176d0caaeSpatrick // -*- C++ -*-
276d0caaeSpatrick //===----------------------------------------------------------------------===//
376d0caaeSpatrick //
476d0caaeSpatrick // Part of the LLVM Project, under the Apache License v2.0 with LLVM Exceptions.
576d0caaeSpatrick // See https://llvm.org/LICENSE.txt for license information.
676d0caaeSpatrick // SPDX-License-Identifier: Apache-2.0 WITH LLVM-exception
776d0caaeSpatrick //
876d0caaeSpatrick //===----------------------------------------------------------------------===//
976d0caaeSpatrick
10*4bdff4beSrobert #ifndef _LIBCPP___SUPPORT_IBM_GETTOD_ZOS_H
11*4bdff4beSrobert #define _LIBCPP___SUPPORT_IBM_GETTOD_ZOS_H
1276d0caaeSpatrick
1376d0caaeSpatrick #include <time.h>
1476d0caaeSpatrick
15*4bdff4beSrobert inline _LIBCPP_HIDE_FROM_ABI int
gettimeofdayMonotonic(struct timespec64 * Output)16*4bdff4beSrobert gettimeofdayMonotonic(struct timespec64* Output) {
1776d0caaeSpatrick
1876d0caaeSpatrick // The POSIX gettimeofday() function is not available on z/OS. Therefore,
1976d0caaeSpatrick // we will call stcke and other hardware instructions in implement equivalent.
2076d0caaeSpatrick // Note that nanoseconds alone will overflow when reaching new epoch in 2042.
2176d0caaeSpatrick
2276d0caaeSpatrick struct _t {
2376d0caaeSpatrick uint64_t Hi;
2476d0caaeSpatrick uint64_t Lo;
2576d0caaeSpatrick };
2676d0caaeSpatrick struct _t Value = {0, 0};
2776d0caaeSpatrick uint64_t CC = 0;
2876d0caaeSpatrick asm(" stcke %0\n"
2976d0caaeSpatrick " ipm %1\n"
3076d0caaeSpatrick " srlg %1,%1,28\n"
3176d0caaeSpatrick : "=m"(Value), "+r"(CC)::);
3276d0caaeSpatrick
3376d0caaeSpatrick if (CC != 0) {
3476d0caaeSpatrick errno = EMVSTODNOTSET;
3576d0caaeSpatrick return CC;
3676d0caaeSpatrick }
3776d0caaeSpatrick uint64_t us = (Value.Hi >> 4);
3876d0caaeSpatrick uint64_t ns = ((Value.Hi & 0x0F) << 8) + (Value.Lo >> 56);
3976d0caaeSpatrick ns = (ns * 1000) >> 12;
4076d0caaeSpatrick us = us - 2208988800000000;
4176d0caaeSpatrick
4276d0caaeSpatrick register uint64_t DivPair0 asm("r0"); // dividend (upper half), remainder
4376d0caaeSpatrick DivPair0 = 0;
4476d0caaeSpatrick register uint64_t DivPair1 asm("r1"); // dividend (lower half), quotient
4576d0caaeSpatrick DivPair1 = us;
4676d0caaeSpatrick uint64_t Divisor = 1000000;
4776d0caaeSpatrick asm(" dlgr %0,%2" : "+r"(DivPair0), "+r"(DivPair1) : "r"(Divisor) :);
4876d0caaeSpatrick
4976d0caaeSpatrick Output->tv_sec = DivPair1;
5076d0caaeSpatrick Output->tv_nsec = DivPair0 * 1000 + ns;
5176d0caaeSpatrick return 0;
5276d0caaeSpatrick }
5376d0caaeSpatrick
54*4bdff4beSrobert #endif // _LIBCPP___SUPPORT_IBM_GETTOD_ZOS_H
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