//! //! Small Zig reimplementation of gcc's libssp. //! //! This library implements most of the builtins required by the stack smashing //! protection as implemented by gcc&clang. //! Missing exports: //! - __gets_chk //! - __mempcpy_chk //! - __snprintf_chk //! - __sprintf_chk //! - __stpcpy_chk //! - __vsnprintf_chk //! - __vsprintf_chk const std = @import("std"); extern fn strncpy(dest: [*:0]u8, src: [*:0]const u8, n: usize) callconv(.C) [*:0]u8; extern fn memset(dest: ?[*]u8, c: u8, n: usize) callconv(.C) ?[*]u8; extern fn memcpy(noalias dest: ?[*]u8, noalias src: ?[*]const u8, n: usize) callconv(.C) ?[*]u8; extern fn memmove(dest: ?[*]u8, src: ?[*]const u8, n: usize) callconv(.C) ?[*]u8; // Avoid dragging in the runtime safety mechanisms into this .o file. pub fn panic(msg: []const u8, error_return_trace: ?*std.builtin.StackTrace, _: ?usize) noreturn { _ = msg; _ = error_return_trace; @setCold(true); std.os.abort(); } export fn __stack_chk_fail() callconv(.C) noreturn { @panic("stack smashing detected"); } export fn __chk_fail() callconv(.C) noreturn { @panic("buffer overflow detected"); } // Emitted when targeting some architectures (eg. x86) // XXX: This symbol should be hidden export fn __stack_chk_fail_local() callconv(.C) noreturn { __stack_chk_fail(); } // XXX: Initialize the canary with random data export var __stack_chk_guard: usize = blk: { var buf = [1]u8{0} ** @sizeOf(usize); buf[@sizeOf(usize) - 1] = 255; buf[@sizeOf(usize) - 2] = '\n'; break :blk @bitCast(usize, buf); }; export fn __strcpy_chk(dest: [*:0]u8, src: [*:0]const u8, dest_n: usize) callconv(.C) [*:0]u8 { @setRuntimeSafety(false); var i: usize = 0; while (i < dest_n and src[i] != 0) : (i += 1) { dest[i] = src[i]; } if (i == dest_n) __chk_fail(); dest[i] = 0; return dest; } export fn __strncpy_chk(dest: [*:0]u8, src: [*:0]const u8, n: usize, dest_n: usize) callconv(.C) [*:0]u8 { if (dest_n < n) __chk_fail(); return strncpy(dest, src, n); } export fn __strcat_chk(dest: [*:0]u8, src: [*:0]const u8, dest_n: usize) callconv(.C) [*:0]u8 { @setRuntimeSafety(false); var avail = dest_n; var dest_end: usize = 0; while (avail > 0 and dest[dest_end] != 0) : (dest_end += 1) { avail -= 1; } if (avail < 1) __chk_fail(); var i: usize = 0; while (avail > 0 and src[i] != 0) : (i += 1) { dest[dest_end + i] = src[i]; avail -= 1; } if (avail < 1) __chk_fail(); dest[dest_end + i] = 0; return dest; } export fn __strncat_chk(dest: [*:0]u8, src: [*:0]const u8, n: usize, dest_n: usize) callconv(.C) [*:0]u8 { @setRuntimeSafety(false); var avail = dest_n; var dest_end: usize = 0; while (avail > 0 and dest[dest_end] != 0) : (dest_end += 1) { avail -= 1; } if (avail < 1) __chk_fail(); var i: usize = 0; while (avail > 0 and i < n and src[i] != 0) : (i += 1) { dest[dest_end + i] = src[i]; avail -= 1; } if (avail < 1) __chk_fail(); dest[dest_end + i] = 0; return dest; } export fn __memcpy_chk(noalias dest: ?[*]u8, noalias src: ?[*]const u8, n: usize, dest_n: usize) callconv(.C) ?[*]u8 { if (dest_n < n) __chk_fail(); return memcpy(dest, src, n); } export fn __memmove_chk(dest: ?[*]u8, src: ?[*]const u8, n: usize, dest_n: usize) callconv(.C) ?[*]u8 { if (dest_n < n) __chk_fail(); return memmove(dest, src, n); } export fn __memset_chk(dest: ?[*]u8, c: u8, n: usize, dest_n: usize) callconv(.C) ?[*]u8 { if (dest_n < n) __chk_fail(); return memset(dest, c, n); }