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thelilfrog:master thelilfrog:read-msr thelilfrog:riscv-new-ext thelilfrog:printer-bug thelilfrog:i290 thelilfrog:i288 thelilfrog:i280 thelilfrog:fix-accurate-pp thelilfrog:i279 thelilfrog:i277 thelilfrog:i273 thelilfrog:i268 thelilfrog:i259 thelilfrog:i230 thelilfrog:i261 thelilfrog:wiiu thelilfrog:i263 thelilfrog:i262 thelilfrog:i255 thelilfrog:i220v2 thelilfrog:i253 thelilfrog:hygon thelilfrog:measure-freq thelilfrog:switch thelilfrog:i220 thelilfrog:testk thelilfrog:i183 thelilfrog:apple thelilfrog:i212 thelilfrog:bugfix4 thelilfrog:bugfix2 thelilfrog:riscv thelilfrog:bugfix thelilfrog:ald thelilfrog:m1 thelilfrog:feat2 thelilfrog:feat thelilfrog:bugfix3 thelilfrog:ascii thelilfrog:outfile
thelilfrog:v1.07 thelilfrog:v1.06 thelilfrog:v1.05 thelilfrog:v1.04 thelilfrog:v1.03 thelilfrog:v1.02 thelilfrog:v1.01 thelilfrog:v1.00 thelilfrog:v0.99 thelilfrog:v0.98 thelilfrog:v0.97 thelilfrog:v0.94 thelilfrog:v0.7 thelilfrog:v0.6 thelilfrog:v0.410 thelilfrog:v0.47
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compare: thelilfrog:i262
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thelilfrog:read-msr thelilfrog:master thelilfrog:riscv-new-ext thelilfrog:printer-bug thelilfrog:i290 thelilfrog:i288 thelilfrog:i280 thelilfrog:fix-accurate-pp thelilfrog:i279 thelilfrog:i277 thelilfrog:i273 thelilfrog:i268 thelilfrog:i259 thelilfrog:i230 thelilfrog:i261 thelilfrog:wiiu thelilfrog:i263 thelilfrog:i262 thelilfrog:i255 thelilfrog:i220v2 thelilfrog:i253 thelilfrog:hygon thelilfrog:measure-freq thelilfrog:switch thelilfrog:i220 thelilfrog:testk thelilfrog:i183 thelilfrog:apple thelilfrog:i212 thelilfrog:bugfix4 thelilfrog:bugfix2 thelilfrog:riscv thelilfrog:bugfix thelilfrog:ald thelilfrog:m1 thelilfrog:feat2 thelilfrog:feat thelilfrog:bugfix3 thelilfrog:ascii thelilfrog:outfile
thelilfrog:v1.07 thelilfrog:v1.06 thelilfrog:v1.05 thelilfrog:v1.04 thelilfrog:v1.03 thelilfrog:v1.02 thelilfrog:v1.01 thelilfrog:v1.00 thelilfrog:v0.99 thelilfrog:v0.98 thelilfrog:v0.97 thelilfrog:v0.94 thelilfrog:v0.7 thelilfrog:v0.6 thelilfrog:v0.410 thelilfrog:v0.47

3 Commits
i279 ... i262

Author SHA1 Message Date
Dr-Noob
dcdec28b86 [v1.05][ARM] Improve Ampere logo 2024-08-18 14:55:37 +01:00
Dr-Noob
0d7806d9f4 [v1.05] Remove filter_pci_devices 2024-08-18 14:55:21 +01:00
Dr-Noob
38f02dc22a [v1.05][ARM] Add support for Ampere Altra (#262) 2024-08-15 19:30:35 +01:00
26 changed files with 175 additions and 505 deletions
Expand all files Collapse all files

8
Makefile
View File

@@ -30,10 +30,6 @@ ifneq ($(OS),Windows_NT)
HEADERS += $(SRC_DIR)freq/freq.h HEADERS += $(SRC_DIR)freq/freq.h
CFLAGS += -pthread CFLAGS += -pthread
endif endif
ifeq ($(os), FreeBSD)
SOURCE += $(SRC_COMMON)sysctl.c
HEADERS += $(SRC_COMMON)sysctl.h
endif
CFLAGS += -DARCH_X86 -std=c99 -fstack-protector-all CFLAGS += -DARCH_X86 -std=c99 -fstack-protector-all
else ifeq ($(arch), $(filter $(arch), ppc64le ppc64 ppcle ppc)) else ifeq ($(arch), $(filter $(arch), ppc64le ppc64 ppcle ppc))
SRC_DIR=src/ppc/ SRC_DIR=src/ppc/
@@ -120,9 +116,9 @@ clean:
install: $(OUTPUT) install: $(OUTPUT)
install -Dm755 "cpufetch" "$(DESTDIR)$(PREFIX)/bin/cpufetch" install -Dm755 "cpufetch" "$(DESTDIR)$(PREFIX)/bin/cpufetch"
install -Dm644 "LICENSE" "$(DESTDIR)$(PREFIX)/share/licenses/cpufetch-git/LICENSE" install -Dm644 "LICENSE" "$(DESTDIR)$(PREFIX)/share/licenses/cpufetch-git/LICENSE"
install -Dm644 "cpufetch.1" "$(DESTDIR)$(PREFIX)/share/man/man1/cpufetch.1" install -Dm644 "cpufetch.1" "$(DESTDIR)$(PREFIX)/share/man/man1/cpufetch.1.gz"
uninstall: uninstall:
rm -f "$(DESTDIR)$(PREFIX)/bin/cpufetch" rm -f "$(DESTDIR)$(PREFIX)/bin/cpufetch"
rm -f "$(DESTDIR)$(PREFIX)/share/licenses/cpufetch-git/LICENSE" rm -f "$(DESTDIR)$(PREFIX)/share/licenses/cpufetch-git/LICENSE"
rm -f "$(DESTDIR)$(PREFIX)/share/man/man1/cpufetch.1" rm -f "$(DESTDIR)$(PREFIX)/share/man/man1/cpufetch.1.gz"

5
src/arm/midr.c
View File

@@ -176,9 +176,7 @@ struct features* get_features_info(void) {
printWarn("Unable to retrieve AT_HWCAP2 using getauxval"); printWarn("Unable to retrieve AT_HWCAP2 using getauxval");
} }
else { else {
#ifdef HWCAP2_SVE2
feat->SVE2 = hwcaps & HWCAP2_SVE2; feat->SVE2 = hwcaps & HWCAP2_SVE2;
#endif
} }
} }
#else #else
@@ -414,7 +412,6 @@ struct cpuInfo* get_cpu_info_mach(struct cpuInfo* cpu) {
cpu->peak_performance = get_peak_performance(cpu); cpu->peak_performance = get_peak_performance(cpu);
} }
else if(cpu_family == CPUFAMILY_ARM_EVEREST_SAWTOOTH || else if(cpu_family == CPUFAMILY_ARM_EVEREST_SAWTOOTH ||
cpu_family == CPUFAMILY_ARM_EVEREST_SAWTOOTH_2 ||
cpu_family == CPUFAMILY_ARM_EVEREST_SAWTOOTH_PRO || cpu_family == CPUFAMILY_ARM_EVEREST_SAWTOOTH_PRO ||
cpu_family == CPUFAMILY_ARM_EVEREST_SAWTOOTH_MAX) { cpu_family == CPUFAMILY_ARM_EVEREST_SAWTOOTH_MAX) {
fill_cpu_info_everest_sawtooth(cpu, pcores, ecores); fill_cpu_info_everest_sawtooth(cpu, pcores, ecores);
@@ -451,7 +448,7 @@ char* get_str_topology(struct cpuInfo* cpu, struct topology* topo, bool dual_soc
char* get_str_features(struct cpuInfo* cpu) { char* get_str_features(struct cpuInfo* cpu) {
struct features* feat = cpu->feat; struct features* feat = cpu->feat;
uint32_t max_len = strlen("NEON,SHA1,SHA2,AES,CRC32,SVE,SVE2,") + 1; uint32_t max_len = strlen("NEON,SHA1,SHA2,AES,CRC32,SVE,SVE2") + 1;
uint32_t len = 0; uint32_t len = 0;
char* string = ecalloc(max_len, sizeof(char)); char* string = ecalloc(max_len, sizeof(char));

215
src/arm/soc.c
View File

@@ -18,11 +18,6 @@
#define min(a,b) (((a)<(b))?(a):(b)) #define min(a,b) (((a)<(b))?(a):(b))
#define ARRAY_SIZE(arr) (sizeof(arr) / sizeof((arr)[0])) #define ARRAY_SIZE(arr) (sizeof(arr) / sizeof((arr)[0]))
#define PROP_MTK_PLATFORM "ro.mediatek.platform"
#define PROP_SOC_MODEL "ro.soc.model"
#define PROP_PRODUCT_BOARD "ro.product.board"
#define PROP_BOARD_PLATFORM "ro.board.platform"
static char* soc_rpi_string[] = { static char* soc_rpi_string[] = {
"BCM2835", "BCM2835",
"BCM2836", "BCM2836",
@@ -33,7 +28,8 @@ static char* soc_rpi_string[] = {
char* toupperstr(char* str) { char* toupperstr(char* str) {
int len = strlen(str) + 1; int len = strlen(str) + 1;
char* ret = ecalloc(len, sizeof(char)); char* ret = emalloc(sizeof(char) * len);
memset(ret, 0, sizeof(char) * len);
for(int i=0; i < len; i++) { for(int i=0; i < len; i++) {
ret[i] = toupper((unsigned char) str[i]); ret[i] = toupper((unsigned char) str[i]);
@@ -106,7 +102,7 @@ bool get_sunxisoc_from_sid(struct system_on_chip* soc, char* raw_name, uint32_t
int index = 0; int index = 0;
while(socFromSid[index].sid != 0x0) { while(socFromSid[index].sid != 0x0) {
if(socFromSid[index].sid == sid) { if(socFromSid[index].sid == sid) {
fill_soc(soc, socFromSid[index].soc.name, socFromSid[index].soc.model, socFromSid[index].soc.process); fill_soc(soc, socFromSid[index].soc.soc_name, socFromSid[index].soc.soc_model, socFromSid[index].soc.process);
return true; return true;
} }
index++; index++;
@@ -132,24 +128,24 @@ bool match_broadcom(char* soc_name, struct system_on_chip* soc) {
if((tmp = strstr(soc_name, "BCM")) == NULL) if((tmp = strstr(soc_name, "BCM")) == NULL)
return false; return false;
soc->vendor = SOC_VENDOR_BROADCOM; soc->soc_vendor = SOC_VENDOR_BROADCOM;
SOC_START SOC_START
SOC_EQ(tmp, "BCM2835", "BCM2835", SOC_BCM_2835, soc, 65) SOC_EQ(tmp, "BCM2835", "2835", SOC_BCM_2835, soc, 65)
SOC_EQ(tmp, "BCM2836", "BCM2836", SOC_BCM_2836, soc, 40) SOC_EQ(tmp, "BCM2836", "2836", SOC_BCM_2836, soc, 40)
SOC_EQ(tmp, "BCM2837", "BCM2837", SOC_BCM_2837, soc, 40) SOC_EQ(tmp, "BCM2837", "2837", SOC_BCM_2837, soc, 40)
SOC_EQ(tmp, "BCM2837B0", "BCM2837B0", SOC_BCM_2837B0, soc, 40) SOC_EQ(tmp, "BCM2837B0", "2837B0", SOC_BCM_2837B0, soc, 40)
SOC_EQ(tmp, "BCM21553", "BCM21553", SOC_BCM_21553, soc, 65) SOC_EQ(tmp, "BCM21553", "21553", SOC_BCM_21553, soc, 65)
SOC_EQ(tmp, "BCM21553-Thunderbird", "BCM21553 Thunderbird", SOC_BCM_21553T, soc, 65) SOC_EQ(tmp, "BCM21553-Thunderbird", "21553 Thunderbird", SOC_BCM_21553T, soc, 65)
SOC_EQ(tmp, "BCM21663", "BCM21663", SOC_BCM_21663, soc, 40) SOC_EQ(tmp, "BCM21663", "21663", SOC_BCM_21663, soc, 40)
SOC_EQ(tmp, "BCM21664", "BCM21664", SOC_BCM_21664, soc, 40) SOC_EQ(tmp, "BCM21664", "21664", SOC_BCM_21664, soc, 40)
SOC_EQ(tmp, "BCM28155", "BCM28155", SOC_BCM_28155, soc, 40) SOC_EQ(tmp, "BCM28155", "28155", SOC_BCM_28155, soc, 40)
SOC_EQ(tmp, "BCM23550", "BCM23550", SOC_BCM_23550, soc, 40) SOC_EQ(tmp, "BCM23550", "23550", SOC_BCM_23550, soc, 40)
SOC_EQ(tmp, "BCM28145", "BCM28145", SOC_BCM_28145, soc, 40) SOC_EQ(tmp, "BCM28145", "28145", SOC_BCM_28145, soc, 40)
SOC_EQ(tmp, "BCM2157", "BCM2157", SOC_BCM_2157, soc, 65) SOC_EQ(tmp, "BCM2157", "2157", SOC_BCM_2157, soc, 65)
SOC_EQ(tmp, "BCM21654", "BCM21654", SOC_BCM_21654, soc, 40) SOC_EQ(tmp, "BCM21654", "21654", SOC_BCM_21654, soc, 40)
SOC_EQ(tmp, "BCM2711", "BCM2711", SOC_BCM_2711, soc, 28) SOC_EQ(tmp, "BCM2711", "2711", SOC_BCM_2711, soc, 28)
SOC_EQ(tmp, "BCM2712", "BCM2712", SOC_BCM_2712, soc, 16) SOC_EQ(tmp, "BCM2712", "2712", SOC_BCM_2712, soc, 16)
SOC_END SOC_END
} }
@@ -160,7 +156,7 @@ bool match_google(char* soc_name, struct system_on_chip* soc) {
if((tmp = strstr(soc_name, "gs")) == NULL) if((tmp = strstr(soc_name, "gs")) == NULL)
return false; return false;
soc->vendor = SOC_VENDOR_GOOGLE; soc->soc_vendor = SOC_VENDOR_GOOGLE;
SOC_START SOC_START
SOC_EQ(tmp, "gs101", "Tensor", SOC_GOOGLE_TENSOR, soc, 5) SOC_EQ(tmp, "gs101", "Tensor", SOC_GOOGLE_TENSOR, soc, 5)
@@ -179,7 +175,7 @@ bool match_hisilicon(char* soc_name, struct system_on_chip* soc) {
else if((tmp = strstr(soc_name, "kirin")) != NULL); else if((tmp = strstr(soc_name, "kirin")) != NULL);
else return false; else return false;
soc->vendor = SOC_VENDOR_KIRIN; soc->soc_vendor = SOC_VENDOR_KIRIN;
SOC_START SOC_START
SOC_EQ(tmp, "hi3620GFC", "K3V2", SOC_HISILICON_3620, soc, 40) SOC_EQ(tmp, "hi3620GFC", "K3V2", SOC_HISILICON_3620, soc, 40)
@@ -221,7 +217,7 @@ bool match_exynos(char* soc_name, struct system_on_chip* soc) {
else if((tmp = strstr(soc_name, "exynos")) != NULL); else if((tmp = strstr(soc_name, "exynos")) != NULL);
else return false; else return false;
soc->vendor = SOC_VENDOR_EXYNOS; soc->soc_vendor = SOC_VENDOR_EXYNOS;
// Because exynos are recently using "exynosXXXX" instead // Because exynos are recently using "exynosXXXX" instead
// of "universalXXXX" as codenames, SOC_EXY_EQ will check for // of "universalXXXX" as codenames, SOC_EXY_EQ will check for
@@ -281,7 +277,7 @@ bool match_mediatek(char* soc_name, struct system_on_chip* soc) {
if((tmp = strstr(soc_name_upper, "MT")) == NULL) if((tmp = strstr(soc_name_upper, "MT")) == NULL)
return false; return false;
soc->vendor = SOC_VENDOR_MEDIATEK; soc->soc_vendor = SOC_VENDOR_MEDIATEK;
SOC_START SOC_START
// Dimensity // // Dimensity //
@@ -464,7 +460,7 @@ bool match_qualcomm(char* soc_name, struct system_on_chip* soc) {
else if((tmp = strstr(soc_name_upper, "QSD")) != NULL); else if((tmp = strstr(soc_name_upper, "QSD")) != NULL);
else return false; else return false;
soc->vendor = SOC_VENDOR_SNAPDRAGON; soc->soc_vendor = SOC_VENDOR_SNAPDRAGON;
SOC_START SOC_START
// Snapdragon S1 // // Snapdragon S1 //
@@ -617,7 +613,7 @@ bool match_allwinner(char* soc_name, struct system_on_chip* soc) {
if((tmp = strstr(soc_name, "sun")) == NULL) if((tmp = strstr(soc_name, "sun")) == NULL)
return false; return false;
soc->vendor = SOC_VENDOR_ALLWINNER; soc->soc_vendor = SOC_VENDOR_ALLWINNER;
SOC_START SOC_START
// SoCs we can detect just with with the name // SoCs we can detect just with with the name
@@ -741,7 +737,7 @@ void try_parse_soc_from_string(struct system_on_chip* soc, int soc_len, char* so
soc->raw_name = emalloc(sizeof(char) * (soc_len + 1)); soc->raw_name = emalloc(sizeof(char) * (soc_len + 1));
strncpy(soc->raw_name, soc_str, soc_len + 1); strncpy(soc->raw_name, soc_str, soc_len + 1);
soc->raw_name[soc_len] = '\0'; soc->raw_name[soc_len] = '\0';
soc->vendor = SOC_VENDOR_UNKNOWN; soc->soc_vendor = SOC_VENDOR_UNKNOWN;
parse_soc_from_string(soc); parse_soc_from_string(soc);
} }
@@ -749,34 +745,34 @@ struct system_on_chip* guess_soc_from_android(struct system_on_chip* soc) {
char tmp[100]; char tmp[100];
int property_len = 0; int property_len = 0;
property_len = android_property_get(PROP_MTK_PLATFORM, (char *) &tmp); property_len = android_property_get("ro.mediatek.platform", (char *) &tmp);
if(property_len > 0) { if(property_len > 0) {
try_parse_soc_from_string(soc, property_len, tmp); try_parse_soc_from_string(soc, property_len, tmp);
if(soc->vendor == SOC_VENDOR_UNKNOWN) printWarn("SoC detection failed using Android property %s: %s", PROP_MTK_PLATFORM, tmp); if(soc->soc_vendor == SOC_VENDOR_UNKNOWN) printWarn("SoC detection failed using Android property ro.mediatek.platform: %s", tmp);
else return soc; else return soc;
} }
// https://github.com/Dr-Noob/cpufetch/issues/253 // https://github.com/Dr-Noob/cpufetch/issues/253
// ro.soc.model might be more reliable than ro.product.board or // ro.soc.model might be more reliable than ro.product.board or
// ro.board.platform, so try with it first // ro.board.platform, so try with it first
property_len = android_property_get(PROP_SOC_MODEL, (char *) &tmp); property_len = android_property_get("ro.soc.model", (char *) &tmp);
if(property_len > 0) { if(property_len > 0) {
try_parse_soc_from_string(soc, property_len, tmp); try_parse_soc_from_string(soc, property_len, tmp);
if(soc->vendor == SOC_VENDOR_UNKNOWN) printWarn("SoC detection failed using Android property %s: %s", PROP_SOC_MODEL, tmp); if(soc->soc_vendor == SOC_VENDOR_UNKNOWN) printWarn("SoC detection failed using Android property ro.soc.model: %s", tmp);
else return soc; else return soc;
} }
property_len = android_property_get(PROP_PRODUCT_BOARD, (char *) &tmp); property_len = android_property_get("ro.product.board", (char *) &tmp);
if(property_len > 0) { if(property_len > 0) {
try_parse_soc_from_string(soc, property_len, tmp); try_parse_soc_from_string(soc, property_len, tmp);
if(soc->vendor == SOC_VENDOR_UNKNOWN) printWarn("SoC detection failed using Android property %s: %s", PROP_PRODUCT_BOARD, tmp); if(soc->soc_vendor == SOC_VENDOR_UNKNOWN) printWarn("SoC detection failed using Android property ro.product.board: %s", tmp);
else return soc; else return soc;
} }
property_len = android_property_get(PROP_BOARD_PLATFORM, (char *) &tmp); property_len = android_property_get("ro.board.platform", (char *) &tmp);
if(property_len > 0) { if(property_len > 0) {
try_parse_soc_from_string(soc, property_len, tmp); try_parse_soc_from_string(soc, property_len, tmp);
if(soc->vendor == SOC_VENDOR_UNKNOWN) printWarn("SoC detection failed using Android property %s: %s", PROP_BOARD_PLATFORM, tmp); if(soc->soc_vendor == SOC_VENDOR_UNKNOWN) printWarn("SoC detection failed using Android property ro.board.platform: %s", tmp);
else return soc; else return soc;
} }
@@ -842,7 +838,7 @@ bool get_rk_soc_from_efuse(struct system_on_chip* soc, char* efuse) {
int index = 0; int index = 0;
while(socFromRK[index].rk_soc != 0x0) { while(socFromRK[index].rk_soc != 0x0) {
if(socFromRK[index].rk_soc == rk_soc) { if(socFromRK[index].rk_soc == rk_soc) {
fill_soc(soc, socFromRK[index].soc.name, socFromRK[index].soc.model, socFromRK[index].soc.process); fill_soc(soc, socFromRK[index].soc.soc_name, socFromRK[index].soc.soc_model, socFromRK[index].soc.process);
return true; return true;
} }
index++; index++;
@@ -889,7 +885,7 @@ struct system_on_chip* guess_soc_from_uarch(struct system_on_chip* soc, struct c
int index = 0; int index = 0;
while(socFromUarch[index].u != UARCH_UNKNOWN) { while(socFromUarch[index].u != UARCH_UNKNOWN) {
if(socFromUarch[index].u == get_uarch(arch)) { if(socFromUarch[index].u == get_uarch(arch)) {
fill_soc(soc, socFromUarch[index].soc.name, socFromUarch[index].soc.model, socFromUarch[index].soc.process); fill_soc(soc, socFromUarch[index].soc.soc_name, socFromUarch[index].soc.soc_model, socFromUarch[index].soc.process);
return soc; return soc;
} }
index++; index++;
@@ -899,103 +895,6 @@ struct system_on_chip* guess_soc_from_uarch(struct system_on_chip* soc, struct c
return soc; return soc;
} }
// Return the dt string without the NULL characters.
char* get_dt_str(char* dt, int filelen) {
char* dt_without_null = (char *) malloc(sizeof(char) * filelen);
memcpy(dt_without_null, dt, filelen);
for (int i=0; i < filelen-1; i++) {
if (dt_without_null[i] == '\0')
dt_without_null[i] = ',';
}
return dt_without_null;
}
bool match_dt(struct system_on_chip* soc, char* dt, int filelen, char* expected_name, char* soc_name, SOC soc_model, int32_t process) {
// The /proc/device-tree/compatible file (passed by dt) uses NULL
// to separate the strings, so we need to make an special case here
// and iterate over the NULL characters, thus iterating over each
// individual compatible strings.
if (strstr(dt, expected_name) != NULL) {
fill_soc(soc, soc_name, soc_model, process);
return true;
}
char *compatible = dt;
char *end_of_dt = dt + filelen;
while ((compatible = strchr(compatible, '\0')) != end_of_dt) {
compatible++;
if (strstr(compatible, expected_name) != NULL) {
fill_soc(soc, soc_name, soc_model, process);
return true;
}
}
return false;
}
#define DT_START if (false) {}
#define DT_EQ(dt, filelen, soc, expected_name, soc_name, soc_model, process) \
else if (match_dt(soc, dt, filelen, expected_name, soc_name, soc_model, process)) return soc;
#define DT_END(dt, filelen) else { printWarn("guess_soc_from_devtree: No match found for '%s'", get_dt_str(dt, filelen)); return soc; }
// TODO: Move this to doc
// The number of fields seems non-standard, so for now it seems wiser
// to just get the entire string with all fields and just look for the
// substring.
// TODO: Implement this by going trough NULL-separated fields rather than
// using strstr.
// https://trac.gateworks.com/wiki/linux/devicetree
struct system_on_chip* guess_soc_from_devtree(struct system_on_chip* soc) {
int len;
char* dt = get_devtree_compatible(&len);
if (dt == NULL) {
return soc;
}
DT_START
// The following are internal codenames of Asahi Linux
// https://github.com/AsahiLinux/docs/wiki/Codenames
// https://github.com/Dr-Noob/cpufetch/issues/263
DT_EQ(dt, len, soc, "apple,t8103", "M1", SOC_APPLE_M1, 5)
DT_EQ(dt, len, soc, "apple,t6000", "M1 Pro", SOC_APPLE_M1_PRO, 5)
DT_EQ(dt, len, soc, "apple,t6001", "M1 Max", SOC_APPLE_M1_MAX, 5)
DT_EQ(dt, len, soc, "apple,t6002", "M1 Ultra", SOC_APPLE_M1_ULTRA, 5)
DT_EQ(dt, len, soc, "apple,t8112", "M2", SOC_APPLE_M2, 5)
DT_EQ(dt, len, soc, "apple,t6020", "M2 Pro", SOC_APPLE_M2_PRO, 5)
DT_EQ(dt, len, soc, "apple,t6021", "M2 Max", SOC_APPLE_M2_MAX, 5)
DT_EQ(dt, len, soc, "apple,t6022", "M2 Ultra", SOC_APPLE_M2_ULTRA, 5)
DT_EQ(dt, len, soc, "apple,t8122", "M3", SOC_APPLE_M3, 3)
DT_EQ(dt, len, soc, "apple,t6030", "M3 Pro", SOC_APPLE_M3_PRO, 3)
DT_EQ(dt, len, soc, "apple,t6031", "M3 Max", SOC_APPLE_M3_MAX, 3)
DT_EQ(dt, len, soc, "apple,t6034", "M3 Max", SOC_APPLE_M3_MAX, 3)
// NVIDIA
DT_EQ(dt, len, soc, "nvidia,tegra234", "Tegra Orin", SOC_TEGRA_ORIN, 8) // https://www.phoronix.com/news/NVIDIA-Orin-Tegra234-Audio, https://github.com/Dr-Noob/cpufetch/issues/275, https://en.wikipedia.org/wiki/Tegra#Orin
// Qualcomm now also in devtree...
// TODO: Integrate this with SOC_EQ
DT_EQ(dt, len, soc, "qcom,sc8280", "8cx Gen 3", SOC_SNAPD_SC8280XP, 5)
// grep -oR -h --color -E '"fsl,.*' *.dtsi | sort | uniq | cut -d ',' -f1-2 | grep -v '-'
// https://elixir.bootlin.com/linux/v6.10.6/source/arch/arm64/boot/dts/freescale
DT_EQ(dt, len, soc, "fsl,imx8qm", "i.MX 8QuadMax", SOC_NXP_IMX8QM, 28) // https://www.nxp.com/docs/en/fact-sheet/IMX8FAMFS.pdf
DT_EQ(dt, len, soc, "fsl,imx8qp", "i.MX 8QuadPlus", SOC_NXP_IMX8QP, 28) // Actually not in dtsi, compatible string is just a guess
DT_EQ(dt, len, soc, "fsl,imx8mp", "i.MX 8M Plus", SOC_NXP_IMX8MP, 14) // https://www.nxp.com/docs/en/fact-sheet/IMX8MPLUSFS.pdf https://github.com/Dr-Noob/cpufetch/issues/261
DT_EQ(dt, len, soc, "fsl,imx8mn", "i.MX 8M Nano", SOC_NXP_IMX8MN, NA)
DT_EQ(dt, len, soc, "fsl,imx8mm", "i.MX 8M Mini", SOC_NXP_IMX8MM, NA) // https://www.nxp.com/docs/en/fact-sheet/IMX8MMINIFS.pdf
DT_EQ(dt, len, soc, "fsl,imx8dxp", "i.MX 8DualXPlus", SOC_NXP_IMX8DXP, NA)
DT_EQ(dt, len, soc, "fsl,imx8qxp", "i.MX 8QuadXPlus", SOC_NXP_IMX8QXP, NA)
DT_EQ(dt, len, soc, "fsl,imx93", "i.MX 93", SOC_NXP_IMX93, NA)
// TODO: Add more Amlogic SoCs: https://elixir.bootlin.com/linux/v6.10.6/source/arch/arm64/boot/dts/amlogic
// https://github.com/Dr-Noob/cpufetch/issues/268
// https://www.amlogic.com/#Products/393/index.html
// https://wikimovel.com/index.php/Amlogic_A311D
DT_EQ(dt, len, soc, "amlogic,a311d", "A311D", SOC_AMLOGIC_A311D, 12)
// Marvell
DT_EQ(dt, len, soc, "marvell,armada3700", "Armada 3700", SOC_MARVELL_A3700, 28) // http://wiki.espressobin.net/tiki-index.php?page=Armada+3700 (pdf), https://github.com/Dr-Noob/cpufetch/issues/279
DT_END(dt, len)
}
struct system_on_chip* guess_soc_from_pci(struct system_on_chip* soc, struct cpuInfo* cpu) { struct system_on_chip* guess_soc_from_pci(struct system_on_chip* soc, struct cpuInfo* cpu) {
struct pci_devices * pci = get_pci_devices(); struct pci_devices * pci = get_pci_devices();
if (pci == NULL) { if (pci == NULL) {
@@ -1023,7 +922,7 @@ struct system_on_chip* guess_soc_from_pci(struct system_on_chip* soc, struct cpu
if (socFromPCI[index].vendor_id == dev->vendor_id && if (socFromPCI[index].vendor_id == dev->vendor_id &&
socFromPCI[index].device_id == dev->device_id) { socFromPCI[index].device_id == dev->device_id) {
fill_soc(soc, socFromPCI[index].soc.name, socFromPCI[index].soc.model, socFromPCI[index].soc.process); fill_soc(soc, socFromPCI[index].soc.soc_name, socFromPCI[index].soc.soc_model, socFromPCI[index].soc.process);
return soc; return soc;
} }
} }
@@ -1107,12 +1006,12 @@ struct system_on_chip* guess_soc_apple(struct system_on_chip* soc) {
} }
else { else {
printBug("Found invalid physical cpu number: %d", physicalcpu); printBug("Found invalid physical cpu number: %d", physicalcpu);
soc->vendor = SOC_VENDOR_UNKNOWN; soc->soc_vendor = SOC_VENDOR_UNKNOWN;
} }
} }
else { else {
printBugCheckRelease("Found invalid cpu_subfamily: 0x%.8X", cpu_subfamily); printBugCheckRelease("Found invalid cpu_subfamily: 0x%.8X", cpu_subfamily);
soc->vendor = SOC_VENDOR_UNKNOWN; soc->soc_vendor = SOC_VENDOR_UNKNOWN;
} }
} }
else if(cpu_family == CPUFAMILY_ARM_AVALANCHE_BLIZZARD) { else if(cpu_family == CPUFAMILY_ARM_AVALANCHE_BLIZZARD) {
@@ -1134,21 +1033,19 @@ struct system_on_chip* guess_soc_apple(struct system_on_chip* soc) {
} }
else { else {
printBug("Found invalid physical cpu number: %d", physicalcpu); printBug("Found invalid physical cpu number: %d", physicalcpu);
soc->vendor = SOC_VENDOR_UNKNOWN; soc->soc_vendor = SOC_VENDOR_UNKNOWN;
} }
} }
else { else {
printBugCheckRelease("Found invalid cpu_subfamily: 0x%.8X", cpu_subfamily); printBugCheckRelease("Found invalid cpu_subfamily: 0x%.8X", cpu_subfamily);
soc->vendor = SOC_VENDOR_UNKNOWN; soc->soc_vendor = SOC_VENDOR_UNKNOWN;
} }
} }
else if(cpu_family == CPUFAMILY_ARM_EVEREST_SAWTOOTH || else if(cpu_family == CPUFAMILY_ARM_EVEREST_SAWTOOTH ||
cpu_family == CPUFAMILY_ARM_EVEREST_SAWTOOTH_2 ||
cpu_family == CPUFAMILY_ARM_EVEREST_SAWTOOTH_PRO || cpu_family == CPUFAMILY_ARM_EVEREST_SAWTOOTH_PRO ||
cpu_family == CPUFAMILY_ARM_EVEREST_SAWTOOTH_MAX) { cpu_family == CPUFAMILY_ARM_EVEREST_SAWTOOTH_MAX) {
// Check M3 version // Check M3 version
if(cpu_family == CPUFAMILY_ARM_EVEREST_SAWTOOTH || if(cpu_family == CPUFAMILY_ARM_EVEREST_SAWTOOTH) {
cpu_family == CPUFAMILY_ARM_EVEREST_SAWTOOTH_2) {
fill_soc(soc, "M3", SOC_APPLE_M3, 3); fill_soc(soc, "M3", SOC_APPLE_M3, 3);
} }
else if(cpu_family == CPUFAMILY_ARM_EVEREST_SAWTOOTH_PRO) { else if(cpu_family == CPUFAMILY_ARM_EVEREST_SAWTOOTH_PRO) {
@@ -1159,12 +1056,12 @@ struct system_on_chip* guess_soc_apple(struct system_on_chip* soc) {
} }
else { else {
printBugCheckRelease("Found invalid cpu_family: 0x%.8X", cpu_family); printBugCheckRelease("Found invalid cpu_family: 0x%.8X", cpu_family);
soc->vendor = SOC_VENDOR_UNKNOWN; soc->soc_vendor = SOC_VENDOR_UNKNOWN;
} }
} }
else { else {
printBugCheckRelease("Found invalid cpu_family: 0x%.8X", cpu_family); printBugCheckRelease("Found invalid cpu_family: 0x%.8X", cpu_family);
soc->vendor = SOC_VENDOR_UNKNOWN; soc->soc_vendor = SOC_VENDOR_UNKNOWN;
} }
return soc; return soc;
} }
@@ -1173,15 +1070,15 @@ struct system_on_chip* guess_soc_apple(struct system_on_chip* soc) {
struct system_on_chip* get_soc(struct cpuInfo* cpu) { struct system_on_chip* get_soc(struct cpuInfo* cpu) {
struct system_on_chip* soc = emalloc(sizeof(struct system_on_chip)); struct system_on_chip* soc = emalloc(sizeof(struct system_on_chip));
soc->raw_name = NULL; soc->raw_name = NULL;
soc->vendor = SOC_VENDOR_UNKNOWN; soc->soc_vendor = SOC_VENDOR_UNKNOWN;
soc->model = SOC_MODEL_UNKNOWN; soc->soc_model = SOC_MODEL_UNKNOWN;
soc->process = UNKNOWN; soc->process = UNKNOWN;
#ifdef __linux__ #ifdef __linux__
bool isRPi = is_raspberry_pi(); bool isRPi = is_raspberry_pi();
if(isRPi) { if(isRPi) {
soc = guess_soc_raspbery_pi(soc); soc = guess_soc_raspbery_pi(soc);
if(soc->vendor == SOC_VENDOR_UNKNOWN) { if(soc->soc_vendor == SOC_VENDOR_UNKNOWN) {
printErr("[RPi] SoC detection failed using revision code, falling back to cpuinfo detection"); printErr("[RPi] SoC detection failed using revision code, falling back to cpuinfo detection");
} }
else { else {
@@ -1190,7 +1087,7 @@ struct system_on_chip* get_soc(struct cpuInfo* cpu) {
} }
soc = guess_soc_from_cpuinfo(soc); soc = guess_soc_from_cpuinfo(soc);
if(soc->vendor == SOC_VENDOR_UNKNOWN) { if(soc->soc_vendor == SOC_VENDOR_UNKNOWN) {
if(soc->raw_name != NULL) { if(soc->raw_name != NULL) {
printWarn("SoC detection failed using /proc/cpuinfo: Found '%s' string", soc->raw_name); printWarn("SoC detection failed using /proc/cpuinfo: Found '%s' string", soc->raw_name);
} }
@@ -1202,30 +1099,26 @@ struct system_on_chip* get_soc(struct cpuInfo* cpu) {
if(soc->raw_name == NULL) { if(soc->raw_name == NULL) {
printWarn("SoC detection failed using Android: No string found"); printWarn("SoC detection failed using Android: No string found");
} }
else if(soc->vendor == SOC_VENDOR_UNKNOWN) { else if(soc->soc_vendor == SOC_VENDOR_UNKNOWN) {
printWarn("SoC detection failed using Android: Found '%s' string", soc->raw_name); printWarn("SoC detection failed using Android: Found '%s' string", soc->raw_name);
} }
#endif // ifdef __ANDROID__ #endif // ifdef __ANDROID__
// If previous steps failed, try with the device tree
if (soc->vendor == SOC_VENDOR_UNKNOWN) {
soc = guess_soc_from_devtree(soc);
}
// If previous steps failed, try with nvmem // If previous steps failed, try with nvmem
if(soc->vendor == SOC_VENDOR_UNKNOWN) { if(soc->soc_vendor == SOC_VENDOR_UNKNOWN) {
soc = guess_soc_from_nvmem(soc); soc = guess_soc_from_nvmem(soc);
} }
// If previous steps failed, try infering it from the microarchitecture // If previous steps failed, try infering it from the microarchitecture
if(soc->vendor == SOC_VENDOR_UNKNOWN) { if(soc->soc_vendor == SOC_VENDOR_UNKNOWN) {
soc = guess_soc_from_uarch(soc, cpu); soc = guess_soc_from_uarch(soc, cpu);
} }
// If previous steps failed, try infering it from the pci device id // If previous steps failed, try infering it from the pci device id
if(soc->vendor == SOC_VENDOR_UNKNOWN) { if(soc->soc_vendor == SOC_VENDOR_UNKNOWN) {
soc = guess_soc_from_pci(soc, cpu); soc = guess_soc_from_pci(soc, cpu);
} }
} }
#elif defined __APPLE__ || __MACH__ #elif defined __APPLE__ || __MACH__
soc = guess_soc_apple(soc); soc = guess_soc_apple(soc);
if(soc->vendor == SOC_VENDOR_UNKNOWN) { if(soc->soc_vendor == SOC_VENDOR_UNKNOWN) {
printWarn("SoC detection failed using cpu_subfamily"); printWarn("SoC detection failed using cpu_subfamily");
} }
else { else {
@@ -1233,7 +1126,7 @@ struct system_on_chip* get_soc(struct cpuInfo* cpu) {
} }
#endif // ifdef __linux__ #endif // ifdef __linux__
if(soc->model == SOC_MODEL_UNKNOWN) { if(soc->soc_model == SOC_MODEL_UNKNOWN) {
// raw_name might not be NULL, but if we were unable to find // raw_name might not be NULL, but if we were unable to find
// the exact SoC, just print "Unkwnown" // the exact SoC, just print "Unkwnown"
soc->raw_name = emalloc(sizeof(char) * (strlen(STRING_UNKNOWN)+1)); soc->raw_name = emalloc(sizeof(char) * (strlen(STRING_UNKNOWN)+1));

22
src/arm/socs.h
View File

@@ -318,7 +318,6 @@ enum {
SOC_SNAPD_SM8550_AB, SOC_SNAPD_SM8550_AB,
SOC_SNAPD_SM8635, SOC_SNAPD_SM8635,
SOC_SNAPD_SM8650_AB, SOC_SNAPD_SM8650_AB,
SOC_SNAPD_SC8280XP,
// APPLE // APPLE
SOC_APPLE_M1, SOC_APPLE_M1,
SOC_APPLE_M1_PRO, SOC_APPLE_M1_PRO,
@@ -381,22 +380,8 @@ enum {
SOC_GOOGLE_TENSOR_G3, SOC_GOOGLE_TENSOR_G3,
// NVIDIA, // NVIDIA,
SOC_TEGRA_X1, SOC_TEGRA_X1,
SOC_TEGRA_ORIN,
// ALTRA // ALTRA
SOC_AMPERE_ALTRA, SOC_AMPERE_ALTRA,
// NXP
SOC_NXP_IMX8QM,
SOC_NXP_IMX8QP,
SOC_NXP_IMX8MP,
SOC_NXP_IMX8MN,
SOC_NXP_IMX8MM,
SOC_NXP_IMX8DXP,
SOC_NXP_IMX8QXP,
SOC_NXP_IMX93,
// AMLOGIC
SOC_AMLOGIC_A311D,
// MARVELL
SOC_MARVELL_A3700,
// UNKNOWN // UNKNOWN
SOC_MODEL_UNKNOWN SOC_MODEL_UNKNOWN
}; };
@@ -407,16 +392,13 @@ inline static VENDOR get_soc_vendor_from_soc(SOC soc) {
else if(soc >= SOC_KUNPENG_920 && soc <= SOC_KUNPENG_930) return SOC_VENDOR_KUNPENG; else if(soc >= SOC_KUNPENG_920 && soc <= SOC_KUNPENG_930) return SOC_VENDOR_KUNPENG;
else if(soc >= SOC_EXYNOS_3475 && soc <= SOC_EXYNOS_880) return SOC_VENDOR_EXYNOS; else if(soc >= SOC_EXYNOS_3475 && soc <= SOC_EXYNOS_880) return SOC_VENDOR_EXYNOS;
else if(soc >= SOC_MTK_MT6893 && soc <= SOC_MTK_MT8783) return SOC_VENDOR_MEDIATEK; else if(soc >= SOC_MTK_MT6893 && soc <= SOC_MTK_MT8783) return SOC_VENDOR_MEDIATEK;
else if(soc >= SOC_SNAPD_QSD8650 && soc <= SOC_SNAPD_SC8280XP) return SOC_VENDOR_SNAPDRAGON; else if(soc >= SOC_SNAPD_QSD8650 && soc <= SOC_SNAPD_SM8650_AB) return SOC_VENDOR_SNAPDRAGON;
else if(soc >= SOC_APPLE_M1 && soc <= SOC_APPLE_M3_MAX) return SOC_VENDOR_APPLE; else if(soc >= SOC_APPLE_M1 && soc <= SOC_APPLE_M3_MAX) return SOC_VENDOR_APPLE;
else if(soc >= SOC_ALLWINNER_A10 && soc <= SOC_ALLWINNER_R328) return SOC_VENDOR_ALLWINNER; else if(soc >= SOC_ALLWINNER_A10 && soc <= SOC_ALLWINNER_R328) return SOC_VENDOR_ALLWINNER;
else if(soc >= SOC_ROCKCHIP_3288 && soc <= SOC_ROCKCHIP_3588) return SOC_VENDOR_ROCKCHIP; else if(soc >= SOC_ROCKCHIP_3288 && soc <= SOC_ROCKCHIP_3588) return SOC_VENDOR_ROCKCHIP;
else if(soc >= SOC_GOOGLE_TENSOR && soc <= SOC_GOOGLE_TENSOR_G3) return SOC_VENDOR_GOOGLE; else if(soc >= SOC_GOOGLE_TENSOR && soc <= SOC_GOOGLE_TENSOR_G3) return SOC_VENDOR_GOOGLE;
else if(soc >= SOC_TEGRA_X1 && soc <= SOC_TEGRA_ORIN) return SOC_VENDOR_NVIDIA; else if(soc >= SOC_TEGRA_X1 && soc <= SOC_TEGRA_X1) return SOC_VENDOR_NVIDIA;
else if(soc >= SOC_AMPERE_ALTRA && soc <= SOC_AMPERE_ALTRA) return SOC_VENDOR_AMPERE; else if(soc >= SOC_AMPERE_ALTRA && soc <= SOC_AMPERE_ALTRA) return SOC_VENDOR_AMPERE;
else if(soc >= SOC_NXP_IMX8QM && soc <= SOC_NXP_IMX93) return SOC_VENDOR_NXP;
else if(soc >= SOC_AMLOGIC_A311D && soc <= SOC_AMLOGIC_A311D) return SOC_VENDOR_AMLOGIC;
else if(soc >= SOC_MARVELL_A3700 && soc <= SOC_MARVELL_A3700) return SOC_VENDOR_MARVELL;
return SOC_VENDOR_UNKNOWN; return SOC_VENDOR_UNKNOWN;
} }

69
src/arm/uarch.c
View File

@@ -33,9 +33,7 @@ enum {
ISA_ARMv8_3_A, ISA_ARMv8_3_A,
ISA_ARMv8_4_A, ISA_ARMv8_4_A,
ISA_ARMv8_5_A, ISA_ARMv8_5_A,
ISA_ARMv8_6_A, ISA_ARMv9_A
ISA_ARMv9_A,
ISA_ARMv9_2_A
}; };
static const ISA isas_uarch[] = { static const ISA isas_uarch[] = {
@@ -63,26 +61,15 @@ static const ISA isas_uarch[] = {
[UARCH_CORTEX_A76] = ISA_ARMv8_2_A, [UARCH_CORTEX_A76] = ISA_ARMv8_2_A,
[UARCH_CORTEX_A77] = ISA_ARMv8_2_A, [UARCH_CORTEX_A77] = ISA_ARMv8_2_A,
[UARCH_CORTEX_A78] = ISA_ARMv8_2_A, [UARCH_CORTEX_A78] = ISA_ARMv8_2_A,
[UARCH_CORTEX_A78C] = ISA_ARMv8_2_A,
[UARCH_CORTEX_A78AE] = ISA_ARMv8_2_A,
[UARCH_CORTEX_A510] = ISA_ARMv9_A, [UARCH_CORTEX_A510] = ISA_ARMv9_A,
[UARCH_CORTEX_A520] = ISA_ARMv9_2_A,
[UARCH_CORTEX_A710] = ISA_ARMv9_A, [UARCH_CORTEX_A710] = ISA_ARMv9_A,
[UARCH_CORTEX_A715] = ISA_ARMv9_A, [UARCH_CORTEX_A715] = ISA_ARMv9_A,
[UARCH_CORTEX_A720] = ISA_ARMv9_2_A,
[UARCH_CORTEX_A725] = ISA_ARMv9_2_A,
[UARCH_CORTEX_X1] = ISA_ARMv8_2_A, [UARCH_CORTEX_X1] = ISA_ARMv8_2_A,
[UARCH_CORTEX_X1C] = ISA_ARMv8_2_A, // Assuming same as X1
[UARCH_CORTEX_X2] = ISA_ARMv9_A, [UARCH_CORTEX_X2] = ISA_ARMv9_A,
[UARCH_CORTEX_X3] = ISA_ARMv9_A, [UARCH_CORTEX_X3] = ISA_ARMv9_A,
[UARCH_CORTEX_X4] = ISA_ARMv9_2_A,
[UARCH_CORTEX_X925] = ISA_ARMv9_2_A,
[UARCH_NEOVERSE_N1] = ISA_ARMv8_2_A, [UARCH_NEOVERSE_N1] = ISA_ARMv8_2_A,
[UARCH_NEOVERSE_N2] = ISA_ARMv9_A,
[UARCH_NEOVERSE_E1] = ISA_ARMv8_2_A, [UARCH_NEOVERSE_E1] = ISA_ARMv8_2_A,
[UARCH_NEOVERSE_V1] = ISA_ARMv8_4_A, [UARCH_NEOVERSE_V1] = ISA_ARMv8_4_A,
[UARCH_NEOVERSE_V2] = ISA_ARMv9_A,
[UARCH_NEOVERSE_V3] = ISA_ARMv9_2_A,
[UARCH_BRAHMA_B15] = ISA_ARMv7_A, // Same as Cortex-A15 [UARCH_BRAHMA_B15] = ISA_ARMv7_A, // Same as Cortex-A15
[UARCH_BRAHMA_B53] = ISA_ARMv8_A, // Same as Cortex-A53 [UARCH_BRAHMA_B53] = ISA_ARMv8_A, // Same as Cortex-A53
[UARCH_THUNDERX] = ISA_ARMv8_A, [UARCH_THUNDERX] = ISA_ARMv8_A,
@@ -106,10 +93,8 @@ static const ISA isas_uarch[] = {
[UARCH_EXYNOS_M5] = ISA_ARMv8_2_A, [UARCH_EXYNOS_M5] = ISA_ARMv8_2_A,
[UARCH_ICESTORM] = ISA_ARMv8_5_A, // https://github.com/llvm/llvm-project/blob/main/llvm/include/llvm/Support/AArch64TargetParser.def [UARCH_ICESTORM] = ISA_ARMv8_5_A, // https://github.com/llvm/llvm-project/blob/main/llvm/include/llvm/Support/AArch64TargetParser.def
[UARCH_FIRESTORM] = ISA_ARMv8_5_A, [UARCH_FIRESTORM] = ISA_ARMv8_5_A,
[UARCH_BLIZZARD] = ISA_ARMv8_6_A, // https://github.com/llvm/llvm-project/blob/main/llvm/unittests/TargetParser/TargetParserTest.cpp [UARCH_BLIZZARD] = ISA_ARMv8_5_A, // Not confirmed
[UARCH_AVALANCHE] = ISA_ARMv8_6_A, // https://github.com/llvm/llvm-project/blob/main/llvm/unittests/TargetParser/TargetParserTest.cpp [UARCH_AVALANCHE] = ISA_ARMv8_5_A,
[UARCH_SAWTOOTH] = ISA_ARMv8_6_A, // https://github.com/llvm/llvm-project/blob/main/llvm/unittests/TargetParser/TargetParserTest.cpp
[UARCH_EVEREST] = ISA_ARMv8_6_A, // https://github.com/llvm/llvm-project/blob/main/llvm/unittests/TargetParser/TargetParserTest.cpp
[UARCH_PJ4] = ISA_ARMv7_A, [UARCH_PJ4] = ISA_ARMv7_A,
[UARCH_XIAOMI] = ISA_ARMv8_A, [UARCH_XIAOMI] = ISA_ARMv8_A,
}; };
@@ -127,9 +112,7 @@ static char* isas_string[] = {
[ISA_ARMv8_3_A] = "ARMv8.3", [ISA_ARMv8_3_A] = "ARMv8.3",
[ISA_ARMv8_4_A] = "ARMv8.4", [ISA_ARMv8_4_A] = "ARMv8.4",
[ISA_ARMv8_5_A] = "ARMv8.5", [ISA_ARMv8_5_A] = "ARMv8.5",
[ISA_ARMv8_6_A] = "ARMv8.6", [ISA_ARMv9_A] = "ARMv9"
[ISA_ARMv9_A] = "ARMv9",
[ISA_ARMv9_2_A] = "ARMv9.2",
}; };
#define UARCH_START if (false) {} #define UARCH_START if (false) {}
@@ -201,24 +184,13 @@ struct uarch* get_uarch_from_midr(uint32_t midr, struct cpuInfo* cpu) {
CHECK_UARCH(arch, cpu, 'A', 0xD0E, NA, NA, "Cortex-A76", UARCH_CORTEX_A76, CPU_VENDOR_ARM) CHECK_UARCH(arch, cpu, 'A', 0xD0E, NA, NA, "Cortex-A76", UARCH_CORTEX_A76, CPU_VENDOR_ARM)
CHECK_UARCH(arch, cpu, 'A', 0xD40, NA, NA, "Neoverse V1", UARCH_NEOVERSE_V1, CPU_VENDOR_ARM) CHECK_UARCH(arch, cpu, 'A', 0xD40, NA, NA, "Neoverse V1", UARCH_NEOVERSE_V1, CPU_VENDOR_ARM)
CHECK_UARCH(arch, cpu, 'A', 0xD41, NA, NA, "Cortex-A78", UARCH_CORTEX_A78, CPU_VENDOR_ARM) CHECK_UARCH(arch, cpu, 'A', 0xD41, NA, NA, "Cortex-A78", UARCH_CORTEX_A78, CPU_VENDOR_ARM)
CHECK_UARCH(arch, cpu, 'A', 0xD42, NA, NA, "Cortex-A78AE", UARCH_CORTEX_A78AE, CPU_VENDOR_ARM)
CHECK_UARCH(arch, cpu, 'A', 0xD44, NA, NA, "Cortex-X1", UARCH_CORTEX_X1, CPU_VENDOR_ARM) CHECK_UARCH(arch, cpu, 'A', 0xD44, NA, NA, "Cortex-X1", UARCH_CORTEX_X1, CPU_VENDOR_ARM)
CHECK_UARCH(arch, cpu, 'A', 0xD46, NA, NA, "CortexA510", UARCH_CORTEX_A510, CPU_VENDOR_ARM) CHECK_UARCH(arch, cpu, 'A', 0xD46, NA, NA, "CortexA510", UARCH_CORTEX_A510, CPU_VENDOR_ARM)
CHECK_UARCH(arch, cpu, 'A', 0xD47, NA, NA, "CortexA710", UARCH_CORTEX_A710, CPU_VENDOR_ARM) CHECK_UARCH(arch, cpu, 'A', 0xD47, NA, NA, "CortexA710", UARCH_CORTEX_A710, CPU_VENDOR_ARM)
CHECK_UARCH(arch, cpu, 'A', 0xD48, NA, NA, "Cortex-X2", UARCH_CORTEX_X2, CPU_VENDOR_ARM) CHECK_UARCH(arch, cpu, 'A', 0xD48, NA, NA, "Cortex-X2", UARCH_CORTEX_X2, CPU_VENDOR_ARM)
CHECK_UARCH(arch, cpu, 'A', 0xD49, NA, NA, "Neoverse N2", UARCH_NEOVERSE_N2, CPU_VENDOR_ARM)
CHECK_UARCH(arch, cpu, 'A', 0xD4A, NA, NA, "Neoverse E1", UARCH_NEOVERSE_E1, CPU_VENDOR_ARM) CHECK_UARCH(arch, cpu, 'A', 0xD4A, NA, NA, "Neoverse E1", UARCH_NEOVERSE_E1, CPU_VENDOR_ARM)
CHECK_UARCH(arch, cpu, 'A', 0xD4B, NA, NA, "Cortex-A78C", UARCH_CORTEX_A78C, CPU_VENDOR_ARM)
CHECK_UARCH(arch, cpu, 'A', 0xD4C, NA, NA, "Cortex-X1C", UARCH_CORTEX_X1C, CPU_VENDOR_ARM)
CHECK_UARCH(arch, cpu, 'A', 0xD4D, NA, NA, "Cortex-A715", UARCH_CORTEX_A715, CPU_VENDOR_ARM) CHECK_UARCH(arch, cpu, 'A', 0xD4D, NA, NA, "Cortex-A715", UARCH_CORTEX_A715, CPU_VENDOR_ARM)
CHECK_UARCH(arch, cpu, 'A', 0xD4E, NA, NA, "Cortex-X3", UARCH_CORTEX_X3, CPU_VENDOR_ARM) CHECK_UARCH(arch, cpu, 'A', 0xD4E, NA, NA, "Cortex-X3", UARCH_CORTEX_X3, CPU_VENDOR_ARM)
CHECK_UARCH(arch, cpu, 'A', 0xD4F, NA, NA, "Neoverse V2", UARCH_NEOVERSE_V2, CPU_VENDOR_ARM)
CHECK_UARCH(arch, cpu, 'A', 0xD80, NA, NA, "Cortex-A520", UARCH_CORTEX_A520, CPU_VENDOR_ARM)
CHECK_UARCH(arch, cpu, 'A', 0xD81, NA, NA, "Cortex-A720", UARCH_CORTEX_A720, CPU_VENDOR_ARM)
CHECK_UARCH(arch, cpu, 'A', 0xD82, NA, NA, "Cortex-X4", UARCH_CORTEX_X4, CPU_VENDOR_ARM)
CHECK_UARCH(arch, cpu, 'A', 0xD84, NA, NA, "Neoverse V3", UARCH_NEOVERSE_V3, CPU_VENDOR_ARM)
CHECK_UARCH(arch, cpu, 'A', 0xD85, NA, NA, "Cortex-X925", UARCH_CORTEX_X925, CPU_VENDOR_ARM)
CHECK_UARCH(arch, cpu, 'A', 0xD87, NA, NA, "Cortex-A725", UARCH_CORTEX_A725, CPU_VENDOR_ARM)
CHECK_UARCH(arch, cpu, 'B', 0x00F, NA, NA, "Brahma B15", UARCH_BRAHMA_B15, CPU_VENDOR_BROADCOM) CHECK_UARCH(arch, cpu, 'B', 0x00F, NA, NA, "Brahma B15", UARCH_BRAHMA_B15, CPU_VENDOR_BROADCOM)
CHECK_UARCH(arch, cpu, 'B', 0x100, NA, NA, "Brahma B53", UARCH_BRAHMA_B53, CPU_VENDOR_BROADCOM) CHECK_UARCH(arch, cpu, 'B', 0x100, NA, NA, "Brahma B53", UARCH_BRAHMA_B53, CPU_VENDOR_BROADCOM)
@@ -276,8 +248,6 @@ struct uarch* get_uarch_from_midr(uint32_t midr, struct cpuInfo* cpu) {
CHECK_UARCH(arch, cpu, 'a', 0x022, NA, NA, "Icestorm", UARCH_ICESTORM, CPU_VENDOR_APPLE) CHECK_UARCH(arch, cpu, 'a', 0x022, NA, NA, "Icestorm", UARCH_ICESTORM, CPU_VENDOR_APPLE)
CHECK_UARCH(arch, cpu, 'a', 0x023, NA, NA, "Firestorm", UARCH_FIRESTORM, CPU_VENDOR_APPLE) CHECK_UARCH(arch, cpu, 'a', 0x023, NA, NA, "Firestorm", UARCH_FIRESTORM, CPU_VENDOR_APPLE)
CHECK_UARCH(arch, cpu, 'a', 0x024, NA, NA, "Icestorm", UARCH_ICESTORM, CPU_VENDOR_APPLE) // https://github.com/Dr-Noob/cpufetch/issues/263
CHECK_UARCH(arch, cpu, 'a', 0x025, NA, NA, "Firestorm", UARCH_FIRESTORM, CPU_VENDOR_APPLE) // https://github.com/Dr-Noob/cpufetch/issues/263
CHECK_UARCH(arch, cpu, 'a', 0x030, NA, NA, "Blizzard", UARCH_BLIZZARD, CPU_VENDOR_APPLE) CHECK_UARCH(arch, cpu, 'a', 0x030, NA, NA, "Blizzard", UARCH_BLIZZARD, CPU_VENDOR_APPLE)
CHECK_UARCH(arch, cpu, 'a', 0x031, NA, NA, "Avalanche", UARCH_AVALANCHE, CPU_VENDOR_APPLE) CHECK_UARCH(arch, cpu, 'a', 0x031, NA, NA, "Avalanche", UARCH_AVALANCHE, CPU_VENDOR_APPLE)
CHECK_UARCH(arch, cpu, 'a', 0x048, NA, NA, "Sawtooth", UARCH_SAWTOOTH, CPU_VENDOR_APPLE) CHECK_UARCH(arch, cpu, 'a', 0x048, NA, NA, "Sawtooth", UARCH_SAWTOOTH, CPU_VENDOR_APPLE)
@@ -292,7 +262,14 @@ struct uarch* get_uarch_from_midr(uint32_t midr, struct cpuInfo* cpu) {
} }
bool is_ARMv8_or_newer(struct cpuInfo* cpu) { bool is_ARMv8_or_newer(struct cpuInfo* cpu) {
return cpu->arch->isa >= ISA_ARMv8_A; return cpu->arch->isa == ISA_ARMv8_A ||
cpu->arch->isa == ISA_ARMv8_A_AArch32 ||
cpu->arch->isa == ISA_ARMv8_1_A ||
cpu->arch->isa == ISA_ARMv8_2_A ||
cpu->arch->isa == ISA_ARMv8_3_A ||
cpu->arch->isa == ISA_ARMv8_4_A ||
cpu->arch->isa == ISA_ARMv8_5_A ||
cpu->arch->isa == ISA_ARMv9_A;
} }
bool has_fma_support(struct cpuInfo* cpu) { bool has_fma_support(struct cpuInfo* cpu) {
@@ -305,13 +282,18 @@ int get_vpus_width(struct cpuInfo* cpu) {
// If the CPU has NEON, width can be 64 or 128 [1]. // If the CPU has NEON, width can be 64 or 128 [1].
// In >= ARMv8, NEON are 128 bits width [2] // In >= ARMv8, NEON are 128 bits width [2]
// If the CPU has SVE/SVE2, width can be between 128-2048 [3], // If the CPU has SVE/SVE2, width can be between 128-2048 [3],
// so we get the exact value from cntb [4] // so we must check the exact width depending on
// the exact chip (Neoverse V1 uses 256b implementations.)
// //
// [1] https://en.wikipedia.org/wiki/ARM_architecture_family#Advanced_SIMD_(Neon) // [1] https://en.wikipedia.org/wiki/ARM_architecture_family#Advanced_SIMD_(Neon)
// [2] https://developer.arm.com/documentation/102474/0100/Fundamentals-of-Armv8-Neon-technology // [2] https://developer.arm.com/documentation/102474/0100/Fundamentals-of-Armv8-Neon-technology
// [3] https://www.anandtech.com/show/16640/arm-announces-neoverse-v1-n2-platforms-cpus-cmn700-mesh/5 // [3] https://www.anandtech.com/show/16640/arm-announces-neoverse-v1-n2-platforms-cpus-cmn700-mesh/5
// [4] https://developer.arm.com/documentation/ddi0596/2020-12/SVE-Instructions/CNTB--CNTD--CNTH--CNTW--Set-scalar-to-multiple-of-predicate-constraint-element-count-
MICROARCH ua = cpu->arch->uarch;
switch(ua) {
case UARCH_NEOVERSE_V1:
return 256;
default:
if (cpu->feat->SVE && cpu->feat->cntb > 0) { if (cpu->feat->SVE && cpu->feat->cntb > 0) {
return cpu->feat->cntb * 8; return cpu->feat->cntb * 8;
} }
@@ -326,25 +308,20 @@ int get_vpus_width(struct cpuInfo* cpu) {
else { else {
return 32; return 32;
} }
}
} }
int get_number_of_vpus(struct cpuInfo* cpu) { int get_number_of_vpus(struct cpuInfo* cpu) {
MICROARCH ua = cpu->arch->uarch; MICROARCH ua = cpu->arch->uarch;
switch(ua) { switch(ua) {
case UARCH_CORTEX_X925: // [https://www.anandtech.com/show/21399/arm-unveils-2024-cpu-core-designs-cortex-x925-a725-and-a520-arm-v9-2-redefined-for-3nm-/2]
return 6;
case UARCH_EVEREST: // Just a guess, needs confirmation. case UARCH_EVEREST: // Just a guess, needs confirmation.
case UARCH_FIRESTORM: // [https://dougallj.github.io/applecpu/firestorm-simd.html] case UARCH_FIRESTORM: // [https://dougallj.github.io/applecpu/firestorm-simd.html]
case UARCH_AVALANCHE: // [https://en.wikipedia.org/wiki/Comparison_of_ARM_processors] case UARCH_AVALANCHE: // [https://en.wikipedia.org/wiki/Comparison_of_ARM_processors]
case UARCH_CORTEX_X1: // [https://www.anandtech.com/show/15813/arm-cortex-a78-cortex-x1-cpu-ip-diverging/3] case UARCH_CORTEX_X1: // [https://www.anandtech.com/show/15813/arm-cortex-a78-cortex-x1-cpu-ip-diverging/3]
case UARCH_CORTEX_X1C: // Assuming same as X1
case UARCH_CORTEX_X2: // [https://www.anandtech.com/show/16693/arm-announces-mobile-armv9-cpu-microarchitectures-cortexx2-cortexa710-cortexa510/2] case UARCH_CORTEX_X2: // [https://www.anandtech.com/show/16693/arm-announces-mobile-armv9-cpu-microarchitectures-cortexx2-cortexa710-cortexa510/2]
case UARCH_CORTEX_X3: // [https://www.hwcooling.net/en/cortex-x3-the-new-fastest-arm-core-architecture-analysis: "The FPU and SIMD unit of the core still has four pipelines"] case UARCH_CORTEX_X3: // [https://www.hwcooling.net/en/cortex-x3-the-new-fastest-arm-core-architecture-analysis: "The FPU and SIMD unit of the core still has four pipelines"]
case UARCH_CORTEX_X4: // [https://www.anandtech.com/show/18871/arm-unveils-armv92-mobile-architecture-cortex-x4-a720-and-a520-64bit-exclusive/2]: "Cortex-X4: Out-of-Order Core"
case UARCH_NEOVERSE_V1: // [https://en.wikichip.org/wiki/arm_holdings/microarchitectures/neoverse_v1] case UARCH_NEOVERSE_V1: // [https://en.wikichip.org/wiki/arm_holdings/microarchitectures/neoverse_v1]
case UARCH_NEOVERSE_V2: // [https://chipsandcheese.com/2023/09/11/hot-chips-2023-arms-neoverse-v2/]
case UARCH_NEOVERSE_V3: // Assuming same as V2
return 4; return 4;
case UARCH_SAWTOOTH: // Needs confirmation, rn this is the best we know: https://mastodon.social/@dougall/111118317031041336 case UARCH_SAWTOOTH: // Needs confirmation, rn this is the best we know: https://mastodon.social/@dougall/111118317031041336
case UARCH_EXYNOS_M3: // [https://www.anandtech.com/show/12361/samsung-exynos-m3-architecture] case UARCH_EXYNOS_M3: // [https://www.anandtech.com/show/12361/samsung-exynos-m3-architecture]
@@ -363,22 +340,16 @@ int get_number_of_vpus(struct cpuInfo* cpu) {
case UARCH_CORTEX_A76: // [https://www.anandtech.com/show/12785/arm-cortex-a76-cpu-unveiled-7nm-powerhouse/3] case UARCH_CORTEX_A76: // [https://www.anandtech.com/show/12785/arm-cortex-a76-cpu-unveiled-7nm-powerhouse/3]
case UARCH_CORTEX_A77: // [https://fuse.wikichip.org/news/2339/arm-unveils-cortex-a77-emphasizes-single-thread-performance] case UARCH_CORTEX_A77: // [https://fuse.wikichip.org/news/2339/arm-unveils-cortex-a77-emphasizes-single-thread-performance]
case UARCH_CORTEX_A78: // [https://fuse.wikichip.org/news/3536/arm-unveils-the-cortex-a78-when-less-is-more] case UARCH_CORTEX_A78: // [https://fuse.wikichip.org/news/3536/arm-unveils-the-cortex-a78-when-less-is-more]
case UARCH_CORTEX_A78C: // Assuming same as A78
case UARCH_CORTEX_A78AE:// Assuming same as A78
case UARCH_EXYNOS_M1: // [https://www.anandtech.com/show/12361/samsung-exynos-m3-architecture] case UARCH_EXYNOS_M1: // [https://www.anandtech.com/show/12361/samsung-exynos-m3-architecture]
case UARCH_EXYNOS_M2: // [https://www.anandtech.com/show/12361/samsung-exynos-m3-architecture] case UARCH_EXYNOS_M2: // [https://www.anandtech.com/show/12361/samsung-exynos-m3-architecture]
case UARCH_NEOVERSE_N1: // [https://en.wikichip.org/wiki/arm_holdings/microarchitectures/neoverse_n1#Individual_Core] case UARCH_NEOVERSE_N1: // [https://en.wikichip.org/wiki/arm_holdings/microarchitectures/neoverse_n1#Individual_Core]
case UARCH_NEOVERSE_N2: // [https://chipsandcheese.com/2023/08/18/arms-neoverse-n2-cortex-a710-for-servers/]
case UARCH_CORTEX_A710: // [https://chipsandcheese.com/2023/08/11/arms-cortex-a710-winning-by-default/]: Fig in Core Overview. Table in Instruction Scheduling and Execution case UARCH_CORTEX_A710: // [https://chipsandcheese.com/2023/08/11/arms-cortex-a710-winning-by-default/]: Fig in Core Overview. Table in Instruction Scheduling and Execution
case UARCH_CORTEX_A715: // [https://www.hwcooling.net/en/arm-introduces-new-cortex-a715-core-architecture-analysis/]: "the numbers of ALU and FPU execution units themselves > case UARCH_CORTEX_A715: // [https://www.hwcooling.net/en/arm-introduces-new-cortex-a715-core-architecture-analysis/]: "the numbers of ALU and FPU execution units themselves >
case UARCH_CORTEX_A720: // Assuming same as A715: https://www.anandtech.com/show/18871/arm-unveils-armv92-mobile-architecture-cortex-x4-a720-and-a520-64bit-exclusive/3
case UARCH_CORTEX_A725: // Assuming same as A720
return 2; return 2;
case UARCH_NEOVERSE_E1: // [https://www.anandtech.com/show/13959/arm-announces-neoverse-n1-platform/5] case UARCH_NEOVERSE_E1: // [https://www.anandtech.com/show/13959/arm-announces-neoverse-n1-platform/5]
// A510 is integrated as part of a Complex. Normally, each complex would incorporate two Cortex-A510 cores. // A510 is integrated as part of a Complex. Normally, each complex would incorporate two Cortex-A510 cores.
// Each complex incorporates a single VPU with 2 ports, so for each A510 there is theoretically 1 port. // Each complex incorporates a single VPU with 2 ports, so for each A510 there is theoretically 1 port.
case UARCH_CORTEX_A510: // [https://en.wikichip.org/wiki/arm_holdings/microarchitectures/cortex-a510#Vector_Processing_Unit_.28VPU.29] case UARCH_CORTEX_A510: // [https://en.wikichip.org/wiki/arm_holdings/microarchitectures/cortex-a510#Vector_Processing_Unit_.28VPU.29]
case UARCH_CORTEX_A520: // Assuming same as A50: https://www.anandtech.com/show/18871/arm-unveils-armv92-mobile-architecture-cortex-x4-a720-and-a520-64bit-exclusive/4
return 1; return 1;
default: default:
// ARMv6 // ARMv6

11
src/arm/uarch.h
View File

@@ -34,26 +34,15 @@ enum {
UARCH_CORTEX_A76, UARCH_CORTEX_A76,
UARCH_CORTEX_A77, UARCH_CORTEX_A77,
UARCH_CORTEX_A78, UARCH_CORTEX_A78,
UARCH_CORTEX_A78AE,
UARCH_CORTEX_A78C,
UARCH_CORTEX_A510, UARCH_CORTEX_A510,
UARCH_CORTEX_A520,
UARCH_CORTEX_A710, UARCH_CORTEX_A710,
UARCH_CORTEX_A715, UARCH_CORTEX_A715,
UARCH_CORTEX_A720,
UARCH_CORTEX_A725,
UARCH_CORTEX_X1, UARCH_CORTEX_X1,
UARCH_CORTEX_X1C,
UARCH_CORTEX_X2, UARCH_CORTEX_X2,
UARCH_CORTEX_X3, UARCH_CORTEX_X3,
UARCH_CORTEX_X4,
UARCH_CORTEX_X925,
UARCH_NEOVERSE_N1, UARCH_NEOVERSE_N1,
UARCH_NEOVERSE_N2,
UARCH_NEOVERSE_E1, UARCH_NEOVERSE_E1,
UARCH_NEOVERSE_V1, UARCH_NEOVERSE_V1,
UARCH_NEOVERSE_V2,
UARCH_NEOVERSE_V3,
UARCH_SCORPION, UARCH_SCORPION,
UARCH_KRAIT, UARCH_KRAIT,
UARCH_KYRO, UARCH_KYRO,

3
src/common/args.c
View File

@@ -225,7 +225,8 @@ bool parse_color(char* optarg_str, struct color*** cs) {
char* build_short_options(void) { char* build_short_options(void) {
const char *c = args_chr; const char *c = args_chr;
int len = sizeof(args_chr) / sizeof(args_chr[0]); int len = sizeof(args_chr) / sizeof(args_chr[0]);
char* str = (char *) ecalloc(len*2 + 1, sizeof(char)); char* str = (char *) emalloc(sizeof(char) * (len*2 + 1));
memset(str, 0, sizeof(char) * (len*2 + 1));
#ifdef ARCH_X86 #ifdef ARCH_X86
sprintf(str, "%c:%c:%c%c%c%c%c%c%c%c%c%c%c%c", sprintf(str, "%c:%c:%c%c%c%c%c%c%c%c%c%c%c%c",

35
src/common/ascii.h
View File

@@ -413,38 +413,6 @@ $C1 ## ### ### \
$C1 \ $C1 \
$C1 " $C1 "
#define ASCII_NXP \
"$C1##### # $C2####### ####### $C3########## \
$C1####### ## $C2####### ####### $C3############### \
$C1########## #### $C2###### ###### $C3### ###### \
$C1############ ##### $C2############ $C3##### ##### \
$C1##### ####### ##### $C2########## $C3################### \
$C1##### ######### $C2############## $C3############### \
$C1##### ###### $C2###### ###### $C3#### \
$C1##### ## $C2###### ###### $C3## "
#define ASCII_AMLOGIC \
"$C1 .#####. ### ### \
$C1 ######## ### \
$C1 ####..### ########## ### ### ##### ### ### \
$C1 .## #. ### ## ## ## ### ## ## ## ## ### ## \
$C1 #### #.# ### ## ## ## ### ## ## ## ## ### ## \
$C1#########.### ## ## ## ## ### ###### ## ### \
$C1 ### \
$C1 ### "
#define ASCII_MARVELL \
"$C1 ........... ........... \
$C1 .### . .## . \
$C1 .##### . #### . \
$C1 ####### . ####### . \
$C1 .#########__________. #########__________. \
$C1 .###########|__________|#########|__________| \
$C1 ############ ______############ __________ \
$C1 .######### |__________|###### |__________| \
$C1 ########### ___########### __________ \
$C1.########## |__________| |__________| "
// --------------------- LONG LOGOS ------------------------- // // --------------------- LONG LOGOS ------------------------- //
#define ASCII_AMD_L \ #define ASCII_AMD_L \
"$C1 \ "$C1 \
@@ -621,9 +589,6 @@ asciiL logo_starfive = { ASCII_STARFIVE, 33, 17, false, {C_FG_WHITE},
asciiL logo_sipeed = { ASCII_SIPEED, 41, 16, true, {C_BG_RED, C_BG_WHITE}, {C_FG_RED, C_FG_WHITE} }; asciiL logo_sipeed = { ASCII_SIPEED, 41, 16, true, {C_BG_RED, C_BG_WHITE}, {C_FG_RED, C_FG_WHITE} };
asciiL logo_nvidia = { ASCII_NVIDIA, 45, 19, false, {C_FG_GREEN, C_FG_WHITE}, {C_FG_WHITE, C_FG_GREEN} }; asciiL logo_nvidia = { ASCII_NVIDIA, 45, 19, false, {C_FG_GREEN, C_FG_WHITE}, {C_FG_WHITE, C_FG_GREEN} };
asciiL logo_ampere = { ASCII_AMPERE, 50, 17, false, {C_FG_RED}, {C_FG_WHITE, C_FG_RED} }; asciiL logo_ampere = { ASCII_AMPERE, 50, 17, false, {C_FG_RED}, {C_FG_WHITE, C_FG_RED} };
asciiL logo_nxp = { ASCII_NXP, 55, 8, false, {C_FG_YELLOW, C_FG_CYAN, C_FG_GREEN}, {C_FG_CYAN, C_FG_WHITE} };
asciiL logo_amlogic = { ASCII_AMLOGIC, 58, 8, false, {C_FG_BLUE}, {C_FG_BLUE, C_FG_B_WHITE} };
asciiL logo_marvell = { ASCII_MARVELL, 56, 10, false, {C_FG_B_BLACK}, {C_FG_B_BLACK, C_FG_B_WHITE} };
// Long variants | ----------------------------------------------------------------------------------------------------------------| // Long variants | ----------------------------------------------------------------------------------------------------------------|
asciiL logo_amd_l = { ASCII_AMD_L, 62, 19, true, {C_BG_WHITE, C_BG_GREEN}, {C_FG_WHITE, C_FG_GREEN} }; asciiL logo_amd_l = { ASCII_AMD_L, 62, 19, true, {C_BG_WHITE, C_BG_GREEN}, {C_FG_WHITE, C_FG_GREEN} };

2
src/common/global.c
View File

@@ -62,7 +62,7 @@
#endif #endif
#ifndef GIT_FULL_VERSION #ifndef GIT_FULL_VERSION
static const char* VERSION = "1.06"; static const char* VERSION = "1.05";
#endif #endif
enum { enum {

6
src/common/pci.c
View File

@@ -66,7 +66,7 @@ struct pci_devices * get_pci_paths(void) {
if ((stbuf.st_mode & S_IFMT) == S_IFDIR) { if ((stbuf.st_mode & S_IFMT) == S_IFDIR) {
int strLen = min(MAX_LENGTH_PCI_DIR_NAME, strlen(dp->d_name)) + 1; int strLen = min(MAX_LENGTH_PCI_DIR_NAME, strlen(dp->d_name)) + 1;
pci->devices[i] = emalloc(sizeof(struct pci_device)); pci->devices[i] = emalloc(sizeof(struct pci_device));
pci->devices[i]->path = ecalloc(strLen, sizeof(char)); pci->devices[i]->path = ecalloc(sizeof(char), strLen);
strncpy(pci->devices[i]->path, dp->d_name, strLen); strncpy(pci->devices[i]->path, dp->d_name, strLen);
i++; i++;
} }
@@ -90,7 +90,7 @@ void populate_pci_devices(struct pci_devices * pci) {
int path_size = strlen(PCI_PATH) + strlen(dev->path) + 2; int path_size = strlen(PCI_PATH) + strlen(dev->path) + 2;
// Read vendor_id // Read vendor_id
char *vendor_id_path = emalloc(sizeof(char) * (path_size + strlen("vendor") + 1)); char *vendor_id_path = emalloc(sizeof(char) * (path_size + strlen("vendor")));
sprintf(vendor_id_path, "%s/%s/%s", PCI_PATH, dev->path, "vendor"); sprintf(vendor_id_path, "%s/%s/%s", PCI_PATH, dev->path, "vendor");
if ((buf = read_file(vendor_id_path, &filelen)) == NULL) { if ((buf = read_file(vendor_id_path, &filelen)) == NULL) {
@@ -102,7 +102,7 @@ void populate_pci_devices(struct pci_devices * pci) {
} }
// Read device_id // Read device_id
char *device_id_path = emalloc(sizeof(char) * (path_size + strlen("device") + 1)); char *device_id_path = emalloc(sizeof(char) * (path_size + strlen("device")));
sprintf(device_id_path, "%s/%s/%s", PCI_PATH, dev->path, "device"); sprintf(device_id_path, "%s/%s/%s", PCI_PATH, dev->path, "device");
if ((buf = read_file(device_id_path, &filelen)) == NULL) { if ((buf = read_file(device_id_path, &filelen)) == NULL) {

6
src/common/printer.c
View File

@@ -391,12 +391,6 @@ void choose_ascii_art(struct ascii* art, struct color** cs, struct terminal* ter
art->art = &logo_rockchip; art->art = &logo_rockchip;
else if(art->vendor == SOC_VENDOR_AMPERE) else if(art->vendor == SOC_VENDOR_AMPERE)
art->art = &logo_ampere; art->art = &logo_ampere;
else if(art->vendor == SOC_VENDOR_NXP)
art->art = &logo_nxp;
else if(art->vendor == SOC_VENDOR_AMLOGIC)
art->art = &logo_amlogic;
else if(art->vendor == SOC_VENDOR_MARVELL)
art->art = &logo_marvell;
else if(art->vendor == SOC_VENDOR_NVIDIA) else if(art->vendor == SOC_VENDOR_NVIDIA)
art->art = choose_ascii_art_aux(&logo_nvidia_l, &logo_nvidia, term, lf); art->art = choose_ascii_art_aux(&logo_nvidia_l, &logo_nvidia, term, lf);
else { else {

37
src/common/soc.c
View File

@@ -16,15 +16,12 @@ static char* soc_trademark_string[] = {
[SOC_VENDOR_EXYNOS] = "Exynos ", [SOC_VENDOR_EXYNOS] = "Exynos ",
[SOC_VENDOR_KIRIN] = "Kirin ", [SOC_VENDOR_KIRIN] = "Kirin ",
[SOC_VENDOR_KUNPENG] = "Kunpeng ", [SOC_VENDOR_KUNPENG] = "Kunpeng ",
[SOC_VENDOR_BROADCOM] = "Broadcom ", [SOC_VENDOR_BROADCOM] = "Broadcom BCM",
[SOC_VENDOR_APPLE] = "Apple ", [SOC_VENDOR_APPLE] = "Apple ",
[SOC_VENDOR_ROCKCHIP] = "Rockchip ", [SOC_VENDOR_ROCKCHIP] = "Rockchip ",
[SOC_VENDOR_GOOGLE] = "Google ", [SOC_VENDOR_GOOGLE] = "Google ",
[SOC_VENDOR_NVIDIA] = "NVIDIA ", [SOC_VENDOR_NVIDIA] = "NVIDIA ",
[SOC_VENDOR_AMPERE] = "Ampere ", [SOC_VENDOR_AMPERE] = "Ampere ",
[SOC_VENDOR_NXP] = "NXP ",
[SOC_VENDOR_AMLOGIC] = "Amlogic ",
[SOC_VENDOR_MARVELL] = "Marvell",
// RISC-V // RISC-V
[SOC_VENDOR_SIFIVE] = "SiFive ", [SOC_VENDOR_SIFIVE] = "SiFive ",
[SOC_VENDOR_STARFIVE] = "StarFive ", [SOC_VENDOR_STARFIVE] = "StarFive ",
@@ -34,7 +31,7 @@ static char* soc_trademark_string[] = {
}; };
VENDOR get_soc_vendor(struct system_on_chip* soc) { VENDOR get_soc_vendor(struct system_on_chip* soc) {
return soc->vendor; return soc->soc_vendor;
} }
char* get_str_process(struct system_on_chip* soc) { char* get_str_process(struct system_on_chip* soc) {
@@ -45,37 +42,39 @@ char* get_str_process(struct system_on_chip* soc) {
snprintf(str, strlen(STRING_UNKNOWN)+1, STRING_UNKNOWN); snprintf(str, strlen(STRING_UNKNOWN)+1, STRING_UNKNOWN);
} }
else { else {
int max_process_len = 5 + 1; str = emalloc(sizeof(char) * 5);
str = ecalloc(max_process_len, sizeof(char)); memset(str, 0, sizeof(char) * 5);
snprintf(str, max_process_len, "%dnm", soc->process); snprintf(str, 5, "%dnm", soc->process);
} }
return str; return str;
} }
char* get_soc_name(struct system_on_chip* soc) { char* get_soc_name(struct system_on_chip* soc) {
if(soc->model == SOC_MODEL_UNKNOWN) if(soc->soc_model == SOC_MODEL_UNKNOWN)
return soc->raw_name; return soc->raw_name;
return soc->name; return soc->soc_name;
} }
void fill_soc(struct system_on_chip* soc, char* soc_name, SOC soc_model, int32_t process) { void fill_soc(struct system_on_chip* soc, char* soc_name, SOC soc_model, int32_t process) {
soc->model = soc_model; soc->soc_model = soc_model;
soc->vendor = get_soc_vendor_from_soc(soc_model); soc->soc_vendor = get_soc_vendor_from_soc(soc_model);
soc->process = process; soc->process = process;
if(soc->vendor == SOC_VENDOR_UNKNOWN) { if(soc->soc_vendor == SOC_VENDOR_UNKNOWN) {
printBug("fill_soc: soc->vendor == SOC_VENDOR_UNKOWN"); printBug("fill_soc: soc->soc_vendor == SOC_VENDOR_UNKOWN");
// If we fall here there is a bug in socs.h // If we fall here there is a bug in socs.h
// Reset everything to avoid segfault // Reset everything to avoid segfault
soc->vendor = SOC_VENDOR_UNKNOWN; soc->soc_vendor = SOC_VENDOR_UNKNOWN;
soc->model = SOC_MODEL_UNKNOWN; soc->soc_model = SOC_MODEL_UNKNOWN;
soc->process = UNKNOWN; soc->process = UNKNOWN;
soc->raw_name = emalloc(sizeof(char) * (strlen(STRING_UNKNOWN)+1)); soc->raw_name = emalloc(sizeof(char) * (strlen(STRING_UNKNOWN)+1));
snprintf(soc->raw_name, strlen(STRING_UNKNOWN)+1, STRING_UNKNOWN); snprintf(soc->raw_name, strlen(STRING_UNKNOWN)+1, STRING_UNKNOWN);
} }
else { else {
int len = strlen(soc_name) + strlen(soc_trademark_string[soc->vendor]) + 1; soc->process = process;
soc->name = emalloc(sizeof(char) * len); int len = strlen(soc_name) + strlen(soc_trademark_string[soc->soc_vendor]) + 1;
sprintf(soc->name, "%s%s", soc_trademark_string[soc->vendor], soc_name); soc->soc_name = emalloc(sizeof(char) * len);
memset(soc->soc_name, 0, sizeof(char) * len);
sprintf(soc->soc_name, "%s%s", soc_trademark_string[soc->soc_vendor], soc_name);
} }
} }

9
src/common/soc.h
View File

@@ -26,9 +26,6 @@ enum {
SOC_VENDOR_GOOGLE, SOC_VENDOR_GOOGLE,
SOC_VENDOR_NVIDIA, SOC_VENDOR_NVIDIA,
SOC_VENDOR_AMPERE, SOC_VENDOR_AMPERE,
SOC_VENDOR_NXP,
SOC_VENDOR_AMLOGIC,
SOC_VENDOR_MARVELL,
// RISC-V // RISC-V
SOC_VENDOR_SIFIVE, SOC_VENDOR_SIFIVE,
SOC_VENDOR_STARFIVE, SOC_VENDOR_STARFIVE,
@@ -38,10 +35,10 @@ enum {
}; };
struct system_on_chip { struct system_on_chip {
SOC model; SOC soc_model;
VENDOR vendor; VENDOR soc_vendor;
int32_t process; int32_t process;
char* name; char* soc_name;
char* raw_name; char* raw_name;
}; };

15
src/common/sysctl.h
View File

@@ -21,12 +21,9 @@
#define CPUFAMILY_ARM_AVALANCHE_BLIZZARD 0xDA33D83D #define CPUFAMILY_ARM_AVALANCHE_BLIZZARD 0xDA33D83D
#endif #endif
// M3 / A16 / A17 // M3 / A16 / A17
// M3: https://ratfactor.com/zig/stdlib-browseable2/c/darwin.zig.html // https://ratfactor.com/zig/stdlib-browseable2/c/darwin.zig.html
// M3_2: https://github.com/Dr-Noob/cpufetch/issues/230 // https://github.com/Dr-Noob/cpufetch/issues/210
// PRO: https://github.com/Dr-Noob/cpufetch/issues/225
// MAX: https://github.com/Dr-Noob/cpufetch/issues/210
#define CPUFAMILY_ARM_EVEREST_SAWTOOTH 0x8765EDEA #define CPUFAMILY_ARM_EVEREST_SAWTOOTH 0x8765EDEA
#define CPUFAMILY_ARM_EVEREST_SAWTOOTH_2 0xFA33415E
#define CPUFAMILY_ARM_EVEREST_SAWTOOTH_PRO 0x5F4DEA93 #define CPUFAMILY_ARM_EVEREST_SAWTOOTH_PRO 0x5F4DEA93
#define CPUFAMILY_ARM_EVEREST_SAWTOOTH_MAX 0x72015832 #define CPUFAMILY_ARM_EVEREST_SAWTOOTH_MAX 0x72015832
@@ -43,14 +40,6 @@
#define CPUSUBFAMILY_ARM_HC_HD 5 #define CPUSUBFAMILY_ARM_HC_HD 5
#endif #endif
// For alternative way to get CPU frequency on macOS and *BSD
#ifdef __APPLE__
#define CPUFREQUENCY_SYSCTL "hw.cpufrequency_max"
#else
// For FreeBSD, not sure about other *BSD
#define CPUFREQUENCY_SYSCTL "dev.cpu.0.freq"
#endif
uint32_t get_sys_info_by_name(char* name); uint32_t get_sys_info_by_name(char* name);
#endif #endif

16
src/common/udev.c
View File

@@ -1,10 +1,7 @@
#include "../common/global.h"
#include "udev.h" #include "udev.h"
#include "global.h" #include "global.h"
#include "cpu.h" #include "cpu.h"
#define _PATH_DEVTREE "/proc/device-tree/compatible"
// https://www.kernel.org/doc/html/latest/core-api/cpu_hotplug.html // https://www.kernel.org/doc/html/latest/core-api/cpu_hotplug.html
int get_ncores_from_cpuinfo(void) { int get_ncores_from_cpuinfo(void) {
// Examples: // Examples:
@@ -146,7 +143,8 @@ char* get_field_from_cpuinfo(char* CPUINFO_FIELD) {
char* tmp2 = strstr(tmp1, "\n"); char* tmp2 = strstr(tmp1, "\n");
int strlen = (1 + (tmp2-tmp1)); int strlen = (1 + (tmp2-tmp1));
char* hardware = ecalloc(strlen, sizeof(char)); char* hardware = emalloc(sizeof(char) * strlen);
memset(hardware, 0, sizeof(char) * strlen);
strncpy(hardware, tmp1, tmp2-tmp1); strncpy(hardware, tmp1, tmp2-tmp1);
return hardware; return hardware;
@@ -351,13 +349,3 @@ bool is_devtree_compatible(char* str) {
} }
return true; return true;
} }
char* get_devtree_compatible(int *filelen) {
char* buf;
if ((buf = read_file(_PATH_DEVTREE, filelen)) == NULL) {
printWarn("read_file: %s: %s", _PATH_DEVTREE, strerror(errno));
}
return buf;
}

1
src/common/udev.h
View File

@@ -43,6 +43,5 @@ int get_num_sockets_package_cpus(struct topology* topo);
int get_ncores_from_cpuinfo(void); int get_ncores_from_cpuinfo(void);
char* get_field_from_cpuinfo(char* CPUINFO_FIELD); char* get_field_from_cpuinfo(char* CPUINFO_FIELD);
bool is_devtree_compatible(char* str); bool is_devtree_compatible(char* str);
char* get_devtree_compatible(int *filelen);
#endif #endif

8
src/ppc/ppc.c
View File

@@ -81,13 +81,9 @@ struct topology* get_topology_info(struct cache* cach) {
if(!fill_package_ids_from_sys(package_ids, topo->total_cores)) { if(!fill_package_ids_from_sys(package_ids, topo->total_cores)) {
printWarn("fill_package_ids_from_sys failed, output may be incomplete/invalid"); printWarn("fill_package_ids_from_sys failed, output may be incomplete/invalid");
for(int i=0; i < topo->total_cores; i++) package_ids[i] = 0; for(int i=0; i < topo->total_cores; i++) package_ids[i] = 0;
// fill_package_ids_from_sys failed, use udev to try // fill_package_ids_from_sys failed, use a
// to find the number of sockets // more sophisticated wat to find the number of sockets
topo->sockets = get_num_sockets_package_cpus(topo); topo->sockets = get_num_sockets_package_cpus(topo);
if (topo->sockets == UNKNOWN_DATA) {
printWarn("get_num_sockets_package_cpus failed: assuming 1 socket");
topo->sockets = 1;
}
} }
else { else {
// fill_package_ids_from_sys succeeded, use the // fill_package_ids_from_sys succeeded, use the

3
src/ppc/uarch.c
View File

@@ -25,7 +25,6 @@ enum {
UARCH_PPC603, UARCH_PPC603,
UARCH_PPC440, UARCH_PPC440,
UARCH_PPC470, UARCH_PPC470,
UARCH_ESPRESSO, // Not exactly an uarch, but the codename of Wii U
UARCH_PPC970, UARCH_PPC970,
UARCH_PPC970FX, UARCH_PPC970FX,
UARCH_PPC970MP, UARCH_PPC970MP,
@@ -76,7 +75,6 @@ void fill_uarch(struct uarch* arch, MICROARCH u) {
FILL_UARCH(arch->uarch, UARCH_PPC603, "PowerPC 603", UNK) // varies FILL_UARCH(arch->uarch, UARCH_PPC603, "PowerPC 603", UNK) // varies
FILL_UARCH(arch->uarch, UARCH_PPC440, "PowerPC 440", UNK) FILL_UARCH(arch->uarch, UARCH_PPC440, "PowerPC 440", UNK)
FILL_UARCH(arch->uarch, UARCH_PPC470, "PowerPC 470", 45) // strange... FILL_UARCH(arch->uarch, UARCH_PPC470, "PowerPC 470", 45) // strange...
FILL_UARCH(arch->uarch, UARCH_ESPRESSO, "Espresso", 45) // https://en.wikipedia.org/wiki/PowerPC_7xx#Espresso, https://en.wikipedia.org/wiki/Espresso_(processor), https://github.com/Dr-Noob/cpufetch/issues/231
FILL_UARCH(arch->uarch, UARCH_PPC970, "PowerPC 970", 130) FILL_UARCH(arch->uarch, UARCH_PPC970, "PowerPC 970", 130)
FILL_UARCH(arch->uarch, UARCH_PPC970FX, "PowerPC 970FX", 90) FILL_UARCH(arch->uarch, UARCH_PPC970FX, "PowerPC 970FX", 90)
FILL_UARCH(arch->uarch, UARCH_PPC970MP, "PowerPC 970MP", 90) FILL_UARCH(arch->uarch, UARCH_PPC970MP, "PowerPC 970MP", 90)
@@ -236,7 +234,6 @@ struct uarch* get_uarch_from_pvr(uint32_t pvr) {
CHECK_UARCH(arch, pvr, 0xffff0000, 0x7ff50000, UARCH_PPC470) CHECK_UARCH(arch, pvr, 0xffff0000, 0x7ff50000, UARCH_PPC470)
CHECK_UARCH(arch, pvr, 0xffff0000, 0x00050000, UARCH_PPC470) CHECK_UARCH(arch, pvr, 0xffff0000, 0x00050000, UARCH_PPC470)
CHECK_UARCH(arch, pvr, 0xffff0000, 0x11a50000, UARCH_PPC470) CHECK_UARCH(arch, pvr, 0xffff0000, 0x11a50000, UARCH_PPC470)
CHECK_UARCH(arch, pvr, 0xffffffff, 0x70010201, UARCH_ESPRESSO)
UARCH_END UARCH_END
return arch; return arch;

2
src/ppc/udev.c
View File

@@ -13,7 +13,7 @@ bool fill_array_from_sys(int *core_ids, int total_cores, char* SYS_PATH) {
char* buf; char* buf;
char* end; char* end;
char path[128]; char path[128];
memset(name, 0, sizeof(char) * 128); memset(path, 0, 128);
for(int i=0; i < total_cores; i++) { for(int i=0; i < total_cores; i++) {
sprintf(path, "%s%s/cpu%d/%s", _PATH_SYS_SYSTEM, _PATH_SYS_CPU, i, SYS_PATH); sprintf(path, "%s%s/cpu%d/%s", _PATH_SYS_SYSTEM, _PATH_SYS_CPU, i, SYS_PATH);

5
src/riscv/riscv.c
View File

@@ -100,8 +100,9 @@ struct extensions* get_extensions_from_str(char* str) {
return ext; return ext;
} }
int len = strlen(str); int len = sizeof(char) * (strlen(str)+1);
ext->str = ecalloc(len+1, sizeof(char)); ext->str = emalloc(sizeof(char) * len);
memset(ext->str, 0, len);
strncpy(ext->str, str, sizeof(char) * len); strncpy(ext->str, str, sizeof(char) * len);
// Code inspired in Linux kernel (riscv_fill_hwcap): // Code inspired in Linux kernel (riscv_fill_hwcap):

10
src/riscv/soc.c
View File

@@ -12,7 +12,7 @@ bool match_sifive(char* soc_name, struct system_on_chip* soc) {
/*if((tmp = strstr(soc_name, "???")) == NULL) /*if((tmp = strstr(soc_name, "???")) == NULL)
return false;*/ return false;*/
//soc->vendor = ??? //soc->soc_vendor = ???
SOC_START SOC_START
SOC_EQ(tmp, "fu740", "Freedom U740", SOC_SIFIVE_U740, soc, 40) SOC_EQ(tmp, "fu740", "Freedom U740", SOC_SIFIVE_U740, soc, 40)
@@ -68,12 +68,12 @@ struct system_on_chip* guess_soc_from_devtree(struct system_on_chip* soc) {
struct system_on_chip* get_soc(struct cpuInfo* cpu) { struct system_on_chip* get_soc(struct cpuInfo* cpu) {
struct system_on_chip* soc = emalloc(sizeof(struct system_on_chip)); struct system_on_chip* soc = emalloc(sizeof(struct system_on_chip));
soc->raw_name = NULL; soc->raw_name = NULL;
soc->vendor = SOC_VENDOR_UNKNOWN; soc->soc_vendor = SOC_VENDOR_UNKNOWN;
soc->model = SOC_MODEL_UNKNOWN; soc->soc_model = SOC_MODEL_UNKNOWN;
soc->process = UNKNOWN; soc->process = UNKNOWN;
soc = guess_soc_from_devtree(soc); soc = guess_soc_from_devtree(soc);
if(soc->vendor == SOC_VENDOR_UNKNOWN) { if(soc->soc_vendor == SOC_VENDOR_UNKNOWN) {
if(soc->raw_name != NULL) { if(soc->raw_name != NULL) {
printWarn("SoC detection failed using device tree: Found '%s' string", soc->raw_name); printWarn("SoC detection failed using device tree: Found '%s' string", soc->raw_name);
} }
@@ -82,7 +82,7 @@ struct system_on_chip* get_soc(struct cpuInfo* cpu) {
} }
} }
if(soc->model == SOC_MODEL_UNKNOWN) { if(soc->soc_model == SOC_MODEL_UNKNOWN) {
// raw_name might not be NULL, but if we were unable to find // raw_name might not be NULL, but if we were unable to find
// the exact SoC, just print "Unkwnown" // the exact SoC, just print "Unkwnown"
soc->raw_name = emalloc(sizeof(char) * (strlen(STRING_UNKNOWN)+1)); soc->raw_name = emalloc(sizeof(char) * (strlen(STRING_UNKNOWN)+1));

8
src/riscv/udev.c
View File

@@ -40,7 +40,8 @@ char* get_field_from_devtree(int DEVTREE_FIELD) {
tmp1++; tmp1++;
int strlen = filelen-(tmp1-buf); int strlen = filelen-(tmp1-buf);
char* hardware = ecalloc(strlen, sizeof(char)); char* hardware = emalloc(sizeof(char) * strlen);
memset(hardware, 0, sizeof(char) * strlen);
strncpy(hardware, tmp1, strlen-1); strncpy(hardware, tmp1, strlen-1);
return hardware; return hardware;
@@ -69,8 +70,9 @@ char* parse_cpuinfo_field(char* field_str) {
} }
int ret_strlen = (end-tmp); int ret_strlen = (end-tmp);
char* ret = ecalloc(ret_strlen+1, sizeof(char)); char* ret = emalloc(sizeof(char) * (ret_strlen+1));
strncpy(ret, tmp, sizeof(char) * ret_strlen); memset(ret, 0, sizeof(char) * (ret_strlen+1));
strncpy(ret, tmp, ret_strlen);
return ret; return ret;
} }

10
src/x86/apic.c
View File

@@ -234,11 +234,15 @@ uint32_t max_apic_id_size(uint32_t** cache_id_apic, struct topology* topo) {
bool build_topo_from_apic(uint32_t* apic_pkg, uint32_t* apic_smt, uint32_t** cache_id_apic, struct topology* topo) { bool build_topo_from_apic(uint32_t* apic_pkg, uint32_t* apic_smt, uint32_t** cache_id_apic, struct topology* topo) {
uint32_t size = max_apic_id_size(cache_id_apic, topo); uint32_t size = max_apic_id_size(cache_id_apic, topo);
uint32_t* sockets = ecalloc(size, sizeof(uint32_t)); uint32_t* sockets = emalloc(sizeof(uint32_t) * size);
uint32_t* smt = ecalloc(size, sizeof(uint32_t)); uint32_t* smt = emalloc(sizeof(uint32_t) * size);
uint32_t* apic_id = ecalloc(size, sizeof(uint32_t)); uint32_t* apic_id = emalloc(sizeof(uint32_t) * size);
uint32_t num_caches = 0; uint32_t num_caches = 0;
memset(sockets, 0, sizeof(uint32_t) * size);
memset(smt, 0, sizeof(uint32_t) * size);
memset(apic_id, 0, sizeof(uint32_t) * size);
// System topology // System topology
for(int i=0; i < topo->total_cores_module; i++) { for(int i=0; i < topo->total_cores_module; i++) {
sockets[apic_pkg[i]] = 1; sockets[apic_pkg[i]] = 1;

22
src/x86/cpuid.c
View File

@@ -5,9 +5,6 @@
#include "../common/udev.h" #include "../common/udev.h"
#include <unistd.h> #include <unistd.h>
#endif #endif
#if defined (__FreeBSD__) || defined (__APPLE__)
#include "../common/sysctl.h"
#endif
#ifdef __linux__ #ifdef __linux__
#include "../common/freq.h" #include "../common/freq.h"
@@ -91,7 +88,8 @@ char* get_str_cpu_name_internal(void) {
uint32_t edx = 0; uint32_t edx = 0;
uint32_t c = 0; uint32_t c = 0;
char * name = ecalloc(CPU_NAME_MAX_LENGTH, sizeof(char)); char * name = emalloc(sizeof(char) * CPU_NAME_MAX_LENGTH);
memset(name, 0, CPU_NAME_MAX_LENGTH);
for(int i=0; i < 3; i++) { for(int i=0; i < 3; i++) {
eax = 0x80000002 + i; eax = 0x80000002 + i;
@@ -280,7 +278,7 @@ struct hypervisor* get_hp_info(bool hv_present) {
} }
else { else {
char name[13]; char name[13];
memset(name, 0, sizeof(char) * 13); memset(name, 0, 13);
get_name_cpuid(name, ebx, ecx, edx); get_name_cpuid(name, ebx, ecx, edx);
bool found = false; bool found = false;
@@ -470,7 +468,7 @@ struct cpuInfo* get_cpu_info(void) {
//Fill vendor //Fill vendor
char name[13]; char name[13];
memset(name, 0, sizeof(char) * 13); memset(name,0,13);
get_name_cpuid(name, ebx, edx, ecx); get_name_cpuid(name, ebx, edx, ecx);
if(strcmp(CPU_VENDOR_INTEL_STRING,name) == 0) if(strcmp(CPU_VENDOR_INTEL_STRING,name) == 0)
@@ -940,20 +938,10 @@ struct frequency* get_frequency_info(struct cpuInfo* cpu) {
freq->measured = false; freq->measured = false;
if(cpu->maxLevels < 0x00000016) { if(cpu->maxLevels < 0x00000016) {
#if defined (_WIN32) #if defined (_WIN32) || defined (__APPLE__)
printWarn("Can't read frequency information from cpuid (needed level is 0x%.8X, max is 0x%.8X)", 0x00000016, cpu->maxLevels); printWarn("Can't read frequency information from cpuid (needed level is 0x%.8X, max is 0x%.8X)", 0x00000016, cpu->maxLevels);
freq->base = UNKNOWN_DATA; freq->base = UNKNOWN_DATA;
freq->max = UNKNOWN_DATA; freq->max = UNKNOWN_DATA;
#elif defined (__FreeBSD__) || defined (__APPLE__)
printWarn("Can't read frequency information from cpuid (needed level is 0x%.8X, max is 0x%.8X). Using sysctl", 0x00000016, cpu->maxLevels);
uint32_t freq_hz = get_sys_info_by_name(CPUFREQUENCY_SYSCTL);
if (freq_hz == 0) {
printWarn("Read max CPU frequency from sysctl and got 0 MHz");
freq->max = UNKNOWN_DATA;
}
freq->base = UNKNOWN_DATA;
freq->max = freq_hz;
#else #else
printWarn("Can't read frequency information from cpuid (needed level is 0x%.8X, max is 0x%.8X). Using udev", 0x00000016, cpu->maxLevels); printWarn("Can't read frequency information from cpuid (needed level is 0x%.8X, max is 0x%.8X). Using udev", 0x00000016, cpu->maxLevels);
freq->base = UNKNOWN_DATA; freq->base = UNKNOWN_DATA;

19
src/x86/freq/freq.c
View File

@@ -116,25 +116,8 @@ int64_t measure_frequency(struct cpuInfo* cpu) {
} }
pthread_t* compute_th = malloc(sizeof(pthread_t) * cpu->topo->total_cores); pthread_t* compute_th = malloc(sizeof(pthread_t) * cpu->topo->total_cores);
cpu_set_t cpus;
pthread_attr_t attr;
if ((ret = pthread_attr_init(&attr)) != 0) {
printErr("pthread_attr_init: %s", strerror(ret));
return -1;
}
for(int i=0; i < cpu->topo->total_cores; i++) { for(int i=0; i < cpu->topo->total_cores; i++) {
// We might have called bind_to_cpu previously, binding the threads ret = pthread_create(&compute_th[i], NULL, compute_function, NULL);
// to a specific core, so now we must make sure we run the new thread
// on the correct core.
CPU_ZERO(&cpus);
CPU_SET(i, &cpus);
if ((ret = pthread_attr_setaffinity_np(&attr, sizeof(cpu_set_t), &cpus)) != 0) {
printErr("pthread_attr_setaffinity_np: %s", strerror(ret));
return -1;
}
ret = pthread_create(&compute_th[i], &attr, compute_function, NULL);
if(ret != 0) { if(ret != 0) {
fprintf(stderr, "Error creating thread\n"); fprintf(stderr, "Error creating thread\n");

93
src/x86/uarch.c
View File

@@ -47,10 +47,8 @@ typedef uint32_t MICROARCH;
enum { enum {
UARCH_UNKNOWN, UARCH_UNKNOWN,
// INTEL // // INTEL //
UARCH_I486,
UARCH_P5, UARCH_P5,
UARCH_P5_MMX, UARCH_P5_MMX,
UARCH_P6_PRO,
UARCH_P6_PENTIUM_II, UARCH_P6_PENTIUM_II,
UARCH_P6_PENTIUM_III, UARCH_P6_PENTIUM_III,
UARCH_DOTHAN, UARCH_DOTHAN,
@@ -99,8 +97,6 @@ enum {
// AMD // // AMD //
UARCH_AM486, UARCH_AM486,
UARCH_AM5X86, UARCH_AM5X86,
UARCH_SSA5,
UARCH_K5,
UARCH_K6, UARCH_K6,
UARCH_K7, UARCH_K7,
UARCH_K8, UARCH_K8,
@@ -119,9 +115,7 @@ enum {
UARCH_ZEN3, UARCH_ZEN3,
UARCH_ZEN3_PLUS, UARCH_ZEN3_PLUS,
UARCH_ZEN4, UARCH_ZEN4,
UARCH_ZEN4C, UARCH_ZEN4C
UARCH_ZEN5,
UARCH_ZEN5C,
}; };
struct uarch { struct uarch {
@@ -155,30 +149,16 @@ struct uarch* get_uarch_from_cpuid_intel(uint32_t ef, uint32_t f, uint32_t em, u
// ------------------------------------------------------------------------------- // // ------------------------------------------------------------------------------- //
// EF F EM M S // // EF F EM M S //
UARCH_START UARCH_START
CHECK_UARCH(arch, 0, 4, 0, 0, NA, "i80486DX", UARCH_I486, UNK) // https://sandpile.org/x86/cpuid.htm#level_0000_0001h
CHECK_UARCH(arch, 0, 4, 0, 1, NA, "i80486DX-50", UARCH_I486, UNK) // https://sandpile.org/x86/cpuid.htm#level_0000_0001h
CHECK_UARCH(arch, 0, 4, 0, 2, NA, "i80486SX", UARCH_I486, UNK) // https://sandpile.org/x86/cpuid.htm#level_0000_0001h
CHECK_UARCH(arch, 0, 4, 0, 3, NA, "i80486DX2", UARCH_I486, UNK) // https://sandpile.org/x86/cpuid.htm#level_0000_0001h
CHECK_UARCH(arch, 0, 4, 0, 4, NA, "i80486SL", UARCH_I486, UNK) // https://sandpile.org/x86/cpuid.htm#level_0000_0001h
CHECK_UARCH(arch, 0, 4, 0, 5, NA, "i80486SX2", UARCH_I486, UNK) // https://sandpile.org/x86/cpuid.htm#level_0000_0001h
CHECK_UARCH(arch, 0, 4, 0, 7, NA, "i80486DX2WB", UARCH_I486, UNK) // https://sandpile.org/x86/cpuid.htm#level_0000_0001h
CHECK_UARCH(arch, 0, 4, 0, 8, NA, "i80486DX4", UARCH_I486, UNK) // https://sandpile.org/x86/cpuid.htm#level_0000_0001h
CHECK_UARCH(arch, 0, 4, 0, 9, NA, "i80486DX4WB", UARCH_I486, UNK) // https://sandpile.org/x86/cpuid.htm#level_0000_0001h
CHECK_UARCH(arch, 0, 5, 0, 0, NA, "P5", UARCH_P5, 800) CHECK_UARCH(arch, 0, 5, 0, 0, NA, "P5", UARCH_P5, 800)
CHECK_UARCH(arch, 0, 5, 0, 1, NA, "P5", UARCH_P5, 800) CHECK_UARCH(arch, 0, 5, 0, 1, NA, "P5", UARCH_P5, 800)
CHECK_UARCH(arch, 0, 5, 0, 2, NA, "P54C", UARCH_P5, UNK) // https://sandpile.org/x86/cpuid.htm#level_0000_0001h CHECK_UARCH(arch, 0, 5, 0, 2, NA, "P5", UARCH_P5, UNK)
CHECK_UARCH(arch, 0, 5, 0, 3, NA, "P24T (Overdrive)", UARCH_P5, 600) // https://sandpile.org/x86/cpuid.htm#level_0000_0001h CHECK_UARCH(arch, 0, 5, 0, 3, NA, "P5", UARCH_P5, 600)
CHECK_UARCH(arch, 0, 5, 0, 4, NA, "P55C (MMX)", UARCH_P5_MMX, 350) // https://www.cpu-world.com/CPUs/Pentium/TYPE-Pentium%20MMX.html CHECK_UARCH(arch, 0, 5, 0, 4, NA, "P5 (MMX)", UARCH_P5_MMX, UNK)
CHECK_UARCH(arch, 0, 5, 0, 7, NA, "P54C", UARCH_P5, 350) // https://sandpile.org/x86/cpuid.htm#level_0000_0001h CHECK_UARCH(arch, 0, 5, 0, 7, NA, "P5 (MMX)", UARCH_P5_MMX, UNK)
CHECK_UARCH(arch, 0, 5, 0, 8, NA, "Tillamook", UARCH_P5_MMX, 250) // http://instlatx64.atw.hu./ CHECK_UARCH(arch, 0, 5, 0, 8, NA, "P5 (MMX)", UARCH_P5_MMX, 250)
CHECK_UARCH(arch, 0, 5, 0, 9, 0, "Lakemont", UARCH_LAKEMONT, 32) CHECK_UARCH(arch, 0, 5, 0, 9, 0, "Lakemont", UARCH_LAKEMONT, 32)
CHECK_UARCH(arch, 0, 5, 0, 9, NA, "P5 (MMX)", UARCH_P5_MMX, UNK) CHECK_UARCH(arch, 0, 5, 0, 9, NA, "P5 (MMX)", UARCH_P5_MMX, UNK)
CHECK_UARCH(arch, 0, 5, 0, 10, 0, "Lakemont", UARCH_LAKEMONT, 32) CHECK_UARCH(arch, 0, 5, 0, 10, 0, "Lakemont", UARCH_LAKEMONT, 32)
CHECK_UARCH(arch, 0, 6, 0, 1, 1, "P6", UARCH_P6_PRO, UNK)
CHECK_UARCH(arch, 0, 6, 0, 1, 2, "P6", UARCH_P6_PRO, UNK)
CHECK_UARCH(arch, 0, 6, 0, 1, 6, "P6", UARCH_P6_PRO, 350)
CHECK_UARCH(arch, 0, 6, 0, 1, 7, "P6", UARCH_P6_PRO, 350)
CHECK_UARCH(arch, 0, 6, 0, 1, 9, "P6", UARCH_P6_PRO, 350)
CHECK_UARCH(arch, 0, 6, 0, 0, NA, "P6 (Pentium II)", UARCH_P6_PENTIUM_II, UNK) CHECK_UARCH(arch, 0, 6, 0, 0, NA, "P6 (Pentium II)", UARCH_P6_PENTIUM_II, UNK)
CHECK_UARCH(arch, 0, 6, 0, 1, NA, "P6 (Pentium II)", UARCH_P6_PENTIUM_II, UNK) // process depends on core CHECK_UARCH(arch, 0, 6, 0, 1, NA, "P6 (Pentium II)", UARCH_P6_PENTIUM_II, UNK) // process depends on core
CHECK_UARCH(arch, 0, 6, 0, 2, NA, "P6 (Pentium II)", UARCH_P6_PENTIUM_II, UNK) CHECK_UARCH(arch, 0, 6, 0, 2, NA, "P6 (Pentium II)", UARCH_P6_PENTIUM_II, UNK)
@@ -299,16 +279,11 @@ struct uarch* get_uarch_from_cpuid_amd(uint32_t ef, uint32_t f, uint32_t em, uin
// ----------------------------------------------------------------------------- // // ----------------------------------------------------------------------------- //
// EF F EM M S // // EF F EM M S //
UARCH_START UARCH_START
CHECK_UARCH(arch, 0, 4, 0, 3, NA, "Am486DX2", UARCH_AM486, UNK) // https://sandpile.org/x86/cpuid.htm#level_0000_0001h CHECK_UARCH(arch, 0, 4, 0, 3, NA, "Am486", UARCH_AM486, UNK)
CHECK_UARCH(arch, 0, 4, 0, 7, NA, "Am486DX2WB", UARCH_AM486, UNK) // https://sandpile.org/x86/cpuid.htm#level_0000_0001h CHECK_UARCH(arch, 0, 4, 0, 7, NA, "Am486", UARCH_AM486, UNK)
CHECK_UARCH(arch, 0, 4, 0, 8, NA, "Am486DX4", UARCH_AM486, UNK) // https://sandpile.org/x86/cpuid.htm#level_0000_0001h CHECK_UARCH(arch, 0, 4, 0, 8, NA, "Am486", UARCH_AM486, UNK)
CHECK_UARCH(arch, 0, 4, 0, 9, NA, "Am486DX4WB", UARCH_AM486, UNK) // https://sandpile.org/x86/cpuid.htm#level_0000_0001h CHECK_UARCH(arch, 0, 4, 0, 9, NA, "Am486", UARCH_AM486, UNK)
CHECK_UARCH(arch, 0, 4, 0, 14, NA, "Am5x86", UARCH_AM5X86, 350) // https://sandpile.org/x86/cpuid.htm#level_0000_0001h CHECK_UARCH(arch, 0, 4, NA, NA, NA, "Am5x86", UARCH_AM5X86, UNK)
CHECK_UARCH(arch, 0, 4, 0, 15, NA, "Am5x86WB", UARCH_AM5X86, 350) // https://sandpile.org/x86/cpuid.htm#level_0000_0001h
CHECK_UARCH(arch, 0, 5, 0, 0, NA, "SSA5 (K5)", UARCH_SSA5, 350) // https://sandpile.org/x86/cpuid.htm#level_0000_0001h
CHECK_UARCH(arch, 0, 5, 0, 1, NA, "K5", UARCH_K5, 350) // https://sandpile.org/x86/cpuid.htm#level_0000_0001h
CHECK_UARCH(arch, 0, 5, 0, 2, NA, "K5", UARCH_K5, 350) // https://sandpile.org/x86/cpuid.htm#level_0000_0001h
CHECK_UARCH(arch, 0, 5, 0, 3, NA, "K5", UARCH_K5, 350) // https://sandpile.org/x86/cpuid.htm#level_0000_0001h
CHECK_UARCH(arch, 0, 5, 0, 6, NA, "K6", UARCH_K6, 300) CHECK_UARCH(arch, 0, 5, 0, 6, NA, "K6", UARCH_K6, 300)
CHECK_UARCH(arch, 0, 5, 0, 7, NA, "K6", UARCH_K6, 250) // *p from sandpile.org CHECK_UARCH(arch, 0, 5, 0, 7, NA, "K6", UARCH_K6, 250) // *p from sandpile.org
CHECK_UARCH(arch, 0, 5, 0, 10, NA, "K7", UARCH_K7, 130) // Geode NX CHECK_UARCH(arch, 0, 5, 0, 10, NA, "K7", UARCH_K7, 130) // Geode NX
@@ -412,12 +387,6 @@ struct uarch* get_uarch_from_cpuid_amd(uint32_t ef, uint32_t f, uint32_t em, uin
CHECK_UARCH(arch, 10, 15, 8, NA, NA, "Zen 4", UARCH_ZEN4, 5) // instlatx64 (AMD MI300C) CHECK_UARCH(arch, 10, 15, 8, NA, NA, "Zen 4", UARCH_ZEN4, 5) // instlatx64 (AMD MI300C)
CHECK_UARCH(arch, 10, 15, 9, NA, NA, "Zen 4", UARCH_ZEN4, 5) // instlatx64 (AMD MI300A) CHECK_UARCH(arch, 10, 15, 9, NA, NA, "Zen 4", UARCH_ZEN4, 5) // instlatx64 (AMD MI300A)
CHECK_UARCH(arch, 10, 15, 10, NA, NA, "Zen 4c", UARCH_ZEN4C, 5) // instlatx64 CHECK_UARCH(arch, 10, 15, 10, NA, NA, "Zen 4c", UARCH_ZEN4C, 5) // instlatx64
CHECK_UARCH(arch, 11, 15, 0, NA, NA, "Zen 5", UARCH_ZEN5, 4) // Turin/EPYC (instlatx64)
CHECK_UARCH(arch, 11, 15, 1, NA, NA, "Zen 5c", UARCH_ZEN5C, 3) // Zen5c EPYC (instlatx64, https://en.wikipedia.org/wiki/Zen_5#cite_note-10)
CHECK_UARCH(arch, 11, 15, 2, NA, NA, "Zen 5", UARCH_ZEN5, 4) // Strix Point (instlatx64)
CHECK_UARCH(arch, 11, 15, 4, NA, NA, "Zen 5", UARCH_ZEN5, 4) // Granite Ridge (instlatx64)
CHECK_UARCH(arch, 11, 15, 6, NA, NA, "Zen 5", UARCH_ZEN5, 4) // Krackan Point (instlatx64)
CHECK_UARCH(arch, 11, 15, 7, NA, NA, "Zen 5", UARCH_ZEN5, 4) // Strix Halo (instlatx64)
UARCH_END UARCH_END
return arch; return arch;
@@ -510,42 +479,16 @@ char* infer_cpu_name_from_uarch(struct uarch* arch) {
char *str = NULL; char *str = NULL;
switch (arch->uarch) { if (arch->uarch == UARCH_P5)
// Intel
case UARCH_I486:
str = "Intel 486";
break;
case UARCH_P5:
str = "Intel Pentium"; str = "Intel Pentium";
break; else if (arch->uarch == UARCH_P5_MMX)
case UARCH_P5_MMX:
str = "Intel Pentium MMX"; str = "Intel Pentium MMX";
break; else if (arch->uarch == UARCH_P6_PENTIUM_II)
case UARCH_P6_PRO:
str = "Intel Pentium Pro";
break;
case UARCH_P6_PENTIUM_II:
str = "Intel Pentium II"; str = "Intel Pentium II";
break; else if (arch->uarch == UARCH_P6_PENTIUM_III)
case UARCH_P6_PENTIUM_III:
str = "Intel Pentium III"; str = "Intel Pentium III";
break; else
// AMD
case UARCH_AM486:
str = "AMD 486";
break;
case UARCH_AM5X86:
str = "AMD 5x86";
break;
case UARCH_SSA5:
str = "AMD 5k86";
break;
default:
printErr("Unable to find name from uarch: %d", arch->uarch); printErr("Unable to find name from uarch: %d", arch->uarch);
break;
}
if (str == NULL) { if (str == NULL) {
cpu_name = ecalloc(strlen(STRING_UNKNOWN) + 1, sizeof(char)); cpu_name = ecalloc(strlen(STRING_UNKNOWN) + 1, sizeof(char));
@@ -560,8 +503,6 @@ char* infer_cpu_name_from_uarch(struct uarch* arch) {
} }
bool vpus_are_AVX512(struct cpuInfo* cpu) { bool vpus_are_AVX512(struct cpuInfo* cpu) {
// Zen5 actually has 2 x AVX512 units
// https://www.anandtech.com/show/21469/amd-details-ryzen-ai-300-series-for-mobile-strix-point-with-rdna-35-igpu-xdna-2-npu
return cpu->arch->uarch != UARCH_ICE_LAKE && return cpu->arch->uarch != UARCH_ICE_LAKE &&
cpu->arch->uarch != UARCH_TIGER_LAKE && cpu->arch->uarch != UARCH_TIGER_LAKE &&
cpu->arch->uarch != UARCH_ZEN4 && cpu->arch->uarch != UARCH_ZEN4 &&
@@ -602,8 +543,6 @@ int get_number_of_vpus(struct cpuInfo* cpu) {
case UARCH_ZEN3_PLUS: case UARCH_ZEN3_PLUS:
case UARCH_ZEN4: case UARCH_ZEN4:
case UARCH_ZEN4C: case UARCH_ZEN4C:
case UARCH_ZEN5:
case UARCH_ZEN5C:
return 2; return 2;
default: default:
return 1; return 1;