From 218caa410aa38c29984be31a5229b9fa717560ee Mon Sep 17 00:00:00 2001 From: Daniel Baumann Date: Wed, 17 Apr 2024 14:19:13 +0200 Subject: Merging upstream version 1.68.2+dfsg1. Signed-off-by: Daniel Baumann --- .../stack-protector-heuristics-effect.rs | 396 +++++++++++++++++++++ .../stack-protector-target-support.rs | 285 +++++++++++++++ 2 files changed, 681 insertions(+) create mode 100644 tests/assembly/stack-protector/stack-protector-heuristics-effect.rs create mode 100644 tests/assembly/stack-protector/stack-protector-target-support.rs (limited to 'tests/assembly/stack-protector') diff --git a/tests/assembly/stack-protector/stack-protector-heuristics-effect.rs b/tests/assembly/stack-protector/stack-protector-heuristics-effect.rs new file mode 100644 index 000000000..7c2b60550 --- /dev/null +++ b/tests/assembly/stack-protector/stack-protector-heuristics-effect.rs @@ -0,0 +1,396 @@ +// revisions: all strong basic none missing +// assembly-output: emit-asm +// ignore-macos slightly different policy on stack protection of arrays +// ignore-windows stack check code uses different function names +// ignore-nvptx64 stack protector is not supported +// [all] compile-flags: -Z stack-protector=all +// [strong] compile-flags: -Z stack-protector=strong +// [basic] compile-flags: -Z stack-protector=basic +// [none] compile-flags: -Z stack-protector=none +// compile-flags: -C opt-level=2 -Z merge-functions=disabled + +#![crate_type = "lib"] + +#![allow(incomplete_features)] + +#![feature(unsized_locals, unsized_fn_params)] + + +// CHECK-LABEL: emptyfn: +#[no_mangle] +pub fn emptyfn() { + // all: __stack_chk_fail + // strong-NOT: __stack_chk_fail + // basic-NOT: __stack_chk_fail + // none-NOT: __stack_chk_fail + // missing-NOT: __stack_chk_fail +} + +// CHECK-LABEL: array_char +#[no_mangle] +pub fn array_char(f: fn(*const char)) { + let a = ['c'; 1]; + let b = ['d'; 3]; + let c = ['e'; 15]; + + f(&a as *const _); + f(&b as *const _); + f(&c as *const _); + + // Any type of local array variable leads to stack protection with the + // "strong" heuristic. The 'basic' heuristic only adds stack protection to + // functions with local array variables of a byte-sized type, however. Since + // 'char' is 4 bytes in Rust, this function is not protected by the 'basic' + // heuristic + // + // (This test *also* takes the address of the local stack variables. We + // cannot know that this isn't what triggers the `strong` heuristic. + // However, the test strategy of passing the address of a stack array to an + // external function is sufficient to trigger the `basic` heuristic (see + // test `array_u8_large()`). Since the `basic` heuristic only checks for the + // presence of stack-local array variables, we can be confident that this + // test also captures this part of the `strong` heuristic specification.) + + // all: __stack_chk_fail + // strong: __stack_chk_fail + // basic-NOT: __stack_chk_fail + // none-NOT: __stack_chk_fail + // missing-NOT: __stack_chk_fail +} + +// CHECK-LABEL: array_u8_1 +#[no_mangle] +pub fn array_u8_1(f: fn(*const u8)) { + let a = [0u8; 1]; + f(&a as *const _); + + // The 'strong' heuristic adds stack protection to functions with local + // array variables regardless of their size. + + // all: __stack_chk_fail + // strong: __stack_chk_fail + // basic-NOT: __stack_chk_fail + // none-NOT: __stack_chk_fail + // missing-NOT: __stack_chk_fail +} + +// CHECK-LABEL: array_u8_small: +#[no_mangle] +pub fn array_u8_small(f: fn(*const u8)) { + let a = [0u8; 2]; + let b = [0u8; 7]; + f(&a as *const _); + f(&b as *const _); + + // Small arrays do not lead to stack protection by the 'basic' heuristic. + + // all: __stack_chk_fail + // strong: __stack_chk_fail + // basic-NOT: __stack_chk_fail + // none-NOT: __stack_chk_fail + // missing-NOT: __stack_chk_fail +} + +// CHECK-LABEL: array_u8_large: +#[no_mangle] +pub fn array_u8_large(f: fn(*const u8)) { + let a = [0u8; 9]; + f(&a as *const _); + + // Since `a` is a byte array with size greater than 8, the basic heuristic + // will also protect this function. + + // all: __stack_chk_fail + // strong: __stack_chk_fail + // basic: __stack_chk_fail + // none-NOT: __stack_chk_fail + // missing-NOT: __stack_chk_fail +} + +#[derive(Copy, Clone)] +pub struct ByteSizedNewtype(u8); + +// CHECK-LABEL: array_bytesizednewtype_9: +#[no_mangle] +pub fn array_bytesizednewtype_9(f: fn(*const ByteSizedNewtype)) { + let a = [ByteSizedNewtype(0); 9]; + f(&a as *const _); + + // Since `a` is a byte array in the LLVM output, the basic heuristic will + // also protect this function. + + // all: __stack_chk_fail + // strong: __stack_chk_fail + // basic: __stack_chk_fail + // none-NOT: __stack_chk_fail + // missing-NOT: __stack_chk_fail +} + +// CHECK-LABEL: local_var_addr_used_indirectly +#[no_mangle] +pub fn local_var_addr_used_indirectly(f: fn(bool)) { + let a = 5; + let a_addr = &a as *const _ as usize; + f(a_addr & 0x10 == 0); + + // This function takes the address of a local variable taken. Although this + // address is never used as a way to refer to stack memory, the `strong` + // heuristic adds stack smash protection. This is also the case in C++: + // ``` + // cat << EOF | clang++ -O2 -fstack-protector-strong -S -x c++ - -o - | grep stack_chk + // #include + // void f(void (*g)(bool)) { + // int32_t x; + // g((reinterpret_cast(&x) & 0x10U) == 0); + // } + // EOF + // ``` + + // all: __stack_chk_fail + // strong: __stack_chk_fail + // basic-NOT: __stack_chk_fail + // none-NOT: __stack_chk_fail + // missing-NOT: __stack_chk_fail +} + + +// CHECK-LABEL: local_string_addr_taken +#[no_mangle] +pub fn local_string_addr_taken(f: fn(&String)) { + let x = String::new(); + f(&x); + + // Taking the address of the local variable `x` leads to stack smash + // protection with the `strong` heuristic, but not with the `basic` + // heuristic. It does not matter that the reference is not mut. + // + // An interesting note is that a similar function in C++ *would* be + // protected by the `basic` heuristic, because `std::string` has a char + // array internally as a small object optimization: + // ``` + // cat < + // void f(void (*g)(const std::string&)) { + // std::string x; + // g(x); + // } + // EOF + // ``` + // + + // all: __stack_chk_fail + // strong: __stack_chk_fail + // basic-NOT: __stack_chk_fail + // none-NOT: __stack_chk_fail + // missing-NOT: __stack_chk_fail +} + +pub trait SelfByRef { + fn f(&self) -> i32; +} + +impl SelfByRef for i32 { + fn f(&self) -> i32 { + return self + 1; + } +} + +// CHECK-LABEL: local_var_addr_taken_used_locally_only +#[no_mangle] +pub fn local_var_addr_taken_used_locally_only(factory: fn() -> i32, sink: fn(i32)) { + let x = factory(); + let g = x.f(); + sink(g); + + // Even though the local variable conceptually has its address taken, as + // it's passed by reference to the trait function, the use of the reference + // is easily inlined. There is therefore no stack smash protection even with + // the `strong` heuristic. + + // all: __stack_chk_fail + // strong-NOT: __stack_chk_fail + // basic-NOT: __stack_chk_fail + // none-NOT: __stack_chk_fail + // missing-NOT: __stack_chk_fail +} + +pub struct Gigastruct { + does: u64, + not: u64, + have: u64, + array: u64, + members: u64 +} + +// CHECK-LABEL: local_large_var_moved +#[no_mangle] +pub fn local_large_var_moved(f: fn(Gigastruct)) { + let x = Gigastruct { does: 0, not: 1, have: 2, array: 3, members: 4 }; + f(x); + + // Even though the local variable conceptually doesn't have its address + // taken, it's so large that the "move" is implemented with a reference to a + // stack-local variable in the ABI. Consequently, this function *is* + // protected by the `strong` heuristic. This is also the case for + // rvalue-references in C++, regardless of struct size: + // ``` + // cat < + // #include + // void f(void (*g)(uint64_t&&)) { + // uint64_t x; + // g(std::move(x)); + // } + // EOF + // ``` + + // all: __stack_chk_fail + // strong: __stack_chk_fail + // basic-NOT: __stack_chk_fail + // none-NOT: __stack_chk_fail + // missing-NOT: __stack_chk_fail +} + +// CHECK-LABEL: local_large_var_cloned +#[no_mangle] +pub fn local_large_var_cloned(f: fn(Gigastruct)) { + f(Gigastruct { does: 0, not: 1, have: 2, array: 3, members: 4 }); + + // A new instance of `Gigastruct` is passed to `f()`, without any apparent + // connection to this stack frame. Still, since instances of `Gigastruct` + // are sufficiently large, it is allocated in the caller stack frame and + // passed as a pointer. As such, this function is *also* protected by the + // `strong` heuristic, just like `local_large_var_moved`. This is also the + // case for pass-by-value of sufficiently large structs in C++: + // ``` + // cat < + // #include + // struct Gigastruct { uint64_t a, b, c, d, e; }; + // void f(void (*g)(Gigastruct)) { + // g(Gigastruct{}); + // } + // EOF + // ``` + + + // all: __stack_chk_fail + // strong: __stack_chk_fail + // basic-NOT: __stack_chk_fail + // none-NOT: __stack_chk_fail + // missing-NOT: __stack_chk_fail +} + + +extern "C" { + // A call to an external `alloca` function is *not* recognized as an + // `alloca(3)` operation. This function is a compiler built-in, as the + // man page explains. Clang translates it to an LLVM `alloca` + // instruction with a count argument, which is also what the LLVM stack + // protector heuristics looks for. The man page for `alloca(3)` details + // a way to avoid using the compiler built-in: pass a -std=c11 + // argument, *and* don't include . Though this leads to an + // external alloca() function being called, it doesn't lead to stack + // protection being included. It even fails with a linker error + // "undefined reference to `alloca'". Example: + // ``` + // cat< + // void * alloca(size_t); + // void f(void (*g)(void*)) { + // void * p = alloca(10); + // g(p); + // } + // int main() { return 0; } + // EOF + // ``` + // The following tests demonstrate that calls to an external `alloca` + // function in Rust also doesn't trigger stack protection. + + fn alloca(size: usize) -> *mut (); +} + +// CHECK-LABEL: alloca_small_compile_time_constant_arg +#[no_mangle] +pub fn alloca_small_compile_time_constant_arg(f: fn(*mut ())) { + f(unsafe { alloca(8) }); + + // all: __stack_chk_fail + // strong-NOT: __stack_chk_fail + // basic-NOT: __stack_chk_fail + // none-NOT: __stack_chk_fail + // missing-NOT: __stack_chk_fail +} + +// CHECK-LABEL: alloca_large_compile_time_constant_arg +#[no_mangle] +pub fn alloca_large_compile_time_constant_arg(f: fn(*mut ())) { + f(unsafe { alloca(9) }); + + // all: __stack_chk_fail + // strong-NOT: __stack_chk_fail + // basic-NOT: __stack_chk_fail + // none-NOT: __stack_chk_fail + // missing-NOT: __stack_chk_fail +} + + +// CHECK-LABEL: alloca_dynamic_arg +#[no_mangle] +pub fn alloca_dynamic_arg(f: fn(*mut ()), n: usize) { + f(unsafe { alloca(n) }); + + // all: __stack_chk_fail + // strong-NOT: __stack_chk_fail + // basic-NOT: __stack_chk_fail + // none-NOT: __stack_chk_fail + // missing-NOT: __stack_chk_fail +} + +// The question then is: in what ways can Rust code generate array-`alloca` +// LLVM instructions? This appears to only be generated by +// rustc_codegen_ssa::traits::Builder::array_alloca() through +// rustc_codegen_ssa::mir::operand::OperandValue::store_unsized(). FWICT +// this is support for the "unsized locals" unstable feature: +// https://doc.rust-lang.org/unstable-book/language-features/unsized-locals.html. + + +// CHECK-LABEL: unsized_fn_param +#[no_mangle] +pub fn unsized_fn_param(s: [u8], l: bool, f: fn([u8])) { + let n = if l { 1 } else { 2 }; + f(*Box::<[u8]>::from(&s[0..n])); // slice-copy with Box::from + + // Even though slices are conceptually passed by-value both into this + // function and into `f()`, this is implemented with pass-by-reference + // using a suitably constructed fat-pointer (as if the functions + // accepted &[u8]). This function therefore doesn't need dynamic array + // alloca, and is therefore not protected by the `strong` or `basic` + // heuristics. + + + // all: __stack_chk_fail + // strong-NOT: __stack_chk_fail + // basic-NOT: __stack_chk_fail + // none-NOT: __stack_chk_fail + // missing-NOT: __stack_chk_fail +} + +// CHECK-LABEL: unsized_local +#[no_mangle] +pub fn unsized_local(s: &[u8], l: bool, f: fn(&mut [u8])) { + let n = if l { 1 } else { 2 }; + let mut a: [u8] = *Box::<[u8]>::from(&s[0..n]); // slice-copy with Box::from + f(&mut a); + + // This function allocates a slice as a local variable in its stack + // frame. Since the size is not a compile-time constant, an array + // alloca is required, and the function is protected by both the + // `strong` and `basic` heuristic. + + // all: __stack_chk_fail + // strong: __stack_chk_fail + // basic: __stack_chk_fail + // none-NOT: __stack_chk_fail + // missing-NOT: __stack_chk_fail +} diff --git a/tests/assembly/stack-protector/stack-protector-target-support.rs b/tests/assembly/stack-protector/stack-protector-target-support.rs new file mode 100644 index 000000000..d5b48105e --- /dev/null +++ b/tests/assembly/stack-protector/stack-protector-target-support.rs @@ -0,0 +1,285 @@ +// Test that stack smash protection code is emitted for all tier1 and tier2 +// targets, with the exception of nvptx64-nvidia-cuda +// +// revisions: r1 r2 r3 r4 r5 r6 r7 r8 r9 r10 r11 r12 r13 r14 r15 r16 r17 r18 r19 r20 r21 r22 r23 +// revisions: r24 r25 r26 r27 r28 r29 r30 r31 r32 r33 r34 r35 r36 r37 r38 r39 r40 r41 r42 r43 r44 +// revisions: r45 r46 r47 r48 r49 r50 r51 r52 r53 r54 r55 r56 r57 r58 r59 r60 r61 r62 r63 r64 r65 +// revisions: r66 r67 r68 r69 r70 r71 r72 r73 r74 r75 r76 r77 r78 r79 r80 r81 r82 r83 r84 +// assembly-output: emit-asm +// [r1] compile-flags: --target aarch64-unknown-linux-gnu +// [r1] needs-llvm-components: aarch64 +// [r2] compile-flags: --target i686-pc-windows-gnu +// [r2] needs-llvm-components: x86 +// [r3] compile-flags: --target i686-pc-windows-msvc +// [r3] needs-llvm-components: x86 +// [r4] compile-flags: --target i686-unknown-linux-gnu +// [r4] needs-llvm-components: x86 +// [r5] compile-flags: --target x86_64-apple-darwin +// [r5] needs-llvm-components: x86 +// [r6] compile-flags: --target x86_64-pc-windows-gnu +// [r6] needs-llvm-components: x86 +// [r7] compile-flags: --target x86_64-pc-windows-msvc +// [r7] needs-llvm-components: x86 +// [r8] compile-flags: --target x86_64-unknown-linux-gnu +// [r8] needs-llvm-components: x86 +// [r9] compile-flags: --target aarch64-apple-darwin +// [r9] needs-llvm-components: aarch64 +// [r10] compile-flags: --target aarch64-apple-ios +// [r10] needs-llvm-components: aarch64 +// [r11] compile-flags: --target aarch64-unknown-fuchsia +// [r11] needs-llvm-components: aarch64 +// [r12] compile-flags: --target aarch64-linux-android +// [r12] needs-llvm-components: aarch64 +// [r13] compile-flags: --target aarch64-pc-windows-msvc +// [r13] needs-llvm-components: aarch64 +// [r14] compile-flags: --target aarch64-unknown-linux-musl +// [r14] needs-llvm-components: aarch64 +// [r15] compile-flags: --target aarch64-unknown-none +// [r15] needs-llvm-components: aarch64 +// [r16] compile-flags: --target aarch64-unknown-none-softfloat +// [r16] needs-llvm-components: aarch64 +// [r17] compile-flags: --target arm-linux-androideabi +// [r17] needs-llvm-components: arm +// [r18] compile-flags: --target arm-unknown-linux-gnueabi +// [r18] needs-llvm-components: arm +// [r19] compile-flags: --target arm-unknown-linux-gnueabihf +// [r19] needs-llvm-components: arm +// [r20] compile-flags: --target arm-unknown-linux-musleabi +// [r20] needs-llvm-components: arm +// [r21] compile-flags: --target arm-unknown-linux-musleabihf +// [r21] needs-llvm-components: arm +// [r22] compile-flags: --target armebv7r-none-eabi +// [r22] needs-llvm-components: arm +// [r23] compile-flags: --target armebv7r-none-eabihf +// [r23] needs-llvm-components: arm +// [r24] compile-flags: --target armv5te-unknown-linux-gnueabi +// [r24] needs-llvm-components: arm +// [r25] compile-flags: --target armv5te-unknown-linux-musleabi +// [r25] needs-llvm-components: arm +// [r26] compile-flags: --target armv7-linux-androideabi +// [r26] needs-llvm-components: arm +// [r27] compile-flags: --target armv7a-none-eabi +// [r27] needs-llvm-components: arm +// [r28] compile-flags: --target armv7r-none-eabi +// [r28] needs-llvm-components: arm +// [r29] compile-flags: --target armv7r-none-eabihf +// [r29] needs-llvm-components: arm +// [r30] compile-flags: --target armv7-unknown-linux-gnueabi +// [r30] needs-llvm-components: arm +// [r31] compile-flags: --target armv7-unknown-linux-gnueabihf +// [r31] needs-llvm-components: arm +// [r32] compile-flags: --target armv7-unknown-linux-musleabi +// [r32] needs-llvm-components: arm +// [r33] compile-flags: --target armv7-unknown-linux-musleabihf +// [r33] needs-llvm-components: arm +// [r34] compile-flags: --target asmjs-unknown-emscripten +// [r34] needs-llvm-components: webassembly +// [r35] compile-flags: --target i586-pc-windows-msvc +// [r35] needs-llvm-components: x86 +// [r36] compile-flags: --target i586-unknown-linux-gnu +// [r36] needs-llvm-components: x86 +// [r37] compile-flags: --target i586-unknown-linux-musl +// [r37] needs-llvm-components: x86 +// [r38] compile-flags: --target i686-linux-android +// [r38] needs-llvm-components: x86 +// [r39] compile-flags: --target i686-unknown-freebsd +// [r39] needs-llvm-components: x86 +// [r40] compile-flags: --target i686-unknown-linux-musl +// [r40] needs-llvm-components: x86 +// [r41] compile-flags: --target mips-unknown-linux-gnu +// [r41] needs-llvm-components: mips +// [r42] compile-flags: --target mips-unknown-linux-musl +// [r42] needs-llvm-components: mips +// [r43] compile-flags: --target mips64-unknown-linux-gnuabi64 +// [r43] needs-llvm-components: mips +// [r44] compile-flags: --target mips64-unknown-linux-muslabi64 +// [r44] needs-llvm-components: mips +// [r45] compile-flags: --target mips64el-unknown-linux-gnuabi64 +// [r45] needs-llvm-components: mips +// [r46] compile-flags: --target mips64el-unknown-linux-muslabi64 +// [r46] needs-llvm-components: mips +// [r47] compile-flags: --target mipsel-unknown-linux-gnu +// [r47] needs-llvm-components: mips +// [r48] compile-flags: --target mipsel-unknown-linux-musl +// [r48] needs-llvm-components: mips +// [r49] compile-flags: --target nvptx64-nvidia-cuda +// [r49] needs-llvm-components: nvptx +// [r50] compile-flags: --target powerpc-unknown-linux-gnu +// [r50] needs-llvm-components: powerpc +// [r51] compile-flags: --target powerpc64-unknown-linux-gnu +// [r51] needs-llvm-components: powerpc +// [r52] compile-flags: --target powerpc64le-unknown-linux-gnu +// [r52] needs-llvm-components: powerpc +// [r53] compile-flags: --target riscv32i-unknown-none-elf +// [r53] needs-llvm-components: riscv +// [r54] compile-flags: --target riscv32imac-unknown-none-elf +// [r54] needs-llvm-components: riscv +// [r55] compile-flags:--target riscv32imc-unknown-none-elf +// [r55] needs-llvm-components: riscv +// [r56] compile-flags:--target riscv64gc-unknown-linux-gnu +// [r56] needs-llvm-components: riscv +// [r57] compile-flags:--target riscv64gc-unknown-none-elf +// [r57] needs-llvm-components: riscv +// [r58] compile-flags:--target riscv64imac-unknown-none-elf +// [r58] needs-llvm-components: riscv +// [r59] compile-flags:--target s390x-unknown-linux-gnu +// [r59] needs-llvm-components: systemz +// [r60] compile-flags:--target sparc64-unknown-linux-gnu +// [r60] needs-llvm-components: sparc +// [r61] compile-flags:--target sparcv9-sun-solaris +// [r61] needs-llvm-components: sparc +// [r62] compile-flags:--target thumbv6m-none-eabi +// [r62] needs-llvm-components: arm +// [r63] compile-flags:--target thumbv7em-none-eabi +// [r63] needs-llvm-components: arm +// [r64] compile-flags:--target thumbv7em-none-eabihf +// [r64] needs-llvm-components: arm +// [r65] compile-flags:--target thumbv7m-none-eabi +// [r65] needs-llvm-components: arm +// [r66] compile-flags:--target thumbv7neon-linux-androideabi +// [r66] needs-llvm-components: arm +// [r67] compile-flags:--target thumbv7neon-unknown-linux-gnueabihf +// [r67] needs-llvm-components: arm +// [r68] compile-flags:--target thumbv8m.base-none-eabi +// [r68] needs-llvm-components: arm +// [r69] compile-flags:--target thumbv8m.main-none-eabi +// [r69] needs-llvm-components: arm +// [r70] compile-flags:--target thumbv8m.main-none-eabihf +// [r70] needs-llvm-components: arm +// [r71] compile-flags:--target wasm32-unknown-emscripten +// [r71] needs-llvm-components: webassembly +// [r72] compile-flags:--target wasm32-unknown-unknown +// [r72] needs-llvm-components: webassembly +// [r73] compile-flags:--target wasm32-wasi +// [r73] needs-llvm-components: webassembly +// [r74] compile-flags:--target x86_64-apple-ios +// [r74] needs-llvm-components: x86 +// [r75] compile-flags:--target x86_64-fortanix-unknown-sgx +// [r75] needs-llvm-components: x86 +// [r76] compile-flags:--target x86_64-unknown-fuchsia +// [r76] needs-llvm-components: x86 +// [r77] compile-flags:--target x86_64-linux-android +// [r77] needs-llvm-components: x86 +// [r78] compile-flags:--target x86_64-sun-solaris +// [r78] needs-llvm-components: x86 +// [r79] compile-flags:--target x86_64-unknown-freebsd +// [r79] needs-llvm-components: x86 +// [r80] compile-flags:--target x86_64-unknown-illumos +// [r80] needs-llvm-components: x86 +// [r81] compile-flags:--target x86_64-unknown-linux-gnux32 +// [r81] needs-llvm-components: x86 +// [r82] compile-flags:--target x86_64-unknown-linux-musl +// [r82] needs-llvm-components: x86 +// [r83] compile-flags:--target x86_64-unknown-netbsd +// [r83] needs-llvm-components: x86 +// [r84] compile-flags: --target x86_64-unknown-redox +// [r84] needs-llvm-components: x86 +// compile-flags: -Z stack-protector=all +// compile-flags: -C opt-level=2 + +#![crate_type = "lib"] + +#![feature(no_core, lang_items)] +#![crate_type = "lib"] +#![no_core] + +#[lang = "sized"] +trait Sized {} +#[lang = "copy"] +trait Copy {} + +#[no_mangle] +pub fn foo() { + // CHECK: foo{{:|()}} + + // MSVC does the stack checking within a stack-check function: + // r3: calll @__security_check_cookie + // r7: callq __security_check_cookie + // r13: bl __security_check_cookie + // r35: calll @__security_check_cookie + + // cuda doesn't support stack-smash protection + // r49-NOT: __security_check_cookie + // r49-NOT: __stack_chk_fail + + // Other targets do stack checking within the function, and call a failure function on error + // r1: __stack_chk_fail + // r2: __stack_chk_fail + // r4: __stack_chk_fail + // r5: __stack_chk_fail + // r6: __stack_chk_fail + // r8: __stack_chk_fail + // r9: __stack_chk_fail + // r10: __stack_chk_fail + // r11: __stack_chk_fail + // r12: __stack_chk_fail + // r14: __stack_chk_fail + // r15: __stack_chk_fail + // r16: __stack_chk_fail + // r17: __stack_chk_fail + // r18: __stack_chk_fail + // r19: __stack_chk_fail + // r20: __stack_chk_fail + // r21: __stack_chk_fail + // r22: __stack_chk_fail + // r23: __stack_chk_fail + // r24: __stack_chk_fail + // r25: __stack_chk_fail + // r26: __stack_chk_fail + // r27: __stack_chk_fail + // r28: __stack_chk_fail + // r29: __stack_chk_fail + // r30: __stack_chk_fail + // r31: __stack_chk_fail + // r32: __stack_chk_fail + // r33: __stack_chk_fail + // r34: __stack_chk_fail + // r36: __stack_chk_fail + // r37: __stack_chk_fail + // r38: __stack_chk_fail + // r39: __stack_chk_fail + // r40: __stack_chk_fail + // r41: __stack_chk_fail + // r42: __stack_chk_fail + // r43: __stack_chk_fail + // r44: __stack_chk_fail + // r45: __stack_chk_fail + // r46: __stack_chk_fail + // r47: __stack_chk_fail + // r48: __stack_chk_fail + // r50: __stack_chk_fail + // r51: __stack_chk_fail + // r52: __stack_chk_fail + // r53: __stack_chk_fail + // r54: __stack_chk_fail + // r55: __stack_chk_fail + // r56: __stack_chk_fail + // r57: __stack_chk_fail + // r58: __stack_chk_fail + // r59: __stack_chk_fail + // r60: __stack_chk_fail + // r61: __stack_chk_fail + // r62: __stack_chk_fail + // r63: __stack_chk_fail + // r64: __stack_chk_fail + // r65: __stack_chk_fail + // r66: __stack_chk_fail + // r67: __stack_chk_fail + // r68: __stack_chk_fail + // r69: __stack_chk_fail + // r70: __stack_chk_fail + // r71: __stack_chk_fail + // r72: __stack_chk_fail + // r73: __stack_chk_fail + // r74: __stack_chk_fail + // r75: __stack_chk_fail + // r76: __stack_chk_fail + // r77: __stack_chk_fail + // r78: __stack_chk_fail + // r79: __stack_chk_fail + // r80: __stack_chk_fail + // r81: __stack_chk_fail + // r82: __stack_chk_fail + // r83: __stack_chk_fail + // r84: __stack_chk_fail +} -- cgit v1.2.3