use core::{ fmt, intrinsics::unlikely, ops::{self, Sub}, }; use crate::arch::CurrentTimeArch; use crate::time::syscall::PosixTimeval; use self::timekeeping::getnstimeofday; pub mod clocksource; pub mod jiffies; pub mod sleep; pub mod syscall; pub mod tick_common; pub mod timeconv; pub mod timekeep; pub mod timekeeping; pub mod timer; /* Time structures. (Partitially taken from smoltcp) The `time` module contains structures used to represent both absolute and relative time. - [Instant] is used to represent absolute time. - [Duration] is used to represent relative time. [Instant]: struct.Instant.html [Duration]: struct.Duration.html */ #[allow(dead_code)] pub const MSEC_PER_SEC: u32 = 1000; #[allow(dead_code)] pub const USEC_PER_MSEC: u32 = 1000; #[allow(dead_code)] pub const NSEC_PER_USEC: u32 = 1000; #[allow(dead_code)] pub const NSEC_PER_MSEC: u32 = 1000000; #[allow(dead_code)] pub const USEC_PER_SEC: u32 = 1000000; #[allow(dead_code)] pub const NSEC_PER_SEC: u32 = 1000000000; #[allow(dead_code)] pub const FSEC_PER_SEC: u64 = 1000000000000000; /// The clock frequency of the i8253/i8254 PIT pub const PIT_TICK_RATE: u64 = 1193182; /// 表示时间的结构体,符合POSIX标准。 #[derive(Debug, Clone, Copy, PartialEq, Eq, Default)] #[repr(C)] pub struct PosixTimeSpec { pub tv_sec: i64, pub tv_nsec: i64, } impl PosixTimeSpec { #[allow(dead_code)] pub fn new(sec: i64, nsec: i64) -> PosixTimeSpec { return PosixTimeSpec { tv_sec: sec, tv_nsec: nsec, }; } /// 获取当前时间 #[inline(always)] pub fn now() -> Self { getnstimeofday() } /// 获取当前CPU时间(使用CPU时钟周期计算,会存在回绕问题) pub fn now_cpu_time() -> Self { #[cfg(target_arch = "x86_64")] { use crate::arch::driver::tsc::TSCManager; let khz = TSCManager::cpu_khz(); if unlikely(khz == 0) { return PosixTimeSpec::default(); } else { return Self::from(Duration::from_millis( CurrentTimeArch::get_cycles() as u64 / khz, )); } } #[cfg(target_arch = "riscv64")] { return PosixTimeSpec::new(0, 0); } } /// 换算成纳秒 pub fn total_nanos(&self) -> i64 { self.tv_sec * 1000000000 + self.tv_nsec } } impl Sub for PosixTimeSpec { type Output = Duration; fn sub(self, rhs: Self) -> Self::Output { let sec = self.tv_sec.checked_sub(rhs.tv_sec).unwrap_or(0); let nsec = self.tv_nsec.checked_sub(rhs.tv_nsec).unwrap_or(0); Duration::from_micros((sec * 1000000 + nsec / 1000) as u64) } } impl From for PosixTimeSpec { fn from(dur: Duration) -> Self { PosixTimeSpec { tv_sec: dur.total_micros() as i64 / 1000000, tv_nsec: (dur.total_micros() as i64 % 1000000) * 1000, } } } impl From for PosixTimeSpec { fn from(value: PosixTimeval) -> Self { PosixTimeSpec { tv_sec: value.tv_sec, tv_nsec: value.tv_usec as i64 * 1000, } } } impl From for Duration { fn from(val: PosixTimeSpec) -> Self { Duration::from_micros(val.tv_sec as u64 * 1000000 + val.tv_nsec as u64 / 1000) } } /// A representation of an absolute time value. /// /// The `Instant` type is a wrapper around a `i64` value that /// represents a number of microseconds, monotonically increasing /// since an arbitrary moment in time, such as system startup. /// /// * A value of `0` is inherently arbitrary. /// * A value less than `0` indicates a time before the starting /// point. #[derive(Debug, Copy, Clone, PartialEq, Eq, PartialOrd, Ord)] pub struct Instant { micros: i64, } #[allow(dead_code)] impl Instant { pub const ZERO: Instant = Instant::from_micros_const(0); /// mktime64 - 将日期转换为秒。 /// /// ## 参数 /// /// - year0: 要转换的年份 /// - mon0: 要转换的月份 /// - day: 要转换的天 /// - hour: 要转换的小时 /// - min: 要转换的分钟 /// - sec: 要转换的秒 /// /// 将公历日期转换为1970-01-01 00:00:00以来的秒数。 /// 假设输入为正常的日期格式,即1980-12-31 23:59:59 => 年份=1980, 月=12, 日=31, 时=23, 分=59, 秒=59。 /// /// [For the Julian calendar(俄罗斯在1917年之前使用,英国及其殖民地在大西洋1752年之前使用, /// 其他地方在1582年之前使用,某些社区仍然在使用)省略-year/100+year/400项, /// 并在结果上加10。] /// /// 这个算法最初由高斯(我认为是)发表。 /// /// 要表示闰秒,可以通过将sec设为60(在ISO 8601允许)来调用此函数。 /// 闰秒与随后的秒一样处理,因为它们在UNIX时间中不存在。 /// /// 支持将午夜作为当日末尾的24:00:00编码 - 即明天的午夜(在ISO 8601允许)。 /// /// ## 返回 /// /// 返回:给定输入日期自1970-01-01 00:00:00以来的秒数 pub fn mktime64(year0: u32, mon0: u32, day: u32, hour: u32, min: u32, sec: u32) -> Self { let mut mon: i64 = mon0.into(); let mut year: u64 = year0.into(); let day: u64 = day.into(); let hour: u64 = hour.into(); let min: u64 = min.into(); let sec: u64 = sec.into(); mon -= 2; /* 1..12 -> 11,12,1..10 */ if mon <= 0 { /* Puts Feb last since it has leap day */ mon += 12; year -= 1; } let mon = mon as u64; let secs = ((((year / 4 - year / 100 + year / 400 + 367 * mon / 12 + day) + year * 365 - 719499) * 24 + hour) /* now have hours - midnight tomorrow handled here */ * 60 + min)/* now have minutes */ * 60 + sec; /* finally seconds */ Self::from_secs(secs as i64) } /// Create a new `Instant` from a number of microseconds. pub fn from_micros>(micros: T) -> Instant { Instant { micros: micros.into(), } } pub const fn from_micros_const(micros: i64) -> Instant { Instant { micros } } /// Create a new `Instant` from a number of milliseconds. pub fn from_millis>(millis: T) -> Instant { Instant { micros: millis.into() * 1000, } } /// Create a new `Instant` from a number of milliseconds. pub const fn from_millis_const(millis: i64) -> Instant { Instant { micros: millis * 1000, } } /// Create a new `Instant` from a number of seconds. pub fn from_secs>(secs: T) -> Instant { Instant { micros: secs.into() * 1000000, } } /// Create a new `Instant` from the current time pub fn now() -> Instant { let tm = getnstimeofday(); Self::from_micros(tm.tv_sec * 1000000 + tm.tv_nsec / 1000) } /// The fractional number of milliseconds that have passed /// since the beginning of time. pub const fn millis(&self) -> i64 { self.micros % 1000000 / 1000 } /// The fractional number of microseconds that have passed /// since the beginning of time. pub const fn micros(&self) -> i64 { self.micros % 1000000 } /// The number of whole seconds that have passed since the /// beginning of time. pub const fn secs(&self) -> i64 { self.micros / 1000000 } /// The total number of milliseconds that have passed since /// the beginning of time. pub const fn total_millis(&self) -> i64 { self.micros / 1000 } /// The total number of milliseconds that have passed since /// the beginning of time. pub const fn total_micros(&self) -> i64 { self.micros } } impl fmt::Display for Instant { fn fmt(&self, f: &mut fmt::Formatter) -> fmt::Result { write!(f, "{}.{:0>3}s", self.secs(), self.millis()) } } impl ops::Add for Instant { type Output = Instant; fn add(self, rhs: Duration) -> Instant { Instant::from_micros(self.micros + rhs.total_micros() as i64) } } impl ops::AddAssign for Instant { fn add_assign(&mut self, rhs: Duration) { self.micros += rhs.total_micros() as i64; } } impl ops::Sub for Instant { type Output = Instant; fn sub(self, rhs: Duration) -> Instant { Instant::from_micros(self.micros - rhs.total_micros() as i64) } } impl ops::SubAssign for Instant { fn sub_assign(&mut self, rhs: Duration) { self.micros -= rhs.total_micros() as i64; } } impl ops::Sub for Instant { type Output = Duration; fn sub(self, rhs: Instant) -> Duration { Duration::from_micros((self.micros - rhs.micros).unsigned_abs()) } } /// A relative amount of time. #[derive(Debug, Default, Copy, Clone, PartialEq, Eq, PartialOrd, Ord)] pub struct Duration { micros: u64, } impl Duration { pub const ZERO: Duration = Duration::from_micros(0); /// Create a new `Duration` from a number of microseconds. pub const fn from_micros(micros: u64) -> Duration { Duration { micros } } /// Create a new `Duration` from a number of milliseconds. pub const fn from_millis(millis: u64) -> Duration { Duration { micros: millis * 1000, } } /// Create a new `Instant` from a number of seconds. pub const fn from_secs(secs: u64) -> Duration { Duration { micros: secs * 1000000, } } /// The fractional number of milliseconds in this `Duration`. pub const fn millis(&self) -> u64 { self.micros / 1000 % 1000 } /// The fractional number of milliseconds in this `Duration`. pub const fn micros(&self) -> u64 { self.micros % 1000000 } /// The number of whole seconds in this `Duration`. pub const fn secs(&self) -> u64 { self.micros / 1000000 } /// The total number of milliseconds in this `Duration`. pub const fn total_millis(&self) -> u64 { self.micros / 1000 } /// The total number of microseconds in this `Duration`. pub const fn total_micros(&self) -> u64 { self.micros } } impl fmt::Display for Duration { fn fmt(&self, f: &mut fmt::Formatter) -> fmt::Result { write!(f, "{}.{:03}s", self.secs(), self.millis()) } } impl ops::Add for Duration { type Output = Duration; fn add(self, rhs: Duration) -> Duration { Duration::from_micros(self.micros + rhs.total_micros()) } } impl ops::AddAssign for Duration { fn add_assign(&mut self, rhs: Duration) { self.micros += rhs.total_micros(); } } impl ops::Sub for Duration { type Output = Duration; fn sub(self, rhs: Duration) -> Duration { Duration::from_micros( self.micros .checked_sub(rhs.total_micros()) .expect("overflow when subtracting durations"), ) } } impl ops::SubAssign for Duration { fn sub_assign(&mut self, rhs: Duration) { self.micros = self .micros .checked_sub(rhs.total_micros()) .expect("overflow when subtracting durations"); } } impl ops::Mul for Duration { type Output = Duration; fn mul(self, rhs: u32) -> Duration { Duration::from_micros(self.micros * rhs as u64) } } impl ops::MulAssign for Duration { fn mul_assign(&mut self, rhs: u32) { self.micros *= rhs as u64; } } impl ops::Div for Duration { type Output = Duration; fn div(self, rhs: u32) -> Duration { Duration::from_micros(self.micros / rhs as u64) } } impl ops::DivAssign for Duration { fn div_assign(&mut self, rhs: u32) { self.micros /= rhs as u64; } } impl ops::Shl for Duration { type Output = Duration; fn shl(self, rhs: u32) -> Duration { Duration::from_micros(self.micros << rhs) } } impl ops::ShlAssign for Duration { fn shl_assign(&mut self, rhs: u32) { self.micros <<= rhs; } } impl ops::Shr for Duration { type Output = Duration; fn shr(self, rhs: u32) -> Duration { Duration::from_micros(self.micros >> rhs) } } impl ops::ShrAssign for Duration { fn shr_assign(&mut self, rhs: u32) { self.micros >>= rhs; } } impl From<::core::time::Duration> for Duration { fn from(other: ::core::time::Duration) -> Duration { Duration::from_micros(other.as_secs() * 1000000 + other.subsec_micros() as u64) } } impl From for ::core::time::Duration { fn from(val: Duration) -> Self { ::core::time::Duration::from_micros(val.total_micros()) } } /// 支持与smoltcp的时间转换 impl From for Instant { fn from(val: smoltcp::time::Instant) -> Self { Instant::from_micros(val.micros()) } } impl From for smoltcp::time::Instant { fn from(val: Instant) -> Self { smoltcp::time::Instant::from_millis(val.millis()) } } /// 支持与smoltcp的时间转换 impl From for Duration { fn from(val: smoltcp::time::Duration) -> Self { Duration::from_micros(val.micros()) } } impl From for smoltcp::time::Duration { fn from(val: Duration) -> Self { smoltcp::time::Duration::from_millis(val.millis()) } } pub trait TimeArch { /// Get CPU cycles (Read from register) fn get_cycles() -> usize; /// Calculate expire cycles /// /// # Arguments /// /// - `ns` - The time to expire in nanoseconds /// /// # Returns /// /// The expire cycles fn cal_expire_cycles(ns: usize) -> usize; /// 将CPU的时钟周期数转换为纳秒 fn cycles2ns(cycles: usize) -> usize; }