SET_THREAD_AREA(2)          Linux Programmer's Manual         SET_THREAD_AREA(2)

       get_thread_area, set_thread_area - manipulate thread-local storage

       #include <linux/unistd.h>

       #if defined __i386__ || defined __x86_64__
       # include <asm/ldt.h>

       int get_thread_area(struct user_desc *u_info);
       int set_thread_area(struct user_desc *u_info);

       #elif defined __m68k__

       int get_thread_area(void);
       int set_thread_area(unsigned long tp);

       #elif defined __mips__

       int set_thread_area(unsigned long addr);


       Note: There are no glibc wrappers for these system calls; see NOTES.

       These calls provide architecture-specific support for a thread-local
       storage implementation.  At the moment, set_thread_area() is available on
       m68k, MIPS, and x86 (both 32-bit and 64-bit variants); get_thread_area()
       is available on m68k and x86.

       On m68k and MIPS, set_thread_area() allows storing an arbitrary pointer
       (provided in the tp argument on m68k and in the addr argument on MIPS) in
       the kernel data structure associated with the calling thread; this
       pointer can later be retrieved using get_thread_area() (see also NOTES
       for information regarding obtaining the thread pointer on MIPS).

       On x86, Linux dedicates three global descriptor table (GDT) entries for
       thread-local storage.  For more information about the GDT, see the Intel
       Software Developer's Manual or the AMD Architecture Programming Manual.

       Both of these system calls take an argument that is a pointer to a
       structure of the following type:

           struct user_desc {
               unsigned int  entry_number;
               unsigned int  base_addr;
               unsigned int  limit;
               unsigned int  seg_32bit:1;
               unsigned int  contents:2;
               unsigned int  read_exec_only:1;
               unsigned int  limit_in_pages:1;
               unsigned int  seg_not_present:1;
               unsigned int  useable:1;
           #ifdef __x86_64__
               unsigned int  lm:1;

       get_thread_area() reads the GDT entry indicated by u_info->entry_number
       and fills in the rest of the fields in u_info.

       set_thread_area() sets a TLS entry in the GDT.

       The TLS array entry set by set_thread_area() corresponds to the value of
       u_info->entry_number passed in by the user.  If this value is in bounds,
       set_thread_area() writes the TLS descriptor pointed to by u_info into the
       thread's TLS array.

       When set_thread_area() is passed an entry_number of -1, it searches for a
       free TLS entry.  If set_thread_area() finds a free TLS entry, the value
       of u_info->entry_number is set upon return to show which entry was

       A user_desc is considered "empty" if read_exec_only and seg_not_present
       are set to 1 and all of the other fields are 0.  If an "empty" descriptor
       is passed to set_thread_area(), the corresponding TLS entry will be
       cleared.  See BUGS for additional details.

       Since Linux 3.19, set_thread_area() cannot be used to write non-present
       segments, 16-bit segments, or code segments, although clearing a segment
       is still acceptable.

       On x86, these system calls return 0 on success, and -1 on failure, with
       errno set appropriately.

       On MIPS and m68k, set_thread_area() always returns 0.  On m68k,
       get_thread_area() returns the thread area pointer value (previously set
       via set_thread_area()).

       EFAULT u_info is an invalid pointer.

       EINVAL u_info->entry_number is out of bounds.

       ENOSYS get_thread_area() or set_thread_area() was invoked as a 64-bit
              system call.

       ESRCH  (set_thread_area()) A free TLS entry could not be located.

       set_thread_area() first appeared in Linux 2.5.29.  get_thread_area()
       first appeared in Linux 2.5.32.

       set_thread_area() and get_thread_area() are Linux-specific and should not
       be used in programs that are intended to be portable.

       Glibc does not provide wrappers for these system calls, since they are
       generally intended for use only by threading libraries.  In the unlikely
       event that you want to call them directly, use syscall(2).

       arch_prctl(2) can interfere with set_thread_area() on x86.  See
       arch_prctl(2) for more details.  This is not normally a problem, as
       arch_prctl(2) is normally used only by 64-bit programs.

       On MIPS, the current value of the thread area pointer can be obtained
       using the instruction:

           rdhwr dest, $29

       This instruction traps and is handled by kernel.

       On 64-bit kernels before Linux 3.19, one of the padding bits in
       user_desc, if set, would prevent the descriptor from being considered
       empty (see modify_ldt(2)).  As a result, the only reliable way to clear a
       TLS entry is to use memset(3) to zero the entire user_desc structure,
       including padding bits, and then to set the read_exec_only and
       seg_not_present bits.  On Linux 3.19, a user_desc consisting entirely of
       zeros except for entry_number will also be interpreted as a request to
       clear a TLS entry, but this behaved differently on older kernels.

       Prior to Linux 3.19, the DS and ES segment registers must not reference
       TLS entries.

       arch_prctl(2), modify_ldt(2), ptrace(2) (PTRACE_GET_THREAD_AREA and

       This page is part of release 5.10 of the Linux man-pages project.  A
       description of the project, information about reporting bugs, and the
       latest version of this page, can be found at

Linux                              2020-02-09                 SET_THREAD_AREA(2)