/* ===-- clear_cache.c - Implement __clear_cache ---------------------------=== * * The LLVM Compiler Infrastructure * * This file is dual licensed under the MIT and the University of Illinois Open * Source Licenses. See LICENSE.TXT for details. * * ===----------------------------------------------------------------------=== */ #include "int_lib.h" #include #include #if __APPLE__ #include #endif #if defined(_WIN32) /* Forward declare Win32 APIs since the GCC mode driver does not handle the newer SDKs as well as needed. */ uint32_t FlushInstructionCache(uintptr_t hProcess, void *lpBaseAddress, uintptr_t dwSize); uintptr_t GetCurrentProcess(void); #endif #if defined(__FreeBSD__) && defined(__arm__) #include #include #endif #if defined(__NetBSD__) && defined(__arm__) #include #endif #if defined(__linux__) && defined(__mips__) #include #include #include #if defined(__ANDROID__) && defined(__LP64__) /* * clear_mips_cache - Invalidates instruction cache for Mips. */ static void clear_mips_cache(const void* Addr, size_t Size) { __asm__ volatile ( ".set push\n" ".set noreorder\n" ".set noat\n" "beq %[Size], $zero, 20f\n" /* If size == 0, branch around. */ "nop\n" "daddu %[Size], %[Addr], %[Size]\n" /* Calculate end address + 1 */ "rdhwr $v0, $1\n" /* Get step size for SYNCI. $1 is $HW_SYNCI_Step */ "beq $v0, $zero, 20f\n" /* If no caches require synchronization, branch around. */ "nop\n" "10:\n" "synci 0(%[Addr])\n" /* Synchronize all caches around address. */ "daddu %[Addr], %[Addr], $v0\n" /* Add step size. */ "sltu $at, %[Addr], %[Size]\n" /* Compare current with end address. */ "bne $at, $zero, 10b\n" /* Branch if more to do. */ "nop\n" "sync\n" /* Clear memory hazards. */ "20:\n" "bal 30f\n" "nop\n" "30:\n" "daddiu $ra, $ra, 12\n" /* $ra has a value of $pc here. Add offset of 12 to point to the instruction after the last nop. */ "jr.hb $ra\n" /* Return, clearing instruction hazards. */ "nop\n" ".set pop\n" : [Addr] "+r"(Addr), [Size] "+r"(Size) :: "at", "ra", "v0", "memory" ); } #endif #endif /* * The compiler generates calls to __clear_cache() when creating * trampoline functions on the stack for use with nested functions. * It is expected to invalidate the instruction cache for the * specified range. */ void __clear_cache(void *start, void *end) { #if __i386__ || __x86_64__ || defined(_M_IX86) || defined(_M_X64) /* * Intel processors have a unified instruction and data cache * so there is nothing to do */ #elif defined(__arm__) && !defined(__APPLE__) #if defined(__FreeBSD__) || defined(__NetBSD__) struct arm_sync_icache_args arg; arg.addr = (uintptr_t)start; arg.len = (uintptr_t)end - (uintptr_t)start; sysarch(ARM_SYNC_ICACHE, &arg); #elif defined(__linux__) /* * We used to include asm/unistd.h for the __ARM_NR_cacheflush define, but * it also brought many other unused defines, as well as a dependency on * kernel headers to be installed. * * This value is stable at least since Linux 3.13 and should remain so for * compatibility reasons, warranting it's re-definition here. */ #define __ARM_NR_cacheflush 0x0f0002 register int start_reg __asm("r0") = (int) (intptr_t) start; const register int end_reg __asm("r1") = (int) (intptr_t) end; const register int flags __asm("r2") = 0; const register int syscall_nr __asm("r7") = __ARM_NR_cacheflush; __asm __volatile("svc 0x0" : "=r"(start_reg) : "r"(syscall_nr), "r"(start_reg), "r"(end_reg), "r"(flags)); assert(start_reg == 0 && "Cache flush syscall failed."); #elif defined(_WIN32) FlushInstructionCache(GetCurrentProcess(), start, end - start); #else compilerrt_abort(); #endif #elif defined(__linux__) && defined(__mips__) const uintptr_t start_int = (uintptr_t) start; const uintptr_t end_int = (uintptr_t) end; #if defined(__ANDROID__) && defined(__LP64__) // Call synci implementation for short address range. const uintptr_t address_range_limit = 256; if ((end_int - start_int) <= address_range_limit) { clear_mips_cache(start, (end_int - start_int)); } else { syscall(__NR_cacheflush, start, (end_int - start_int), BCACHE); } #else syscall(__NR_cacheflush, start, (end_int - start_int), BCACHE); #endif #elif defined(__aarch64__) && !defined(__APPLE__) uint64_t xstart = (uint64_t)(uintptr_t) start; uint64_t xend = (uint64_t)(uintptr_t) end; uint64_t addr; // Get Cache Type Info uint64_t ctr_el0; __asm __volatile("mrs %0, ctr_el0" : "=r"(ctr_el0)); /* * dc & ic instructions must use 64bit registers so we don't use * uintptr_t in case this runs in an IPL32 environment. */ const size_t dcache_line_size = 4 << ((ctr_el0 >> 16) & 15); for (addr = xstart; addr < xend; addr += dcache_line_size) __asm __volatile("dc cvau, %0" :: "r"(addr)); __asm __volatile("dsb ish"); const size_t icache_line_size = 4 << ((ctr_el0 >> 0) & 15); for (addr = xstart; addr < xend; addr += icache_line_size) __asm __volatile("ic ivau, %0" :: "r"(addr)); __asm __volatile("isb sy"); #elif defined (__powerpc64__) const size_t line_size = 32; const size_t len = (uintptr_t)end - (uintptr_t)start; const uintptr_t mask = ~(line_size - 1); const uintptr_t start_line = ((uintptr_t)start) & mask; const uintptr_t end_line = ((uintptr_t)start + len + line_size - 1) & mask; for (uintptr_t line = start_line; line < end_line; line += line_size) __asm__ volatile("dcbf 0, %0" : : "r"(line)); __asm__ volatile("sync"); for (uintptr_t line = start_line; line < end_line; line += line_size) __asm__ volatile("icbi 0, %0" : : "r"(line)); __asm__ volatile("isync"); #else #if __APPLE__ /* On Darwin, sys_icache_invalidate() provides this functionality */ sys_icache_invalidate(start, end-start); #else compilerrt_abort(); #endif #endif }