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moonfire-nvr/server/base/time.rs
Scott Lamb 1e314e09d0 refine timestamps in json signals api 
*   API change: in update signals, allow setting a start time relative
    to now. This is an accuracy improvement in the case where the client
    has been retrying an initial request for a while. Kind of an obscure
    corner case but easy enough to address. And use a more convenient
    enum representation.

*   in update signals, choose `now` before acquiring the database lock.
    If lock acquisition takes a long time, this more accurately reflects
    the time the caller intended.

*   in general, make Time and Duration (de)serializable and use them
    in json types. This makes the types more self-describing, with
    better debug printing on both the server side and on the client
    library (in moonfire-playground). To make this work, base has to
    import serde which initially seemed like poor layering to me, but
    serde seems to be imported in some pretty foundational Rust crates
    for this reason. I'll go with it.
2021-04-21 21:06:15 -07:00

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// This file is part of Moonfire NVR, a security camera network video recorder.
// Copyright (C) 2020 The Moonfire NVR Authors; see AUTHORS and LICENSE.txt.
// SPDX-License-Identifier: GPL-v3.0-or-later WITH GPL-3.0-linking-exception.
//! Time and durations for Moonfire NVR's internal format.
use failure::{bail, format_err, Error};
use nom::branch::alt;
use nom::bytes::complete::{tag, take_while_m_n};
use nom::combinator::{map, map_res, opt};
use nom::sequence::{preceded, tuple};
use serde::{Deserialize, Serialize};
use std::fmt;
use std::ops;
use std::str::FromStr;
use time;
type IResult<'a, I, O> = nom::IResult<I, O, nom::error::VerboseError<&'a str>>;
pub const TIME_UNITS_PER_SEC: i64 = 90_000;
/// A time specified as 90,000ths of a second since 1970-01-01 00:00:00 UTC.
#[derive(Clone, Copy, Default, Deserialize, Eq, Ord, PartialEq, PartialOrd, Serialize)]
pub struct Time(pub i64);
/// Returns a parser for a `len`-digit non-negative number which fits into an i32.
fn fixed_len_num<'a>(len: usize) -> impl FnMut(&'a str) -> IResult<&'a str, i32> {
map_res(
take_while_m_n(len, len, |c: char| c.is_ascii_digit()),
|input: &str| i32::from_str_radix(input, 10),
)
}
/// Parses `YYYY-mm-dd` into pieces.
fn parse_datepart(input: &str) -> IResult<&str, (i32, i32, i32)> {
tuple((
fixed_len_num(4),
preceded(tag("-"), fixed_len_num(2)),
preceded(tag("-"), fixed_len_num(2)),
))(input)
}
/// Parses `HH:MM[:SS[:FFFFF]]` into pieces.
fn parse_timepart(input: &str) -> IResult<&str, (i32, i32, i32, i32)> {
let (input, (hr, _, min)) = tuple((fixed_len_num(2), tag(":"), fixed_len_num(2)))(input)?;
let (input, stuff) = opt(tuple((
preceded(tag(":"), fixed_len_num(2)),
opt(preceded(tag(":"), fixed_len_num(5))),
)))(input)?;
let (sec, opt_subsec) = stuff.unwrap_or((0, None));
Ok((input, (hr, min, sec, opt_subsec.unwrap_or(0))))
}
/// Parses `Z` (UTC) or `{+,-,}HH:MM` into a time zone offset in seconds.
fn parse_zone(input: &str) -> IResult<&str, i32> {
alt((
nom::combinator::value(0, tag("Z")),
map(
tuple((
opt(nom::character::complete::one_of(&b"+-"[..])),
fixed_len_num(2),
tag(":"),
fixed_len_num(2),
)),
|(sign, hr, _, min)| {
let off = hr * 3600 + min * 60;
if sign == Some('-') {
off
} else {
-off
}
},
),
))(input)
}
impl Time {
pub fn new(tm: time::Timespec) -> Self {
Time(tm.sec * TIME_UNITS_PER_SEC + tm.nsec as i64 * TIME_UNITS_PER_SEC / 1_000_000_000)
}
pub const fn min_value() -> Self {
Time(i64::min_value())
}
pub const fn max_value() -> Self {
Time(i64::max_value())
}
/// Parses a time as either 90,000ths of a second since epoch or a RFC 3339-like string.
///
/// The former is 90,000ths of a second since 1970-01-01T00:00:00 UTC, excluding leap seconds.
///
/// The latter is a date such as `2006-01-02T15:04:05`, followed by an optional 90,000ths of
/// a second such as `:00001`, followed by an optional time zone offset such as `Z` or
/// `-07:00`. A missing fraction is assumed to be 0. A missing time zone offset implies the
/// local time zone.
pub fn parse(input: &str) -> Result<Self, Error> {
// First try parsing as 90,000ths of a second since epoch.
match i64::from_str(input) {
Ok(i) => return Ok(Time(i)),
Err(_) => {}
}
// If that failed, parse as a time string or bust.
let (remaining, ((tm_year, tm_mon, tm_mday), opt_time, opt_zone)) = tuple((
parse_datepart,
opt(preceded(tag("T"), parse_timepart)),
opt(parse_zone),
))(input)
.map_err(|e| match e {
nom::Err::Incomplete(_) => format_err!("incomplete"),
nom::Err::Error(e) | nom::Err::Failure(e) => {
format_err!("{}", nom::error::convert_error(input, e))
}
})?;
if remaining != "" {
bail!("unexpected suffix {:?} following time string", remaining);
}
let (tm_hour, tm_min, tm_sec, subsec) = opt_time.unwrap_or((0, 0, 0, 0));
let mut tm = time::Tm {
tm_sec,
tm_min,
tm_hour,
tm_mday,
tm_mon,
tm_year,
tm_wday: 0,
tm_yday: 0,
tm_isdst: -1,
tm_utcoff: 0,
tm_nsec: 0,
};
if tm.tm_mon == 0 {
bail!("time {:?} has month 0", input);
}
tm.tm_mon -= 1;
if tm.tm_year < 1900 {
bail!("time {:?} has year before 1900", input);
}
tm.tm_year -= 1900;
// The time crate doesn't use tm_utcoff properly; it just calls timegm() if tm_utcoff == 0,
// mktime() otherwise. If a zone is specified, use the timegm path and a manual offset.
// If no zone is specified, use the tm_utcoff path. This is pretty lame, but follow the
// chrono crate's lead and just use 0 or 1 to choose between these functions.
let sec = if let Some(off) = opt_zone {
tm.to_timespec().sec + i64::from(off)
} else {
tm.tm_utcoff = 1;
tm.to_timespec().sec
};
Ok(Time(sec * TIME_UNITS_PER_SEC + i64::from(subsec)))
}
/// Convert to unix seconds by floor method (rounding down).
pub fn unix_seconds(&self) -> i64 {
self.0 / TIME_UNITS_PER_SEC
}
}
impl std::str::FromStr for Time {
type Err = Error;
fn from_str(s: &str) -> Result<Self, Self::Err> {
Self::parse(s)
}
}
impl ops::Sub for Time {
type Output = Duration;
fn sub(self, rhs: Time) -> Duration {
Duration(self.0 - rhs.0)
}
}
impl ops::AddAssign<Duration> for Time {
fn add_assign(&mut self, rhs: Duration) {
self.0 += rhs.0
}
}
impl ops::Add<Duration> for Time {
type Output = Time;
fn add(self, rhs: Duration) -> Time {
Time(self.0 + rhs.0)
}
}
impl ops::Sub<Duration> for Time {
type Output = Time;
fn sub(self, rhs: Duration) -> Time {
Time(self.0 - rhs.0)
}
}
impl fmt::Debug for Time {
fn fmt(&self, f: &mut fmt::Formatter) -> fmt::Result {
// Write both the raw and display forms.
write!(f, "{} /* {} */", self.0, self)
}
}
impl fmt::Display for Time {
fn fmt(&self, f: &mut fmt::Formatter) -> fmt::Result {
let tm = time::at(time::Timespec {
sec: self.0 / TIME_UNITS_PER_SEC,
nsec: 0,
});
let zone_minutes = tm.tm_utcoff.abs() / 60;
write!(
f,
"{}:{:05}{}{:02}:{:02}",
tm.strftime("%FT%T").or_else(|_| Err(fmt::Error))?,
self.0 % TIME_UNITS_PER_SEC,
if tm.tm_utcoff > 0 { '+' } else { '-' },
zone_minutes / 60,
zone_minutes % 60
)
}
}
/// A duration specified in 1/90,000ths of a second.
/// Durations are typically non-negative, but a `moonfire_db::db::CameraDayValue::duration` may be
/// negative.
#[derive(Clone, Copy, Default, Deserialize, Eq, Ord, PartialEq, PartialOrd, Serialize)]
pub struct Duration(pub i64);
impl Duration {
pub fn to_tm_duration(&self) -> time::Duration {
time::Duration::nanoseconds(self.0 * 100000 / 9)
}
}
impl fmt::Debug for Duration {
fn fmt(&self, f: &mut fmt::Formatter) -> fmt::Result {
// Write both the raw and display forms.
write!(f, "{} /* {} */", self.0, self)
}
}
impl fmt::Display for Duration {
fn fmt(&self, f: &mut fmt::Formatter) -> fmt::Result {
let mut seconds = self.0 / TIME_UNITS_PER_SEC;
const MINUTE_IN_SECONDS: i64 = 60;
const HOUR_IN_SECONDS: i64 = 60 * MINUTE_IN_SECONDS;
const DAY_IN_SECONDS: i64 = 24 * HOUR_IN_SECONDS;
let days = seconds / DAY_IN_SECONDS;
seconds %= DAY_IN_SECONDS;
let hours = seconds / HOUR_IN_SECONDS;
seconds %= HOUR_IN_SECONDS;
let minutes = seconds / MINUTE_IN_SECONDS;
seconds %= MINUTE_IN_SECONDS;
let mut have_written = if days > 0 {
write!(f, "{} day{}", days, if days == 1 { "" } else { "s" })?;
true
} else {
false
};
if hours > 0 {
write!(
f,
"{}{} hour{}",
if have_written { " " } else { "" },
hours,
if hours == 1 { "" } else { "s" }
)?;
have_written = true;
}
if minutes > 0 {
write!(
f,
"{}{} minute{}",
if have_written { " " } else { "" },
minutes,
if minutes == 1 { "" } else { "s" }
)?;
have_written = true;
}
if seconds > 0 || !have_written {
write!(
f,
"{}{} second{}",
if have_written { " " } else { "" },
seconds,
if seconds == 1 { "" } else { "s" }
)?;
}
Ok(())
}
}
impl ops::Mul<i64> for Duration {
type Output = Self;
fn mul(self, rhs: i64) -> Self::Output {
Duration(self.0 * rhs)
}
}
impl ops::Add for Duration {
type Output = Duration;
fn add(self, rhs: Duration) -> Duration {
Duration(self.0 + rhs.0)
}
}
impl ops::AddAssign for Duration {
fn add_assign(&mut self, rhs: Duration) {
self.0 += rhs.0
}
}
impl ops::SubAssign for Duration {
fn sub_assign(&mut self, rhs: Duration) {
self.0 -= rhs.0
}
}
#[cfg(test)]
mod tests {
use super::{Duration, Time, TIME_UNITS_PER_SEC};
#[test]
fn test_parse_time() {
std::env::set_var("TZ", "America/Los_Angeles");
time::tzset();
#[rustfmt::skip]
let tests = &[
("2006-01-02T15:04:05-07:00", 102261550050000),
("2006-01-02T15:04:05:00001-07:00", 102261550050001),
("2006-01-02T15:04:05-08:00", 102261874050000),
("2006-01-02T15:04:05", 102261874050000), // implied -08:00
("2006-01-02T15:04", 102261873600000), // implied -08:00
("2006-01-02T15:04:05:00001", 102261874050001), // implied -08:00
("2006-01-02T15:04:05-00:00", 102259282050000),
("2006-01-02T15:04:05Z", 102259282050000),
("2006-01-02-08:00", 102256992000000), // implied -08:00
("2006-01-02", 102256992000000), // implied -08:00
("2006-01-02Z", 102254400000000),
("102261550050000", 102261550050000),
];
for test in tests {
assert_eq!(test.1, Time::parse(test.0).unwrap().0, "parsing {}", test.0);
}
}
#[test]
fn test_format_time() {
std::env::set_var("TZ", "America/Los_Angeles");
time::tzset();
assert_eq!(
"2006-01-02T15:04:05:00000-08:00",
format!("{}", Time(102261874050000))
);
}
#[test]
fn test_display_duration() {
let tests = &[
// (output, seconds)
("0 seconds", 0),
("1 second", 1),
("1 minute", 60),
("1 minute 1 second", 61),
("2 minutes", 120),
("1 hour", 3600),
("1 hour 1 minute", 3660),
("2 hours", 7200),
("1 day", 86400),
("1 day 1 hour", 86400 + 3600),
("2 days", 2 * 86400),
];
for test in tests {
assert_eq!(test.0, format!("{}", Duration(test.1 * TIME_UNITS_PER_SEC)));
}
}
}
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