//! Types related to a time zone. use std::fs::{self, File}; use std::io::{self, Read}; use std::path::{Path, PathBuf}; use std::{cmp::Ordering, fmt, str}; use super::rule::{AlternateTime, TransitionRule}; use super::{parser, Error, DAYS_PER_WEEK, SECONDS_PER_DAY}; /// Time zone #[derive(Debug, Clone, Eq, PartialEq)] pub(crate) struct TimeZone { /// List of transitions transitions: Vec, /// List of local time types (cannot be empty) local_time_types: Vec, /// List of leap seconds leap_seconds: Vec, /// Extra transition rule applicable after the last transition extra_rule: Option, } impl TimeZone { /// Returns local time zone. /// /// This method in not supported on non-UNIX platforms, and returns the UTC time zone instead. /// pub(crate) fn local(env_tz: Option<&str>) -> Result { match env_tz { Some(tz) => Self::from_posix_tz(tz), None => Self::from_posix_tz("localtime"), } } /// Construct a time zone from a POSIX TZ string, as described in [the POSIX documentation of the `TZ` environment variable](https://pubs.opengroup.org/onlinepubs/9699919799/basedefs/V1_chap08.html). fn from_posix_tz(tz_string: &str) -> Result { if tz_string.is_empty() { return Err(Error::InvalidTzString("empty TZ string")); } if tz_string == "localtime" { return Self::from_tz_data(&fs::read("/etc/localtime")?); } // attributes are not allowed on if blocks in Rust 1.38 #[cfg(target_os = "android")] { if let Ok(bytes) = android_tzdata::find_tz_data(tz_string) { return Self::from_tz_data(&bytes); } } let mut chars = tz_string.chars(); if chars.next() == Some(':') { return Self::from_file(&mut find_tz_file(chars.as_str())?); } if let Ok(mut file) = find_tz_file(tz_string) { return Self::from_file(&mut file); } // TZ string extensions are not allowed let tz_string = tz_string.trim_matches(|c: char| c.is_ascii_whitespace()); let rule = TransitionRule::from_tz_string(tz_string.as_bytes(), false)?; Self::new( vec![], match rule { TransitionRule::Fixed(local_time_type) => vec![local_time_type], TransitionRule::Alternate(AlternateTime { std, dst, .. }) => vec![std, dst], }, vec![], Some(rule), ) } /// Construct a time zone pub(super) fn new( transitions: Vec, local_time_types: Vec, leap_seconds: Vec, extra_rule: Option, ) -> Result { let new = Self { transitions, local_time_types, leap_seconds, extra_rule }; new.as_ref().validate()?; Ok(new) } /// Construct a time zone from the contents of a time zone file fn from_file(file: &mut File) -> Result { let mut bytes = Vec::new(); file.read_to_end(&mut bytes)?; Self::from_tz_data(&bytes) } /// Construct a time zone from the contents of a time zone file /// /// Parse TZif data as described in [RFC 8536](https://datatracker.ietf.org/doc/html/rfc8536). pub(crate) fn from_tz_data(bytes: &[u8]) -> Result { parser::parse(bytes) } /// Construct a time zone with the specified UTC offset in seconds fn fixed(ut_offset: i32) -> Result { Ok(Self { transitions: Vec::new(), local_time_types: vec![LocalTimeType::with_offset(ut_offset)?], leap_seconds: Vec::new(), extra_rule: None, }) } /// Construct the time zone associated to UTC pub(crate) fn utc() -> Self { Self { transitions: Vec::new(), local_time_types: vec![LocalTimeType::UTC], leap_seconds: Vec::new(), extra_rule: None, } } /// Find the local time type associated to the time zone at the specified Unix time in seconds pub(crate) fn find_local_time_type(&self, unix_time: i64) -> Result<&LocalTimeType, Error> { self.as_ref().find_local_time_type(unix_time) } // should we pass NaiveDateTime all the way through to this fn? pub(crate) fn find_local_time_type_from_local( &self, local_time: i64, year: i32, ) -> Result, Error> { self.as_ref().find_local_time_type_from_local(local_time, year) } /// Returns a reference to the time zone fn as_ref(&self) -> TimeZoneRef { TimeZoneRef { transitions: &self.transitions, local_time_types: &self.local_time_types, leap_seconds: &self.leap_seconds, extra_rule: &self.extra_rule, } } } /// Reference to a time zone #[derive(Debug, Copy, Clone, Eq, PartialEq)] pub(crate) struct TimeZoneRef<'a> { /// List of transitions transitions: &'a [Transition], /// List of local time types (cannot be empty) local_time_types: &'a [LocalTimeType], /// List of leap seconds leap_seconds: &'a [LeapSecond], /// Extra transition rule applicable after the last transition extra_rule: &'a Option, } impl<'a> TimeZoneRef<'a> { /// Find the local time type associated to the time zone at the specified Unix time in seconds pub(crate) fn find_local_time_type(&self, unix_time: i64) -> Result<&'a LocalTimeType, Error> { let extra_rule = match self.transitions.last() { None => match self.extra_rule { Some(extra_rule) => extra_rule, None => return Ok(&self.local_time_types[0]), }, Some(last_transition) => { let unix_leap_time = match self.unix_time_to_unix_leap_time(unix_time) { Ok(unix_leap_time) => unix_leap_time, Err(Error::OutOfRange(error)) => return Err(Error::FindLocalTimeType(error)), Err(err) => return Err(err), }; if unix_leap_time >= last_transition.unix_leap_time { match self.extra_rule { Some(extra_rule) => extra_rule, None => { return Err(Error::FindLocalTimeType( "no local time type is available for the specified timestamp", )) } } } else { let index = match self .transitions .binary_search_by_key(&unix_leap_time, Transition::unix_leap_time) { Ok(x) => x + 1, Err(x) => x, }; let local_time_type_index = if index > 0 { self.transitions[index - 1].local_time_type_index } else { 0 }; return Ok(&self.local_time_types[local_time_type_index]); } } }; match extra_rule.find_local_time_type(unix_time) { Ok(local_time_type) => Ok(local_time_type), Err(Error::OutOfRange(error)) => Err(Error::FindLocalTimeType(error)), err => err, } } pub(crate) fn find_local_time_type_from_local( &self, local_time: i64, year: i32, ) -> Result, Error> { // #TODO: this is wrong as we need 'local_time_to_local_leap_time ? // but ... does the local time even include leap seconds ?? // let unix_leap_time = match self.unix_time_to_unix_leap_time(local_time) { // Ok(unix_leap_time) => unix_leap_time, // Err(Error::OutOfRange(error)) => return Err(Error::FindLocalTimeType(error)), // Err(err) => return Err(err), // }; let local_leap_time = local_time; // if we have at least one transition, // we must check _all_ of them, incase of any Overlapping (LocalResult::Ambiguous) or Skipping (LocalResult::None) transitions if !self.transitions.is_empty() { let mut prev = Some(self.local_time_types[0]); for transition in self.transitions { let after_ltt = self.local_time_types[transition.local_time_type_index]; // the end and start here refers to where the time starts prior to the transition // and where it ends up after. not the temporal relationship. let transition_end = transition.unix_leap_time + i64::from(after_ltt.ut_offset); let transition_start = transition.unix_leap_time + i64::from(prev.unwrap().ut_offset); match transition_start.cmp(&transition_end) { Ordering::Greater => { // bakwards transition, eg from DST to regular // this means a given local time could have one of two possible offsets if local_leap_time < transition_end { return Ok(crate::LocalResult::Single(prev.unwrap())); } else if local_leap_time >= transition_end && local_leap_time <= transition_start { if prev.unwrap().ut_offset < after_ltt.ut_offset { return Ok(crate::LocalResult::Ambiguous(prev.unwrap(), after_ltt)); } else { return Ok(crate::LocalResult::Ambiguous(after_ltt, prev.unwrap())); } } } Ordering::Equal => { // should this ever happen? presumably we have to handle it anyway. if local_leap_time < transition_start { return Ok(crate::LocalResult::Single(prev.unwrap())); } else if local_leap_time == transition_end { if prev.unwrap().ut_offset < after_ltt.ut_offset { return Ok(crate::LocalResult::Ambiguous(prev.unwrap(), after_ltt)); } else { return Ok(crate::LocalResult::Ambiguous(after_ltt, prev.unwrap())); } } } Ordering::Less => { // forwards transition, eg from regular to DST // this means that times that are skipped are invalid local times if local_leap_time <= transition_start { return Ok(crate::LocalResult::Single(prev.unwrap())); } else if local_leap_time < transition_end { return Ok(crate::LocalResult::None); } else if local_leap_time == transition_end { return Ok(crate::LocalResult::Single(after_ltt)); } } } // try the next transition, we are fully after this one prev = Some(after_ltt); } }; if let Some(extra_rule) = self.extra_rule { match extra_rule.find_local_time_type_from_local(local_time, year) { Ok(local_time_type) => Ok(local_time_type), Err(Error::OutOfRange(error)) => Err(Error::FindLocalTimeType(error)), err => err, } } else { Ok(crate::LocalResult::Single(self.local_time_types[0])) } } /// Check time zone inputs fn validate(&self) -> Result<(), Error> { // Check local time types let local_time_types_size = self.local_time_types.len(); if local_time_types_size == 0 { return Err(Error::TimeZone("list of local time types must not be empty")); } // Check transitions let mut i_transition = 0; while i_transition < self.transitions.len() { if self.transitions[i_transition].local_time_type_index >= local_time_types_size { return Err(Error::TimeZone("invalid local time type index")); } if i_transition + 1 < self.transitions.len() && self.transitions[i_transition].unix_leap_time >= self.transitions[i_transition + 1].unix_leap_time { return Err(Error::TimeZone("invalid transition")); } i_transition += 1; } // Check leap seconds if !(self.leap_seconds.is_empty() || self.leap_seconds[0].unix_leap_time >= 0 && saturating_abs(self.leap_seconds[0].correction) == 1) { return Err(Error::TimeZone("invalid leap second")); } let min_interval = SECONDS_PER_28_DAYS - 1; let mut i_leap_second = 0; while i_leap_second < self.leap_seconds.len() { if i_leap_second + 1 < self.leap_seconds.len() { let x0 = &self.leap_seconds[i_leap_second]; let x1 = &self.leap_seconds[i_leap_second + 1]; let diff_unix_leap_time = x1.unix_leap_time.saturating_sub(x0.unix_leap_time); let abs_diff_correction = saturating_abs(x1.correction.saturating_sub(x0.correction)); if !(diff_unix_leap_time >= min_interval && abs_diff_correction == 1) { return Err(Error::TimeZone("invalid leap second")); } } i_leap_second += 1; } // Check extra rule let (extra_rule, last_transition) = match (&self.extra_rule, self.transitions.last()) { (Some(rule), Some(trans)) => (rule, trans), _ => return Ok(()), }; let last_local_time_type = &self.local_time_types[last_transition.local_time_type_index]; let unix_time = match self.unix_leap_time_to_unix_time(last_transition.unix_leap_time) { Ok(unix_time) => unix_time, Err(Error::OutOfRange(error)) => return Err(Error::TimeZone(error)), Err(err) => return Err(err), }; let rule_local_time_type = match extra_rule.find_local_time_type(unix_time) { Ok(rule_local_time_type) => rule_local_time_type, Err(Error::OutOfRange(error)) => return Err(Error::TimeZone(error)), Err(err) => return Err(err), }; let check = last_local_time_type.ut_offset == rule_local_time_type.ut_offset && last_local_time_type.is_dst == rule_local_time_type.is_dst && match (&last_local_time_type.name, &rule_local_time_type.name) { (Some(x), Some(y)) => x.equal(y), (None, None) => true, _ => false, }; if !check { return Err(Error::TimeZone( "extra transition rule is inconsistent with the last transition", )); } Ok(()) } /// Convert Unix time to Unix leap time, from the list of leap seconds in a time zone const fn unix_time_to_unix_leap_time(&self, unix_time: i64) -> Result { let mut unix_leap_time = unix_time; let mut i = 0; while i < self.leap_seconds.len() { let leap_second = &self.leap_seconds[i]; if unix_leap_time < leap_second.unix_leap_time { break; } unix_leap_time = match unix_time.checked_add(leap_second.correction as i64) { Some(unix_leap_time) => unix_leap_time, None => return Err(Error::OutOfRange("out of range operation")), }; i += 1; } Ok(unix_leap_time) } /// Convert Unix leap time to Unix time, from the list of leap seconds in a time zone fn unix_leap_time_to_unix_time(&self, unix_leap_time: i64) -> Result { if unix_leap_time == i64::min_value() { return Err(Error::OutOfRange("out of range operation")); } let index = match self .leap_seconds .binary_search_by_key(&(unix_leap_time - 1), LeapSecond::unix_leap_time) { Ok(x) => x + 1, Err(x) => x, }; let correction = if index > 0 { self.leap_seconds[index - 1].correction } else { 0 }; match unix_leap_time.checked_sub(correction as i64) { Some(unix_time) => Ok(unix_time), None => Err(Error::OutOfRange("out of range operation")), } } /// The UTC time zone const UTC: TimeZoneRef<'static> = TimeZoneRef { transitions: &[], local_time_types: &[LocalTimeType::UTC], leap_seconds: &[], extra_rule: &None, }; } /// Transition of a TZif file #[derive(Debug, Copy, Clone, Eq, PartialEq)] pub(super) struct Transition { /// Unix leap time unix_leap_time: i64, /// Index specifying the local time type of the transition local_time_type_index: usize, } impl Transition { /// Construct a TZif file transition pub(super) const fn new(unix_leap_time: i64, local_time_type_index: usize) -> Self { Self { unix_leap_time, local_time_type_index } } /// Returns Unix leap time const fn unix_leap_time(&self) -> i64 { self.unix_leap_time } } /// Leap second of a TZif file #[derive(Debug, Copy, Clone, Eq, PartialEq)] pub(super) struct LeapSecond { /// Unix leap time unix_leap_time: i64, /// Leap second correction correction: i32, } impl LeapSecond { /// Construct a TZif file leap second pub(super) const fn new(unix_leap_time: i64, correction: i32) -> Self { Self { unix_leap_time, correction } } /// Returns Unix leap time const fn unix_leap_time(&self) -> i64 { self.unix_leap_time } } /// ASCII-encoded fixed-capacity string, used for storing time zone names #[derive(Copy, Clone, Eq, PartialEq)] struct TimeZoneName { /// Length-prefixed string buffer bytes: [u8; 8], } impl TimeZoneName { /// Construct a time zone name fn new(input: &[u8]) -> Result { let len = input.len(); if !(3..=7).contains(&len) { return Err(Error::LocalTimeType( "time zone name must have between 3 and 7 characters", )); } let mut bytes = [0; 8]; bytes[0] = input.len() as u8; let mut i = 0; while i < len { let b = input[i]; match b { b'0'..=b'9' | b'A'..=b'Z' | b'a'..=b'z' | b'+' | b'-' => {} _ => return Err(Error::LocalTimeType("invalid characters in time zone name")), } bytes[i + 1] = b; i += 1; } Ok(Self { bytes }) } /// Returns time zone name as a byte slice fn as_bytes(&self) -> &[u8] { match self.bytes[0] { 3 => &self.bytes[1..4], 4 => &self.bytes[1..5], 5 => &self.bytes[1..6], 6 => &self.bytes[1..7], 7 => &self.bytes[1..8], _ => unreachable!(), } } /// Check if two time zone names are equal fn equal(&self, other: &Self) -> bool { self.bytes == other.bytes } } impl AsRef for TimeZoneName { fn as_ref(&self) -> &str { // SAFETY: ASCII is valid UTF-8 unsafe { str::from_utf8_unchecked(self.as_bytes()) } } } impl fmt::Debug for TimeZoneName { fn fmt(&self, f: &mut fmt::Formatter) -> fmt::Result { self.as_ref().fmt(f) } } /// Local time type associated to a time zone #[derive(Debug, Copy, Clone, Eq, PartialEq)] pub(crate) struct LocalTimeType { /// Offset from UTC in seconds pub(super) ut_offset: i32, /// Daylight Saving Time indicator is_dst: bool, /// Time zone name name: Option, } impl LocalTimeType { /// Construct a local time type pub(super) fn new(ut_offset: i32, is_dst: bool, name: Option<&[u8]>) -> Result { if ut_offset == i32::min_value() { return Err(Error::LocalTimeType("invalid UTC offset")); } let name = match name { Some(name) => TimeZoneName::new(name)?, None => return Ok(Self { ut_offset, is_dst, name: None }), }; Ok(Self { ut_offset, is_dst, name: Some(name) }) } /// Construct a local time type with the specified UTC offset in seconds pub(super) const fn with_offset(ut_offset: i32) -> Result { if ut_offset == i32::min_value() { return Err(Error::LocalTimeType("invalid UTC offset")); } Ok(Self { ut_offset, is_dst: false, name: None }) } /// Returns offset from UTC in seconds pub(crate) const fn offset(&self) -> i32 { self.ut_offset } /// Returns daylight saving time indicator pub(super) const fn is_dst(&self) -> bool { self.is_dst } pub(super) const UTC: LocalTimeType = Self { ut_offset: 0, is_dst: false, name: None }; } /// Open the TZif file corresponding to a TZ string fn find_tz_file(path: impl AsRef) -> Result { // Don't check system timezone directories on non-UNIX platforms #[cfg(not(unix))] return Ok(File::open(path)?); #[cfg(unix)] { let path = path.as_ref(); if path.is_absolute() { return Ok(File::open(path)?); } for folder in &ZONE_INFO_DIRECTORIES { if let Ok(file) = File::open(PathBuf::from(folder).join(path)) { return Ok(file); } } Err(Error::Io(io::ErrorKind::NotFound.into())) } } #[inline] const fn saturating_abs(v: i32) -> i32 { if v.is_positive() { v } else if v == i32::min_value() { i32::max_value() } else { -v } } // Possible system timezone directories #[cfg(unix)] const ZONE_INFO_DIRECTORIES: [&str; 4] = ["/usr/share/zoneinfo", "/share/zoneinfo", "/etc/zoneinfo", "/usr/share/lib/zoneinfo"]; /// Number of seconds in one week pub(crate) const SECONDS_PER_WEEK: i64 = SECONDS_PER_DAY * DAYS_PER_WEEK; /// Number of seconds in 28 days const SECONDS_PER_28_DAYS: i64 = SECONDS_PER_DAY * 28; #[cfg(test)] mod tests { use super::super::Error; use super::{LeapSecond, LocalTimeType, TimeZone, TimeZoneName, Transition, TransitionRule}; #[test] fn test_no_dst() -> Result<(), Error> { let tz_string = b"HST10"; let transition_rule = TransitionRule::from_tz_string(tz_string, false)?; assert_eq!(transition_rule, LocalTimeType::new(-36000, false, Some(b"HST"))?.into()); Ok(()) } #[test] fn test_error() -> Result<(), Error> { assert!(matches!( TransitionRule::from_tz_string(b"IST-1GMT0", false), Err(Error::UnsupportedTzString(_)) )); assert!(matches!( TransitionRule::from_tz_string(b"EET-2EEST", false), Err(Error::UnsupportedTzString(_)) )); Ok(()) } #[test] fn test_v1_file_with_leap_seconds() -> Result<(), Error> { let bytes = b"TZif\0\0\0\0\0\0\0\0\0\0\0\0\0\0\0\0\0\0\0\x01\0\0\0\x01\0\0\0\x1b\0\0\0\0\0\0\0\x01\0\0\0\x04\0\0\0\0\0\0UTC\0\x04\xb2\x58\0\0\0\0\x01\x05\xa4\xec\x01\0\0\0\x02\x07\x86\x1f\x82\0\0\0\x03\x09\x67\x53\x03\0\0\0\x04\x0b\x48\x86\x84\0\0\0\x05\x0d\x2b\x0b\x85\0\0\0\x06\x0f\x0c\x3f\x06\0\0\0\x07\x10\xed\x72\x87\0\0\0\x08\x12\xce\xa6\x08\0\0\0\x09\x15\x9f\xca\x89\0\0\0\x0a\x17\x80\xfe\x0a\0\0\0\x0b\x19\x62\x31\x8b\0\0\0\x0c\x1d\x25\xea\x0c\0\0\0\x0d\x21\xda\xe5\x0d\0\0\0\x0e\x25\x9e\x9d\x8e\0\0\0\x0f\x27\x7f\xd1\x0f\0\0\0\x10\x2a\x50\xf5\x90\0\0\0\x11\x2c\x32\x29\x11\0\0\0\x12\x2e\x13\x5c\x92\0\0\0\x13\x30\xe7\x24\x13\0\0\0\x14\x33\xb8\x48\x94\0\0\0\x15\x36\x8c\x10\x15\0\0\0\x16\x43\xb7\x1b\x96\0\0\0\x17\x49\x5c\x07\x97\0\0\0\x18\x4f\xef\x93\x18\0\0\0\x19\x55\x93\x2d\x99\0\0\0\x1a\x58\x68\x46\x9a\0\0\0\x1b\0\0"; let time_zone = TimeZone::from_tz_data(bytes)?; let time_zone_result = TimeZone::new( Vec::new(), vec![LocalTimeType::new(0, false, Some(b"UTC"))?], vec![ LeapSecond::new(78796800, 1), LeapSecond::new(94694401, 2), LeapSecond::new(126230402, 3), LeapSecond::new(157766403, 4), LeapSecond::new(189302404, 5), LeapSecond::new(220924805, 6), LeapSecond::new(252460806, 7), LeapSecond::new(283996807, 8), LeapSecond::new(315532808, 9), LeapSecond::new(362793609, 10), LeapSecond::new(394329610, 11), LeapSecond::new(425865611, 12), LeapSecond::new(489024012, 13), LeapSecond::new(567993613, 14), LeapSecond::new(631152014, 15), LeapSecond::new(662688015, 16), LeapSecond::new(709948816, 17), LeapSecond::new(741484817, 18), LeapSecond::new(773020818, 19), LeapSecond::new(820454419, 20), LeapSecond::new(867715220, 21), LeapSecond::new(915148821, 22), LeapSecond::new(1136073622, 23), LeapSecond::new(1230768023, 24), LeapSecond::new(1341100824, 25), LeapSecond::new(1435708825, 26), LeapSecond::new(1483228826, 27), ], None, )?; assert_eq!(time_zone, time_zone_result); Ok(()) } #[test] fn test_v2_file() -> Result<(), Error> { let bytes = b"TZif2\0\0\0\0\0\0\0\0\0\0\0\0\0\0\0\0\0\0\x06\0\0\0\x06\0\0\0\0\0\0\0\x07\0\0\0\x06\0\0\0\x14\x80\0\0\0\xbb\x05\x43\x48\xbb\x21\x71\x58\xcb\x89\x3d\xc8\xd2\x23\xf4\x70\xd2\x61\x49\x38\xd5\x8d\x73\x48\x01\x02\x01\x03\x04\x01\x05\xff\xff\x6c\x02\0\0\xff\xff\x6c\x58\0\x04\xff\xff\x7a\x68\x01\x08\xff\xff\x7a\x68\x01\x0c\xff\xff\x7a\x68\x01\x10\xff\xff\x73\x60\0\x04LMT\0HST\0HDT\0HWT\0HPT\0\0\0\0\0\x01\0\0\0\0\0\x01\0TZif2\0\0\0\0\0\0\0\0\0\0\0\0\0\0\0\0\0\0\x06\0\0\0\x06\0\0\0\0\0\0\0\x07\0\0\0\x06\0\0\0\x14\xff\xff\xff\xff\x74\xe0\x70\xbe\xff\xff\xff\xff\xbb\x05\x43\x48\xff\xff\xff\xff\xbb\x21\x71\x58\xff\xff\xff\xff\xcb\x89\x3d\xc8\xff\xff\xff\xff\xd2\x23\xf4\x70\xff\xff\xff\xff\xd2\x61\x49\x38\xff\xff\xff\xff\xd5\x8d\x73\x48\x01\x02\x01\x03\x04\x01\x05\xff\xff\x6c\x02\0\0\xff\xff\x6c\x58\0\x04\xff\xff\x7a\x68\x01\x08\xff\xff\x7a\x68\x01\x0c\xff\xff\x7a\x68\x01\x10\xff\xff\x73\x60\0\x04LMT\0HST\0HDT\0HWT\0HPT\0\0\0\0\0\x01\0\0\0\0\0\x01\0\x0aHST10\x0a"; let time_zone = TimeZone::from_tz_data(bytes)?; let time_zone_result = TimeZone::new( vec![ Transition::new(-2334101314, 1), Transition::new(-1157283000, 2), Transition::new(-1155436200, 1), Transition::new(-880198200, 3), Transition::new(-769395600, 4), Transition::new(-765376200, 1), Transition::new(-712150200, 5), ], vec![ LocalTimeType::new(-37886, false, Some(b"LMT"))?, LocalTimeType::new(-37800, false, Some(b"HST"))?, LocalTimeType::new(-34200, true, Some(b"HDT"))?, LocalTimeType::new(-34200, true, Some(b"HWT"))?, LocalTimeType::new(-34200, true, Some(b"HPT"))?, LocalTimeType::new(-36000, false, Some(b"HST"))?, ], Vec::new(), Some(TransitionRule::from(LocalTimeType::new(-36000, false, Some(b"HST"))?)), )?; assert_eq!(time_zone, time_zone_result); assert_eq!( *time_zone.find_local_time_type(-1156939200)?, LocalTimeType::new(-34200, true, Some(b"HDT"))? ); assert_eq!( *time_zone.find_local_time_type(1546300800)?, LocalTimeType::new(-36000, false, Some(b"HST"))? ); Ok(()) } #[test] fn test_tz_ascii_str() -> Result<(), Error> { assert!(matches!(TimeZoneName::new(b""), Err(Error::LocalTimeType(_)))); assert!(matches!(TimeZoneName::new(b"1"), Err(Error::LocalTimeType(_)))); assert!(matches!(TimeZoneName::new(b"12"), Err(Error::LocalTimeType(_)))); assert_eq!(TimeZoneName::new(b"123")?.as_bytes(), b"123"); assert_eq!(TimeZoneName::new(b"1234")?.as_bytes(), b"1234"); assert_eq!(TimeZoneName::new(b"12345")?.as_bytes(), b"12345"); assert_eq!(TimeZoneName::new(b"123456")?.as_bytes(), b"123456"); assert_eq!(TimeZoneName::new(b"1234567")?.as_bytes(), b"1234567"); assert!(matches!(TimeZoneName::new(b"12345678"), Err(Error::LocalTimeType(_)))); assert!(matches!(TimeZoneName::new(b"123456789"), Err(Error::LocalTimeType(_)))); assert!(matches!(TimeZoneName::new(b"1234567890"), Err(Error::LocalTimeType(_)))); assert!(matches!(TimeZoneName::new(b"123\0\0\0"), Err(Error::LocalTimeType(_)))); Ok(()) } #[test] fn test_time_zone() -> Result<(), Error> { let utc = LocalTimeType::UTC; let cet = LocalTimeType::with_offset(3600)?; let utc_local_time_types = vec![utc]; let fixed_extra_rule = TransitionRule::from(cet); let time_zone_1 = TimeZone::new(vec![], utc_local_time_types.clone(), vec![], None)?; let time_zone_2 = TimeZone::new(vec![], utc_local_time_types.clone(), vec![], Some(fixed_extra_rule))?; let time_zone_3 = TimeZone::new(vec![Transition::new(0, 0)], utc_local_time_types.clone(), vec![], None)?; let time_zone_4 = TimeZone::new( vec![Transition::new(i32::min_value().into(), 0), Transition::new(0, 1)], vec![utc, cet], Vec::new(), Some(fixed_extra_rule), )?; assert_eq!(*time_zone_1.find_local_time_type(0)?, utc); assert_eq!(*time_zone_2.find_local_time_type(0)?, cet); assert_eq!(*time_zone_3.find_local_time_type(-1)?, utc); assert!(matches!(time_zone_3.find_local_time_type(0), Err(Error::FindLocalTimeType(_)))); assert_eq!(*time_zone_4.find_local_time_type(-1)?, utc); assert_eq!(*time_zone_4.find_local_time_type(0)?, cet); let time_zone_err = TimeZone::new( vec![Transition::new(0, 0)], utc_local_time_types, vec![], Some(fixed_extra_rule), ); assert!(time_zone_err.is_err()); Ok(()) } #[test] fn test_time_zone_from_posix_tz() -> Result<(), Error> { #[cfg(unix)] { // if the TZ var is set, this essentially _overrides_ the // time set by the localtime symlink // so just ensure that ::local() acts as expected // in this case if let Ok(tz) = std::env::var("TZ") { let time_zone_local = TimeZone::local(Some(tz.as_str()))?; let time_zone_local_1 = TimeZone::from_posix_tz(&tz)?; assert_eq!(time_zone_local, time_zone_local_1); } let time_zone_utc = TimeZone::from_posix_tz("UTC")?; assert_eq!(time_zone_utc.find_local_time_type(0)?.offset(), 0); } assert!(TimeZone::from_posix_tz("EST5EDT,0/0,J365/25").is_err()); assert!(TimeZone::from_posix_tz("").is_err()); Ok(()) } #[test] fn test_leap_seconds() -> Result<(), Error> { let time_zone = TimeZone::new( Vec::new(), vec![LocalTimeType::new(0, false, Some(b"UTC"))?], vec![ LeapSecond::new(78796800, 1), LeapSecond::new(94694401, 2), LeapSecond::new(126230402, 3), LeapSecond::new(157766403, 4), LeapSecond::new(189302404, 5), LeapSecond::new(220924805, 6), LeapSecond::new(252460806, 7), LeapSecond::new(283996807, 8), LeapSecond::new(315532808, 9), LeapSecond::new(362793609, 10), LeapSecond::new(394329610, 11), LeapSecond::new(425865611, 12), LeapSecond::new(489024012, 13), LeapSecond::new(567993613, 14), LeapSecond::new(631152014, 15), LeapSecond::new(662688015, 16), LeapSecond::new(709948816, 17), LeapSecond::new(741484817, 18), LeapSecond::new(773020818, 19), LeapSecond::new(820454419, 20), LeapSecond::new(867715220, 21), LeapSecond::new(915148821, 22), LeapSecond::new(1136073622, 23), LeapSecond::new(1230768023, 24), LeapSecond::new(1341100824, 25), LeapSecond::new(1435708825, 26), LeapSecond::new(1483228826, 27), ], None, )?; let time_zone_ref = time_zone.as_ref(); assert!(matches!(time_zone_ref.unix_leap_time_to_unix_time(1136073621), Ok(1136073599))); assert!(matches!(time_zone_ref.unix_leap_time_to_unix_time(1136073622), Ok(1136073600))); assert!(matches!(time_zone_ref.unix_leap_time_to_unix_time(1136073623), Ok(1136073600))); assert!(matches!(time_zone_ref.unix_leap_time_to_unix_time(1136073624), Ok(1136073601))); assert!(matches!(time_zone_ref.unix_time_to_unix_leap_time(1136073599), Ok(1136073621))); assert!(matches!(time_zone_ref.unix_time_to_unix_leap_time(1136073600), Ok(1136073623))); assert!(matches!(time_zone_ref.unix_time_to_unix_leap_time(1136073601), Ok(1136073624))); Ok(()) } #[test] fn test_leap_seconds_overflow() -> Result<(), Error> { let time_zone_err = TimeZone::new( vec![Transition::new(i64::min_value(), 0)], vec![LocalTimeType::UTC], vec![LeapSecond::new(0, 1)], Some(TransitionRule::from(LocalTimeType::UTC)), ); assert!(time_zone_err.is_err()); let time_zone = TimeZone::new( vec![Transition::new(i64::max_value(), 0)], vec![LocalTimeType::UTC], vec![LeapSecond::new(0, 1)], None, )?; assert!(matches!( time_zone.find_local_time_type(i64::max_value()), Err(Error::FindLocalTimeType(_)) )); Ok(()) } }