/* * Copyright 2012 The Android Open Source Project * * Use of this source code is governed by a BSD-style license that can be * found in the LICENSE file. */ #include "SkUtilsArm.h" #if SK_ARM_NEON_IS_DYNAMIC #include #include #include #include #include // Set USE_ANDROID_NDK_CPU_FEATURES to use the Android NDK's // cpu-features helper library to detect NEON at runtime. See // http://crbug.com/164154 to see why this is needed in Chromium // for Android. #if !defined(USE_ANDROID_NDK_CPU_FEATURES) # if defined(SK_BUILD_FOR_ANDROID) # define USE_ANDROID_NDK_CPU_FEATURES 1 # else # define USE_ANDROID_NDK_CPU_FEATURES 0 # endif #endif #if USE_ANDROID_NDK_CPU_FEATURES # include #endif // Set NEON_DEBUG to 1 to allow debugging of the CPU features probing. // For now, we always set it for SK_DEBUG builds. #ifdef SK_DEBUG # define NEON_DEBUG 1 #else # define NEON_DEBUG 0 #endif #if NEON_DEBUG # ifdef SK_BUILD_FOR_ANDROID // used to declare PROP_VALUE_MAX and __system_property_get() # include # endif #endif // A function used to determine at runtime if the target CPU supports // the ARM NEON instruction set. This implementation is Linux-specific. static bool sk_cpu_arm_check_neon(void) { bool result = false; #if NEON_DEBUG // Allow forcing the mode through the environment during debugging. # ifdef SK_BUILD_FOR_ANDROID // On Android, we use a system property # define PROP_NAME "debug.skia.arm_neon_mode" char prop[PROP_VALUE_MAX]; if (__system_property_get(PROP_NAME, prop) > 0) { # else # define PROP_NAME "SKIA_ARM_NEON_MODE" // On ARM Linux, we use an environment variable const char* prop = getenv(PROP_NAME); if (prop != NULL) { # endif SkDebugf("%s: %s", PROP_NAME, prop); if (!strcmp(prop, "1")) { SkDebugf("Forcing ARM Neon mode to full!\n"); return true; } if (!strcmp(prop, "0")) { SkDebugf("Disabling ARM NEON mode\n"); return false; } } SkDebugf("Running dynamic CPU feature detection\n"); #endif #if USE_ANDROID_NDK_CPU_FEATURES result = (android_getCpuFeatures() & ANDROID_CPU_ARM_FEATURE_NEON) != 0; #else // USE_ANDROID_NDK_CPU_FEATURES // There is no user-accessible CPUID instruction on ARM that we can use. // Instead, we must parse /proc/cpuinfo and look for the 'neon' feature. // For example, here's a typical output (Nexus S running ICS 4.0.3): /* Processor : ARMv7 Processor rev 2 (v7l) BogoMIPS : 994.65 Features : swp half thumb fastmult vfp edsp thumbee neon vfpv3 CPU implementer : 0x41 CPU architecture: 7 CPU variant : 0x2 CPU part : 0xc08 CPU revision : 2 Hardware : herring Revision : 000b Serial : 3833c77d6dc000ec */ char buffer[4096]; // If we fail any of the following, assume we don't have NEON instructions // This allows us to return immediately in case of error. result = false; do { // open /proc/cpuinfo int fd = TEMP_FAILURE_RETRY(open("/proc/cpuinfo", O_RDONLY)); if (fd < 0) { SkDebugf("Could not open /proc/cpuinfo: %s\n", strerror(errno)); break; } // Read the file. To simplify our search, we're going to place two // sentinel '\n' characters: one at the start of the buffer, and one at // the end. This means we reserve the first and last buffer bytes. buffer[0] = '\n'; int size = TEMP_FAILURE_RETRY(read(fd, buffer+1, sizeof(buffer)-2)); close(fd); if (size < 0) { // should not happen SkDebugf("Could not read /proc/cpuinfo: %s\n", strerror(errno)); break; } SkDebugf("START /proc/cpuinfo:\n%.*s\nEND /proc/cpuinfo\n", size, buffer+1); // Compute buffer limit, and place final sentinel char* buffer_end = buffer + 1 + size; buffer_end[0] = '\n'; // Now, find a line that starts with "Features", i.e. look for // '\nFeatures ' in our buffer. const char features[] = "\nFeatures\t"; const size_t features_len = sizeof(features)-1; char* line = (char*) memmem(buffer, buffer_end - buffer, features, features_len); if (line == NULL) { // Weird, no Features line, bad kernel? SkDebugf("Could not find a line starting with 'Features'" "in /proc/cpuinfo ?\n"); break; } line += features_len; // Skip the "\nFeatures\t" prefix // Find the end of the current line char* line_end = (char*) memchr(line, '\n', buffer_end - line); if (line_end == NULL) line_end = buffer_end; // Now find an instance of 'neon' in the flags list. We want to // ensure it's only 'neon' and not something fancy like 'noneon' // so check that it follows a space. const char neon[] = " neon"; const size_t neon_len = sizeof(neon)-1; const char* flag = (const char*) memmem(line, line_end - line, neon, neon_len); if (flag == NULL) break; // Ensure it is followed by a space or a newline. if (flag[neon_len] != ' ' && flag[neon_len] != '\n') break; // Fine, we support Arm NEON ! result = true; } while (0); #endif // USE_ANDROID_NDK_CPU_FEATURES if (result) { SkDebugf("Device supports ARM NEON instructions!\n"); } else { SkDebugf("Device does NOT support ARM NEON instructions!\n"); } return result; } static pthread_once_t sOnce; static bool sHasArmNeon; // called through pthread_once() void sk_cpu_arm_probe_features(void) { sHasArmNeon = sk_cpu_arm_check_neon(); } bool sk_cpu_arm_has_neon(void) { pthread_once(&sOnce, sk_cpu_arm_probe_features); return sHasArmNeon; } #endif // SK_ARM_NEON_IS_DYNAMIC