From: Armin Novak Date: Tue, 24 Jan 2017 08:56:45 +0000 (+0100) Subject: Using android cpufeatures library for detection. X-Git-Tag: 2.0.0-beta1+android10~53^2~8 X-Git-Url: http://review.tizen.org/git/?a=commitdiff_plain;h=0106405fffd3dacb1eff88621f533cdd7076d96c;p=platform%2Fupstream%2Ffreerdp.git Using android cpufeatures library for detection. --- diff --git a/winpr/libwinpr/sysinfo/CMakeLists.txt b/winpr/libwinpr/sysinfo/CMakeLists.txt index 60592ba..f9b7f69 100644 --- a/winpr/libwinpr/sysinfo/CMakeLists.txt +++ b/winpr/libwinpr/sysinfo/CMakeLists.txt @@ -15,6 +15,10 @@ # See the License for the specific language governing permissions and # limitations under the License. +if(ANDROID) + add_subdirectory(cpufeatures) +endif() + winpr_module_add(sysinfo.c) if((NOT WIN32) AND (NOT APPLE) AND (NOT ANDROID) AND (NOT OPENBSD)) diff --git a/winpr/libwinpr/sysinfo/cpufeatures/Android.mk b/winpr/libwinpr/sysinfo/cpufeatures/Android.mk new file mode 100644 index 0000000..7c453fa --- /dev/null +++ b/winpr/libwinpr/sysinfo/cpufeatures/Android.mk @@ -0,0 +1,22 @@ +LOCAL_PATH := $(call my-dir) + +ifdef HISTORICAL_NDK_VERSIONS_ROOT +# This is included by the platform build system. +include $(CLEAR_VARS) +LOCAL_MODULE := cpufeatures +LOCAL_SRC_FILES := cpu-features.c +LOCAL_SDK_VERSION := 9 +LOCAL_EXPORT_C_INCLUDE_DIRS := $(LOCAL_PATH) +include $(BUILD_STATIC_LIBRARY) + +else # NDK build system + +include $(CLEAR_VARS) +LOCAL_MODULE := cpufeatures +LOCAL_SRC_FILES := cpu-features.c +LOCAL_CFLAGS := -Wall -Wextra -Werror +LOCAL_EXPORT_C_INCLUDES := $(LOCAL_PATH) +LOCAL_EXPORT_LDLIBS := -ldl +include $(BUILD_STATIC_LIBRARY) + +endif # HISTORICAL_NDK_VERSIONS_ROOT diff --git a/winpr/libwinpr/sysinfo/cpufeatures/CMakeLists.txt b/winpr/libwinpr/sysinfo/cpufeatures/CMakeLists.txt new file mode 100644 index 0000000..f1b93df --- /dev/null +++ b/winpr/libwinpr/sysinfo/cpufeatures/CMakeLists.txt @@ -0,0 +1,20 @@ +# WinPR: Windows Portable Runtime +# libwinpr-sysinfo cmake build script +# +# Copyright 2017 Armin Novak +# Copyright 2017 Thincast Technologies GmbH +# +# Licensed under the Apache License, Version 2.0 (the "License"); +# you may not use this file except in compliance with the License. +# You may obtain a copy of the License at +# +# http://www.apache.org/licenses/LICENSE-2.0 +# +# Unless required by applicable law or agreed to in writing, software +# distributed under the License is distributed on an "AS IS" BASIS, +# WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. +# See the License for the specific language governing permissions and +# limitations under the License. + +winpr_module_add(cpu-features.c cpu-features.h) + diff --git a/winpr/libwinpr/sysinfo/cpufeatures/NOTICE b/winpr/libwinpr/sysinfo/cpufeatures/NOTICE new file mode 100644 index 0000000..d6c0922 --- /dev/null +++ b/winpr/libwinpr/sysinfo/cpufeatures/NOTICE @@ -0,0 +1,13 @@ +Copyright (C) 2016 The Android Open Source Project + +Licensed under the Apache License, Version 2.0 (the "License"); +you may not use this file except in compliance with the License. +You may obtain a copy of the License at + + http://www.apache.org/licenses/LICENSE-2.0 + +Unless required by applicable law or agreed to in writing, software +distributed under the License is distributed on an "AS IS" BASIS, +WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. +See the License for the specific language governing permissions and +limitations under the License. diff --git a/winpr/libwinpr/sysinfo/cpufeatures/cpu-features.c b/winpr/libwinpr/sysinfo/cpufeatures/cpu-features.c new file mode 100644 index 0000000..adff1d7 --- /dev/null +++ b/winpr/libwinpr/sysinfo/cpufeatures/cpu-features.c @@ -0,0 +1,1472 @@ +/* + * Copyright (C) 2010 The Android Open Source Project + * All rights reserved. + * + * Redistribution and use in source and binary forms, with or without + * modification, are permitted provided that the following conditions + * are met: + * * Redistributions of source code must retain the above copyright + * notice, this list of conditions and the following disclaimer. + * * Redistributions in binary form must reproduce the above copyright + * notice, this list of conditions and the following disclaimer in + * the documentation and/or other materials provided with the + * distribution. + * + * THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS + * "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT + * LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS + * FOR A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE + * COPYRIGHT OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, + * INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, + * BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS + * OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED + * AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, + * OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT + * OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF + * SUCH DAMAGE. + */ + +/* ChangeLog for this library: + * + * NDK r10e?: Add MIPS MSA feature. + * + * NDK r10: Support for 64-bit CPUs (Intel, ARM & MIPS). + * + * NDK r8d: Add android_setCpu(). + * + * NDK r8c: Add new ARM CPU features: VFPv2, VFP_D32, VFP_FP16, + * VFP_FMA, NEON_FMA, IDIV_ARM, IDIV_THUMB2 and iWMMXt. + * + * Rewrite the code to parse /proc/self/auxv instead of + * the "Features" field in /proc/cpuinfo. + * + * Dynamically allocate the buffer that hold the content + * of /proc/cpuinfo to deal with newer hardware. + * + * NDK r7c: Fix CPU count computation. The old method only reported the + * number of _active_ CPUs when the library was initialized, + * which could be less than the real total. + * + * NDK r5: Handle buggy kernels which report a CPU Architecture number of 7 + * for an ARMv6 CPU (see below). + * + * Handle kernels that only report 'neon', and not 'vfpv3' + * (VFPv3 is mandated by the ARM architecture is Neon is implemented) + * + * Handle kernels that only report 'vfpv3d16', and not 'vfpv3' + * + * Fix x86 compilation. Report ANDROID_CPU_FAMILY_X86 in + * android_getCpuFamily(). + * + * NDK r4: Initial release + */ + +#include "cpu-features.h" + +#include +#include +#include +#include +#include +#include +#include +#include + +static pthread_once_t g_once; +static int g_inited; +static AndroidCpuFamily g_cpuFamily; +static uint64_t g_cpuFeatures; +static int g_cpuCount; + +#ifdef __arm__ +static uint32_t g_cpuIdArm; +#endif + +static const int android_cpufeatures_debug = 0; + +#define D(...) \ + do { \ + if (android_cpufeatures_debug) { \ + printf(__VA_ARGS__); fflush(stdout); \ + } \ + } while (0) + +#ifdef __i386__ +static __inline__ void x86_cpuid(int func, int values[4]) +{ + int a, b, c, d; + /* We need to preserve ebx since we're compiling PIC code */ + /* this means we can't use "=b" for the second output register */ + __asm__ __volatile__(\ + "push %%ebx\n" + "cpuid\n" \ + "mov %%ebx, %1\n" + "pop %%ebx\n" + : "=a"(a), "=r"(b), "=c"(c), "=d"(d) \ + : "a"(func) \ + ); + values[0] = a; + values[1] = b; + values[2] = c; + values[3] = d; +} +#elif defined(__x86_64__) +static __inline__ void x86_cpuid(int func, int values[4]) +{ + int64_t a, b, c, d; + /* We need to preserve ebx since we're compiling PIC code */ + /* this means we can't use "=b" for the second output register */ + __asm__ __volatile__(\ + "push %%rbx\n" + "cpuid\n" \ + "mov %%rbx, %1\n" + "pop %%rbx\n" + : "=a"(a), "=r"(b), "=c"(c), "=d"(d) \ + : "a"(func) \ + ); + values[0] = a; + values[1] = b; + values[2] = c; + values[3] = d; +} +#endif + +/* Get the size of a file by reading it until the end. This is needed + * because files under /proc do not always return a valid size when + * using fseek(0, SEEK_END) + ftell(). Nor can they be mmap()-ed. + */ +static int +get_file_size(const char* pathname) +{ + int fd, result = 0; + char buffer[256]; + fd = open(pathname, O_RDONLY); + + if (fd < 0) + { + D("Can't open %s: %s\n", pathname, strerror(errno)); + return -1; + } + + for (;;) + { + int ret = read(fd, buffer, sizeof buffer); + + if (ret < 0) + { + if (errno == EINTR) + continue; + + D("Error while reading %s: %s\n", pathname, strerror(errno)); + break; + } + + if (ret == 0) + break; + + result += ret; + } + + close(fd); + return result; +} + +/* Read the content of /proc/cpuinfo into a user-provided buffer. + * Return the length of the data, or -1 on error. Does *not* + * zero-terminate the content. Will not read more + * than 'buffsize' bytes. + */ +static int +read_file(const char* pathname, char* buffer, size_t buffsize) +{ + int fd, count; + fd = open(pathname, O_RDONLY); + + if (fd < 0) + { + D("Could not open %s: %s\n", pathname, strerror(errno)); + return -1; + } + + count = 0; + + while (count < (int)buffsize) + { + int ret = read(fd, buffer + count, buffsize - count); + + if (ret < 0) + { + if (errno == EINTR) + continue; + + D("Error while reading from %s: %s\n", pathname, strerror(errno)); + + if (count == 0) + count = -1; + + break; + } + + if (ret == 0) + break; + + count += ret; + } + + close(fd); + return count; +} + +#ifdef __arm__ +/* Extract the content of a the first occurence of a given field in + * the content of /proc/cpuinfo and return it as a heap-allocated + * string that must be freed by the caller. + * + * Return NULL if not found + */ +static char* +extract_cpuinfo_field(const char* buffer, int buflen, const char* field) +{ + int fieldlen = strlen(field); + const char* bufend = buffer + buflen; + char* result = NULL; + int len; + const char* p, *q; + /* Look for first field occurence, and ensures it starts the line. */ + p = buffer; + + for (;;) + { + p = memmem(p, bufend - p, field, fieldlen); + + if (p == NULL) + goto EXIT; + + if (p == buffer || p[-1] == '\n') + break; + + p += fieldlen; + } + + /* Skip to the first column followed by a space */ + p += fieldlen; + p = memchr(p, ':', bufend - p); + + if (p == NULL || p[1] != ' ') + goto EXIT; + + /* Find the end of the line */ + p += 2; + q = memchr(p, '\n', bufend - p); + + if (q == NULL) + q = bufend; + + /* Copy the line into a heap-allocated buffer */ + len = q - p; + result = malloc(len + 1); + + if (result == NULL) + goto EXIT; + + memcpy(result, p, len); + result[len] = '\0'; +EXIT: + return result; +} + +/* Checks that a space-separated list of items contains one given 'item'. + * Returns 1 if found, 0 otherwise. + */ +static int +has_list_item(const char* list, const char* item) +{ + const char* p = list; + int itemlen = strlen(item); + + if (list == NULL) + return 0; + + while (*p) + { + const char* q; + + /* skip spaces */ + while (*p == ' ' || *p == '\t') + p++; + + /* find end of current list item */ + q = p; + + while (*q && *q != ' ' && *q != '\t') + q++; + + if (itemlen == q - p && !memcmp(p, item, itemlen)) + return 1; + + /* skip to next item */ + p = q; + } + + return 0; +} +#endif /* __arm__ */ + +/* Parse a number starting from 'input', but not going further + * than 'limit'. Return the value into '*result'. + * + * NOTE: Does not skip over leading spaces, or deal with sign characters. + * NOTE: Ignores overflows. + * + * The function returns NULL in case of error (bad format), or the new + * position after the decimal number in case of success (which will always + * be <= 'limit'). + */ +static const char* +parse_number(const char* input, const char* limit, int base, int* result) +{ + const char* p = input; + int val = 0; + + while (p < limit) + { + int d = (*p - '0'); + + if ((unsigned)d >= 10U) + { + d = (*p - 'a'); + + if ((unsigned)d >= 6U) + d = (*p - 'A'); + + if ((unsigned)d >= 6U) + break; + + d += 10; + } + + if (d >= base) + break; + + val = val * base + d; + p++; + } + + if (p == input) + return NULL; + + *result = val; + return p; +} + +static const char* +parse_decimal(const char* input, const char* limit, int* result) +{ + return parse_number(input, limit, 10, result); +} + +#ifdef __arm__ +static const char* +parse_hexadecimal(const char* input, const char* limit, int* result) +{ + return parse_number(input, limit, 16, result); +} +#endif /* __arm__ */ + +/* This small data type is used to represent a CPU list / mask, as read + * from sysfs on Linux. See http://www.kernel.org/doc/Documentation/cputopology.txt + * + * For now, we don't expect more than 32 cores on mobile devices, so keep + * everything simple. + */ +typedef struct +{ + uint32_t mask; +} CpuList; + +static __inline__ void +cpulist_init(CpuList* list) +{ + list->mask = 0; +} + +static __inline__ void +cpulist_and(CpuList* list1, CpuList* list2) +{ + list1->mask &= list2->mask; +} + +static __inline__ void +cpulist_set(CpuList* list, int index) +{ + if ((unsigned)index < 32) + { + list->mask |= (uint32_t)(1U << index); + } +} + +static __inline__ int +cpulist_count(CpuList* list) +{ + return __builtin_popcount(list->mask); +} + +/* Parse a textual list of cpus and store the result inside a CpuList object. + * Input format is the following: + * - comma-separated list of items (no spaces) + * - each item is either a single decimal number (cpu index), or a range made + * of two numbers separated by a single dash (-). Ranges are inclusive. + * + * Examples: 0 + * 2,4-127,128-143 + * 0-1 + */ +static void +cpulist_parse(CpuList* list, const char* line, int line_len) +{ + const char* p = line; + const char* end = p + line_len; + const char* q; + + /* NOTE: the input line coming from sysfs typically contains a + * trailing newline, so take care of it in the code below + */ + while (p < end && *p != '\n') + { + int val, start_value, end_value; + /* Find the end of current item, and put it into 'q' */ + q = memchr(p, ',', end - p); + + if (q == NULL) + { + q = end; + } + + /* Get first value */ + p = parse_decimal(p, q, &start_value); + + if (p == NULL) + goto BAD_FORMAT; + + end_value = start_value; + + /* If we're not at the end of the item, expect a dash and + * and integer; extract end value. + */ + if (p < q && *p == '-') + { + p = parse_decimal(p + 1, q, &end_value); + + if (p == NULL) + goto BAD_FORMAT; + } + + /* Set bits CPU list bits */ + for (val = start_value; val <= end_value; val++) + { + cpulist_set(list, val); + } + + /* Jump to next item */ + p = q; + + if (p < end) + p++; + } + +BAD_FORMAT: + ; +} + +/* Read a CPU list from one sysfs file */ +static void +cpulist_read_from(CpuList* list, const char* filename) +{ + char file[64]; + int filelen; + cpulist_init(list); + filelen = read_file(filename, file, sizeof file); + + if (filelen < 0) + { + D("Could not read %s: %s\n", filename, strerror(errno)); + return; + } + + cpulist_parse(list, file, filelen); +} +#if defined(__aarch64__) +// see kernel header +#define HWCAP_FP (1 << 0) +#define HWCAP_ASIMD (1 << 1) +#define HWCAP_AES (1 << 3) +#define HWCAP_PMULL (1 << 4) +#define HWCAP_SHA1 (1 << 5) +#define HWCAP_SHA2 (1 << 6) +#define HWCAP_CRC32 (1 << 7) +#endif + +#if defined(__arm__) + +// See kernel header. +#define HWCAP_VFP (1 << 6) +#define HWCAP_IWMMXT (1 << 9) +#define HWCAP_NEON (1 << 12) +#define HWCAP_VFPv3 (1 << 13) +#define HWCAP_VFPv3D16 (1 << 14) +#define HWCAP_VFPv4 (1 << 16) +#define HWCAP_IDIVA (1 << 17) +#define HWCAP_IDIVT (1 << 18) + +// see kernel header +#define HWCAP2_AES (1 << 0) +#define HWCAP2_PMULL (1 << 1) +#define HWCAP2_SHA1 (1 << 2) +#define HWCAP2_SHA2 (1 << 3) +#define HWCAP2_CRC32 (1 << 4) + +// This is the list of 32-bit ARMv7 optional features that are _always_ +// supported by ARMv8 CPUs, as mandated by the ARM Architecture Reference +// Manual. +#define HWCAP_SET_FOR_ARMV8 \ + ( HWCAP_VFP | \ + HWCAP_NEON | \ + HWCAP_VFPv3 | \ + HWCAP_VFPv4 | \ + HWCAP_IDIVA | \ + HWCAP_IDIVT ) +#endif + +#if defined(__mips__) +// see kernel header +#define HWCAP_MIPS_R6 (1 << 0) +#define HWCAP_MIPS_MSA (1 << 1) +#endif + +#if defined(__arm__) || defined(__aarch64__) || defined(__mips__) + +#define AT_HWCAP 16 +#define AT_HWCAP2 26 + +// Probe the system's C library for a 'getauxval' function and call it if +// it exits, or return 0 for failure. This function is available since API +// level 20. +// +// This code does *NOT* check for '__ANDROID_API__ >= 20' to support the +// edge case where some NDK developers use headers for a platform that is +// newer than the one really targetted by their application. +// This is typically done to use newer native APIs only when running on more +// recent Android versions, and requires careful symbol management. +// +// Note that getauxval() can't really be re-implemented here, because +// its implementation does not parse /proc/self/auxv. Instead it depends +// on values that are passed by the kernel at process-init time to the +// C runtime initialization layer. +static uint32_t +get_elf_hwcap_from_getauxval(int hwcap_type) +{ + typedef unsigned long getauxval_func_t(unsigned long); + dlerror(); + void* libc_handle = dlopen("libc.so", RTLD_NOW); + + if (!libc_handle) + { + D("Could not dlopen() C library: %s\n", dlerror()); + return 0; + } + + uint32_t ret = 0; + getauxval_func_t* func = (getauxval_func_t*) + dlsym(libc_handle, "getauxval"); + + if (!func) + { + D("Could not find getauxval() in C library\n"); + } + else + { + // Note: getauxval() returns 0 on failure. Doesn't touch errno. + ret = (uint32_t)(*func)(hwcap_type); + } + + dlclose(libc_handle); + return ret; +} +#endif + +#if defined(__arm__) +// Parse /proc/self/auxv to extract the ELF HW capabilities bitmap for the +// current CPU. Note that this file is not accessible from regular +// application processes on some Android platform releases. +// On success, return new ELF hwcaps, or 0 on failure. +static uint32_t +get_elf_hwcap_from_proc_self_auxv(void) +{ + const char filepath[] = "/proc/self/auxv"; + int fd = TEMP_FAILURE_RETRY(open(filepath, O_RDONLY)); + + if (fd < 0) + { + D("Could not open %s: %s\n", filepath, strerror(errno)); + return 0; + } + + struct + { + uint32_t tag; + uint32_t value; + } entry; + + uint32_t result = 0; + + for (;;) + { + int ret = TEMP_FAILURE_RETRY(read(fd, (char*)&entry, sizeof entry)); + + if (ret < 0) + { + D("Error while reading %s: %s\n", filepath, strerror(errno)); + break; + } + + // Detect end of list. + if (ret == 0 || (entry.tag == 0 && entry.value == 0)) + break; + + if (entry.tag == AT_HWCAP) + { + result = entry.value; + break; + } + } + + close(fd); + return result; +} + +/* Compute the ELF HWCAP flags from the content of /proc/cpuinfo. + * This works by parsing the 'Features' line, which lists which optional + * features the device's CPU supports, on top of its reference + * architecture. + */ +static uint32_t +get_elf_hwcap_from_proc_cpuinfo(const char* cpuinfo, int cpuinfo_len) +{ + uint32_t hwcaps = 0; + long architecture = 0; + char* cpuArch = extract_cpuinfo_field(cpuinfo, cpuinfo_len, "CPU architecture"); + + if (cpuArch) + { + architecture = strtol(cpuArch, NULL, 10); + free(cpuArch); + + if (architecture >= 8L) + { + // This is a 32-bit ARM binary running on a 64-bit ARM64 kernel. + // The 'Features' line only lists the optional features that the + // device's CPU supports, compared to its reference architecture + // which are of no use for this process. + D("Faking 32-bit ARM HWCaps on ARMv%ld CPU\n", architecture); + return HWCAP_SET_FOR_ARMV8; + } + } + + char* cpuFeatures = extract_cpuinfo_field(cpuinfo, cpuinfo_len, "Features"); + + if (cpuFeatures != NULL) + { + D("Found cpuFeatures = '%s'\n", cpuFeatures); + + if (has_list_item(cpuFeatures, "vfp")) + hwcaps |= HWCAP_VFP; + + if (has_list_item(cpuFeatures, "vfpv3")) + hwcaps |= HWCAP_VFPv3; + + if (has_list_item(cpuFeatures, "vfpv3d16")) + hwcaps |= HWCAP_VFPv3D16; + + if (has_list_item(cpuFeatures, "vfpv4")) + hwcaps |= HWCAP_VFPv4; + + if (has_list_item(cpuFeatures, "neon")) + hwcaps |= HWCAP_NEON; + + if (has_list_item(cpuFeatures, "idiva")) + hwcaps |= HWCAP_IDIVA; + + if (has_list_item(cpuFeatures, "idivt")) + hwcaps |= HWCAP_IDIVT; + + if (has_list_item(cpuFeatures, "idiv")) + hwcaps |= HWCAP_IDIVA | HWCAP_IDIVT; + + if (has_list_item(cpuFeatures, "iwmmxt")) + hwcaps |= HWCAP_IWMMXT; + + free(cpuFeatures); + } + + return hwcaps; +} +#endif /* __arm__ */ + +/* Return the number of cpus present on a given device. + * + * To handle all weird kernel configurations, we need to compute the + * intersection of the 'present' and 'possible' CPU lists and count + * the result. + */ +static int +get_cpu_count(void) +{ + CpuList cpus_present[1]; + CpuList cpus_possible[1]; + cpulist_read_from(cpus_present, "/sys/devices/system/cpu/present"); + cpulist_read_from(cpus_possible, "/sys/devices/system/cpu/possible"); + /* Compute the intersection of both sets to get the actual number of + * CPU cores that can be used on this device by the kernel. + */ + cpulist_and(cpus_present, cpus_possible); + return cpulist_count(cpus_present); +} + +static void +android_cpuInitFamily(void) +{ +#if defined(__arm__) + g_cpuFamily = ANDROID_CPU_FAMILY_ARM; +#elif defined(__i386__) + g_cpuFamily = ANDROID_CPU_FAMILY_X86; +#elif defined(__mips64) + /* Needs to be before __mips__ since the compiler defines both */ + g_cpuFamily = ANDROID_CPU_FAMILY_MIPS64; +#elif defined(__mips__) + g_cpuFamily = ANDROID_CPU_FAMILY_MIPS; +#elif defined(__aarch64__) + g_cpuFamily = ANDROID_CPU_FAMILY_ARM64; +#elif defined(__x86_64__) + g_cpuFamily = ANDROID_CPU_FAMILY_X86_64; +#else + g_cpuFamily = ANDROID_CPU_FAMILY_UNKNOWN; +#endif +} + +static void +android_cpuInit(void) +{ + char* cpuinfo = NULL; + int cpuinfo_len; + android_cpuInitFamily(); + g_cpuFeatures = 0; + g_cpuCount = 1; + g_inited = 1; + cpuinfo_len = get_file_size("/proc/cpuinfo"); + + if (cpuinfo_len < 0) + { + D("cpuinfo_len cannot be computed!"); + return; + } + + cpuinfo = malloc(cpuinfo_len); + + if (cpuinfo == NULL) + { + D("cpuinfo buffer could not be allocated"); + return; + } + + cpuinfo_len = read_file("/proc/cpuinfo", cpuinfo, cpuinfo_len); + D("cpuinfo_len is (%d):\n%.*s\n", cpuinfo_len, + cpuinfo_len >= 0 ? cpuinfo_len : 0, cpuinfo); + + if (cpuinfo_len < 0) /* should not happen */ + { + free(cpuinfo); + return; + } + + /* Count the CPU cores, the value may be 0 for single-core CPUs */ + g_cpuCount = get_cpu_count(); + + if (g_cpuCount == 0) + { + g_cpuCount = 1; + } + + D("found cpuCount = %d\n", g_cpuCount); +#ifdef __arm__ + { + /* Extract architecture from the "CPU Architecture" field. + * The list is well-known, unlike the the output of + * the 'Processor' field which can vary greatly. + * + * See the definition of the 'proc_arch' array in + * $KERNEL/arch/arm/kernel/setup.c and the 'c_show' function in + * same file. + */ + char* cpuArch = extract_cpuinfo_field(cpuinfo, cpuinfo_len, "CPU architecture"); + + if (cpuArch != NULL) + { + char* end; + long archNumber; + int hasARMv7 = 0; + D("found cpuArch = '%s'\n", cpuArch); + /* read the initial decimal number, ignore the rest */ + archNumber = strtol(cpuArch, &end, 10); + + /* Note that ARMv8 is upwards compatible with ARMv7. */ + if (end > cpuArch && archNumber >= 7) + { + hasARMv7 = 1; + } + + /* Unfortunately, it seems that certain ARMv6-based CPUs + * report an incorrect architecture number of 7! + * + * See http://code.google.com/p/android/issues/detail?id=10812 + * + * We try to correct this by looking at the 'elf_format' + * field reported by the 'Processor' field, which is of the + * form of "(v7l)" for an ARMv7-based CPU, and "(v6l)" for + * an ARMv6-one. + */ + if (hasARMv7) + { + char* cpuProc = extract_cpuinfo_field(cpuinfo, cpuinfo_len, + "Processor"); + + if (cpuProc != NULL) + { + D("found cpuProc = '%s'\n", cpuProc); + + if (has_list_item(cpuProc, "(v6l)")) + { + D("CPU processor and architecture mismatch!!\n"); + hasARMv7 = 0; + } + + free(cpuProc); + } + } + + if (hasARMv7) + { + g_cpuFeatures |= ANDROID_CPU_ARM_FEATURE_ARMv7; + } + + /* The LDREX / STREX instructions are available from ARMv6 */ + if (archNumber >= 6) + { + g_cpuFeatures |= ANDROID_CPU_ARM_FEATURE_LDREX_STREX; + } + + free(cpuArch); + } + + /* Extract the list of CPU features from ELF hwcaps */ + uint32_t hwcaps = 0; + hwcaps = get_elf_hwcap_from_getauxval(AT_HWCAP); + + if (!hwcaps) + { + D("Parsing /proc/self/auxv to extract ELF hwcaps!\n"); + hwcaps = get_elf_hwcap_from_proc_self_auxv(); + } + + if (!hwcaps) + { + // Parsing /proc/self/auxv will fail from regular application + // processes on some Android platform versions, when this happens + // parse proc/cpuinfo instead. + D("Parsing /proc/cpuinfo to extract ELF hwcaps!\n"); + hwcaps = get_elf_hwcap_from_proc_cpuinfo(cpuinfo, cpuinfo_len); + } + + if (hwcaps != 0) + { + int has_vfp = (hwcaps & HWCAP_VFP); + int has_vfpv3 = (hwcaps & HWCAP_VFPv3); + int has_vfpv3d16 = (hwcaps & HWCAP_VFPv3D16); + int has_vfpv4 = (hwcaps & HWCAP_VFPv4); + int has_neon = (hwcaps & HWCAP_NEON); + int has_idiva = (hwcaps & HWCAP_IDIVA); + int has_idivt = (hwcaps & HWCAP_IDIVT); + int has_iwmmxt = (hwcaps & HWCAP_IWMMXT); + + // The kernel does a poor job at ensuring consistency when + // describing CPU features. So lots of guessing is needed. + + // 'vfpv4' implies VFPv3|VFP_FMA|FP16 + if (has_vfpv4) + g_cpuFeatures |= ANDROID_CPU_ARM_FEATURE_VFPv3 | + ANDROID_CPU_ARM_FEATURE_VFP_FP16 | + ANDROID_CPU_ARM_FEATURE_VFP_FMA; + + // 'vfpv3' or 'vfpv3d16' imply VFPv3. Note that unlike GCC, + // a value of 'vfpv3' doesn't necessarily mean that the D32 + // feature is present, so be conservative. All CPUs in the + // field that support D32 also support NEON, so this should + // not be a problem in practice. + if (has_vfpv3 || has_vfpv3d16) + g_cpuFeatures |= ANDROID_CPU_ARM_FEATURE_VFPv3; + + // 'vfp' is super ambiguous. Depending on the kernel, it can + // either mean VFPv2 or VFPv3. Make it depend on ARMv7. + if (has_vfp) + { + if (g_cpuFeatures & ANDROID_CPU_ARM_FEATURE_ARMv7) + g_cpuFeatures |= ANDROID_CPU_ARM_FEATURE_VFPv3; + else + g_cpuFeatures |= ANDROID_CPU_ARM_FEATURE_VFPv2; + } + + // Neon implies VFPv3|D32, and if vfpv4 is detected, NEON_FMA + if (has_neon) + { + g_cpuFeatures |= ANDROID_CPU_ARM_FEATURE_VFPv3 | + ANDROID_CPU_ARM_FEATURE_NEON | + ANDROID_CPU_ARM_FEATURE_VFP_D32; + + if (has_vfpv4) + g_cpuFeatures |= ANDROID_CPU_ARM_FEATURE_NEON_FMA; + } + + // VFPv3 implies VFPv2 and ARMv7 + if (g_cpuFeatures & ANDROID_CPU_ARM_FEATURE_VFPv3) + g_cpuFeatures |= ANDROID_CPU_ARM_FEATURE_VFPv2 | + ANDROID_CPU_ARM_FEATURE_ARMv7; + + if (has_idiva) + g_cpuFeatures |= ANDROID_CPU_ARM_FEATURE_IDIV_ARM; + + if (has_idivt) + g_cpuFeatures |= ANDROID_CPU_ARM_FEATURE_IDIV_THUMB2; + + if (has_iwmmxt) + g_cpuFeatures |= ANDROID_CPU_ARM_FEATURE_iWMMXt; + } + + /* Extract the list of CPU features from ELF hwcaps2 */ + uint32_t hwcaps2 = 0; + hwcaps2 = get_elf_hwcap_from_getauxval(AT_HWCAP2); + + if (hwcaps2 != 0) + { + int has_aes = (hwcaps2 & HWCAP2_AES); + int has_pmull = (hwcaps2 & HWCAP2_PMULL); + int has_sha1 = (hwcaps2 & HWCAP2_SHA1); + int has_sha2 = (hwcaps2 & HWCAP2_SHA2); + int has_crc32 = (hwcaps2 & HWCAP2_CRC32); + + if (has_aes) + g_cpuFeatures |= ANDROID_CPU_ARM_FEATURE_AES; + + if (has_pmull) + g_cpuFeatures |= ANDROID_CPU_ARM_FEATURE_PMULL; + + if (has_sha1) + g_cpuFeatures |= ANDROID_CPU_ARM_FEATURE_SHA1; + + if (has_sha2) + g_cpuFeatures |= ANDROID_CPU_ARM_FEATURE_SHA2; + + if (has_crc32) + g_cpuFeatures |= ANDROID_CPU_ARM_FEATURE_CRC32; + } + + /* Extract the cpuid value from various fields */ + // The CPUID value is broken up in several entries in /proc/cpuinfo. + // This table is used to rebuild it from the entries. + static const struct CpuIdEntry + { + const char* field; + char format; + char bit_lshift; + char bit_length; + } cpu_id_entries[] = + { + { "CPU implementer", 'x', 24, 8 }, + { "CPU variant", 'x', 20, 4 }, + { "CPU part", 'x', 4, 12 }, + { "CPU revision", 'd', 0, 4 }, + }; + size_t i; + D("Parsing /proc/cpuinfo to recover CPUID\n"); + + for (i = 0; + i < sizeof(cpu_id_entries) / sizeof(cpu_id_entries[0]); + ++i) + { + const struct CpuIdEntry* entry = &cpu_id_entries[i]; + char* value = extract_cpuinfo_field(cpuinfo, + cpuinfo_len, + entry->field); + + if (value == NULL) + continue; + + D("field=%s value='%s'\n", entry->field, value); + char* value_end = value + strlen(value); + int val = 0; + const char* start = value; + const char* p; + + if (value[0] == '0' && (value[1] == 'x' || value[1] == 'X')) + { + start += 2; + p = parse_hexadecimal(start, value_end, &val); + } + else if (entry->format == 'x') + p = parse_hexadecimal(value, value_end, &val); + else + p = parse_decimal(value, value_end, &val); + + if (p > (const char*)start) + { + val &= ((1 << entry->bit_length) - 1); + val <<= entry->bit_lshift; + g_cpuIdArm |= (uint32_t) val; + } + + free(value); + } + + // Handle kernel configuration bugs that prevent the correct + // reporting of CPU features. + static const struct CpuFix + { + uint32_t cpuid; + uint64_t or_flags; + } cpu_fixes[] = + { + /* The Nexus 4 (Qualcomm Krait) kernel configuration + * forgets to report IDIV support. */ + { + 0x510006f2, ANDROID_CPU_ARM_FEATURE_IDIV_ARM | + ANDROID_CPU_ARM_FEATURE_IDIV_THUMB2 + }, + { + 0x510006f3, ANDROID_CPU_ARM_FEATURE_IDIV_ARM | + ANDROID_CPU_ARM_FEATURE_IDIV_THUMB2 + }, + }; + size_t n; + + for (n = 0; n < sizeof(cpu_fixes) / sizeof(cpu_fixes[0]); ++n) + { + const struct CpuFix* entry = &cpu_fixes[n]; + + if (g_cpuIdArm == entry->cpuid) + g_cpuFeatures |= entry->or_flags; + } + + // Special case: The emulator-specific Android 4.2 kernel fails + // to report support for the 32-bit ARM IDIV instruction. + // Technically, this is a feature of the virtual CPU implemented + // by the emulator. Note that it could also support Thumb IDIV + // in the future, and this will have to be slightly updated. + char* hardware = extract_cpuinfo_field(cpuinfo, + cpuinfo_len, + "Hardware"); + + if (hardware) + { + if (!strcmp(hardware, "Goldfish") && + g_cpuIdArm == 0x4100c080 && + (g_cpuFamily & ANDROID_CPU_ARM_FEATURE_ARMv7) != 0) + { + g_cpuFeatures |= ANDROID_CPU_ARM_FEATURE_IDIV_ARM; + } + + free(hardware); + } + } +#endif /* __arm__ */ +#ifdef __aarch64__ + { + /* Extract the list of CPU features from ELF hwcaps */ + uint32_t hwcaps = 0; + hwcaps = get_elf_hwcap_from_getauxval(AT_HWCAP); + + if (hwcaps != 0) + { + int has_fp = (hwcaps & HWCAP_FP); + int has_asimd = (hwcaps & HWCAP_ASIMD); + int has_aes = (hwcaps & HWCAP_AES); + int has_pmull = (hwcaps & HWCAP_PMULL); + int has_sha1 = (hwcaps & HWCAP_SHA1); + int has_sha2 = (hwcaps & HWCAP_SHA2); + int has_crc32 = (hwcaps & HWCAP_CRC32); + + if (has_fp == 0) + { + D("ERROR: Floating-point unit missing, but is required by Android on AArch64 CPUs\n"); + } + + if (has_asimd == 0) + { + D("ERROR: ASIMD unit missing, but is required by Android on AArch64 CPUs\n"); + } + + if (has_fp) + g_cpuFeatures |= ANDROID_CPU_ARM64_FEATURE_FP; + + if (has_asimd) + g_cpuFeatures |= ANDROID_CPU_ARM64_FEATURE_ASIMD; + + if (has_aes) + g_cpuFeatures |= ANDROID_CPU_ARM64_FEATURE_AES; + + if (has_pmull) + g_cpuFeatures |= ANDROID_CPU_ARM64_FEATURE_PMULL; + + if (has_sha1) + g_cpuFeatures |= ANDROID_CPU_ARM64_FEATURE_SHA1; + + if (has_sha2) + g_cpuFeatures |= ANDROID_CPU_ARM64_FEATURE_SHA2; + + if (has_crc32) + g_cpuFeatures |= ANDROID_CPU_ARM64_FEATURE_CRC32; + } + } +#endif /* __aarch64__ */ +#if defined(__i386__) || defined(__x86_64__) + int regs[4]; + /* According to http://en.wikipedia.org/wiki/CPUID */ +#define VENDOR_INTEL_b 0x756e6547 +#define VENDOR_INTEL_c 0x6c65746e +#define VENDOR_INTEL_d 0x49656e69 + x86_cpuid(0, regs); + int vendorIsIntel = (regs[1] == VENDOR_INTEL_b && + regs[2] == VENDOR_INTEL_c && + regs[3] == VENDOR_INTEL_d); + x86_cpuid(1, regs); + + if ((regs[2] & (1 << 9)) != 0) + { + g_cpuFeatures |= ANDROID_CPU_X86_FEATURE_SSSE3; + } + + if ((regs[2] & (1 << 23)) != 0) + { + g_cpuFeatures |= ANDROID_CPU_X86_FEATURE_POPCNT; + } + + if ((regs[2] & (1 << 19)) != 0) + { + g_cpuFeatures |= ANDROID_CPU_X86_FEATURE_SSE4_1; + } + + if ((regs[2] & (1 << 20)) != 0) + { + g_cpuFeatures |= ANDROID_CPU_X86_FEATURE_SSE4_2; + } + + if (vendorIsIntel && (regs[2] & (1 << 22)) != 0) + { + g_cpuFeatures |= ANDROID_CPU_X86_FEATURE_MOVBE; + } + + if ((regs[2] & (1 << 25)) != 0) + { + g_cpuFeatures |= ANDROID_CPU_X86_FEATURE_AES_NI; + } + + if ((regs[2] & (1 << 28)) != 0) + { + g_cpuFeatures |= ANDROID_CPU_X86_FEATURE_AVX; + } + + if ((regs[2] & (1 << 30)) != 0) + { + g_cpuFeatures |= ANDROID_CPU_X86_FEATURE_RDRAND; + } + + x86_cpuid(7, regs); + + if ((regs[1] & (1 << 5)) != 0) + { + g_cpuFeatures |= ANDROID_CPU_X86_FEATURE_AVX2; + } + + if ((regs[1] & (1 << 29)) != 0) + { + g_cpuFeatures |= ANDROID_CPU_X86_FEATURE_SHA_NI; + } + +#endif +#if defined( __mips__) + { + /* MIPS and MIPS64 */ + /* Extract the list of CPU features from ELF hwcaps */ + uint32_t hwcaps = 0; + hwcaps = get_elf_hwcap_from_getauxval(AT_HWCAP); + + if (hwcaps != 0) + { + int has_r6 = (hwcaps & HWCAP_MIPS_R6); + int has_msa = (hwcaps & HWCAP_MIPS_MSA); + + if (has_r6) + g_cpuFeatures |= ANDROID_CPU_MIPS_FEATURE_R6; + + if (has_msa) + g_cpuFeatures |= ANDROID_CPU_MIPS_FEATURE_MSA; + } + } +#endif /* __mips__ */ + free(cpuinfo); +} + + +AndroidCpuFamily +android_getCpuFamily(void) +{ + pthread_once(&g_once, android_cpuInit); + return g_cpuFamily; +} + + +uint64_t +android_getCpuFeatures(void) +{ + pthread_once(&g_once, android_cpuInit); + return g_cpuFeatures; +} + + +int +android_getCpuCount(void) +{ + pthread_once(&g_once, android_cpuInit); + return g_cpuCount; +} + +static void +android_cpuInitDummy(void) +{ + g_inited = 1; +} + +int +android_setCpu(int cpu_count, uint64_t cpu_features) +{ + /* Fail if the library was already initialized. */ + if (g_inited) + return 0; + + android_cpuInitFamily(); + g_cpuCount = (cpu_count <= 0 ? 1 : cpu_count); + g_cpuFeatures = cpu_features; + pthread_once(&g_once, android_cpuInitDummy); + return 1; +} + +#ifdef __arm__ +uint32_t +android_getCpuIdArm(void) +{ + pthread_once(&g_once, android_cpuInit); + return g_cpuIdArm; +} + +int +android_setCpuArm(int cpu_count, uint64_t cpu_features, uint32_t cpu_id) +{ + if (!android_setCpu(cpu_count, cpu_features)) + return 0; + + g_cpuIdArm = cpu_id; + return 1; +} +#endif /* __arm__ */ + +/* + * Technical note: Making sense of ARM's FPU architecture versions. + * + * FPA was ARM's first attempt at an FPU architecture. There is no Android + * device that actually uses it since this technology was already obsolete + * when the project started. If you see references to FPA instructions + * somewhere, you can be sure that this doesn't apply to Android at all. + * + * FPA was followed by "VFP", soon renamed "VFPv1" due to the emergence of + * new versions / additions to it. ARM considers this obsolete right now, + * and no known Android device implements it either. + * + * VFPv2 added a few instructions to VFPv1, and is an *optional* extension + * supported by some ARMv5TE, ARMv6 and ARMv6T2 CPUs. Note that a device + * supporting the 'armeabi' ABI doesn't necessarily support these. + * + * VFPv3-D16 adds a few instructions on top of VFPv2 and is typically used + * on ARMv7-A CPUs which implement a FPU. Note that it is also mandated + * by the Android 'armeabi-v7a' ABI. The -D16 suffix in its name means + * that it provides 16 double-precision FPU registers (d0-d15) and 32 + * single-precision ones (s0-s31) which happen to be mapped to the same + * register banks. + * + * VFPv3-D32 is the name of an extension to VFPv3-D16 that provides 16 + * additional double precision registers (d16-d31). Note that there are + * still only 32 single precision registers. + * + * VFPv3xD is a *subset* of VFPv3-D16 that only provides single-precision + * registers. It is only used on ARMv7-M (i.e. on micro-controllers) which + * are not supported by Android. Note that it is not compatible with VFPv2. + * + * NOTE: The term 'VFPv3' usually designate either VFPv3-D16 or VFPv3-D32 + * depending on context. For example GCC uses it for VFPv3-D32, but + * the Linux kernel code uses it for VFPv3-D16 (especially in + * /proc/cpuinfo). Always try to use the full designation when + * possible. + * + * NEON, a.k.a. "ARM Advanced SIMD" is an extension that provides + * instructions to perform parallel computations on vectors of 8, 16, + * 32, 64 and 128 bit quantities. NEON requires VFPv32-D32 since all + * NEON registers are also mapped to the same register banks. + * + * VFPv4-D16, adds a few instructions on top of VFPv3-D16 in order to + * perform fused multiply-accumulate on VFP registers, as well as + * half-precision (16-bit) conversion operations. + * + * VFPv4-D32 is VFPv4-D16 with 32, instead of 16, FPU double precision + * registers. + * + * VPFv4-NEON is VFPv4-D32 with NEON instructions. It also adds fused + * multiply-accumulate instructions that work on the NEON registers. + * + * NOTE: Similarly, "VFPv4" might either reference VFPv4-D16 or VFPv4-D32 + * depending on context. + * + * The following information was determined by scanning the binutils-2.22 + * sources: + * + * Basic VFP instruction subsets: + * + * #define FPU_VFP_EXT_V1xD 0x08000000 // Base VFP instruction set. + * #define FPU_VFP_EXT_V1 0x04000000 // Double-precision insns. + * #define FPU_VFP_EXT_V2 0x02000000 // ARM10E VFPr1. + * #define FPU_VFP_EXT_V3xD 0x01000000 // VFPv3 single-precision. + * #define FPU_VFP_EXT_V3 0x00800000 // VFPv3 double-precision. + * #define FPU_NEON_EXT_V1 0x00400000 // Neon (SIMD) insns. + * #define FPU_VFP_EXT_D32 0x00200000 // Registers D16-D31. + * #define FPU_VFP_EXT_FP16 0x00100000 // Half-precision extensions. + * #define FPU_NEON_EXT_FMA 0x00080000 // Neon fused multiply-add + * #define FPU_VFP_EXT_FMA 0x00040000 // VFP fused multiply-add + * + * FPU types (excluding NEON) + * + * FPU_VFP_V1xD (EXT_V1xD) + * | + * +--------------------------+ + * | | + * FPU_VFP_V1 (+EXT_V1) FPU_VFP_V3xD (+EXT_V2+EXT_V3xD) + * | | + * | | + * FPU_VFP_V2 (+EXT_V2) FPU_VFP_V4_SP_D16 (+EXT_FP16+EXT_FMA) + * | + * FPU_VFP_V3D16 (+EXT_Vx3D+EXT_V3) + * | + * +--------------------------+ + * | | + * FPU_VFP_V3 (+EXT_D32) FPU_VFP_V4D16 (+EXT_FP16+EXT_FMA) + * | | + * | FPU_VFP_V4 (+EXT_D32) + * | + * FPU_VFP_HARD (+EXT_FMA+NEON_EXT_FMA) + * + * VFP architectures: + * + * ARCH_VFP_V1xD (EXT_V1xD) + * | + * +------------------+ + * | | + * | ARCH_VFP_V3xD (+EXT_V2+EXT_V3xD) + * | | + * | ARCH_VFP_V3xD_FP16 (+EXT_FP16) + * | | + * | ARCH_VFP_V4_SP_D16 (+EXT_FMA) + * | + * ARCH_VFP_V1 (+EXT_V1) + * | + * ARCH_VFP_V2 (+EXT_V2) + * | + * ARCH_VFP_V3D16 (+EXT_V3xD+EXT_V3) + * | + * +-------------------+ + * | | + * | ARCH_VFP_V3D16_FP16 (+EXT_FP16) + * | + * +-------------------+ + * | | + * | ARCH_VFP_V4_D16 (+EXT_FP16+EXT_FMA) + * | | + * | ARCH_VFP_V4 (+EXT_D32) + * | | + * | ARCH_NEON_VFP_V4 (+EXT_NEON+EXT_NEON_FMA) + * | + * ARCH_VFP_V3 (+EXT_D32) + * | + * +-------------------+ + * | | + * | ARCH_VFP_V3_FP16 (+EXT_FP16) + * | + * ARCH_VFP_V3_PLUS_NEON_V1 (+EXT_NEON) + * | + * ARCH_NEON_FP16 (+EXT_FP16) + * + * -fpu= values and their correspondance with FPU architectures above: + * + * {"vfp", FPU_ARCH_VFP_V2}, + * {"vfp9", FPU_ARCH_VFP_V2}, + * {"vfp3", FPU_ARCH_VFP_V3}, // For backwards compatbility. + * {"vfp10", FPU_ARCH_VFP_V2}, + * {"vfp10-r0", FPU_ARCH_VFP_V1}, + * {"vfpxd", FPU_ARCH_VFP_V1xD}, + * {"vfpv2", FPU_ARCH_VFP_V2}, + * {"vfpv3", FPU_ARCH_VFP_V3}, + * {"vfpv3-fp16", FPU_ARCH_VFP_V3_FP16}, + * {"vfpv3-d16", FPU_ARCH_VFP_V3D16}, + * {"vfpv3-d16-fp16", FPU_ARCH_VFP_V3D16_FP16}, + * {"vfpv3xd", FPU_ARCH_VFP_V3xD}, + * {"vfpv3xd-fp16", FPU_ARCH_VFP_V3xD_FP16}, + * {"neon", FPU_ARCH_VFP_V3_PLUS_NEON_V1}, + * {"neon-fp16", FPU_ARCH_NEON_FP16}, + * {"vfpv4", FPU_ARCH_VFP_V4}, + * {"vfpv4-d16", FPU_ARCH_VFP_V4D16}, + * {"fpv4-sp-d16", FPU_ARCH_VFP_V4_SP_D16}, + * {"neon-vfpv4", FPU_ARCH_NEON_VFP_V4}, + * + * + * Simplified diagram that only includes FPUs supported by Android: + * Only ARCH_VFP_V3D16 is actually mandated by the armeabi-v7a ABI, + * all others are optional and must be probed at runtime. + * + * ARCH_VFP_V3D16 (EXT_V1xD+EXT_V1+EXT_V2+EXT_V3xD+EXT_V3) + * | + * +-------------------+ + * | | + * | ARCH_VFP_V3D16_FP16 (+EXT_FP16) + * | + * +-------------------+ + * | | + * | ARCH_VFP_V4_D16 (+EXT_FP16+EXT_FMA) + * | | + * | ARCH_VFP_V4 (+EXT_D32) + * | | + * | ARCH_NEON_VFP_V4 (+EXT_NEON+EXT_NEON_FMA) + * | + * ARCH_VFP_V3 (+EXT_D32) + * | + * +-------------------+ + * | | + * | ARCH_VFP_V3_FP16 (+EXT_FP16) + * | + * ARCH_VFP_V3_PLUS_NEON_V1 (+EXT_NEON) + * | + * ARCH_NEON_FP16 (+EXT_FP16) + * + */ diff --git a/winpr/libwinpr/sysinfo/cpufeatures/cpu-features.h b/winpr/libwinpr/sysinfo/cpufeatures/cpu-features.h new file mode 100644 index 0000000..e95ed9d --- /dev/null +++ b/winpr/libwinpr/sysinfo/cpufeatures/cpu-features.h @@ -0,0 +1,328 @@ +/* + * Copyright (C) 2010 The Android Open Source Project + * All rights reserved. + * + * Redistribution and use in source and binary forms, with or without + * modification, are permitted provided that the following conditions + * are met: + * * Redistributions of source code must retain the above copyright + * notice, this list of conditions and the following disclaimer. + * * Redistributions in binary form must reproduce the above copyright + * notice, this list of conditions and the following disclaimer in + * the documentation and/or other materials provided with the + * distribution. + * + * THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS + * "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT + * LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS + * FOR A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE + * COPYRIGHT OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, + * INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, + * BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS + * OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED + * AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, + * OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT + * OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF + * SUCH DAMAGE. + */ +#ifndef CPU_FEATURES_H +#define CPU_FEATURES_H + +#include +#include + +__BEGIN_DECLS + +/* A list of valid values returned by android_getCpuFamily(). + * They describe the CPU Architecture of the current process. + */ +typedef enum +{ + ANDROID_CPU_FAMILY_UNKNOWN = 0, + ANDROID_CPU_FAMILY_ARM, + ANDROID_CPU_FAMILY_X86, + ANDROID_CPU_FAMILY_MIPS, + ANDROID_CPU_FAMILY_ARM64, + ANDROID_CPU_FAMILY_X86_64, + ANDROID_CPU_FAMILY_MIPS64, + + ANDROID_CPU_FAMILY_MAX /* do not remove */ + +} AndroidCpuFamily; + +/* Return the CPU family of the current process. + * + * Note that this matches the bitness of the current process. I.e. when + * running a 32-bit binary on a 64-bit capable CPU, this will return the + * 32-bit CPU family value. + */ +extern AndroidCpuFamily android_getCpuFamily(void); + +/* Return a bitmap describing a set of optional CPU features that are + * supported by the current device's CPU. The exact bit-flags returned + * depend on the value returned by android_getCpuFamily(). See the + * documentation for the ANDROID_CPU_*_FEATURE_* flags below for details. + */ +extern uint64_t android_getCpuFeatures(void); + +/* The list of feature flags for ANDROID_CPU_FAMILY_ARM that can be + * recognized by the library (see note below for 64-bit ARM). Value details + * are: + * + * VFPv2: + * CPU supports the VFPv2 instruction set. Many, but not all, ARMv6 CPUs + * support these instructions. VFPv2 is a subset of VFPv3 so this will + * be set whenever VFPv3 is set too. + * + * ARMv7: + * CPU supports the ARMv7-A basic instruction set. + * This feature is mandated by the 'armeabi-v7a' ABI. + * + * VFPv3: + * CPU supports the VFPv3-D16 instruction set, providing hardware FPU + * support for single and double precision floating point registers. + * Note that only 16 FPU registers are available by default, unless + * the D32 bit is set too. This feature is also mandated by the + * 'armeabi-v7a' ABI. + * + * VFP_D32: + * CPU VFP optional extension that provides 32 FPU registers, + * instead of 16. Note that ARM mandates this feature is the 'NEON' + * feature is implemented by the CPU. + * + * NEON: + * CPU FPU supports "ARM Advanced SIMD" instructions, also known as + * NEON. Note that this mandates the VFP_D32 feature as well, per the + * ARM Architecture specification. + * + * VFP_FP16: + * Half-width floating precision VFP extension. If set, the CPU + * supports instructions to perform floating-point operations on + * 16-bit registers. This is part of the VFPv4 specification, but + * not mandated by any Android ABI. + * + * VFP_FMA: + * Fused multiply-accumulate VFP instructions extension. Also part of + * the VFPv4 specification, but not mandated by any Android ABI. + * + * NEON_FMA: + * Fused multiply-accumulate NEON instructions extension. Optional + * extension from the VFPv4 specification, but not mandated by any + * Android ABI. + * + * IDIV_ARM: + * Integer division available in ARM mode. Only available + * on recent CPUs (e.g. Cortex-A15). + * + * IDIV_THUMB2: + * Integer division available in Thumb-2 mode. Only available + * on recent CPUs (e.g. Cortex-A15). + * + * iWMMXt: + * Optional extension that adds MMX registers and operations to an + * ARM CPU. This is only available on a few XScale-based CPU designs + * sold by Marvell. Pretty rare in practice. + * + * AES: + * CPU supports AES instructions. These instructions are only + * available for 32-bit applications running on ARMv8 CPU. + * + * CRC32: + * CPU supports CRC32 instructions. These instructions are only + * available for 32-bit applications running on ARMv8 CPU. + * + * SHA2: + * CPU supports SHA2 instructions. These instructions are only + * available for 32-bit applications running on ARMv8 CPU. + * + * SHA1: + * CPU supports SHA1 instructions. These instructions are only + * available for 32-bit applications running on ARMv8 CPU. + * + * PMULL: + * CPU supports 64-bit PMULL and PMULL2 instructions. These + * instructions are only available for 32-bit applications + * running on ARMv8 CPU. + * + * If you want to tell the compiler to generate code that targets one of + * the feature set above, you should probably use one of the following + * flags (for more details, see technical note at the end of this file): + * + * -mfpu=vfp + * -mfpu=vfpv2 + * These are equivalent and tell GCC to use VFPv2 instructions for + * floating-point operations. Use this if you want your code to + * run on *some* ARMv6 devices, and any ARMv7-A device supported + * by Android. + * + * Generated code requires VFPv2 feature. + * + * -mfpu=vfpv3-d16 + * Tell GCC to use VFPv3 instructions (using only 16 FPU registers). + * This should be generic code that runs on any CPU that supports the + * 'armeabi-v7a' Android ABI. Note that no ARMv6 CPU supports this. + * + * Generated code requires VFPv3 feature. + * + * -mfpu=vfpv3 + * Tell GCC to use VFPv3 instructions with 32 FPU registers. + * Generated code requires VFPv3|VFP_D32 features. + * + * -mfpu=neon + * Tell GCC to use VFPv3 instructions with 32 FPU registers, and + * also support NEON intrinsics (see ). + * Generated code requires VFPv3|VFP_D32|NEON features. + * + * -mfpu=vfpv4-d16 + * Generated code requires VFPv3|VFP_FP16|VFP_FMA features. + * + * -mfpu=vfpv4 + * Generated code requires VFPv3|VFP_FP16|VFP_FMA|VFP_D32 features. + * + * -mfpu=neon-vfpv4 + * Generated code requires VFPv3|VFP_FP16|VFP_FMA|VFP_D32|NEON|NEON_FMA + * features. + * + * -mcpu=cortex-a7 + * -mcpu=cortex-a15 + * Generated code requires VFPv3|VFP_FP16|VFP_FMA|VFP_D32| + * NEON|NEON_FMA|IDIV_ARM|IDIV_THUMB2 + * This flag implies -mfpu=neon-vfpv4. + * + * -mcpu=iwmmxt + * Allows the use of iWMMXt instrinsics with GCC. + * + * IMPORTANT NOTE: These flags should only be tested when + * android_getCpuFamily() returns ANDROID_CPU_FAMILY_ARM, i.e. this is a + * 32-bit process. + * + * When running a 64-bit ARM process on an ARMv8 CPU, + * android_getCpuFeatures() will return a different set of bitflags + */ +enum +{ + ANDROID_CPU_ARM_FEATURE_ARMv7 = (1 << 0), + ANDROID_CPU_ARM_FEATURE_VFPv3 = (1 << 1), + ANDROID_CPU_ARM_FEATURE_NEON = (1 << 2), + ANDROID_CPU_ARM_FEATURE_LDREX_STREX = (1 << 3), + ANDROID_CPU_ARM_FEATURE_VFPv2 = (1 << 4), + ANDROID_CPU_ARM_FEATURE_VFP_D32 = (1 << 5), + ANDROID_CPU_ARM_FEATURE_VFP_FP16 = (1 << 6), + ANDROID_CPU_ARM_FEATURE_VFP_FMA = (1 << 7), + ANDROID_CPU_ARM_FEATURE_NEON_FMA = (1 << 8), + ANDROID_CPU_ARM_FEATURE_IDIV_ARM = (1 << 9), + ANDROID_CPU_ARM_FEATURE_IDIV_THUMB2 = (1 << 10), + ANDROID_CPU_ARM_FEATURE_iWMMXt = (1 << 11), + ANDROID_CPU_ARM_FEATURE_AES = (1 << 12), + ANDROID_CPU_ARM_FEATURE_PMULL = (1 << 13), + ANDROID_CPU_ARM_FEATURE_SHA1 = (1 << 14), + ANDROID_CPU_ARM_FEATURE_SHA2 = (1 << 15), + ANDROID_CPU_ARM_FEATURE_CRC32 = (1 << 16), +}; + +/* The bit flags corresponding to the output of android_getCpuFeatures() + * when android_getCpuFamily() returns ANDROID_CPU_FAMILY_ARM64. Value details + * are: + * + * FP: + * CPU has Floating-point unit. + * + * ASIMD: + * CPU has Advanced SIMD unit. + * + * AES: + * CPU supports AES instructions. + * + * CRC32: + * CPU supports CRC32 instructions. + * + * SHA2: + * CPU supports SHA2 instructions. + * + * SHA1: + * CPU supports SHA1 instructions. + * + * PMULL: + * CPU supports 64-bit PMULL and PMULL2 instructions. + */ +enum +{ + ANDROID_CPU_ARM64_FEATURE_FP = (1 << 0), + ANDROID_CPU_ARM64_FEATURE_ASIMD = (1 << 1), + ANDROID_CPU_ARM64_FEATURE_AES = (1 << 2), + ANDROID_CPU_ARM64_FEATURE_PMULL = (1 << 3), + ANDROID_CPU_ARM64_FEATURE_SHA1 = (1 << 4), + ANDROID_CPU_ARM64_FEATURE_SHA2 = (1 << 5), + ANDROID_CPU_ARM64_FEATURE_CRC32 = (1 << 6), +}; + +/* The bit flags corresponding to the output of android_getCpuFeatures() + * when android_getCpuFamily() returns ANDROID_CPU_FAMILY_X86 or + * ANDROID_CPU_FAMILY_X86_64. + */ +enum +{ + ANDROID_CPU_X86_FEATURE_SSSE3 = (1 << 0), + ANDROID_CPU_X86_FEATURE_POPCNT = (1 << 1), + ANDROID_CPU_X86_FEATURE_MOVBE = (1 << 2), + ANDROID_CPU_X86_FEATURE_SSE4_1 = (1 << 3), + ANDROID_CPU_X86_FEATURE_SSE4_2 = (1 << 4), + ANDROID_CPU_X86_FEATURE_AES_NI = (1 << 5), + ANDROID_CPU_X86_FEATURE_AVX = (1 << 6), + ANDROID_CPU_X86_FEATURE_RDRAND = (1 << 7), + ANDROID_CPU_X86_FEATURE_AVX2 = (1 << 8), + ANDROID_CPU_X86_FEATURE_SHA_NI = (1 << 9), +}; + +/* The bit flags corresponding to the output of android_getCpuFeatures() + * when android_getCpuFamily() returns ANDROID_CPU_FAMILY_MIPS + * or ANDROID_CPU_FAMILY_MIPS64. Values are: + * + * R6: + * CPU executes MIPS Release 6 instructions natively, and + * supports obsoleted R1..R5 instructions only via kernel traps. + * + * MSA: + * CPU supports Mips SIMD Architecture instructions. + */ +enum +{ + ANDROID_CPU_MIPS_FEATURE_R6 = (1 << 0), + ANDROID_CPU_MIPS_FEATURE_MSA = (1 << 1), +}; + + +/* Return the number of CPU cores detected on this device. */ +extern int android_getCpuCount(void); + +/* The following is used to force the CPU count and features + * mask in sandboxed processes. Under 4.1 and higher, these processes + * cannot access /proc, which is the only way to get information from + * the kernel about the current hardware (at least on ARM). + * + * It _must_ be called only once, and before any android_getCpuXXX + * function, any other case will fail. + * + * This function return 1 on success, and 0 on failure. + */ +extern int android_setCpu(int cpu_count, + uint64_t cpu_features); + +#ifdef __arm__ +/* Retrieve the ARM 32-bit CPUID value from the kernel. + * Note that this cannot work on sandboxed processes under 4.1 and + * higher, unless you called android_setCpuArm() before. + */ +extern uint32_t android_getCpuIdArm(void); + +/* An ARM-specific variant of android_setCpu() that also allows you + * to set the ARM CPUID field. + */ +extern int android_setCpuArm(int cpu_count, + uint64_t cpu_features, + uint32_t cpu_id); +#endif + +__END_DECLS + +#endif /* CPU_FEATURES_H */ diff --git a/winpr/libwinpr/sysinfo/cpufeatures/repo.prop 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b66267cc5491513a9ad0369761a1c1b52bf15fed +toolchain/gmp b2acd5dbf47868ac5b5bc844e16d2cadcbd4c810 +toolchain/isl 0ccf95726af8ce58ad61ff474addbce3a31ba99c +toolchain/mpc 835d16e92eed875638a8b5d552034c3b1aae045b +toolchain/mpfr de979fc377db766591e7feaf052f0de59be46e76 +toolchain/ppl 979062d362bc5a1c00804237b408b19b4618fb24 +toolchain/python 6a7fc9bfd21da85dda97a8bcd2952e0bfbded424 +toolchain/sed 45df23d6dc8b51ea5cd903d023c10fd7d72415b9 +toolchain/xz 595407f5a237e9bfd6821d70096d38825ec9c4e0 +toolchain/yasm a159fe073809b4138cf90b7298ea31ea17af85c0 diff --git a/winpr/libwinpr/sysinfo/sysinfo.c b/winpr/libwinpr/sysinfo/sysinfo.c index b00ad3f..27e9c57 100644 --- a/winpr/libwinpr/sysinfo/sysinfo.c +++ b/winpr/libwinpr/sysinfo/sysinfo.c @@ -25,7 +25,11 @@ #include #include -#if defined(__linux__) && defined(__GNUC__) +#if defined(ANDROID) +#include "cpufeatures/cpu-features.h" +#endif + +#if defined(__linux__) #include #include #include @@ -75,7 +79,34 @@ defined(__OpenBSD__) || defined(__DragonFly__) static DWORD GetProcessorArchitecture(void) { DWORD cpuArch = PROCESSOR_ARCHITECTURE_UNKNOWN; -#if defined(_M_ARM) +#if defined(ANDROID) + AndroidCpuFamily family = android_getCpuFamily(); + + switch (family) + { + case ANDROID_CPU_FAMILY_ARM: + return PROCESSOR_ARCHITECTURE_ARM; + + case ANDROID_CPU_FAMILY_X86: + return PROCESSOR_ARCHITECTURE_INTEL; + + case ANDROID_CPU_FAMILY_MIPS: + return PROCESSOR_ARCHITECTURE_MIPS; + + case ANDROID_CPU_FAMILY_ARM64: + return PROCESSOR_ARCHITECTURE_ARM64; + + case ANDROID_CPU_FAMILY_X86_64: + return PROCESSOR_ARCHITECTURE_AMD64; + + case ANDROID_CPU_FAMILY_MIPS64: + return PROCESSOR_ARCHITECTURE_MIPS64; + + default: + return PROCESSOR_ARCHITECTURE_UNKNOWN; + } + +#elif defined(_M_ARM) cpuArch = PROCESSOR_ARCHITECTURE_ARM; #elif defined(_M_IX86) cpuArch = PROCESSOR_ARCHITECTURE_INTEL; @@ -99,8 +130,10 @@ static DWORD GetProcessorArchitecture(void) static DWORD GetNumberOfProcessors(void) { DWORD numCPUs = 1; +#if defined(ANDROID) + return android_getCpuCount(); /* TODO: iOS */ -#if defined(__linux__) || defined(__sun) || defined(_AIX) +#elif defined(__linux__) || defined(__sun) || defined(_AIX) numCPUs = (DWORD) sysconf(_SC_NPROCESSORS_ONLN); #elif defined(__MACOSX__) || \ defined(__FreeBSD__) || defined(__NetBSD__) || \ @@ -204,6 +237,7 @@ void GetSystemTime(LPSYSTEMTIME lpSystemTime) BOOL SetSystemTime(CONST SYSTEMTIME* lpSystemTime) { + /* TODO: Implement */ return FALSE; } @@ -232,6 +266,7 @@ VOID GetLocalTime(LPSYSTEMTIME lpSystemTime) BOOL SetLocalTime(CONST SYSTEMTIME* lpSystemTime) { + /* TODO: Implement */ return FALSE; } @@ -249,6 +284,7 @@ VOID GetSystemTimeAsFileTime(LPFILETIME lpSystemTimeAsFileTime) BOOL GetSystemTimeAdjustment(PDWORD lpTimeAdjustment, PDWORD lpTimeIncrement, PBOOL lpTimeAdjustmentDisabled) { + /* TODO: Implement */ return FALSE; } @@ -398,13 +434,13 @@ BOOL GetComputerNameExA(COMPUTER_NAME_FORMAT NameType, LPSTR lpBuffer, LPDWORD l switch (NameType) { - case ComputerNameDnsHostname: - case ComputerNameDnsDomain: - case ComputerNameDnsFullyQualified: - case ComputerNamePhysicalDnsHostname: - case ComputerNamePhysicalDnsDomain: - case ComputerNamePhysicalDnsFullyQualified: - if (*lpnSize <= (DWORD) length) + case ComputerNameDnsHostname: + case ComputerNameDnsDomain: + case ComputerNameDnsFullyQualified: + case ComputerNamePhysicalDnsHostname: + case ComputerNamePhysicalDnsDomain: + case ComputerNamePhysicalDnsFullyQualified: + if (*lpnSize <= (DWORD) length) { *lpnSize = length + 1; SetLastError(ERROR_MORE_DATA); @@ -416,10 +452,10 @@ BOOL GetComputerNameExA(COMPUTER_NAME_FORMAT NameType, LPSTR lpBuffer, LPDWORD l CopyMemory(lpBuffer, hostname, length); lpBuffer[length] = '\0'; - break; + break; - default: - return FALSE; + default: + return FALSE; } return TRUE; @@ -512,8 +548,8 @@ static void cpuid( __asm volatile ( /* The EBX (or RBX register on x86_64) is used for the PIC base address - * and must not be corrupted by our inline assembly. - */ + * and must not be corrupted by our inline assembly. + */ #ifdef _M_IX86 "mov %%ebx, %%esi;" "cpuid;" @@ -603,85 +639,98 @@ static unsigned GetARMCPUCaps(void) BOOL IsProcessorFeaturePresent(DWORD ProcessorFeature) { BOOL ret = FALSE; -#ifdef _M_ARM +#if defined(ANDROID) + const uint64_t features = android_getCpuFeatures(); + + switch (ProcessorFeature) + { + case PF_ARM_NEON_INSTRUCTIONS_AVAILABLE: + case PF_ARM_NEON: + return features & ANDROID_CPU_ARM_FEATURE_NEON; + + default: + return FALSE; + } + +#elif defined(_M_ARM) #ifdef __linux__ const unsigned caps = GetARMCPUCaps(); switch (ProcessorFeature) { - case PF_ARM_NEON_INSTRUCTIONS_AVAILABLE: - case PF_ARM_NEON: - if (caps & HWCAP_NEON) + case PF_ARM_NEON_INSTRUCTIONS_AVAILABLE: + case PF_ARM_NEON: + if (caps & HWCAP_NEON) ret = TRUE; - break; + break; - case PF_ARM_THUMB: - if (caps & HWCAP_THUMB) + case PF_ARM_THUMB: + if (caps & HWCAP_THUMB) ret = TRUE; - case PF_ARM_VFP_32_REGISTERS_AVAILABLE: - if (caps & HWCAP_VFPD32) + case PF_ARM_VFP_32_REGISTERS_AVAILABLE: + if (caps & HWCAP_VFPD32) ret = TRUE; - case PF_ARM_DIVIDE_INSTRUCTION_AVAILABLE: - if ((caps & HWCAP_IDIVA) || (caps & HWCAP_IDIVT)) + case PF_ARM_DIVIDE_INSTRUCTION_AVAILABLE: + if ((caps & HWCAP_IDIVA) || (caps & HWCAP_IDIVT)) ret = TRUE; - case PF_ARM_VFP3: - if (caps & HWCAP_VFPv3) + case PF_ARM_VFP3: + if (caps & HWCAP_VFPv3) ret = TRUE; - break; + break; - case PF_ARM_JAZELLE: - if (caps & HWCAP_JAVA) + case PF_ARM_JAZELLE: + if (caps & HWCAP_JAVA) ret = TRUE; - break; + break; - case PF_ARM_DSP: - if (caps & HWCAP_EDSP) + case PF_ARM_DSP: + if (caps & HWCAP_EDSP) ret = TRUE; - break; + break; - case PF_ARM_MPU: - if (caps & HWCAP_EDSP) + case PF_ARM_MPU: + if (caps & HWCAP_EDSP) ret = TRUE; - break; + break; - case PF_ARM_THUMB2: - if ((caps & HWCAP_IDIVT) || (caps & HWCAP_VFPv4)) + case PF_ARM_THUMB2: + if ((caps & HWCAP_IDIVT) || (caps & HWCAP_VFPv4)) ret = TRUE; - break; + break; - case PF_ARM_T2EE: - if (caps & HWCAP_THUMBEE) + case PF_ARM_T2EE: + if (caps & HWCAP_THUMBEE) ret = TRUE; - break; + break; - case PF_ARM_INTEL_WMMX: - if (caps & HWCAP_IWMMXT) + case PF_ARM_INTEL_WMMX: + if (caps & HWCAP_IWMMXT) ret = TRUE; - break; + break; - default: - break; + default: + break; } #elif defined(__APPLE__) // __linux__ switch (ProcessorFeature) { - case PF_ARM_NEON_INSTRUCTIONS_AVAILABLE: - case PF_ARM_NEON: - ret = TRUE; - break; + case PF_ARM_NEON_INSTRUCTIONS_AVAILABLE: + case PF_ARM_NEON: + ret = TRUE; + break; } #endif // __linux__ @@ -692,38 +741,38 @@ BOOL IsProcessorFeaturePresent(DWORD ProcessorFeature) switch (ProcessorFeature) { - case PF_MMX_INSTRUCTIONS_AVAILABLE: - if (d & D_BIT_MMX) + case PF_MMX_INSTRUCTIONS_AVAILABLE: + if (d & D_BIT_MMX) ret = TRUE; - break; + break; - case PF_XMMI_INSTRUCTIONS_AVAILABLE: - if (d & D_BIT_SSE) + case PF_XMMI_INSTRUCTIONS_AVAILABLE: + if (d & D_BIT_SSE) ret = TRUE; - break; + break; - case PF_XMMI64_INSTRUCTIONS_AVAILABLE: - if (d & D_BIT_SSE2) + case PF_XMMI64_INSTRUCTIONS_AVAILABLE: + if (d & D_BIT_SSE2) ret = TRUE; - break; + break; - case PF_3DNOW_INSTRUCTIONS_AVAILABLE: - if (d & D_BIT_3DN) + case PF_3DNOW_INSTRUCTIONS_AVAILABLE: + if (d & D_BIT_3DN) ret = TRUE; - break; + break; - case PF_SSE3_INSTRUCTIONS_AVAILABLE: - if (c & C_BIT_SSE3) + case PF_SSE3_INSTRUCTIONS_AVAILABLE: + if (c & C_BIT_SSE3) ret = TRUE; - break; + break; - default: - break; + default: + break; } #endif // __GNUC__ @@ -756,35 +805,35 @@ BOOL IsProcessorFeaturePresentEx(DWORD ProcessorFeature) switch (ProcessorFeature) { - case PF_EX_ARM_VFP1: - if (caps & HWCAP_VFP) + case PF_EX_ARM_VFP1: + if (caps & HWCAP_VFP) ret = TRUE; - break; + break; - case PF_EX_ARM_VFP3D16: - if (caps & HWCAP_VFPv3D16) + case PF_EX_ARM_VFP3D16: + if (caps & HWCAP_VFPv3D16) ret = TRUE; - break; + break; - case PF_EX_ARM_VFP4: - if (caps & HWCAP_VFPv4) + case PF_EX_ARM_VFP4: + if (caps & HWCAP_VFPv4) ret = TRUE; - break; + break; - case PF_EX_ARM_IDIVA: - if (caps & HWCAP_IDIVA) + case PF_EX_ARM_IDIVA: + if (caps & HWCAP_IDIVA) ret = TRUE; - break; + break; - case PF_EX_ARM_IDIVT: - if (caps & HWCAP_IDIVT) + case PF_EX_ARM_IDIVT: + if (caps & HWCAP_IDIVT) ret = TRUE; - break; + break; } #endif // __linux__ @@ -794,48 +843,48 @@ BOOL IsProcessorFeaturePresentEx(DWORD ProcessorFeature) switch (ProcessorFeature) { - case PF_EX_LZCNT: - { - unsigned a81, b81, c81, d81; + case PF_EX_LZCNT: + { + unsigned a81, b81, c81, d81; cpuid(0x80000001, &a81, &b81, &c81, &d81); if (c81 & C81_BIT_LZCNT) ret = TRUE; - } - break; + } + break; - case PF_EX_3DNOW_PREFETCH: - if (c & C_BIT_3DNP) + case PF_EX_3DNOW_PREFETCH: + if (c & C_BIT_3DNP) ret = TRUE; - break; + break; - case PF_EX_SSSE3: - if (c & C_BIT_SSSE3) + case PF_EX_SSSE3: + if (c & C_BIT_SSSE3) ret = TRUE; - break; + break; - case PF_EX_SSE41: - if (c & C_BIT_SSE41) + case PF_EX_SSE41: + if (c & C_BIT_SSE41) ret = TRUE; - break; + break; - case PF_EX_SSE42: - if (c & C_BIT_SSE42) + case PF_EX_SSE42: + if (c & C_BIT_SSE42) ret = TRUE; - break; + break; #if defined(__GNUC__) && defined(__AVX__) - case PF_EX_AVX: - case PF_EX_FMA: - case PF_EX_AVX_AES: - case PF_EX_AVX_PCLMULQDQ: - { - /* Check for general AVX support */ - if ((c & C_BITS_AVX) != C_BITS_AVX) + case PF_EX_AVX: + case PF_EX_FMA: + case PF_EX_AVX_AES: + case PF_EX_AVX_PCLMULQDQ: + { + /* Check for general AVX support */ + if ((c & C_BITS_AVX) != C_BITS_AVX) break; int e, f; @@ -846,35 +895,35 @@ BOOL IsProcessorFeaturePresentEx(DWORD ProcessorFeature) { switch (ProcessorFeature) { - case PF_EX_AVX: - ret = TRUE; - break; + case PF_EX_AVX: + ret = TRUE; + break; - case PF_EX_FMA: - if (c & C_BIT_FMA) + case PF_EX_FMA: + if (c & C_BIT_FMA) ret = TRUE; - break; + break; - case PF_EX_AVX_AES: - if (c & C_BIT_AES) + case PF_EX_AVX_AES: + if (c & C_BIT_AES) ret = TRUE; - break; + break; - case PF_EX_AVX_PCLMULQDQ: - if (c & C_BIT_PCLMULQDQ) + case PF_EX_AVX_PCLMULQDQ: + if (c & C_BIT_PCLMULQDQ) ret = TRUE; - break; + break; } } - } - break; + } + break; #endif //__AVX__ - default: - break; + default: + break; } #endif