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/* Copyright (C) 2002-2021 Free Software Foundation, Inc.
   This file is part of the GNU C Library.
   Contributed by Ulrich Drepper <drepper@redhat.com>, 2002.

   The GNU C Library is free software; you can redistribute it and/or
   modify it under the terms of the GNU Lesser General Public
   License as published by the Free Software Foundation; either
   version 2.1 of the License, or (at your option) any later version.

   The GNU C Library is distributed in the hope that it will be useful,
   but WITHOUT ANY WARRANTY; without even the implied warranty of
   MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the GNU
   Lesser General Public License for more details.

   You should have received a copy of the GNU Lesser General Public
   License along with the GNU C Library; if not, see
   <https://www.gnu.org/licenses/>.  */

#include <assert.h>
#include <errno.h>
#include <signal.h>
#include <stdint.h>
#include <string.h>
#include <unistd.h>
#include <sys/mman.h>
#include <sys/param.h>
#include <dl-sysdep.h>
#include <dl-tls.h>
#include <tls.h>
#include <list.h>
#include <lowlevellock.h>
#include <futex-internal.h>
#include <kernel-features.h>
#include <nptl-stack.h>

#ifndef NEED_SEPARATE_REGISTER_STACK

/* Most architectures have exactly one stack pointer.  Some have more.  */
# define STACK_VARIABLES void *stackaddr = NULL

/* How to pass the values to the 'create_thread' function.  */
# define STACK_VARIABLES_ARGS stackaddr

/* How to declare function which gets there parameters.  */
# define STACK_VARIABLES_PARMS void *stackaddr

/* How to declare allocate_stack.  */
# define ALLOCATE_STACK_PARMS void **stack

/* This is how the function is called.  We do it this way to allow
   other variants of the function to have more parameters.  */
# define ALLOCATE_STACK(attr, pd) allocate_stack (attr, pd, &stackaddr)

#else

/* We need two stacks.  The kernel will place them but we have to tell
   the kernel about the size of the reserved address space.  */
# define STACK_VARIABLES void *stackaddr = NULL; size_t stacksize = 0

/* How to pass the values to the 'create_thread' function.  */
# define STACK_VARIABLES_ARGS stackaddr, stacksize

/* How to declare function which gets there parameters.  */
# define STACK_VARIABLES_PARMS void *stackaddr, size_t stacksize

/* How to declare allocate_stack.  */
# define ALLOCATE_STACK_PARMS void **stack, size_t *stacksize

/* This is how the function is called.  We do it this way to allow
   other variants of the function to have more parameters.  */
# define ALLOCATE_STACK(attr, pd) \
  allocate_stack (attr, pd, &stackaddr, &stacksize)

#endif


/* Default alignment of stack.  */
#ifndef STACK_ALIGN
# define STACK_ALIGN __alignof__ (long double)
#endif

/* Default value for minimal stack size after allocating thread
   descriptor and guard.  */
#ifndef MINIMAL_REST_STACK
# define MINIMAL_REST_STACK	4096
#endif


/* Newer kernels have the MAP_STACK flag to indicate a mapping is used for
   a stack.  Use it when possible.  */
#ifndef MAP_STACK
# define MAP_STACK 0
#endif

/* Get a stack frame from the cache.  We have to match by size since
   some blocks might be too small or far too large.  */
static struct pthread *
get_cached_stack (size_t *sizep, void **memp)
{
  size_t size = *sizep;
  struct pthread *result = NULL;
  list_t *entry;

  lll_lock (GL (dl_stack_cache_lock), LLL_PRIVATE);

  /* Search the cache for a matching entry.  We search for the
     smallest stack which has at least the required size.  Note that
     in normal situations the size of all allocated stacks is the
     same.  As the very least there are only a few different sizes.
     Therefore this loop will exit early most of the time with an
     exact match.  */
  list_for_each (entry, &GL (dl_stack_cache))
    {
      struct pthread *curr;

      curr = list_entry (entry, struct pthread, list);
      if (__nptl_stack_in_use (curr) && curr->stackblock_size >= size)
	{
	  if (curr->stackblock_size == size)
	    {
	      result = curr;
	      break;
	    }

	  if (result == NULL
	      || result->stackblock_size > curr->stackblock_size)
	    result = curr;
	}
    }

  if (__builtin_expect (result == NULL, 0)
      /* Make sure the size difference is not too excessive.  In that
	 case we do not use the block.  */
      || __builtin_expect (result->stackblock_size > 4 * size, 0))
    {
      /* Release the lock.  */
      lll_unlock (GL (dl_stack_cache_lock), LLL_PRIVATE);

      return NULL;
    }

  /* Don't allow setxid until cloned.  */
  result->setxid_futex = -1;

  /* Dequeue the entry.  */
  __nptl_stack_list_del (&result->list);

  /* And add to the list of stacks in use.  */
  __nptl_stack_list_add (&result->list, &GL (dl_stack_used));

  /* And decrease the cache size.  */
  GL (dl_stack_cache_actsize) -= result->stackblock_size;

  /* Release the lock early.  */
  lll_unlock (GL (dl_stack_cache_lock), LLL_PRIVATE);

  /* Report size and location of the stack to the caller.  */
  *sizep = result->stackblock_size;
  *memp = result->stackblock;

  /* Cancellation handling is back to the default.  */
  result->cancelhandling = 0;
  result->cancelstate = PTHREAD_CANCEL_ENABLE;
  result->cleanup = NULL;
  result->setup_failed = 0;

  /* No pending event.  */
  result->nextevent = NULL;

  result->tls_state = (struct tls_internal_t) { 0 };

  /* Clear the DTV.  */
  dtv_t *dtv = GET_DTV (TLS_TPADJ (result));
  for (size_t cnt = 0; cnt < dtv[-1].counter; ++cnt)
    free (dtv[1 + cnt].pointer.to_free);
  memset (dtv, '\0', (dtv[-1].counter + 1) * sizeof (dtv_t));

  /* Re-initialize the TLS.  */
  _dl_allocate_tls_init (TLS_TPADJ (result));

  return result;
}

/* Return the guard page position on allocated stack.  */
static inline char *
__attribute ((always_inline))
guard_position (void *mem, size_t size, size_t guardsize, struct pthread *pd,
		size_t pagesize_m1)
{
#ifdef NEED_SEPARATE_REGISTER_STACK
  return mem + (((size - guardsize) / 2) & ~pagesize_m1);
#elif _STACK_GROWS_DOWN
  return mem;
#elif _STACK_GROWS_UP
  return (char *) (((uintptr_t) pd - guardsize) & ~pagesize_m1);
#endif
}

/* Based on stack allocated with PROT_NONE, setup the required portions with
   'prot' flags based on the guard page position.  */
static inline int
setup_stack_prot (char *mem, size_t size, char *guard, size_t guardsize,
		  const int prot)
{
  char *guardend = guard + guardsize;
#if _STACK_GROWS_DOWN && !defined(NEED_SEPARATE_REGISTER_STACK)
  /* As defined at guard_position, for architectures with downward stack
     the guard page is always at start of the allocated area.  */
  if (__mprotect (guardend, size - guardsize, prot) != 0)
    return errno;
#else
  size_t mprots1 = (uintptr_t) guard - (uintptr_t) mem;
  if (__mprotect (mem, mprots1, prot) != 0)
    return errno;
  size_t mprots2 = ((uintptr_t) mem + size) - (uintptr_t) guardend;
  if (__mprotect (guardend, mprots2, prot) != 0)
    return errno;
#endif
  return 0;
}

/* Mark the memory of the stack as usable to the kernel.  It frees everything
   except for the space used for the TCB itself.  */
static __always_inline void
advise_stack_range (void *mem, size_t size, uintptr_t pd, size_t guardsize)
{
  uintptr_t sp = (uintptr_t) CURRENT_STACK_FRAME;
  size_t pagesize_m1 = __getpagesize () - 1;
#if _STACK_GROWS_DOWN && !defined(NEED_SEPARATE_REGISTER_STACK)
  size_t freesize = (sp - (uintptr_t) mem) & ~pagesize_m1;
  assert (freesize < size);
  if (freesize > PTHREAD_STACK_MIN)
    __madvise (mem, freesize - PTHREAD_STACK_MIN, MADV_DONTNEED);
#else
  /* Page aligned start of memory to free (higher than or equal
     to current sp plus the minimum stack size).  */
  uintptr_t freeblock = (sp + PTHREAD_STACK_MIN + pagesize_m1) & ~pagesize_m1;
  uintptr_t free_end = (pd - guardsize) & ~pagesize_m1;
  if (free_end > freeblock)
    {
      size_t freesize = free_end - freeblock;
      assert (freesize < size);
      __madvise ((void*) freeblock, freesize, MADV_DONTNEED);
    }
#endif
}

/* Returns a usable stack for a new thread either by allocating a
   new stack or reusing a cached stack of sufficient size.
   ATTR must be non-NULL and point to a valid pthread_attr.
   PDP must be non-NULL.  */
static int
allocate_stack (const struct pthread_attr *attr, struct pthread **pdp,
		ALLOCATE_STACK_PARMS)
{
  struct pthread *pd;
  size_t size;
  size_t pagesize_m1 = __getpagesize () - 1;
  size_t tls_static_size_for_stack = __nptl_tls_static_size_for_stack ();
  size_t tls_static_align_m1 = GLRO (dl_tls_static_align) - 1;

  assert (powerof2 (pagesize_m1 + 1));
  assert (TCB_ALIGNMENT >= STACK_ALIGN);

  /* Get the stack size from the attribute if it is set.  Otherwise we
     use the default we determined at start time.  */
  if (attr->stacksize != 0)
    size = attr->stacksize;
  else
    {
      lll_lock (__default_pthread_attr_lock, LLL_PRIVATE);
      size = __default_pthread_attr.internal.stacksize;
      lll_unlock (__default_pthread_attr_lock, LLL_PRIVATE);
    }

  /* Get memory for the stack.  */
  if (__glibc_unlikely (attr->flags & ATTR_FLAG_STACKADDR))
    {
      uintptr_t adj;
      char *stackaddr = (char *) attr->stackaddr;

      /* Assume the same layout as the _STACK_GROWS_DOWN case, with struct
	 pthread at the top of the stack block.  Later we adjust the guard
	 location and stack address to match the _STACK_GROWS_UP case.  */
      if (_STACK_GROWS_UP)
	stackaddr += attr->stacksize;

      /* If the user also specified the size of the stack make sure it
	 is large enough.  */
      if (attr->stacksize != 0
	  && attr->stacksize < (tls_static_size_for_stack
				+ MINIMAL_REST_STACK))
	return EINVAL;

      /* Adjust stack size for alignment of the TLS block.  */
#if TLS_TCB_AT_TP
      adj = ((uintptr_t) stackaddr - TLS_TCB_SIZE)
	    & tls_static_align_m1;
      assert (size > adj + TLS_TCB_SIZE);
#elif TLS_DTV_AT_TP
      adj = ((uintptr_t) stackaddr - tls_static_size_for_stack)
	    & tls_static_align_m1;
      assert (size > adj);
#endif

      /* The user provided some memory.  Let's hope it matches the
	 size...  We do not allocate guard pages if the user provided
	 the stack.  It is the user's responsibility to do this if it
	 is wanted.  */
#if TLS_TCB_AT_TP
      pd = (struct pthread *) ((uintptr_t) stackaddr
			       - TLS_TCB_SIZE - adj);
#elif TLS_DTV_AT_TP
      pd = (struct pthread *) (((uintptr_t) stackaddr
				- tls_static_size_for_stack - adj)
			       - TLS_PRE_TCB_SIZE);
#endif

      /* The user provided stack memory needs to be cleared.  */
      memset (pd, '\0', sizeof (struct pthread));

      /* The first TSD block is included in the TCB.  */
      pd->specific[0] = pd->specific_1stblock;

      /* Remember the stack-related values.  */
      pd->stackblock = (char *) stackaddr - size;
      pd->stackblock_size = size;

      /* This is a user-provided stack.  It will not be queued in the
	 stack cache nor will the memory (except the TLS memory) be freed.  */
      pd->user_stack = true;

      /* This is at least the second thread.  */
      pd->header.multiple_threads = 1;
#ifndef TLS_MULTIPLE_THREADS_IN_TCB
      __libc_multiple_threads = 1;
#endif

#ifdef NEED_DL_SYSINFO
      SETUP_THREAD_SYSINFO (pd);
#endif

      /* Don't allow setxid until cloned.  */
      pd->setxid_futex = -1;

      /* Allocate the DTV for this thread.  */
      if (_dl_allocate_tls (TLS_TPADJ (pd)) == NULL)
	{
	  /* Something went wrong.  */
	  assert (errno == ENOMEM);
	  return errno;
	}


      /* Prepare to modify global data.  */
      lll_lock (GL (dl_stack_cache_lock), LLL_PRIVATE);

      /* And add to the list of stacks in use.  */
      list_add (&pd->list, &GL (dl_stack_user));

      lll_unlock (GL (dl_stack_cache_lock), LLL_PRIVATE);
    }
  else
    {
      /* Allocate some anonymous memory.  If possible use the cache.  */
      size_t guardsize;
      size_t reported_guardsize;
      size_t reqsize;
      void *mem;
      const int prot = (PROT_READ | PROT_WRITE
			| ((GL(dl_stack_flags) & PF_X) ? PROT_EXEC : 0));

      /* Adjust the stack size for alignment.  */
      size &= ~tls_static_align_m1;
      assert (size != 0);

      /* Make sure the size of the stack is enough for the guard and
	 eventually the thread descriptor.  On some targets there is
	 a minimum guard size requirement, ARCH_MIN_GUARD_SIZE, so
	 internally enforce it (unless the guard was disabled), but
	 report the original guard size for backward compatibility:
	 before POSIX 2008 the guardsize was specified to be one page
	 by default which is observable via pthread_attr_getguardsize
	 and pthread_getattr_np.  */
      guardsize = (attr->guardsize + pagesize_m1) & ~pagesize_m1;
      reported_guardsize = guardsize;
      if (guardsize > 0 && guardsize < ARCH_MIN_GUARD_SIZE)
	guardsize = ARCH_MIN_GUARD_SIZE;
      if (guardsize < attr->guardsize || size + guardsize < guardsize)
	/* Arithmetic overflow.  */
	return EINVAL;
      size += guardsize;
      if (__builtin_expect (size < ((guardsize + tls_static_size_for_stack
				     + MINIMAL_REST_STACK + pagesize_m1)
				    & ~pagesize_m1),
			    0))
	/* The stack is too small (or the guard too large).  */
	return EINVAL;

      /* Try to get a stack from the cache.  */
      reqsize = size;
      pd = get_cached_stack (&size, &mem);
      if (pd == NULL)
	{
	  /* If a guard page is required, avoid committing memory by first
	     allocate with PROT_NONE and then reserve with required permission
	     excluding the guard page.  */
	  mem = __mmap (NULL, size, (guardsize == 0) ? prot : PROT_NONE,
			MAP_PRIVATE | MAP_ANONYMOUS | MAP_STACK, -1, 0);

	  if (__glibc_unlikely (mem == MAP_FAILED))
	    return errno;

	  /* SIZE is guaranteed to be greater than zero.
	     So we can never get a null pointer back from mmap.  */
	  assert (mem != NULL);

	  /* Place the thread descriptor at the end of the stack.  */
#if TLS_TCB_AT_TP
	  pd = (struct pthread *) ((((uintptr_t) mem + size)
				    - TLS_TCB_SIZE)
				   & ~tls_static_align_m1);
#elif TLS_DTV_AT_TP
	  pd = (struct pthread *) ((((uintptr_t) mem + size
				    - tls_static_size_for_stack)
				    & ~tls_static_align_m1)
				   - TLS_PRE_TCB_SIZE);
#endif

	  /* Now mprotect the required region excluding the guard area.  */
	  if (__glibc_likely (guardsize > 0))
	    {
	      char *guard = guard_position (mem, size, guardsize, pd,
					    pagesize_m1);
	      if (setup_stack_prot (mem, size, guard, guardsize, prot) != 0)
		{
		  __munmap (mem, size);
		  return errno;
		}
	    }

	  /* Remember the stack-related values.  */
	  pd->stackblock = mem;
	  pd->stackblock_size = size;
	  /* Update guardsize for newly allocated guardsize to avoid
	     an mprotect in guard resize below.  */
	  pd->guardsize = guardsize;

	  /* We allocated the first block thread-specific data array.
	     This address will not change for the lifetime of this
	     descriptor.  */
	  pd->specific[0] = pd->specific_1stblock;

	  /* This is at least the second thread.  */
	  pd->header.multiple_threads = 1;
#ifndef TLS_MULTIPLE_THREADS_IN_TCB
	  __libc_multiple_threads = 1;
#endif

#ifdef NEED_DL_SYSINFO
	  SETUP_THREAD_SYSINFO (pd);
#endif

	  /* Don't allow setxid until cloned.  */
	  pd->setxid_futex = -1;

	  /* Allocate the DTV for this thread.  */
	  if (_dl_allocate_tls (TLS_TPADJ (pd)) == NULL)
	    {
	      /* Something went wrong.  */
	      assert (errno == ENOMEM);

	      /* Free the stack memory we just allocated.  */
	      (void) __munmap (mem, size);

	      return errno;
	    }


	  /* Prepare to modify global data.  */
	  lll_lock (GL (dl_stack_cache_lock), LLL_PRIVATE);

	  /* And add to the list of stacks in use.  */
	  __nptl_stack_list_add (&pd->list, &GL (dl_stack_used));

	  lll_unlock (GL (dl_stack_cache_lock), LLL_PRIVATE);


	  /* There might have been a race.  Another thread might have
	     caused the stacks to get exec permission while this new
	     stack was prepared.  Detect if this was possible and
	     change the permission if necessary.  */
	  if (__builtin_expect ((GL(dl_stack_flags) & PF_X) != 0
				&& (prot & PROT_EXEC) == 0, 0))
	    {
	      int err = __nptl_change_stack_perm (pd);
	      if (err != 0)
		{
		  /* Free the stack memory we just allocated.  */
		  (void) __munmap (mem, size);

		  return err;
		}
	    }


	  /* Note that all of the stack and the thread descriptor is
	     zeroed.  This means we do not have to initialize fields
	     with initial value zero.  This is specifically true for
	     the 'tid' field which is always set back to zero once the
	     stack is not used anymore and for the 'guardsize' field
	     which will be read next.  */
	}

      /* Create or resize the guard area if necessary.  */
      if (__glibc_unlikely (guardsize > pd->guardsize))
	{
	  char *guard = guard_position (mem, size, guardsize, pd,
					pagesize_m1);
	  if (__mprotect (guard, guardsize, PROT_NONE) != 0)
	    {
	    mprot_error:
	      lll_lock (GL (dl_stack_cache_lock), LLL_PRIVATE);

	      /* Remove the thread from the list.  */
	      __nptl_stack_list_del (&pd->list);

	      lll_unlock (GL (dl_stack_cache_lock), LLL_PRIVATE);

	      /* Get rid of the TLS block we allocated.  */
	      _dl_deallocate_tls (TLS_TPADJ (pd), false);

	      /* Free the stack memory regardless of whether the size
		 of the cache is over the limit or not.  If this piece
		 of memory caused problems we better do not use it
		 anymore.  Uh, and we ignore possible errors.  There
		 is nothing we could do.  */
	      (void) __munmap (mem, size);

	      return errno;
	    }

	  pd->guardsize = guardsize;
	}
      else if (__builtin_expect (pd->guardsize - guardsize > size - reqsize,
				 0))
	{
	  /* The old guard area is too large.  */

#ifdef NEED_SEPARATE_REGISTER_STACK
	  char *guard = mem + (((size - guardsize) / 2) & ~pagesize_m1);
	  char *oldguard = mem + (((size - pd->guardsize) / 2) & ~pagesize_m1);

	  if (oldguard < guard
	      && __mprotect (oldguard, guard - oldguard, prot) != 0)
	    goto mprot_error;

	  if (__mprotect (guard + guardsize,
			oldguard + pd->guardsize - guard - guardsize,
			prot) != 0)
	    goto mprot_error;
#elif _STACK_GROWS_DOWN
	  if (__mprotect ((char *) mem + guardsize, pd->guardsize - guardsize,
			prot) != 0)
	    goto mprot_error;
#elif _STACK_GROWS_UP
         char *new_guard = (char *)(((uintptr_t) pd - guardsize)
                                    & ~pagesize_m1);
         char *old_guard = (char *)(((uintptr_t) pd - pd->guardsize)
                                    & ~pagesize_m1);
         /* The guard size difference might be > 0, but once rounded
            to the nearest page the size difference might be zero.  */
         if (new_guard > old_guard
             && __mprotect (old_guard, new_guard - old_guard, prot) != 0)
	    goto mprot_error;
#endif

	  pd->guardsize = guardsize;
	}
      /* The pthread_getattr_np() calls need to get passed the size
	 requested in the attribute, regardless of how large the
	 actually used guardsize is.  */
      pd->reported_guardsize = reported_guardsize;
    }

  /* Initialize the lock.  We have to do this unconditionally since the
     stillborn thread could be canceled while the lock is taken.  */
  pd->lock = LLL_LOCK_INITIALIZER;

  /* The robust mutex lists also need to be initialized
     unconditionally because the cleanup for the previous stack owner
     might have happened in the kernel.  */
  pd->robust_head.futex_offset = (offsetof (pthread_mutex_t, __data.__lock)
				  - offsetof (pthread_mutex_t,
					      __data.__list.__next));
  pd->robust_head.list_op_pending = NULL;
#if __PTHREAD_MUTEX_HAVE_PREV
  pd->robust_prev = &pd->robust_head;
#endif
  pd->robust_head.list = &pd->robust_head;

  /* We place the thread descriptor at the end of the stack.  */
  *pdp = pd;

#if _STACK_GROWS_DOWN
  void *stacktop;

# if TLS_TCB_AT_TP
  /* The stack begins before the TCB and the static TLS block.  */
  stacktop = ((char *) (pd + 1) - tls_static_size_for_stack);
# elif TLS_DTV_AT_TP
  stacktop = (char *) (pd - 1);
# endif

# ifdef NEED_SEPARATE_REGISTER_STACK
  *stack = pd->stackblock;
  *stacksize = stacktop - *stack;
# else
  *stack = stacktop;
# endif
#else
  *stack = pd->stackblock;
#endif

  return 0;
}