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   modify_ldt    ( 2 )

получить или установить запись LDT для каждого процесса (get or set a per-process LDT entry)

Имя (Name)

modify_ldt - get or set a per-process LDT entry

Синопсис (Synopsis)

#include <asm/ldt.h>         /* Definition of struct user_desc */
       #include <sys/syscall.h>     /* Definition of SYS_* constants */
       #include <unistd.h>

int syscall(SYS_modify_ldt, int func, void *ptr, unsigned long bytecount);

Note: glibc provides no wrapper for modify_ldt(), necessitating the use of syscall(2).


Описание (Description)

modify_ldt() reads or writes the local descriptor table (LDT) for
       a process.  The LDT is an array of segment descriptors that can
       be referenced by user code.  Linux allows processes to configure
       a per-process (actually per-mm) LDT.  For more information about
       the LDT, see the Intel Software Developer's Manual or the AMD
       Architecture Programming Manual.

When func is 0, modify_ldt() reads the LDT into the memory pointed to by ptr. The number of bytes read is the smaller of bytecount and the actual size of the LDT, although the kernel may act as though the LDT is padded with additional trailing zero bytes. On success, modify_ldt() will return the number of bytes read.

When func is 1 or 0x11, modify_ldt() modifies the LDT entry indicated by ptr->entry_number. ptr points to a user_desc structure and bytecount must equal the size of this structure.

The user_desc structure is defined in <asm/ldt.h> as:

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; };

In Linux 2.4 and earlier, this structure was named modify_ldt_ldt_s.

The contents field is the segment type (data, expand-down data, non-conforming code, or conforming code). The other fields match their descriptions in the CPU manual, although modify_ldt() cannot set the hardware-defined "accessed" bit described in the CPU manual.

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. An LDT entry can be cleared by setting it to an "empty" user_desc or, if func is 1, by setting both base and limit to 0.

A conforming code segment (i.e., one with contents==3) will be rejected if func is 1 or if seg_not_present is 0.

When func is 2, modify_ldt() will read zeros. This appears to be a leftover from Linux 2.4.


Возвращаемое значение (Return value)

On success, modify_ldt() returns either the actual number of
       bytes read (for reading) or 0 (for writing).  On failure,
       modify_ldt() returns -1 and sets errno to indicate the error.

Ошибки (Error)

EFAULT ptr points outside the address space.

EINVAL ptr is 0, or func is 1 and bytecount is not equal to the size of the structure user_desc, or func is 1 or 0x11 and the new LDT entry has invalid values.

ENOSYS func is neither 0, 1, 2, nor 0x11.


Стандарты (Conforming to)

This call is Linux-specific and should not be used in programs
       intended to be portable.

Примечание (Note)

modify_ldt() should not be used for thread-local storage, as it
       slows down context switches and only supports a limited number of
       threads.  Threading libraries should use set_thread_area(2) or
       arch_prctl(2) instead, except on extremely old kernels that do
       not support those system calls.

The normal use for modify_ldt() is to run legacy 16-bit or segmented 32-bit code. Not all kernels allow 16-bit segments to be installed, however.

Even on 64-bit kernels, modify_ldt() cannot be used to create a long mode (i.e., 64-bit) code segment. The undocumented field "lm" in user_desc is not useful, and, despite its name, does not result in a long mode segment.


Ошибки (баги) (Bugs)

On 64-bit kernels before Linux 3.19, setting the "lm" bit in
       user_desc prevents the descriptor from being considered empty.
       Keep in mind that the "lm" bit does not exist in the 32-bit
       headers, but these buggy kernels will still notice the bit even
       when set in a 32-bit process.

Смотри также (See also)

arch_prctl(2), set_thread_area(2), vm86(2)