This commit is contained in:
Stefan Bühler 2017-12-28 19:12:23 +01:00
parent d362520632
commit 92a76cd57a
7 changed files with 521 additions and 148 deletions

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RFC-nits.md Normal file
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# Various issues with RFCs
## RFC 3597 - "Handling of Unknown DNS Resource Record (RR) Types"
[Section 5](https://tools.ietf.org/html/rfc3597#section-5) defines a
generic (master file) format for unknown types, which can also be used
for (partially) known types to be compatible with other software.
It also says:
> An implementation MAY also choose to represent some RRs of known type
> using the above generic representations for the type, class and/or
> RDATA, which carries the benefit of making the resulting master file
> portable to servers where these types are unknown.
and provides examples:
> e.example. IN A \# 4 0A000001
> e.example. CLASS1 TYPE1 10.0.0.2
I.e. it allows mixing unknown and known format.
Given that the `\# <len> <hex>` format can also be a valid known
representation it is a bad idea to mix them (the obvious example being
`TXT`).
It is acceptable to use the generic `CLASS...` specifier with known and
unknown TYPEs, but the generic representation of RDATA must only be used
with the generic `TYPE...` representation; and the generic `TYPE...`
representation must always be followed by the generic representation of
RDATA.
## RFC 4034
[Section 3.2](https://tools.ietf.org/html/rfc4034#section-3.2) says:
> The Signature Expiration Time and Inception Time field values MUST be
> represented either as an unsigned decimal integer indicating seconds
> since 1 January 1970 00:00:00 UTC, or in the form YYYYMMDDHHmmSS in
> UTC, where:
>
> - YYYY is the year (0001-9999, but see Section 3.1.5);
> - MM is the month number (01-12);
> - DD is the day of the month (01-31);
> - HH is the hour, in 24 hour notation (00-23);
> - mm is the minute (00-59); and
> - SS is the second (00-59).
But in UTC the second sometimes might be `60` to handle leap seconds;
these value can't be represented in POSIX time (seconds since epoch
*without* leap seconds), so the `YYYYMMDDHHmmSS` simply isn't exact UTC.
## RFC 6895
[Sectoin 3.1](https://tools.ietf.org/html/rfc6895#section-3.1) says:
> Allocated RRTYPEs have mnemonics that must be completely disjoint
> from the mnemonics used for CLASSes and that must match the regular
> expression below. In addition, the generic CLASS and RRTYPE names
> specified in Section 5 of [RFC3597] cannot be assigned as new RRTYPE
> mnemonics.
>
> [A-Z][A-Z0-9\-]*[A-Z0-9]
> but not
> (TYPE|CLASS)[0-9]*
TYPE 255 doesn't have a clear mnemonic though; usually `ANY` is used,
but the official name is `*`.
Now:
- `*` doesn't match the required format
- `ANY` conflicts with CLASS `ANY` (255)
- but a mnemonic is required because the TYPE is allocated
RFC 6895 indicates that `*` means `(ALL/ANY)`, so one might read it
suggests using `ALL` as mnemonic for TYPE 255.
Side note: RFC 1035 doesn't specify a mnemonic for (Q)CLASS 255 either,
but the registry put `ANY` between `(`..`)`, the same as it did for the
other mnemonic from RFC 1035.
The QCLASS 254 looks different again, but `NONE` is probably a safe
mnemonic for it.
See also:
- Re: [dnsext] WGLC: RFC6195bis IANA guidance (https://mailarchive.ietf.org/arch/msg/dnsext/kKBfBhQIJmRDQ-xb_iJD-A4EeZE)
### Proposal
Given the common use of `ANY` for TYPE 255, it should be marked as the
official mnemonic.
Since QCLASS `ANY` is basically useless it could be obsoleted.
BCP 42 (currently RFC 6895) should be updated to say `ANY` is a valid
mnemonic for both TYPE 255 and CLASS 255, and, if ambiguous, should be
interpreted as TYPE 255.
See also:
- [dnsext] rfc6195bis draft : thoughts on CLASS sub-registry (https://mailarchive.ietf.org/arch/msg/dnsext/fA086yr5V3QrVkmxF7HcuBIX92A)

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use bytes::Bytes;
use errors::*;
use ser::packet::{DnsPacketData, DnsPacketWriteContext};
use ser::text::{DnsTextData, DnsTextFormatter, DnsTextContext, next_field};
use std::fmt;
use std::io::Cursor;
/// timestamp in seconds since epoch (ignoring leap seconds)
///
/// Is expected to wrap around.
#[derive(Clone, PartialEq, Eq, Debug)]
pub struct Time(pub u32);
impl DnsPacketData for Time {
fn deserialize(data: &mut Cursor<Bytes>) -> Result<Self> {
Ok(Time(DnsPacketData::deserialize(data)?))
}
fn serialize(&self, context: &mut DnsPacketWriteContext, packet: &mut Vec<u8>) -> Result<()> {
self.0.serialize(context, packet)
}
}
struct Tm {
year: u16, // 1970...9999
month: u8, // 01...12
day: u8, // 01..31
hour: u8, // 00..23
minute: u8, // 00..59
second: u8, // 00..59
}
impl Tm {
// 0..365
fn dayofyear(&self) -> u16 {
let is_leap_year = (0 == self.year % 4) && ((0 != self.year % 100) || (0 == self.year % 400));
static MONTH_START: [u16; 12] = [0, 31, 59, 90, 120, 151, 181, 212, 243, 273, 304, 334];
let leap_add = if self.month > 2 && is_leap_year { 1 } else { 0 };
MONTH_START[self.month as usize - 1] + leap_add + (self.day as u16 - 1)
}
fn epoch(&self) -> u64 {
let yday = self.dayofyear();
self.second as u64
+ 60 * self.minute as u64
+ 3600 * self.hour as u64
+ 86400 * yday as u64
+ 31536000 * (self.year as u64 - 1970)
+ 86400 * ((self.year as u64 - 1969) / 4)
- 86400 * ((self.year as u64 - 1901) / 100)
+ 86400 * ((self.year as u64 - 1900 + 299) / 400)
}
}
impl ::std::str::FromStr for Tm {
type Err = ::failure::Error;
fn from_str(s: &str) -> ::errors::Result<Self> {
ensure!(s.len() == 14, "Tm string must be exactly 14 digits long");
ensure!(s.as_bytes().iter().all(|&b| b >= b'0' && b <= b'9'), "Tm string must be exactly 14 digits long");
let year = s[0..4].parse::<u16>()?;
ensure!(year >= 1970, "year must be >= 1970");
ensure!(year <= 9999, "year must be <= 9999");
fn p(s: &str, min: u8, max: u8, name: &'static str) -> ::errors::Result<u8> {
let v = s.parse::<u8>()?;
ensure!(v >= min && v <= max, "{} {} out of range {}-{}", name, v, min, max);
Ok(v)
}
let month = p(&s[4..6], 1, 12, "month")?;
let day = p(&s[6..8], 1, 31, "day")?;
let hour = p(&s[8..10], 0, 23, "hour")?;
let minute = p(&s[10..12], 0, 59, "minute")?;
let second = p(&s[12..14], 0, 59, "second")?;
if 2 == month {
let is_leap_year = (0 == year % 4) && ((0 != year % 100) || (0 == year % 400));
ensure!(day < 30, "day {} out of range in february", day);
ensure!(is_leap_year || day < 29, "day {} out of range in february (not a leap year)", day);
} else {
static DAYS_IN_MONTHS: [u8; 12] = [31, 29, 31, 30, 31, 30, 31, 31, 30, 31, 30, 31];
let max_days = DAYS_IN_MONTHS[month as usize - 1];
ensure!(day <= max_days, "day {} out of range for month {}", day, month);
}
Ok(Tm{ year, month, day, hour, minute, second })
}
}
impl DnsTextData for Time {
fn dns_parse(_context: &DnsTextContext, data: &mut &str) -> ::errors::Result<Self> {
let field = next_field(data)?;
let epoch = field.parse::<u32>();
if field.len() == 14 && epoch.is_err() {
let tm = field.parse::<Tm>()?;
Ok(Time(tm.epoch() as u32))
} else {
Ok(Time(epoch?))
}
}
fn dns_format(&self, f: &mut DnsTextFormatter) -> fmt::Result {
write!(f, "{}", self.0)
}
}
pub const TIME48_MAX: u64 = 0xffff_ffff_ffff;
/// 48-bit timestamp in seconds since epoch (ignoring leap seconds)
#[derive(Clone, PartialEq, Eq, Debug)]
pub struct Time48(pub u64);
impl DnsPacketData for Time48 {
fn deserialize(data: &mut Cursor<Bytes>) -> Result<Self> {
let high16 = u16::deserialize(data)? as u64;
let low32 = u32::deserialize(data)? as u64;
Ok(Time48(high16 | low32))
}
fn serialize(&self, context: &mut DnsPacketWriteContext, packet: &mut Vec<u8>) -> Result<()> {
ensure!(self.0 <= TIME48_MAX, "time48 overflow");
let high16 = (self.0 >> 32) as u16;
let low32 = self.0 as u32;
high16.serialize(context, packet)?;
low32.serialize(context, packet)?;
Ok(())
}
}
impl DnsTextData for Time48 {
fn dns_parse(_context: &DnsTextContext, data: &mut &str) -> ::errors::Result<Self> {
let field = next_field(data)?;
let epoch = field.parse::<u64>()?;
ensure!(epoch <= TIME48_MAX, "time48 overflow");
Ok(Time48(epoch))
}
fn dns_format(&self, f: &mut DnsTextFormatter) -> fmt::Result {
write!(f, "{}", self.0)
}
}

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//! epoch is seconds since 1 January, 1970, without leap seconds.
//!
//! year 0 is "1 BC", year -1 is "2 BC" and so on
use errors::*;
use std::fmt;
fn is_leap_year(year: i16) -> bool {
0 == year % 4 && (0 != year % 100 || 0 == year % 400)
}
#[test]
fn test_is_leap_year() {
assert!(!is_leap_year(-500));
assert!(is_leap_year(-404));
assert!(is_leap_year(-400));
assert!(is_leap_year(-396));
assert!(!is_leap_year(-300));
assert!(!is_leap_year(-200));
assert!(!is_leap_year(-100));
assert!(is_leap_year(-4));
assert!(!is_leap_year(-3));
assert!(!is_leap_year(-1));
assert!(is_leap_year(0));
assert!(!is_leap_year(1));
assert!(!is_leap_year(3));
assert!(is_leap_year(4));
assert!(!is_leap_year(100));
assert!(!is_leap_year(200));
assert!(!is_leap_year(300));
assert!(is_leap_year(396));
assert!(is_leap_year(400));
assert!(is_leap_year(404));
assert!(!is_leap_year(500));
}
fn month_day_of_year_since_march(month: u8) -> u16 {
debug_assert!(month >= 1 && month <= 12);
let month_from_march = if month > 2 { month as u16 - 3} else { month as u16 + 9 };
(153 * month_from_march + 2) / 5
}
fn month_and_day_from_day_of_year_since_march(day_of_year: i32) -> (u8, u8) {
let month_from_march = (5 * day_of_year + 2) / 153;
debug_assert!(month_from_march >= 0 && month_from_march <= 11);
let day = day_of_year - (153 * month_from_march + 2) / 5 + 1;
debug_assert!(day >= 1 && day <= 31);
let month_from_march = month_from_march as u8;
let month = if month_from_march < 10 { month_from_march + 3 } else { month_from_march - 9 };
debug_assert!(month >= 1 && month <= 12);
(month, day as u8)
}
#[test]
fn test_month_day_of_year_since_march() {
static MONTH_START: [u16; 12] = [306, 337, 0, 31, 61, 92, 122, 153, 184, 214, 245, 275, ];
static DAYS_IN_MONTHS: [u8; 12] = [31, 29, 31, 30, 31, 30, 31, 31, 30, 31, 30, 31];
for (m, &s) in MONTH_START.iter().enumerate() {
assert_eq!(month_day_of_year_since_march(m as u8 + 1), s);
assert_eq!(month_and_day_from_day_of_year_since_march(s as i32), (m as u8 + 1, 1));
assert_eq!(month_and_day_from_day_of_year_since_march(s as i32 + DAYS_IN_MONTHS[m] as i32 - 1), (m as u8 + 1, DAYS_IN_MONTHS[m]));
}
assert_eq!(month_and_day_from_day_of_year_since_march(365), (2, 29));
}
#[inline(always)]
fn pos_div_rem(n: i32, pos_div: i32) -> (i32, i32) {
// try to avoid overflows
debug_assert!(pos_div > 0);
let res = n / pos_div;
let rem = n % pos_div;
debug_assert_eq!(res * pos_div + rem, n);
if rem < 0 {
let rem = rem + pos_div;
let res = res - 1;
debug_assert_eq!(res * pos_div + rem, n);
debug_assert!(rem >= 0 && rem < pos_div);
(res, rem)
} else {
debug_assert!(rem >= 0 && rem < pos_div);
(res, rem)
}
}
#[inline(always)]
fn pos_div_rem64(n: i64, pos_div: i64) -> (i64, i64) {
// try to avoid overflows
debug_assert!(pos_div > 0);
let res = n / pos_div;
let rem = n % pos_div;
debug_assert_eq!(res * pos_div + rem, n);
if rem < 0 {
let rem = rem + pos_div;
let res = res - 1;
debug_assert_eq!(res * pos_div + rem, n);
debug_assert!(rem >= 0 && rem < pos_div);
(res, rem)
} else {
debug_assert!(rem >= 0 && rem < pos_div);
(res, rem)
}
}
// year 0 is era 0, year-of-era 0
// -> (ear, year_of_era)
fn era_split_year(year: i32) -> (i32, i32) {
pos_div_rem(year, 400)
}
#[test]
fn test_era_split_year() {
// -800...-401, -400...-1, 0...399, 400...799
assert_eq!(era_split_year(-801), (-3, 399));
assert_eq!(era_split_year(-800), (-2, 0));
assert_eq!(era_split_year(-799), (-2, 1));
assert_eq!(era_split_year(-401), (-2, 399));
assert_eq!(era_split_year(-400), (-1, 0));
assert_eq!(era_split_year(-399), (-1, 1));
assert_eq!(era_split_year(-1), (-1, 399));
assert_eq!(era_split_year(0), (0, 0));
assert_eq!(era_split_year(1), (0, 1));
assert_eq!(era_split_year(399), (0, 399));
assert_eq!(era_split_year(400), (1, 0));
assert_eq!(era_split_year(401), (1, 1));
assert_eq!(era_split_year(799), (1, 399));
assert_eq!(era_split_year(1970), (4, 370));
}
// -> (era, day_of_era)
fn split_days_since_march1_y0_into_era(days: i32) -> (i32, i32) {
pos_div_rem(days, ERA_DAYS)
}
fn year_of_era_from_day_of_era(day_of_era: i32) -> i32 {
let res = (day_of_era - day_of_era/1460 + day_of_era/36524 - day_of_era/146096) / 365;
debug_assert!(res >= 0 && res <= 399);
res
}
#[test]
fn test_year_of_era_from_day_of_era() {
for year_of_era in 0..399 {
let ds = first_day_of_year_in_era_from_year_of_era(year_of_era);
assert_eq!(year_of_era_from_day_of_era(ds + 0), year_of_era);
assert_eq!(year_of_era_from_day_of_era(ds + 364), year_of_era);
// 29. february counts to previous year; so if next ("real") year is leap year,
// the current year_of_era has a leap day.
if is_leap_year(year_of_era as i16 + 1) {
assert_eq!(year_of_era_from_day_of_era(ds + 365), year_of_era);
}
}
}
const EPOCH_DAYS_SINCE_MARCH1_Y0: i32 = 719468;
// there are 100 - 4 + 1 leap years in 400 years.
const ERA_DAYS: i32 = 365 * 400 + 100 - 4 + 1; // 146097
fn first_day_of_year_in_era_from_year_of_era(year_of_era: i32) -> i32 {
365 * year_of_era + year_of_era / 4 - year_of_era / 100
}
// days since march 1st in 1 BC (year "0")
fn days_since_march1_y0(year: i16, month: u8, day: u8) -> i32 {
// group 400 years as one era, but split between february and
// march; count jan/feb to previous year, make march 1st start
// of year
let year = year as i32 - if month <= 2 { 1 } else { 0 };
let (era, year_of_era) = era_split_year(year);
let day_of_year = month_day_of_year_since_march(month) + day as u16 - 1;
let day_of_era = first_day_of_year_in_era_from_year_of_era(year_of_era) + day_of_year as i32;
era as i32 * ERA_DAYS + day_of_era
}
fn split_days_since_march1_y0(days: i32) -> (i32, u8, u8) {
let (era, day_of_era) = split_days_since_march1_y0_into_era(days);
let year_of_era = year_of_era_from_day_of_era(day_of_era);
let day_of_year = day_of_era - first_day_of_year_in_era_from_year_of_era(year_of_era);
let (month, day) = month_and_day_from_day_of_year_since_march(day_of_year);
let year = 400 * era + year_of_era + if month <= 2 { 1 } else { 0 };
(year as i32, month, day)
}
#[test]
fn test_days_since_march1_y0() {
assert_eq!(days_since_march1_y0(-1, 3, 1), -366);
assert_eq!(days_since_march1_y0(0, 3, 1), 0);
assert_eq!(days_since_march1_y0(1, 3, 1), 365);
assert_eq!(days_since_march1_y0(1970, 1, 1), EPOCH_DAYS_SINCE_MARCH1_Y0);
assert_eq!(days_since_march1_y0(1970, 1, 1),
/* regular days in years: */ 365 * 1969
/* days from leap years: */ + (1969 / 4 - 15)
/* days from march 1st year 0 to january 1st year 1: */ + 306);
assert_eq!(split_days_since_march1_y0(-366), (-1, 3, 1));
assert_eq!(split_days_since_march1_y0(0), (0, 3, 1));
assert_eq!(split_days_since_march1_y0(365), (1, 3, 1));
assert_eq!(split_days_since_march1_y0(EPOCH_DAYS_SINCE_MARCH1_Y0), (1970, 1, 1));
}
#[derive(Clone, Copy, PartialEq, Eq, PartialOrd, Ord, Debug)]
pub struct Tm {
pub year: i16, // absolute year: 1 is "1 AD", 0 is "1 BC".
pub month: u8, // 01...12
pub day: u8, // 01..31
pub hour: u8, // 00..23
pub minute: u8, // 00..59
pub second: u8, // 00..59
}
#[allow(unused)]
impl Tm {
pub fn from_epoch(epoch: i64) -> Result<Self> {
let (day, time_of_day) = pos_div_rem64(epoch, 86400);
let days_since_march1_y0 = day + EPOCH_DAYS_SINCE_MARCH1_Y0 as i64;
ensure!((days_since_march1_y0 as i32) as i64 == days_since_march1_y0, "days in epoch out of range");
let days_since_march1_y0 = days_since_march1_y0 as i32;
let (year, month, day) = split_days_since_march1_y0(days_since_march1_y0);
ensure!((year as i16) as i32 == year, "year in epoch out of range");
let year = year as i16;
let (minute_of_day, second) = pos_div_rem(time_of_day as i32, 60);
let (hour, minute) = pos_div_rem(minute_of_day, 60);
Ok(Tm{
year,
month,
day,
hour: hour as u8,
minute: minute as u8,
second: second as u8,
})
}
fn days_since_epoch(&self) -> i32 {
let days = days_since_march1_y0(self.year as i16, self.month, self.day);
days - EPOCH_DAYS_SINCE_MARCH1_Y0
}
fn day_seconds(&self) -> u32 {
self.second as u32
+ 60 * self.minute as u32
+ 3600 * self.hour as u32
}
pub fn epoch(&self) -> i64 {
86400 * self.days_since_epoch() as i64 + self.day_seconds() as i64
}
#[allow(non_snake_case)]
pub fn parse_YYYYMMDDHHmmSS(s: &str) -> Result<Self> {
ensure!(s.len() == 14, "Tm string must be exactly 14 digits long");
ensure!(s.as_bytes().iter().all(|&b| b >= b'0' && b <= b'9'), "Tm string must be exactly 14 digits long");
let year = s[0..4].parse::<i16>()?;
ensure!(year >= 1, "year must be >= 1");
ensure!(year <= 9999, "year must be <= 9999");
fn p(s: &str, min: u8, max: u8, name: &'static str) -> ::errors::Result<u8> {
let v = s.parse::<u8>()?;
ensure!(v >= min && v <= max, "{} {} out of range {}-{}", name, v, min, max);
Ok(v)
}
let month = p(&s[4..6], 1, 12, "month")?;
let day = p(&s[6..8], 1, 31, "day")?;
let hour = p(&s[8..10], 0, 23, "hour")?;
let minute = p(&s[10..12], 0, 59, "minute")?;
let second = p(&s[12..14], 0, 59, "second")?;
if 2 == month {
ensure!(day < 30, "day {} out of range in february", day);
ensure!(is_leap_year(year) || day < 29, "day {} out of range in february (not a leap year)", day);
} else {
static DAYS_IN_MONTHS: [u8; 12] = [31, 29, 31, 30, 31, 30, 31, 31, 30, 31, 30, 31];
let max_days = DAYS_IN_MONTHS[month as usize - 1];
ensure!(day <= max_days, "day {} out of range for month {}", day, month);
}
Ok(Tm{ year, month, day, hour, minute, second })
}
#[allow(non_snake_case)]
pub fn format_YYYYMMDDHHmmSS<W>(&self, f: &mut W) -> fmt::Result
where
W: fmt::Write + ?Sized
{
if self.year < 0 || self.year > 9999 { return Err(fmt::Error); }
write!(f, "{:04}{:02}{:02}{:02}{:02}{:02}",
self.year, self.month, self.day,
self.hour, self.minute, self.second
)
}
}

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use bytes::Bytes;
use errors::*;
use ser::packet::{DnsPacketData, DnsPacketWriteContext};
use ser::text::{DnsTextData, DnsTextFormatter, DnsTextContext, next_field};
use std::fmt;
use std::io::Cursor;
mod epoch;
/// timestamp in seconds since epoch (ignoring leap seconds)
///
/// Is expected to wrap around.
#[derive(Clone, PartialEq, Eq, Debug)]
pub struct Time(pub u32);
impl DnsPacketData for Time {
fn deserialize(data: &mut Cursor<Bytes>) -> Result<Self> {
Ok(Time(DnsPacketData::deserialize(data)?))
}
fn serialize(&self, context: &mut DnsPacketWriteContext, packet: &mut Vec<u8>) -> Result<()> {
self.0.serialize(context, packet)
}
}
impl DnsTextData for Time {
fn dns_parse(_context: &DnsTextContext, data: &mut &str) -> ::errors::Result<Self> {
let field = next_field(data)?;
let epoch = field.parse::<u32>();
if field.len() == 14 && epoch.is_err() {
let tm = epoch::Tm::parse_YYYYMMDDHHmmSS(field)?;
Ok(Time(tm.epoch() as u32))
} else {
Ok(Time(epoch?))
}
}
fn dns_format(&self, f: &mut DnsTextFormatter) -> fmt::Result {
epoch::Tm::from_epoch(self.0 as i64).unwrap().format_YYYYMMDDHHmmSS(&mut*f.format_field()?)
// write!(f, "{}", self.0)
}
}
pub const TIME48_MAX: u64 = 0xffff_ffff_ffff;
/// 48-bit timestamp in seconds since epoch (ignoring leap seconds)
#[derive(Clone, PartialEq, Eq, Debug)]
pub struct Time48(pub u64);
impl DnsPacketData for Time48 {
fn deserialize(data: &mut Cursor<Bytes>) -> Result<Self> {
let high16 = u16::deserialize(data)? as u64;
let low32 = u32::deserialize(data)? as u64;
Ok(Time48(high16 | low32))
}
fn serialize(&self, context: &mut DnsPacketWriteContext, packet: &mut Vec<u8>) -> Result<()> {
ensure!(self.0 <= TIME48_MAX, "time48 overflow");
let high16 = (self.0 >> 32) as u16;
let low32 = self.0 as u32;
high16.serialize(context, packet)?;
low32.serialize(context, packet)?;
Ok(())
}
}
impl DnsTextData for Time48 {
fn dns_parse(_context: &DnsTextContext, data: &mut &str) -> ::errors::Result<Self> {
let field = next_field(data)?;
let epoch = field.parse::<u64>()?;
ensure!(epoch <= TIME48_MAX, "time48 overflow");
Ok(Time48(epoch))
}
fn dns_format(&self, f: &mut DnsTextFormatter) -> fmt::Result {
write!(f, "{}", self.0)
}
}

View File

@ -515,8 +515,9 @@ fn test_IPSECKEY() {
fn test_RRSIG() {
check(types::RRSIG,
"SOA 8 3 300 20130523000000 20130509000000 54216 rec.test. ecWKD/OsdAiXpbM/sgPT82KVD/WiQnnqcxoJgiH3ixHa+LOAcYU7FG7V4BRRJxLriY1e0rB2gAs3kCel9D4bzfK6wAqG4Di/eHUgHptRlaR2ycELJ4t1pjzrnuGiIzA1wM2izRmeE+Xoy1367Qu0pOz5DLzTfQITWFsB2iUzN4Y=",
// None, // we use the epoch as canoninc format
Some("SOA 8 3 300 1369267200 1368057600 54216 rec.test. ecWKD/OsdAiXpbM/sgPT82KVD/WiQnnqcxoJgiH3ixHa+LOAcYU7FG7V4BRRJxLriY1e0rB2gAs3kCel9D4bzfK6wAqG4Di/eHUgHptRlaR2ycELJ4t1pjzrnuGiIzA1wM2izRmeE+Xoy1367Qu0pOz5DLzTfQITWFsB2iUzN4Y="),
None,
// if epoch is canoninc format:
// Some("SOA 8 3 300 1369267200 1368057600 54216 rec.test. ecWKD/OsdAiXpbM/sgPT82KVD/WiQnnqcxoJgiH3ixHa+LOAcYU7FG7V4BRRJxLriY1e0rB2gAs3kCel9D4bzfK6wAqG4Di/eHUgHptRlaR2ycELJ4t1pjzrnuGiIzA1wM2izRmeE+Xoy1367Qu0pOz5DLzTfQITWFsB2iUzN4Y="),
b"\x00\x06\x08\x03\x00\x00\x01\x2c\x51\x9d\x5c\x00\x51\x8a\xe7\x00\xd3\xc8\x03\x72\x65\x63\x04\x74\x65\x73\x74\x00\x79\xc5\x8a\x0f\xf3\xac\x74\x08\x97\xa5\xb3\x3f\xb2\x03\xd3\xf3\x62\x95\x0f\xf5\xa2\x42\x79\xea\x73\x1a\x09\x82\x21\xf7\x8b\x11\xda\xf8\xb3\x80\x71\x85\x3b\x14\x6e\xd5\xe0\x14\x51\x27\x12\xeb\x89\x8d\x5e\xd2\xb0\x76\x80\x0b\x37\x90\x27\xa5\xf4\x3e\x1b\xcd\xf2\xba\xc0\x0a\x86\xe0\x38\xbf\x78\x75\x20\x1e\x9b\x51\x95\xa4\x76\xc9\xc1\x0b\x27\x8b\x75\xa6\x3c\xeb\x9e\xe1\xa2\x23\x30\x35\xc0\xcd\xa2\xcd\x19\x9e\x13\xe5\xe8\xcb\x5d\xfa\xed\x0b\xb4\xa4\xec\xf9\x0c\xbc\xd3\x7d\x02\x13\x58\x5b\x01\xda\x25\x33\x37\x86",
);
}

View File

@ -183,8 +183,8 @@ pub struct SIG {
// the TTL on the SIG record. not supported to be omitted here
// (TODO?).
original_ttl: u32,
signature_expiration: Time,
signature_inception: Time,
signature_expiration: u32,
signature_inception: u32,
key_tag: u16,
signers_name: DnsCanonicalName,
signature: Base64RemainingBlob,
@ -483,8 +483,8 @@ pub struct EUI64 {
#[RRClass(ANY)]
pub struct TKEY {
algorithm: DnsName,
inception: Time,
expiration: Time,
inception: u32,
expiration: u32,
mode: u16,
error: u16,
key: Base64LongBlob,

View File

@ -87,6 +87,11 @@ impl<'a> DnsTextFormatter<'a> {
self.w
}
pub fn format_field<'b>(&'b mut self) -> Result<DnsTextFormatField<'a, 'b>, fmt::Error> {
self.next_field()?;
Ok(DnsTextFormatField{ inner: self })
}
pub fn write_fmt(&mut self, args: fmt::Arguments) -> fmt::Result {
self.next_field()?;
self.w.write_fmt(args)?;
@ -95,6 +100,30 @@ impl<'a> DnsTextFormatter<'a> {
}
}
pub struct DnsTextFormatField<'a: 'b, 'b> {
inner: &'b mut DnsTextFormatter<'a>,
}
impl<'a, 'b> ::std::ops::Deref for DnsTextFormatField<'a, 'b> {
type Target = fmt::Write + 'a;
fn deref(&self) -> &Self::Target {
self.inner.w
}
}
impl<'a, 'b> ::std::ops::DerefMut for DnsTextFormatField<'a, 'b> {
fn deref_mut(&mut self) -> &mut Self::Target {
self.inner.w
}
}
impl<'a, 'b> Drop for DnsTextFormatField<'a, 'b> {
fn drop(&mut self) {
self.inner.end_field();
}
}
#[derive(Clone, Debug, Default)]
pub struct DnsTextContext {
zone_class: Option<common_types::Class>,