// Copyright (c) Tailscale Inc & AUTHORS // SPDX-License-Identifier: BSD-3-Clause // Package mono provides fast monotonic time. // On most platforms, mono.Now is about 2x faster than time.Now. // However, time.Now is really fast, and nicer to use. // // For almost all purposes, you should use time.Now. // // Package mono exists because we get the current time multiple // times per network packet, at which point it makes a // measurable difference. package mono import ( "fmt" "sync/atomic" "time" _ "unsafe" // for go:linkname ) // Time is the number of nanoseconds elapsed since an unspecified reference start time. type Time int64 // Now returns the current monotonic time. func Now() Time { // On a newly started machine, the monotonic clock might be very near zero. // Thus mono.Time(0).Before(mono.Now.Add(-time.Minute)) might yield true. // The corresponding package time expression never does, if the wall clock is correct. // Preserve this correspondence by increasing the "base" monotonic clock by a fair amount. const baseOffset int64 = 1 << 55 // approximately 10,000 hours in nanoseconds return Time(now() + baseOffset) } // Since returns the time elapsed since t. func Since(t Time) time.Duration { return time.Duration(Now() - t) } // Sub returns t-n, the duration from n to t. func (t Time) Sub(n Time) time.Duration { return time.Duration(t - n) } // Add returns t+d. func (t Time) Add(d time.Duration) Time { return t + Time(d) } // After reports t > n, whether t is after n. func (t Time) After(n Time) bool { return t > n } // Before reports t < n, whether t is before n. func (t Time) Before(n Time) bool { return t < n } // IsZero reports whether t == 0. func (t Time) IsZero() bool { return t == 0 } // StoreAtomic does an atomic store *t = new. func (t *Time) StoreAtomic(new Time) { atomic.StoreInt64((*int64)(t), int64(new)) } // LoadAtomic does an atomic load *t. func (t *Time) LoadAtomic() Time { return Time(atomic.LoadInt64((*int64)(t))) } //go:linkname now runtime.nanotime1 func now() int64 // baseWall and baseMono are a pair of almost-identical times used to correlate a Time with a wall time. var ( baseWall time.Time baseMono Time ) func init() { baseWall = time.Now() baseMono = Now() } // String prints t, including an estimated equivalent wall clock. // This is best-effort only, for rough debugging purposes only. // Since t is a monotonic time, it can vary from the actual wall clock by arbitrary amounts. // Even in the best of circumstances, it may vary by a few milliseconds. func (t Time) String() string { return fmt.Sprintf("mono.Time(ns=%d, estimated wall=%v)", int64(t), baseWall.Add(t.Sub(baseMono)).Truncate(0)) } // WallTime returns an approximate wall time that corresponded to t. func (t Time) WallTime() time.Time { if !t.IsZero() { return baseWall.Add(t.Sub(baseMono)).Truncate(0) } return time.Time{} } // MarshalJSON formats t for JSON as if it were a time.Time. // We format Time this way for backwards-compatibility. // Time does not survive a MarshalJSON/UnmarshalJSON round trip unchanged // across different invocations of the Go process. This is best-effort only. // Since t is a monotonic time, it can vary from the actual wall clock by arbitrary amounts. // Even in the best of circumstances, it may vary by a few milliseconds. func (t Time) MarshalJSON() ([]byte, error) { tt := t.WallTime() return tt.MarshalJSON() } // UnmarshalJSON sets t according to data. // Time does not survive a MarshalJSON/UnmarshalJSON round trip unchanged // across different invocations of the Go process. This is best-effort only. func (t *Time) UnmarshalJSON(data []byte) error { var tt time.Time err := tt.UnmarshalJSON(data) if err != nil { return err } if tt.IsZero() { *t = 0 return nil } *t = baseMono.Add(tt.Sub(baseWall)) return nil }