aarch64/usr/lib/rustlib/src/rust/library/stdarch/crates/core_arch/src/x86/rdtsc.rs - manifest_repos/toolchain - Git at Google

 //! RDTSC instructions.

 #[cfg(test)]
 use stdarch_test::assert_instr;

 /// Reads the current value of the processor’s time-stamp counter.
 ///
 /// The processor monotonically increments the time-stamp counter MSR
 /// every clock cycle and resets it to 0 whenever the processor is
 /// reset.
 ///
 /// The RDTSC instruction is not a serializing instruction. It does
 /// not necessarily wait until all previous instructions have been
 /// executed before reading the counter. Similarly, subsequent
 /// instructions may begin execution before the read operation is
 /// performed.
 ///
 /// On processors that support the Intel 64 architecture, the
 /// high-order 32 bits of each of RAX and RDX are cleared.
 ///
 /// [Intel's documentation](https://software.intel.com/sites/landingpage/IntrinsicsGuide/#text=_rdtsc)
 #[inline]
 #[cfg_attr(test, assert_instr(rdtsc))]
 #[stable(feature = "simd_x86", since = "1.27.0")]
 pub unsafe fn _rdtsc() -> u64 {
     rdtsc()
 }

 /// Reads the current value of the processor’s time-stamp counter and
 /// the `IA32_TSC_AUX MSR`.
 ///
 /// The processor monotonically increments the time-stamp counter MSR
 /// every clock cycle and resets it to 0 whenever the processor is
 /// reset.
 ///
 /// The RDTSCP instruction waits until all previous instructions have
 /// been executed before reading the counter. However, subsequent
 /// instructions may begin execution before the read operation is
 /// performed.
 ///
 /// On processors that support the Intel 64 architecture, the
 /// high-order 32 bits of each of RAX, RDX, and RCX are cleared.
 ///
 /// [Intel's documentation](https://software.intel.com/sites/landingpage/IntrinsicsGuide/#text=__rdtscp)
 #[inline]
 #[cfg_attr(test, assert_instr(rdtscp))]
 #[stable(feature = "simd_x86", since = "1.27.0")]
 pub unsafe fn __rdtscp(aux: *mut u32) -> u64 {
     rdtscp(aux as *mut _)
 }

 #[allow(improper_ctypes)]
 extern "C" {
     #[link_name = "llvm.x86.rdtsc"]
     fn rdtsc() -> u64;
     #[link_name = "llvm.x86.rdtscp"]
     fn rdtscp(aux: *mut u8) -> u64;
 }

 #[cfg(test)]
 mod tests {
     use crate::core_arch::x86::*;
     use stdarch_test::simd_test;

     #[simd_test(enable = "sse2")]
     unsafe fn _rdtsc() {
         let r = rdtsc::_rdtsc();
         assert_ne!(r, 0); // The chances of this being 0 are infinitesimal
     }

     #[simd_test(enable = "sse2")]
     unsafe fn _rdtscp() {
         let mut aux = 0;
         let r = rdtsc::__rdtscp(&mut aux);
         assert_ne!(r, 0); // The chances of this being 0 are infinitesimal
     }
 }
	//! RDTSC instructions.

	#[cfg(test)]
	use stdarch_test::assert_instr;

	/// Reads the current value of the processor’s time-stamp counter.
	///
	/// The processor monotonically increments the time-stamp counter MSR
	/// every clock cycle and resets it to 0 whenever the processor is
	/// reset.
	///
	/// The RDTSC instruction is not a serializing instruction. It does
	/// not necessarily wait until all previous instructions have been
	/// executed before reading the counter. Similarly, subsequent
	/// instructions may begin execution before the read operation is
	/// performed.
	///
	/// On processors that support the Intel 64 architecture, the
	/// high-order 32 bits of each of RAX and RDX are cleared.
	///
	/// [Intel's documentation](https://software.intel.com/sites/landingpage/IntrinsicsGuide/#text=_rdtsc)
	#[inline]
	#[cfg_attr(test, assert_instr(rdtsc))]
	#[stable(feature = "simd_x86", since = "1.27.0")]
	pub unsafe fn _rdtsc() -> u64 {
	rdtsc()
	}

	/// Reads the current value of the processor’s time-stamp counter and
	/// the `IA32_TSC_AUX MSR`.
	///
	/// The processor monotonically increments the time-stamp counter MSR
	/// every clock cycle and resets it to 0 whenever the processor is
	/// reset.
	///
	/// The RDTSCP instruction waits until all previous instructions have
	/// been executed before reading the counter. However, subsequent
	/// instructions may begin execution before the read operation is
	/// performed.
	///
	/// On processors that support the Intel 64 architecture, the
	/// high-order 32 bits of each of RAX, RDX, and RCX are cleared.
	///
	/// [Intel's documentation](https://software.intel.com/sites/landingpage/IntrinsicsGuide/#text=__rdtscp)
	#[inline]
	#[cfg_attr(test, assert_instr(rdtscp))]
	#[stable(feature = "simd_x86", since = "1.27.0")]
	pub unsafe fn __rdtscp(aux: *mut u32) -> u64 {
	rdtscp(aux as *mut _)
	}

	#[allow(improper_ctypes)]
	extern "C" {
	#[link_name = "llvm.x86.rdtsc"]
	fn rdtsc() -> u64;
	#[link_name = "llvm.x86.rdtscp"]
	fn rdtscp(aux: *mut u8) -> u64;
	}

	#[cfg(test)]
	mod tests {
	use crate::core_arch::x86::*;
	use stdarch_test::simd_test;

	#[simd_test(enable = "sse2")]
	unsafe fn _rdtsc() {
	let r = rdtsc::_rdtsc();
	assert_ne!(r, 0); // The chances of this being 0 are infinitesimal
	}

	#[simd_test(enable = "sse2")]
	unsafe fn _rdtscp() {
	let mut aux = 0;
	let r = rdtsc::__rdtscp(&mut aux);
	assert_ne!(r, 0); // The chances of this being 0 are infinitesimal
	}
	}