forked from OSchip/llvm-project
256 lines
9.4 KiB
C++
256 lines
9.4 KiB
C++
//===-- safestack.cc ------------------------------------------------------===//
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//
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// The LLVM Compiler Infrastructure
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//
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// This file is distributed under the University of Illinois Open Source
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// License. See LICENSE.TXT for details.
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//
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//===----------------------------------------------------------------------===//
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//
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// This file implements the runtime support for the safe stack protection
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// mechanism. The runtime manages allocation/deallocation of the unsafe stack
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// for the main thread, as well as all pthreads that are created/destroyed
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// during program execution.
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//
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//===----------------------------------------------------------------------===//
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#include <limits.h>
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#include <pthread.h>
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#include <stddef.h>
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#include <stdint.h>
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#include <unistd.h>
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#include <sys/resource.h>
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#include <sys/types.h>
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#if !defined(__NetBSD__)
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#include <sys/user.h>
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#endif
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#include "interception/interception.h"
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#include "sanitizer_common/sanitizer_common.h"
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// TODO: The runtime library does not currently protect the safe stack beyond
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// relying on the system-enforced ASLR. The protection of the (safe) stack can
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// be provided by three alternative features:
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//
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// 1) Protection via hardware segmentation on x86-32 and some x86-64
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// architectures: the (safe) stack segment (implicitly accessed via the %ss
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// segment register) can be separated from the data segment (implicitly
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// accessed via the %ds segment register). Dereferencing a pointer to the safe
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// segment would result in a segmentation fault.
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//
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// 2) Protection via software fault isolation: memory writes that are not meant
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// to access the safe stack can be prevented from doing so through runtime
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// instrumentation. One way to do it is to allocate the safe stack(s) in the
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// upper half of the userspace and bitmask the corresponding upper bit of the
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// memory addresses of memory writes that are not meant to access the safe
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// stack.
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//
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// 3) Protection via information hiding on 64 bit architectures: the location
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// of the safe stack(s) can be randomized through secure mechanisms, and the
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// leakage of the stack pointer can be prevented. Currently, libc can leak the
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// stack pointer in several ways (e.g. in longjmp, signal handling, user-level
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// context switching related functions, etc.). These can be fixed in libc and
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// in other low-level libraries, by either eliminating the escaping/dumping of
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// the stack pointer (i.e., %rsp) when that's possible, or by using
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// encryption/PTR_MANGLE (XOR-ing the dumped stack pointer with another secret
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// we control and protect better, as is already done for setjmp in glibc.)
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// Furthermore, a static machine code level verifier can be ran after code
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// generation to make sure that the stack pointer is never written to memory,
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// or if it is, its written on the safe stack.
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//
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// Finally, while the Unsafe Stack pointer is currently stored in a thread
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// local variable, with libc support it could be stored in the TCB (thread
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// control block) as well, eliminating another level of indirection and making
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// such accesses faster. Alternatively, dedicating a separate register for
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// storing it would also be possible.
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/// Minimum stack alignment for the unsafe stack.
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const unsigned kStackAlign = 16;
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/// Default size of the unsafe stack. This value is only used if the stack
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/// size rlimit is set to infinity.
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const unsigned kDefaultUnsafeStackSize = 0x2800000;
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/// Runtime page size obtained through sysconf
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static unsigned pageSize;
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// TODO: To make accessing the unsafe stack pointer faster, we plan to
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// eventually store it directly in the thread control block data structure on
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// platforms where this structure is pointed to by %fs or %gs. This is exactly
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// the same mechanism as currently being used by the traditional stack
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// protector pass to store the stack guard (see getStackCookieLocation()
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// function above). Doing so requires changing the tcbhead_t struct in glibc
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// on Linux and tcb struct in libc on FreeBSD.
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//
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// For now, store it in a thread-local variable.
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extern "C" {
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__attribute__((visibility(
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"default"))) __thread void *__safestack_unsafe_stack_ptr = nullptr;
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}
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// Per-thread unsafe stack information. It's not frequently accessed, so there
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// it can be kept out of the tcb in normal thread-local variables.
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static __thread void *unsafe_stack_start = nullptr;
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static __thread size_t unsafe_stack_size = 0;
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static __thread size_t unsafe_stack_guard = 0;
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using namespace __sanitizer;
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static inline void *unsafe_stack_alloc(size_t size, size_t guard) {
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CHECK_GE(size + guard, size);
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void *addr = MmapOrDie(size + guard, "unsafe_stack_alloc");
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MprotectNoAccess((uptr)addr, (uptr)guard);
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return (char *)addr + guard;
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}
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static inline void unsafe_stack_setup(void *start, size_t size, size_t guard) {
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CHECK_GE((char *)start + size, (char *)start);
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CHECK_GE((char *)start + guard, (char *)start);
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void *stack_ptr = (char *)start + size;
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CHECK_EQ((((size_t)stack_ptr) & (kStackAlign - 1)), 0);
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__safestack_unsafe_stack_ptr = stack_ptr;
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unsafe_stack_start = start;
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unsafe_stack_size = size;
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unsafe_stack_guard = guard;
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}
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static void unsafe_stack_free() {
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if (unsafe_stack_start) {
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UnmapOrDie((char *)unsafe_stack_start - unsafe_stack_guard,
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unsafe_stack_size + unsafe_stack_guard);
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}
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unsafe_stack_start = nullptr;
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}
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/// Thread data for the cleanup handler
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static pthread_key_t thread_cleanup_key;
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/// Safe stack per-thread information passed to the thread_start function
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struct tinfo {
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void *(*start_routine)(void *);
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void *start_routine_arg;
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void *unsafe_stack_start;
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size_t unsafe_stack_size;
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size_t unsafe_stack_guard;
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};
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/// Wrap the thread function in order to deallocate the unsafe stack when the
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/// thread terminates by returning from its main function.
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static void *thread_start(void *arg) {
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struct tinfo *tinfo = (struct tinfo *)arg;
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void *(*start_routine)(void *) = tinfo->start_routine;
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void *start_routine_arg = tinfo->start_routine_arg;
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// Setup the unsafe stack; this will destroy tinfo content
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unsafe_stack_setup(tinfo->unsafe_stack_start, tinfo->unsafe_stack_size,
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tinfo->unsafe_stack_guard);
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// Make sure out thread-specific destructor will be called
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// FIXME: we can do this only any other specific key is set by
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// intercepting the pthread_setspecific function itself
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pthread_setspecific(thread_cleanup_key, (void *)1);
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return start_routine(start_routine_arg);
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}
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/// Thread-specific data destructor
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static void thread_cleanup_handler(void *_iter) {
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// We want to free the unsafe stack only after all other destructors
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// have already run. We force this function to be called multiple times.
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// User destructors that might run more then PTHREAD_DESTRUCTOR_ITERATIONS-1
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// times might still end up executing after the unsafe stack is deallocated.
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size_t iter = (size_t)_iter;
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if (iter < PTHREAD_DESTRUCTOR_ITERATIONS) {
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pthread_setspecific(thread_cleanup_key, (void *)(iter + 1));
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} else {
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// This is the last iteration
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unsafe_stack_free();
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}
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}
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/// Intercept thread creation operation to allocate and setup the unsafe stack
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INTERCEPTOR(int, pthread_create, pthread_t *thread,
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const pthread_attr_t *attr,
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void *(*start_routine)(void*), void *arg) {
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size_t size = 0;
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size_t guard = 0;
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if (attr) {
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pthread_attr_getstacksize(attr, &size);
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pthread_attr_getguardsize(attr, &guard);
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} else {
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// get pthread default stack size
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pthread_attr_t tmpattr;
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pthread_attr_init(&tmpattr);
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pthread_attr_getstacksize(&tmpattr, &size);
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pthread_attr_getguardsize(&tmpattr, &guard);
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pthread_attr_destroy(&tmpattr);
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}
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CHECK_NE(size, 0);
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CHECK_EQ((size & (kStackAlign - 1)), 0);
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CHECK_EQ((guard & (pageSize - 1)), 0);
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void *addr = unsafe_stack_alloc(size, guard);
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struct tinfo *tinfo =
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(struct tinfo *)(((char *)addr) + size - sizeof(struct tinfo));
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tinfo->start_routine = start_routine;
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tinfo->start_routine_arg = arg;
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tinfo->unsafe_stack_start = addr;
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tinfo->unsafe_stack_size = size;
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tinfo->unsafe_stack_guard = guard;
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return REAL(pthread_create)(thread, attr, thread_start, tinfo);
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}
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extern "C" __attribute__((visibility("default")))
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#if !SANITIZER_CAN_USE_PREINIT_ARRAY
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// On ELF platforms, the constructor is invoked using .preinit_array (see below)
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__attribute__((constructor(0)))
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#endif
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void __safestack_init() {
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// Determine the stack size for the main thread.
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size_t size = kDefaultUnsafeStackSize;
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size_t guard = 4096;
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struct rlimit limit;
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if (getrlimit(RLIMIT_STACK, &limit) == 0 && limit.rlim_cur != RLIM_INFINITY)
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size = limit.rlim_cur;
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// Allocate unsafe stack for main thread
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void *addr = unsafe_stack_alloc(size, guard);
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unsafe_stack_setup(addr, size, guard);
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pageSize = sysconf(_SC_PAGESIZE);
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// Initialize pthread interceptors for thread allocation
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INTERCEPT_FUNCTION(pthread_create);
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// Setup the cleanup handler
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pthread_key_create(&thread_cleanup_key, thread_cleanup_handler);
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}
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#if SANITIZER_CAN_USE_PREINIT_ARRAY
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// On ELF platforms, run safestack initialization before any other constructors.
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// On other platforms we use the constructor attribute to arrange to run our
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// initialization early.
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extern "C" {
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__attribute__((section(".preinit_array"),
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used)) void (*__safestack_preinit)(void) = __safestack_init;
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}
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#endif
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extern "C"
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__attribute__((visibility("default"))) void *__get_unsafe_stack_start() {
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return unsafe_stack_start;
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}
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extern "C"
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__attribute__((visibility("default"))) void *__get_unsafe_stack_ptr() {
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return __safestack_unsafe_stack_ptr;
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}
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