + 1;
11074fe6c29SRuslan Bukin
11174fe6c29SRuslan Bukin model = strtol(s, &endptr, 0);
11274fe6c29SRuslan Bukin if (s == endptr || (*endptr != '\0' && *endptr != sep))
11374fe6c29SRuslan Bukin return -pte_invalid;
11474fe6c29SRuslan Bukin
11574fe6c29SRuslan Bukin if (model < 0 || model > UCHAR_MAX)
11674fe6c29SRuslan Bukin return -pte_invalid;
11774fe6c29SRuslan Bukin
11874fe6c29SRuslan Bukin if (*endptr == '\0')
11974fe6c29SRuslan Bukin /* stepping was omitted, it defaults to 0 */
12074fe6c29SRuslan Bukin stepping = 0;
12174fe6c29SRuslan Bukin else {
12274fe6c29SRuslan Bukin /* skip separator */
12374fe6c29SRuslan Bukin s = endptr + 1;
12474fe6c29SRuslan Bukin
12574fe6c29SRuslan Bukin stepping = strtol(s, &endptr, 0);
12674fe6c29SRuslan Bukin if (*endptr != '\0')
12774fe6c29SRuslan Bukin return -pte_invalid;
12874fe6c29SRuslan Bukin
12974fe6c29SRuslan Bukin if (stepping < 0 || stepping > UCHAR_MAX)
13074fe6c29SRuslan Bukin return -pte_invalid;
13174fe6c29SRuslan Bukin }
13274fe6c29SRuslan Bukin
13374fe6c29SRuslan Bukin cpu->vendor = pcv_intel;
13474fe6c29SRuslan Bukin cpu->family = (uint16_t) family;
13574fe6c29SRuslan Bukin cpu->model = (uint8_t) model;
13674fe6c29SRuslan Bukin cpu->stepping = (uint8_t) stepping;
13774fe6c29SRuslan Bukin
13874fe6c29SRuslan Bukin return 0;
13974fe6c29SRuslan Bukin }
14074fe6c29SRuslan Bukin
pt_cpu_read(struct pt_cpu * cpu)14174fe6c29SRuslan Bukin int pt_cpu_read(struct pt_cpu *cpu)
14274fe6c29SRuslan Bukin {
14374fe6c29SRuslan Bukin uint32_t info;
14474fe6c29SRuslan Bukin uint16_t family;
14574fe6c29SRuslan Bukin
14674fe6c29SRuslan Bukin if (!cpu)
14774fe6c29SRuslan Bukin return -pte_invalid;
14874fe6c29SRuslan Bukin
14974fe6c29SRuslan Bukin cpu->vendor = cpu_vendor();
15074fe6c29SRuslan Bukin
15174fe6c29SRuslan Bukin info = cpu_info();
15274fe6c29SRuslan Bukin
15374fe6c29SRuslan Bukin cpu->family = family = (info>>8) & 0xf;
15474fe6c29SRuslan Bukin if (family == 0xf)
15574fe6c29SRuslan Bukin cpu->family += (info>>20) & 0xf;
15674fe6c29SRuslan Bukin
15774fe6c29SRuslan Bukin cpu->model = (info>>4) & 0xf;
15874fe6c29SRuslan Bukin if (family == 0x6 || family == 0xf)
15974fe6c29SRuslan Bukin cpu->model += (info>>12) & 0xf0;
16074fe6c29SRuslan Bukin
16174fe6c29SRuslan Bukin cpu->stepping = (info>>0) & 0xf;
16274fe6c29SRuslan Bukin
16374fe6c29SRuslan Bukin return 0;
16474fe6c29SRuslan Bukin }
165