const std = @import("std"); const builtin = @import("builtin"); const arch = builtin.cpu.arch; const os = builtin.os.tag; pub const panic = @import("common.zig").panic; // Ported from llvm-project d32170dbd5b0d54436537b6b75beaf44324e0c28 // 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. comptime { _ = clear_cache; } fn clear_cache(start: usize, end: usize) callconv(.C) void { const x86 = switch (arch) { .x86, .x86_64 => true, else => false, }; const arm32 = switch (arch) { .arm, .armeb, .thumb, .thumbeb => true, else => false, }; const arm64 = switch (arch) { .aarch64, .aarch64_be, .aarch64_32 => true, else => false, }; const mips = switch (arch) { .mips, .mipsel, .mips64, .mips64el => true, else => false, }; const riscv = switch (arch) { .riscv32, .riscv64 => true, else => false, }; const powerpc64 = switch (arch) { .powerpc64, .powerpc64le => true, else => false, }; const sparc = switch (arch) { .sparc, .sparc64, .sparcel => true, else => false, }; const apple = switch (os) { .ios, .macos, .watchos, .tvos => true, else => false, }; if (x86) { // Intel processors have a unified instruction and data cache // so there is nothing to do exportIt(); } else if (os == .windows and (arm32 or arm64)) { // TODO // FlushInstructionCache(GetCurrentProcess(), start, end - start); // exportIt(); } else if (arm32 and !apple) { switch (os) { .freebsd, .netbsd => { var arg = arm_sync_icache_args{ .addr = start, .len = end - start, }; const result = sysarch(ARM_SYNC_ICACHE, @ptrToInt(&arg)); std.debug.assert(result == 0); exportIt(); }, .linux => { const result = std.os.linux.syscall3(.cacheflush, start, end, 0); std.debug.assert(result == 0); exportIt(); }, else => {}, } } else if (os == .linux and mips) { const flags = 3; // ICACHE | DCACHE const result = std.os.linux.syscall3(.cacheflush, start, end - start, flags); std.debug.assert(result == 0); exportIt(); } else if (mips and os == .openbsd) { // TODO //cacheflush(start, (uintptr_t)end - (uintptr_t)start, BCACHE); // exportIt(); } else if (os == .linux and riscv) { const result = std.os.linux.syscall3(.riscv_flush_icache, start, end - start, 0); std.debug.assert(result == 0); exportIt(); } else if (arm64 and !apple) { // Get Cache Type Info. // TODO memoize this? var ctr_el0: u64 = 0; asm volatile ( \\mrs %[x], ctr_el0 \\ : [x] "=r" (ctr_el0), ); // The DC and IC instructions must use 64-bit registers so we don't use // uintptr_t in case this runs in an IPL32 environment. var addr: u64 = undefined; // If CTR_EL0.IDC is set, data cache cleaning to the point of unification // is not required for instruction to data coherence. if (((ctr_el0 >> 28) & 0x1) == 0x0) { const dcache_line_size: usize = @as(usize, 4) << @intCast(u6, (ctr_el0 >> 16) & 15); addr = start & ~(dcache_line_size - 1); while (addr < end) : (addr += dcache_line_size) { asm volatile ("dc cvau, %[addr]" : : [addr] "r" (addr), ); } } asm volatile ("dsb ish"); // If CTR_EL0.DIC is set, instruction cache invalidation to the point of // unification is not required for instruction to data coherence. if (((ctr_el0 >> 29) & 0x1) == 0x0) { const icache_line_size: usize = @as(usize, 4) << @intCast(u6, (ctr_el0 >> 0) & 15); addr = start & ~(icache_line_size - 1); while (addr < end) : (addr += icache_line_size) { asm volatile ("ic ivau, %[addr]" : : [addr] "r" (addr), ); } } asm volatile ("isb sy"); exportIt(); } else if (powerpc64) { // TODO //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"); // exportIt(); } else if (sparc) { // TODO //const size_t dword_size = 8; //const size_t len = (uintptr_t)end - (uintptr_t)start; // //const uintptr_t mask = ~(dword_size - 1); //const uintptr_t start_dword = ((uintptr_t)start) & mask; //const uintptr_t end_dword = ((uintptr_t)start + len + dword_size - 1) & mask; // //for (uintptr_t dword = start_dword; dword < end_dword; dword += dword_size) // __asm__ volatile("flush %0" : : "r"(dword)); // exportIt(); } else if (apple) { // On Darwin, sys_icache_invalidate() provides this functionality sys_icache_invalidate(start, end - start); exportIt(); } } const linkage = if (builtin.is_test) std.builtin.GlobalLinkage.Internal else std.builtin.GlobalLinkage.Weak; fn exportIt() void { @export(clear_cache, .{ .name = "__clear_cache", .linkage = linkage }); } // Darwin-only extern fn sys_icache_invalidate(start: usize, len: usize) void; // BSD-only const arm_sync_icache_args = extern struct { addr: usize, // Virtual start address len: usize, // Region size }; const ARM_SYNC_ICACHE = 0; extern "c" fn sysarch(number: i32, args: usize) i32;