/* * 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 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 #ifdef __arm__ #include #endif #include #include "performance_android.h" #include #include #include #include #include static pthread_once_t g_once; static AndroidCpuFamily g_cpuFamily; static uint64_t g_cpuFeatures; static int g_cpuCount; #ifdef __arm__ # define DEFAULT_CPU_FAMILY ANDROID_CPU_FAMILY_ARM #elif defined __i386__ # define DEFAULT_CPU_FAMILY ANDROID_CPU_FAMILY_X86 #else # define DEFAULT_CPU_FAMILY ANDROID_CPU_FAMILY_UNKNOWN #endif #ifdef __i386__ static INLINE void cpu_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 %1, %%ebx\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; } #endif /* 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 cpu_read_file(const char* pathname, char* buffer, size_t buffsize) { int fd, len; fd = open(pathname, O_RDONLY); if (fd < 0) return -1; do { len = read(fd, buffer, buffsize); } while (len < 0 && errno == EINTR); close(fd); return len; } /* 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(char* buffer, int buflen, const char* field) { int fieldlen = strlen(field); 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; bufend = buffer + buflen; 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; } /* Parse an decimal integer 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_decimal(const char* input, const char* limit, int* result) { const char* p = input; int val = 0; while (p < limit) { int d = (*p - '0'); if ((unsigned)d >= 10U) break; val = val*10 + d; p++; } if (p == input) return NULL; *result = val; return p; } /* 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; /* 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++) { if ((unsigned)val < 32) list->mask |= (uint32_t)(1U << 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; list->mask = 0; filelen = cpu_read_file(filename, file, sizeof file); if (filelen < 0) { RARCH_ERR("Could not read %s: %s\n", filename, strerror(errno)); return; } cpulist_parse(list, file, filelen); } /* 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. */ cpus_present->mask &= cpus_possible->mask; return __builtin_popcount(cpus_present->mask); } static void android_cpuInit(void) { char cpuinfo[4096]; int cpuinfo_len; g_cpuFamily = DEFAULT_CPU_FAMILY; g_cpuFeatures = 0; g_cpuCount = 1; cpuinfo_len = cpu_read_file("/proc/cpuinfo", cpuinfo, sizeof cpuinfo); RARCH_LOG("cpuinfo_len is (%d):\n%.*s\n", cpuinfo_len, cpuinfo_len >= 0 ? cpuinfo_len : 0, cpuinfo); if (cpuinfo_len < 0) 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; RARCH_LOG("found cpuCount = %d\n", g_cpuCount); #ifdef __ARM_ARCH__ /* 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; RARCH_LOG("found cpuArch = '%s'\n", cpuArch); /* read the initial decimal number, ignore the rest */ archNumber = strtol(cpuArch, &end, 10); /* Here we assume that ARMv8 will be upwards compatible with v7 * in the future. Unfortunately, there is no 'Features' field to * indicate that Thumb-2 is supported. */ 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) { RARCH_LOG("found cpuProc = '%s'\n", cpuProc); if (has_list_item(cpuProc, "(v6l)")) { RARCH_ERR("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 'Features' field */ char* cpuFeatures = extract_cpuinfo_field(cpuinfo, cpuinfo_len, "Features"); if (cpuFeatures != NULL) { RARCH_LOG("found cpuFeatures = '%s'\n", cpuFeatures); if (has_list_item(cpuFeatures, "vfpv3")) g_cpuFeatures |= ANDROID_CPU_ARM_FEATURE_VFPv3; else if (has_list_item(cpuFeatures, "vfpv3d16")) g_cpuFeatures |= ANDROID_CPU_ARM_FEATURE_VFPv3; if (has_list_item(cpuFeatures, "neon")) { /* Note: Certain kernels only report neon but not vfpv3 * in their features list. However, ARM mandates * that if Neon is implemented, so must be VFPv3 * so always set the flag. */ g_cpuFeatures |= ANDROID_CPU_ARM_FEATURE_NEON | ANDROID_CPU_ARM_FEATURE_VFPv3; } free(cpuFeatures); } #endif /* __ARM_ARCH__ */ #ifdef __i386__ g_cpuFamily = ANDROID_CPU_FAMILY_X86; 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 cpu_x86_cpuid(0, regs); int vendorIsIntel = (regs[1] == VENDOR_INTEL_b && regs[2] == VENDOR_INTEL_c && regs[3] == VENDOR_INTEL_d); cpu_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 (vendorIsIntel && (regs[2] & (1 << 22)) != 0) g_cpuFeatures |= ANDROID_CPU_X86_FEATURE_MOVBE; #endif #ifdef _MIPS_ARCH g_cpuFamily = ANDROID_CPU_FAMILY_MIPS; #endif /* _MIPS_ARCH */ } 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; }