// Copyright 2019 The Go Authors. All rights reserved. // Use of this source code is governed by a BSD-style // license that can be found in the LICENSE file. //go:build faketime && !windows // Faketime isn't currently supported on Windows. This would require // modifying syscall.Write to call syscall.faketimeWrite, // translating the Stdout and Stderr handles into FDs 1 and 2. // (See CL 192739 PS 3.) package runtime import "unsafe" // faketime is the simulated time in nanoseconds since 1970 for the // playground. var faketime int64 = 1257894000000000000 var faketimeState struct { lock mutex // lastfaketime is the last faketime value written to fd 1 or 2. lastfaketime int64 // lastfd is the fd to which lastfaketime was written. // // Subsequent writes to the same fd may use the same // timestamp, but the timestamp must increase if the fd // changes. lastfd uintptr } //go:linkname nanotime //go:nosplit func nanotime() int64 { return faketime } //go:linkname time_now time.now func time_now() (sec int64, nsec int32, mono int64) { return faketime / 1e9, int32(faketime % 1e9), faketime } // write is like the Unix write system call. // We have to avoid write barriers to avoid potential deadlock // on write calls. // //go:nowritebarrierrec func write(fd uintptr, p unsafe.Pointer, n int32) int32 { if !(fd == 1 || fd == 2) { // Do an ordinary write. return write1(fd, p, n) } // Write with the playback header. // First, lock to avoid interleaving writes. lock(&faketimeState.lock) // If the current fd doesn't match the fd of the previous write, // ensure that the timestamp is strictly greater. That way, we can // recover the original order even if we read the fds separately. t := faketimeState.lastfaketime if fd != faketimeState.lastfd { t++ faketimeState.lastfd = fd } if faketime > t { t = faketime } faketimeState.lastfaketime = t // Playback header: 0 0 P B <8-byte time> <4-byte data length> (big endian) var buf [4 + 8 + 4]byte buf[2] = 'P' buf[3] = 'B' tu := uint64(t) buf[4] = byte(tu >> (7 * 8)) buf[5] = byte(tu >> (6 * 8)) buf[6] = byte(tu >> (5 * 8)) buf[7] = byte(tu >> (4 * 8)) buf[8] = byte(tu >> (3 * 8)) buf[9] = byte(tu >> (2 * 8)) buf[10] = byte(tu >> (1 * 8)) buf[11] = byte(tu >> (0 * 8)) nu := uint32(n) buf[12] = byte(nu >> (3 * 8)) buf[13] = byte(nu >> (2 * 8)) buf[14] = byte(nu >> (1 * 8)) buf[15] = byte(nu >> (0 * 8)) write1(fd, unsafe.Pointer(&buf[0]), int32(len(buf))) // Write actual data. res := write1(fd, p, n) unlock(&faketimeState.lock) return res }