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// Copyright (c) 2024, BlockProject 3D
//
// All rights reserved.
//
// Redistribution and use in source and binary forms, with or without modification,
// are permitted provided that the following conditions are met:
//
// * Redistributions of source code must retain the above copyright notice,
// this list of conditions and the following disclaimer.
// * Redistributions in binary form must reproduce the above copyright notice,
// this list of conditions and the following disclaimer in the documentation
// and/or other materials provided with the distribution.
// * Neither the name of BlockProject 3D nor the names of its contributors
// may be used to endorse or promote products derived from this software
// without specific prior written permission.
//
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//! A simple TZIF reader module used to get UTC to local offset.
//!
//! **See [RFC](https://www.rfc-editor.org/rfc/rfc8536.html)**
use bytesutil::ReadBytes;
use std::{fmt::Display, io::Read};
/// A series of six-octet records specifying a local time type.
/// The number of records is specified by the "typecnt" field in the header.
/// Each record has the following format (the lengths of multi-octet fields are shown in parentheses).
pub struct LocalTimeTypeRecord {
/// A four-octet signed integer specifying the number of seconds to be added to UT in order to determine local time.
pub utoff: i32,
/// A one-octet value indicating whether local time should be considered Daylight Saving Time (DST).
pub dst: bool,
/// A one-octet unsigned integer specifying a zero-based index into the series of time zone designation octets,
/// thereby selecting a particular designation string.
pub idx: u8,
}
/// A series of eight- or twelve-octet records specifying the corrections that need to be applied to UTC in order to determine TAI.
pub struct LeapSecondRecord {
/// A four or eight-octet UNIX leap time value specifying the time at which a leap-second correction occurs.
pub occurrence: i64,
/// A four-octet signed integer specifying the value of LEAPCORR on or after the occurrence.
pub correction: i32,
}
/// Possible errors when parsing TZIF.
#[derive(Debug)]
pub enum Error {
/// An Io error.
Io(std::io::Error),
/// The signature of the file cannot be recognized.
InvalidSignature,
}
impl Display for Error {
fn fmt(&self, f: &mut std::fmt::Formatter<'_>) -> std::fmt::Result {
match self {
Error::Io(e) => write!(f, "io error: {}", e),
Error::InvalidSignature => f.write_str("invalid TZIF signature"),
}
}
}
impl std::error::Error for Error {}
/// A data block.
pub struct Data {
/// A series of four- or eight-octet UNIX leap-time values sorted in strictly ascending order.
pub transition_times: Vec<i64>,
/// A series of one-octet unsigned integers specifying the type of local time of the corresponding transition time.
pub transition_types: Vec<u8>,
/// A series of six-octet records specifying a local time type.
pub local_time_type_records: Vec<LocalTimeTypeRecord>,
/// A series of eight- or twelve-octet records specifying the corrections that need to be applied to UTC in order to determine TAI.
pub leap_second_records: Vec<LeapSecondRecord>,
}
/// TZIF header.
pub struct Header {
/// Block version.
pub version: u8, //4
/// A four-octet unsigned integer specifying the number of UT/local indicators contained in the data block -- MUST either be zero or equal to "typecnt".
pub isutcnt: u32, //20..24
/// A four-octet unsigned integer specifying the number of standard/wall indicators contained in the data block -- MUST either be zero or equal to "typecnt".
pub isstdcnt: u32, //24..28
/// A four-octet unsigned integer specifying the number of leap-second records contained in the data block.
pub leapcnt: u32, //28..32
/// A four-octet unsigned integer specifying the number of transition times contained in the data block.
pub timecnt: u32, //32..36
/// A four-octet unsigned integer specifying the number of local time type records contained in the data block -- MUST NOT be zero.
pub typecnt: u32, //36..40
/// A four-octet unsigned integer specifying the total number of octets used by the set of time zone designations contained in the data block - MUST NOT be zero.
pub charcnt: u32, //40..44
}
/// Combined header and data block.
///
/// According to RFC, there can be currently 2 blocks: 1 for V1 header/data and 1 for V2+ header/data.
pub struct Block {
/// The header block.
pub header: Header,
/// The associated data block.
pub data: Data,
}
/// Simplified TZIF decoded structure.
pub struct TZIF {
/// The V1 combined header/data block.
pub block_v1: Block,
/// The V2+ combined header/data block.
pub block_v2p: Option<Block>,
}
impl Header {
fn time_size(&self) -> usize {
match self.version {
0x00 => 4,
_ => 8,
}
}
fn read<R: Read>(mut reader: R) -> Result<Header, Error> {
let mut header: [u8; 44] = [0; 44];
reader.read_exact(&mut header).map_err(Error::Io)?;
if &header[0..4] != b"TZif" {
return Err(Error::InvalidSignature);
}
Ok(Header {
version: header[4],
isutcnt: u32::read_bytes_be(&header[20..24]),
isstdcnt: u32::read_bytes_be(&header[24..28]),
leapcnt: u32::read_bytes_be(&header[28..32]),
timecnt: u32::read_bytes_be(&header[32..36]),
typecnt: u32::read_bytes_be(&header[36..40]),
charcnt: u32::read_bytes_be(&header[40..44]),
})
}
}
impl Data {
fn read<R: Read>(mut reader: R, header: &Header) -> Result<Data, Error> {
let size = header.time_size();
let mut transition_times = vec![0; size * header.timecnt as usize];
reader
.read_exact(&mut transition_times)
.map_err(Error::Io)?;
let mut transition_types = vec![0; header.timecnt as usize];
reader
.read_exact(&mut transition_types)
.map_err(Error::Io)?;
let mut local_time_type_records = vec![0; 6 * header.typecnt as usize];
reader
.read_exact(&mut local_time_type_records)
.map_err(Error::Io)?;
let mut time_zone_designations = vec![0; header.charcnt as usize];
reader
.read_exact(&mut time_zone_designations)
.map_err(Error::Io)?;
let mut leap_second_records = vec![0; (size + 4) * header.leapcnt as usize];
reader
.read_exact(&mut leap_second_records)
.map_err(Error::Io)?;
let mut std_wall_indicators = vec![0; header.isstdcnt as usize];
reader
.read_exact(&mut std_wall_indicators)
.map_err(Error::Io)?;
let mut ut_indicators = vec![0; header.isutcnt as usize];
reader.read_exact(&mut ut_indicators).map_err(Error::Io)?;
let local_time_type_records = local_time_type_records
.as_slice()
.chunks(6)
.map(|v| LocalTimeTypeRecord {
utoff: i32::read_bytes_be(&v[0..4]),
dst: v[4] == 1,
idx: v[5],
})
.collect();
if header.version == 0x00 {
Ok(Data {
transition_types,
transition_times: transition_times
.as_slice()
.chunks(4)
.map(|v| i32::read_bytes_be(v) as i64)
.collect(),
leap_second_records: leap_second_records
.as_slice()
.chunks(8)
.map(|v| LeapSecondRecord {
occurrence: i32::read_bytes_be(&v[0..4]) as i64,
correction: i32::read_bytes_be(&v[4..8]),
})
.collect(),
local_time_type_records,
})
} else {
Ok(Data {
transition_types,
transition_times: transition_times
.as_slice()
.chunks(8)
.map(i64::read_bytes_be)
.collect(),
leap_second_records: leap_second_records
.as_slice()
.chunks(12)
.map(|v| LeapSecondRecord {
occurrence: i64::read_bytes_be(&v[0..8]),
correction: i32::read_bytes_be(&v[8..12]),
})
.collect(),
local_time_type_records,
})
}
}
}
impl TZIF {
/// Reads and decodes a TZIF stream.
///
/// # Arguments
///
/// * `reader`: the [Read](Read) to read and decode from.
///
/// # Errors
///
/// This function returns an [Error](Error) if the simplified TZIF structure could not be decoded.
pub fn read<R: Read>(mut reader: R) -> Result<TZIF, Error> {
let mut header_v1 = Header::read(&mut reader)?;
header_v1.version = 0x00; //RFC is badly broken it says bullshit.
let block_v1 = Block {
data: Data::read(&mut reader, &header_v1)?,
header: header_v1,
};
let block_v2p = match Header::read(&mut reader) {
Ok(header_v2) => Some(Block {
data: Data::read(&mut reader, &header_v2)?,
header: header_v2,
}),
_ => None,
};
Ok(TZIF {
block_v1,
block_v2p,
})
}
}