arch_prctl - set architecture-specific thread state
arch_prctl(int code, unsigned long
int arch_prctl(int code, unsigned long *addr);
arch_prctl() sets architecture-specific process or thread state. code selects a subfunction and passes argument addr to it; addr is interpreted as either an unsigned long for the "set" operations, or as an unsigned long *, for the "get" operations.
for both x86 and x86-64 are:
ARCH_SET_CPUID (since Linux 4.12)
Enable (addr != 0) or disable (addr == 0) the cpuid instruction for the current thread. The instruction is enabled by default. If disabled, any execution of a cpuid instruction will instead generate a SIGSEGV signal. This feature can be used to emulate cpuid results that differ from what the underlying hardware would have produced (e.g., in a paravirtualization setting).
ARCH_GET_CPUID (since Linux 4.12)
Return the setting of the flag manipulated by ARCH_SET_CPUID as the result of the system call (1 for enabled, 0 for disabled). addr is ignored.
Subfunctions for x86-64 only
Set the 64-bit base for the FS register to addr.
Return the 64-bit base value for the FS register of the current thread in the unsigned long pointed to by addr.
Set the 64-bit base for the GS register to addr.
Return the 64-bit base value for the GS register of the current thread in the unsigned long pointed to by addr.
On success, arch_prctl() returns 0; on error, -1 is returned, and errno is set to indicate the error.
addr points to an unmapped address or is outside the process address space.
code is not a valid subcommand.
addr is outside the process address space.
ARCH_SET_CPUID was requested, but the underlying hardware does not support CPUID faulting.
arch_prctl() is a Linux/x86-64 extension and should not be used in programs intended to be portable.
arch_prctl() is supported only on Linux/x86-64 for 64-bit programs currently.
The 64-bit base changes when a new 32-bit segment selector is loaded.
ARCH_SET_GS is disabled in some kernels.
Context switches for 64-bit segment bases are rather expensive. As an optimization, if a 32-bit TLS base address is used, arch_prctl() may use a real TLS entry as if set_thread_area(2) had been called, instead of manipulating the segment base register directly. Memory in the first 2 GB of address space can be allocated by using mmap(2) with the MAP_32BIT flag.
Because of the aforementioned optimization, using arch_prctl() and set_thread_area(2) in the same thread is dangerous, as they may overwrite each other’s TLS entries.
As of version 2.7, glibc provides no prototype for arch_prctl(). You have to declare it yourself for now. This may be fixed in future glibc versions.
FS may be already used by the threading library. Programs that use ARCH_SET_FS directly are very likely to crash.
AMD X86-64 Programmer’s manual
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