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// Copyright 2012-2014 The Rust Project Developers. See the COPYRIGHT
// file at the top-level directory of this distribution and at
// http://rust-lang.org/COPYRIGHT.
//
// Licensed under the Apache License, Version 2.0 <LICENSE-APACHE or
// http://www.apache.org/licenses/LICENSE-2.0> or the MIT license
// <LICENSE-MIT or http://opensource.org/licenses/MIT>, at your
// option. This file may not be copied, modified, or distributed
// except according to those terms.
use std::io;
use std::mem;
use std::time::{SystemTime, UNIX_EPOCH};
use winapi::shared::minwindef::*;
use winapi::um::minwinbase::SYSTEMTIME;
use winapi::um::timezoneapi::*;
use super::{FixedOffset, Local};
use crate::{DateTime, Datelike, LocalResult, NaiveDate, NaiveDateTime, NaiveTime, Timelike};
pub(super) fn now() -> DateTime<Local> {
tm_to_datetime(Timespec::now().local())
}
/// Converts a local `NaiveDateTime` to the `time::Timespec`.
pub(super) fn naive_to_local(d: &NaiveDateTime, local: bool) -> LocalResult<DateTime<Local>> {
let tm = Tm {
tm_sec: d.second() as i32,
tm_min: d.minute() as i32,
tm_hour: d.hour() as i32,
tm_mday: d.day() as i32,
tm_mon: d.month0() as i32, // yes, C is that strange...
tm_year: d.year() - 1900, // this doesn't underflow, we know that d is `NaiveDateTime`.
tm_wday: 0, // to_local ignores this
tm_yday: 0, // and this
tm_isdst: -1,
// This seems pretty fake?
tm_utcoff: if local { 1 } else { 0 },
// do not set this, OS APIs are heavily inconsistent in terms of leap second handling
tm_nsec: 0,
};
let spec = Timespec {
sec: match local {
false => utc_tm_to_time(&tm),
true => local_tm_to_time(&tm),
},
nsec: tm.tm_nsec,
};
// Adjust for leap seconds
let mut tm = spec.local();
assert_eq!(tm.tm_nsec, 0);
tm.tm_nsec = d.nanosecond() as i32;
// #TODO - there should be ambiguous cases, investigate?
LocalResult::Single(tm_to_datetime(tm))
}
/// Converts a `time::Tm` struct into the timezone-aware `DateTime`.
fn tm_to_datetime(mut tm: Tm) -> DateTime<Local> {
if tm.tm_sec >= 60 {
tm.tm_nsec += (tm.tm_sec - 59) * 1_000_000_000;
tm.tm_sec = 59;
}
let date = NaiveDate::from_ymd_opt(tm.tm_year + 1900, tm.tm_mon as u32 + 1, tm.tm_mday as u32)
.unwrap();
let time = NaiveTime::from_hms_nano(
tm.tm_hour as u32,
tm.tm_min as u32,
tm.tm_sec as u32,
tm.tm_nsec as u32,
);
let offset = FixedOffset::east_opt(tm.tm_utcoff).unwrap();
DateTime::from_utc(date.and_time(time) - offset, offset)
}
/// A record specifying a time value in seconds and nanoseconds, where
/// nanoseconds represent the offset from the given second.
///
/// For example a timespec of 1.2 seconds after the beginning of the epoch would
/// be represented as {sec: 1, nsec: 200000000}.
struct Timespec {
sec: i64,
nsec: i32,
}
impl Timespec {
/// Constructs a timespec representing the current time in UTC.
fn now() -> Timespec {
let st =
SystemTime::now().duration_since(UNIX_EPOCH).expect("system time before Unix epoch");
Timespec { sec: st.as_secs() as i64, nsec: st.subsec_nanos() as i32 }
}
/// Converts this timespec into the system's local time.
fn local(self) -> Tm {
let mut tm = Tm {
tm_sec: 0,
tm_min: 0,
tm_hour: 0,
tm_mday: 0,
tm_mon: 0,
tm_year: 0,
tm_wday: 0,
tm_yday: 0,
tm_isdst: 0,
tm_utcoff: 0,
tm_nsec: 0,
};
time_to_local_tm(self.sec, &mut tm);
tm.tm_nsec = self.nsec;
tm
}
}
/// Holds a calendar date and time broken down into its components (year, month,
/// day, and so on), also called a broken-down time value.
// FIXME: use c_int instead of i32?
#[repr(C)]
struct Tm {
/// Seconds after the minute - [0, 60]
tm_sec: i32,
/// Minutes after the hour - [0, 59]
tm_min: i32,
/// Hours after midnight - [0, 23]
tm_hour: i32,
/// Day of the month - [1, 31]
tm_mday: i32,
/// Months since January - [0, 11]
tm_mon: i32,
/// Years since 1900
tm_year: i32,
/// Days since Sunday - [0, 6]. 0 = Sunday, 1 = Monday, ..., 6 = Saturday.
tm_wday: i32,
/// Days since January 1 - [0, 365]
tm_yday: i32,
/// Daylight Saving Time flag.
///
/// This value is positive if Daylight Saving Time is in effect, zero if
/// Daylight Saving Time is not in effect, and negative if this information
/// is not available.
tm_isdst: i32,
/// Identifies the time zone that was used to compute this broken-down time
/// value, including any adjustment for Daylight Saving Time. This is the
/// number of seconds east of UTC. For example, for U.S. Pacific Daylight
/// Time, the value is `-7*60*60 = -25200`.
tm_utcoff: i32,
/// Nanoseconds after the second - [0, 10<sup>9</sup> - 1]
tm_nsec: i32,
}
const HECTONANOSECS_IN_SEC: i64 = 10_000_000;
const HECTONANOSEC_TO_UNIX_EPOCH: i64 = 11_644_473_600 * HECTONANOSECS_IN_SEC;
fn time_to_file_time(sec: i64) -> FILETIME {
let t = ((sec * HECTONANOSECS_IN_SEC) + HECTONANOSEC_TO_UNIX_EPOCH) as u64;
FILETIME { dwLowDateTime: t as DWORD, dwHighDateTime: (t >> 32) as DWORD }
}
fn file_time_as_u64(ft: &FILETIME) -> u64 {
((ft.dwHighDateTime as u64) << 32) | (ft.dwLowDateTime as u64)
}
fn file_time_to_unix_seconds(ft: &FILETIME) -> i64 {
let t = file_time_as_u64(ft) as i64;
((t - HECTONANOSEC_TO_UNIX_EPOCH) / HECTONANOSECS_IN_SEC) as i64
}
fn system_time_to_file_time(sys: &SYSTEMTIME) -> FILETIME {
unsafe {
let mut ft = mem::zeroed();
SystemTimeToFileTime(sys, &mut ft);
ft
}
}
fn tm_to_system_time(tm: &Tm) -> SYSTEMTIME {
let mut sys: SYSTEMTIME = unsafe { mem::zeroed() };
sys.wSecond = tm.tm_sec as WORD;
sys.wMinute = tm.tm_min as WORD;
sys.wHour = tm.tm_hour as WORD;
sys.wDay = tm.tm_mday as WORD;
sys.wDayOfWeek = tm.tm_wday as WORD;
sys.wMonth = (tm.tm_mon + 1) as WORD;
sys.wYear = (tm.tm_year + 1900) as WORD;
sys
}
fn system_time_to_tm(sys: &SYSTEMTIME, tm: &mut Tm) {
tm.tm_sec = sys.wSecond as i32;
tm.tm_min = sys.wMinute as i32;
tm.tm_hour = sys.wHour as i32;
tm.tm_mday = sys.wDay as i32;
tm.tm_wday = sys.wDayOfWeek as i32;
tm.tm_mon = (sys.wMonth - 1) as i32;
tm.tm_year = (sys.wYear - 1900) as i32;
tm.tm_yday = yday(tm.tm_year, tm.tm_mon + 1, tm.tm_mday);
fn yday(year: i32, month: i32, day: i32) -> i32 {
let leap = if month > 2 {
if year % 4 == 0 {
1
} else {
2
}
} else {
0
};
let july = if month > 7 { 1 } else { 0 };
(month - 1) * 30 + month / 2 + (day - 1) - leap + july
}
}
macro_rules! call {
($name:ident($($arg:expr),*)) => {
if $name($($arg),*) == 0 {
panic!(concat!(stringify!($name), " failed with: {}"),
io::Error::last_os_error());
}
}
}
fn time_to_local_tm(sec: i64, tm: &mut Tm) {
let ft = time_to_file_time(sec);
unsafe {
let mut utc = mem::zeroed();
let mut local = mem::zeroed();
call!(FileTimeToSystemTime(&ft, &mut utc));
call!(SystemTimeToTzSpecificLocalTime(0 as *const _, &mut utc, &mut local));
system_time_to_tm(&local, tm);
let local = system_time_to_file_time(&local);
let local_sec = file_time_to_unix_seconds(&local);
let mut tz = mem::zeroed();
GetTimeZoneInformation(&mut tz);
// SystemTimeToTzSpecificLocalTime already applied the biases so
// check if it non standard
tm.tm_utcoff = (local_sec - sec) as i32;
tm.tm_isdst = if tm.tm_utcoff == -60 * (tz.Bias + tz.StandardBias) { 0 } else { 1 };
}
}
fn utc_tm_to_time(tm: &Tm) -> i64 {
unsafe {
let mut ft = mem::zeroed();
let sys_time = tm_to_system_time(tm);
call!(SystemTimeToFileTime(&sys_time, &mut ft));
file_time_to_unix_seconds(&ft)
}
}
fn local_tm_to_time(tm: &Tm) -> i64 {
unsafe {
let mut ft = mem::zeroed();
let mut utc = mem::zeroed();
let mut sys_time = tm_to_system_time(tm);
call!(TzSpecificLocalTimeToSystemTime(0 as *mut _, &mut sys_time, &mut utc));
call!(SystemTimeToFileTime(&utc, &mut ft));
file_time_to_unix_seconds(&ft)
}
}
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