diff --git a/std/src/sys/pal/unix/stack_overflow.rs b/std/src/sys/pal/unix/stack_overflow.rs index 2e5bd85327a19..431fb9652a74e 100644 --- a/std/src/sys/pal/unix/stack_overflow.rs +++ b/std/src/sys/pal/unix/stack_overflow.rs @@ -325,104 +325,129 @@ mod imp { }) } + #[forbid(unsafe_op_in_unsafe_fn)] unsafe fn install_main_guard() -> Option> { let page_size = PAGE_SIZE.load(Ordering::Relaxed); - if cfg!(all(target_os = "linux", not(target_env = "musl"))) { - // Linux doesn't allocate the whole stack right away, and - // the kernel has its own stack-guard mechanism to fault - // when growing too close to an existing mapping. If we map - // our own guard, then the kernel starts enforcing a rather - // large gap above that, rendering much of the possible - // stack space useless. See #43052. - // - // Instead, we'll just note where we expect rlimit to start - // faulting, so our handler can report "stack overflow", and - // trust that the kernel's own stack guard will work. - let stackptr = get_stack_start_aligned()?; - let stackaddr = stackptr.addr(); - Some(stackaddr - page_size..stackaddr) - } else if cfg!(all(target_os = "linux", target_env = "musl")) { - // For the main thread, the musl's pthread_attr_getstack - // returns the current stack size, rather than maximum size - // it can eventually grow to. It cannot be used to determine - // the position of kernel's stack guard. - None - } else if cfg!(target_os = "freebsd") { - // FreeBSD's stack autogrows, and optionally includes a guard page - // at the bottom. If we try to remap the bottom of the stack - // ourselves, FreeBSD's guard page moves upwards. So we'll just use - // the builtin guard page. - let stackptr = get_stack_start_aligned()?; - let guardaddr = stackptr.addr(); - // Technically the number of guard pages is tunable and controlled - // by the security.bsd.stack_guard_page sysctl. - // By default it is 1, checking once is enough since it is - // a boot time config value. - static PAGES: crate::sync::OnceLock = crate::sync::OnceLock::new(); - - let pages = PAGES.get_or_init(|| { - use crate::sys::weak::dlsym; - dlsym!(fn sysctlbyname(*const libc::c_char, *mut libc::c_void, *mut libc::size_t, *const libc::c_void, libc::size_t) -> libc::c_int); - let mut guard: usize = 0; - let mut size = crate::mem::size_of_val(&guard); - let oid = crate::ffi::CStr::from_bytes_with_nul( - b"security.bsd.stack_guard_page\0", - ) - .unwrap(); - match sysctlbyname.get() { - Some(fcn) => { - if fcn(oid.as_ptr(), core::ptr::addr_of_mut!(guard) as *mut _, core::ptr::addr_of_mut!(size) as *mut _, crate::ptr::null_mut(), 0) == 0 { - guard - } else { - 1 - } - }, - _ => 1, - } - }); - Some(guardaddr..guardaddr + pages * page_size) - } else if cfg!(any(target_os = "openbsd", target_os = "netbsd")) { - // OpenBSD stack already includes a guard page, and stack is - // immutable. - // NetBSD stack includes the guard page. - // - // We'll just note where we expect rlimit to start - // faulting, so our handler can report "stack overflow", and - // trust that the kernel's own stack guard will work. - let stackptr = get_stack_start_aligned()?; - let stackaddr = stackptr.addr(); - Some(stackaddr - page_size..stackaddr) - } else { - // Reallocate the last page of the stack. - // This ensures SIGBUS will be raised on - // stack overflow. - // Systems which enforce strict PAX MPROTECT do not allow - // to mprotect() a mapping with less restrictive permissions - // than the initial mmap() used, so we mmap() here with - // read/write permissions and only then mprotect() it to - // no permissions at all. See issue #50313. - let stackptr = get_stack_start_aligned()?; - let result = mmap64( - stackptr, - page_size, - PROT_READ | PROT_WRITE, - MAP_PRIVATE | MAP_ANON | MAP_FIXED, - -1, - 0, - ); - if result != stackptr || result == MAP_FAILED { - panic!("failed to allocate a guard page: {}", io::Error::last_os_error()); + + unsafe { + // this way someone on any unix-y OS can check that all these compile + if cfg!(all(target_os = "linux", not(target_env = "musl"))) { + install_main_guard_linux(page_size) + } else if cfg!(all(target_os = "linux", target_env = "musl")) { + install_main_guard_linux_musl(page_size) + } else if cfg!(target_os = "freebsd") { + install_main_guard_freebsd(page_size) + } else if cfg!(any(target_os = "netbsd", target_os = "openbsd")) { + install_main_guard_bsds(page_size) + } else { + install_main_guard_default(page_size) } + } + } + + unsafe fn install_main_guard_linux(page_size: usize) -> Option> { + // Linux doesn't allocate the whole stack right away, and + // the kernel has its own stack-guard mechanism to fault + // when growing too close to an existing mapping. If we map + // our own guard, then the kernel starts enforcing a rather + // large gap above that, rendering much of the possible + // stack space useless. See #43052. + // + // Instead, we'll just note where we expect rlimit to start + // faulting, so our handler can report "stack overflow", and + // trust that the kernel's own stack guard will work. + let stackptr = get_stack_start_aligned()?; + let stackaddr = stackptr.addr(); + Some(stackaddr - page_size..stackaddr) + } - let result = mprotect(stackptr, page_size, PROT_NONE); - if result != 0 { - panic!("failed to protect the guard page: {}", io::Error::last_os_error()); + unsafe fn install_main_guard_linux_musl(_page_size: usize) -> Option> { + // For the main thread, the musl's pthread_attr_getstack + // returns the current stack size, rather than maximum size + // it can eventually grow to. It cannot be used to determine + // the position of kernel's stack guard. + None + } + + unsafe fn install_main_guard_freebsd(page_size: usize) -> Option> { + // FreeBSD's stack autogrows, and optionally includes a guard page + // at the bottom. If we try to remap the bottom of the stack + // ourselves, FreeBSD's guard page moves upwards. So we'll just use + // the builtin guard page. + let stackptr = get_stack_start_aligned()?; + let guardaddr = stackptr.addr(); + // Technically the number of guard pages is tunable and controlled + // by the security.bsd.stack_guard_page sysctl. + // By default it is 1, checking once is enough since it is + // a boot time config value. + static PAGES: crate::sync::OnceLock = crate::sync::OnceLock::new(); + + let pages = PAGES.get_or_init(|| { + use crate::sys::weak::dlsym; + dlsym!(fn sysctlbyname(*const libc::c_char, *mut libc::c_void, *mut libc::size_t, *const libc::c_void, libc::size_t) -> libc::c_int); + let mut guard: usize = 0; + let mut size = crate::mem::size_of_val(&guard); + let oid = crate::ffi::CStr::from_bytes_with_nul( + b"security.bsd.stack_guard_page\0", + ) + .unwrap(); + match sysctlbyname.get() { + Some(fcn) => { + if fcn(oid.as_ptr(), core::ptr::addr_of_mut!(guard) as *mut _, core::ptr::addr_of_mut!(size) as *mut _, crate::ptr::null_mut(), 0) == 0 { + guard + } else { + 1 + } + }, + _ => 1, } + }); + Some(guardaddr..guardaddr + pages * page_size) + } - let guardaddr = stackptr.addr(); + unsafe fn install_main_guard_bsds(page_size: usize) -> Option> { + // OpenBSD stack already includes a guard page, and stack is + // immutable. + // NetBSD stack includes the guard page. + // + // We'll just note where we expect rlimit to start + // faulting, so our handler can report "stack overflow", and + // trust that the kernel's own stack guard will work. + let stackptr = get_stack_start_aligned()?; + let stackaddr = stackptr.addr(); + Some(stackaddr - page_size..stackaddr) + } - Some(guardaddr..guardaddr + page_size) + unsafe fn install_main_guard_default(page_size: usize) -> Option> { + // Reallocate the last page of the stack. + // This ensures SIGBUS will be raised on + // stack overflow. + // Systems which enforce strict PAX MPROTECT do not allow + // to mprotect() a mapping with less restrictive permissions + // than the initial mmap() used, so we mmap() here with + // read/write permissions and only then mprotect() it to + // no permissions at all. See issue #50313. + let stackptr = get_stack_start_aligned()?; + let result = mmap64( + stackptr, + page_size, + PROT_READ | PROT_WRITE, + MAP_PRIVATE | MAP_ANON | MAP_FIXED, + -1, + 0, + ); + if result != stackptr || result == MAP_FAILED { + panic!("failed to allocate a guard page: {}", io::Error::last_os_error()); + } + + let result = mprotect(stackptr, page_size, PROT_NONE); + if result != 0 { + panic!("failed to protect the guard page: {}", io::Error::last_os_error()); } + + let guardaddr = stackptr.addr(); + + Some(guardaddr..guardaddr + page_size) } #[cfg(any(target_os = "macos", target_os = "openbsd", target_os = "solaris"))]