pub struct BERReader<'a, 'b>where
    'a: 'b,
{ /* private fields */ }
Expand description

A reader object for BER/DER-encoded ASN.1 data.

The two main sources of BERReaderSeq are:

Examples

use yasna;
let data = &[2, 1, 10];
let asn = yasna::parse_der(data, |reader| {
    reader.read_i64()
}).unwrap();
assert_eq!(asn, 10);

Implementations

Tells which format we are parsing, BER or DER.

Reads an ASN.1 BOOLEAN value as bool.

Examples
use yasna;
let data = &[1, 1, 255];
let asn = yasna::parse_der(data, |reader| {
    reader.read_bool()
}).unwrap();
assert_eq!(asn, true);

Reads an ASN.1 ENUMERATED value as i64.

Examples
use yasna;
let data = &[10, 1, 13];
let asn = yasna::parse_der(data, |reader| {
    reader.read_enum()
}).unwrap();
assert_eq!(asn, 13);
Errors

Except parse errors, it can raise integer overflow errors.

Reads an ASN.1 INTEGER value as i64.

Examples
use yasna;
let data = &[2, 4, 73, 150, 2, 210];
let asn = yasna::parse_der(data, |reader| {
    reader.read_i64()
}).unwrap();
assert_eq!(asn, 1234567890);
Errors

Except parse errors, it can raise integer overflow errors.

Reads an ASN.1 INTEGER value as u64.

Errors

Except parse errors, it can raise integer overflow errors.

Reads an ASN.1 INTEGER value as i32.

Errors

Except parse errors, it can raise integer overflow errors.

Reads an ASN.1 INTEGER value as u32.

Errors

Except parse errors, it can raise integer overflow errors.

Reads an ASN.1 INTEGER value as i16.

Errors

Except parse errors, it can raise integer overflow errors.

Reads an ASN.1 INTEGER value as u16.

Errors

Except parse errors, it can raise integer overflow errors.

Reads an ASN.1 INTEGER value as i8.

Errors

Except parse errors, it can raise integer overflow errors.

Reads an ASN.1 INTEGER value as u8.

Errors

Except parse errors, it can raise integer overflow errors.

Reads an ASN.1 INTEGER value as BigInt.

Examples
use yasna;
use num_bigint::BigInt;
let data = &[2, 4, 73, 150, 2, 210];
let asn = yasna::parse_der(data, |reader| {
    reader.read_bigint()
}).unwrap();
assert_eq!(&asn, &BigInt::parse_bytes(b"1234567890", 10).unwrap());
Features

This method is enabled by num feature.

[dependencies]
yasna = { version = "*", features = ["num"] }

Reads an ASN.1 INTEGER value as BigUint.

Errors

Except parse errors, it can raise integer overflow errors.

Features

This method is enabled by num feature.

[dependencies]
yasna = { version = "*", features = ["num"] }

Reads an ASN.1 BITSTRING value as BitVec.

Examples
use yasna;
use bit_vec::BitVec;
let data = &[3, 5, 3, 206, 213, 116, 24];
let asn = yasna::parse_der(data, |reader| {
    reader.read_bitvec()
}).unwrap();
assert_eq!(
    asn.into_iter().map(|b| b as usize).collect::<Vec<_>>(),
    vec![1, 1, 0, 0, 1, 1, 1, 0, 1, 1, 0, 1, 0, 1, 0, 1,
        0, 1, 1, 1, 0, 1, 0, 0, 0, 0, 0, 1, 1]);
Features

This method is enabled by bit-vec feature.

[dependencies]
yasna = { version = "*", features = ["bit-vec"] }

Reads an ASN.1 BITSTRING value as (Vec<u8>, usize).

Examples
use yasna;
let data = &[3, 4, 6, 117, 13, 64];
let asn = yasna::parse_der(data, |reader| {
    reader.read_bitvec_bytes()
}).unwrap();
assert_eq!(asn, (vec![117, 13, 64], 18));
Features

This method is enabled by bit-vec feature.

[dependencies]
yasna = { version = "*", features = ["bit-vec"] }

Reads an ASN.1 OCTETSTRING value as Vec<u8>.

Examples
use yasna;
let data = &[36, 128, 4, 2, 72, 101, 4, 4, 108, 108, 111, 33, 0, 0];
let asn = yasna::parse_ber(data, |reader| {
    reader.read_bytes()
}).unwrap();
assert_eq!(&asn, b"Hello!");

Reads the ASN.1 NULL value.

Examples
use yasna;
let data = &[5, 0];
let asn = yasna::parse_der(data, |reader| {
    reader.read_null()
}).unwrap();
assert_eq!(asn, ());

Reads an ASN.1 object identifier.

Examples
use yasna;
let data = &[6, 8, 42, 134, 72, 134, 247, 13, 1, 1];
let asn = yasna::parse_der(data, |reader| {
    reader.read_oid()
}).unwrap();
assert_eq!(&*asn.components(), &[1, 2, 840, 113549, 1, 1]);

Reads an ASN.1 UTF8String.

Examples
use yasna;
let data = &[
    12, 29, 103, 110, 97, 119, 32, 207, 129, 206, 191, 206,
    186, 206, 177, 206, 189, 206, 175, 206, 182, 207,
    137, 32, 240, 170, 152, 130, 227, 130, 139];
let asn = yasna::parse_der(data, |reader| {
    reader.read_utf8string()
}).unwrap();
assert_eq!(&asn, "gnaw ροκανίζω 𪘂る");

Reads an ASN.1 SEQUENCE value.

This function uses the loan pattern: callback is called back with a BERReaderSeq, from which the contents of the SEQUENCE is read.

Examples
use yasna;
let data = &[48, 6, 2, 1, 10, 1, 1, 255];
let asn = yasna::parse_der(data, |reader| {
    reader.read_sequence(|reader| {
        let i = try!(reader.next().read_i64());
        let b = try!(reader.next().read_bool());
        return Ok((i, b));
    })
}).unwrap();
assert_eq!(asn, (10, true));

Reads an ASN.1 SEQUENCE OF value.

This function uses the loan pattern: callback is called back with a [BERReader][berreader], from which the contents of the SEQUENCE OF is read.

This function doesn’t return values. Instead, use mutable values to maintain read values. collect_set_of can be an alternative.

Examples
use yasna;
let data = &[48, 7, 2, 1, 10, 2, 2, 255, 127];
let asn = yasna::parse_der(data, |reader| {
    let mut numbers = Vec::new();
    try!(reader.read_sequence_of(|reader| {
        numbers.push(try!(reader.read_i64()));
        return Ok(());
    }));
    return Ok(numbers);
}).unwrap();
assert_eq!(&asn, &[10, -129]);

Collects an ASN.1 SEQUENCE OF value.

This function uses the loan pattern: callback is called back with a BERReader, from which the contents of the SEQUENCE OF is read.

If you don’t like Vec, you can use read_sequence_of instead.

Examples
use yasna;
let data = &[48, 7, 2, 1, 10, 2, 2, 255, 127];
let asn = yasna::parse_der(data, |reader| {
    reader.collect_sequence_of(|reader| {
        reader.read_i64()
    })
}).unwrap();
assert_eq!(&asn, &[10, -129]);

Reads an ASN.1 SET value.

This function uses the loan pattern: callback is called back with a BERReaderSet, from which the contents of the SET are read.

For SET OF values, use read_set_of instead.

Examples
use yasna;
use yasna::tags::{TAG_INTEGER,TAG_BOOLEAN};
let data = &[49, 6, 1, 1, 255, 2, 1, 10];
let asn = yasna::parse_der(data, |reader| {
    reader.read_set(|reader| {
        let i = try!(try!(reader.next(&[TAG_INTEGER])).read_i64());
        let b = try!(try!(reader.next(&[TAG_BOOLEAN])).read_bool());
        return Ok((i, b));
    })
}).unwrap();
assert_eq!(asn, (10, true));

Reads an ASN.1 SET OF value.

This function uses the loan pattern: callback is called back with a BERReader, from which the contents of the SET OF are read.

This function doesn’t return values. Instead, use mutable values to maintain read values. collect_set_of can be an alternative.

This function doesn’t sort the elements. In DER, it is assumed that the elements occur in an order determined by DER encodings of them.

For SET values, use read_set instead.

Examples
use yasna;
let data = &[49, 7, 2, 1, 10, 2, 2, 255, 127];
let asn = yasna::parse_der(data, |reader| {
    let mut numbers = Vec::new();
    try!(reader.read_set_of(|reader| {
        numbers.push(try!(reader.read_i64()));
        return Ok(());
    }));
    return Ok(numbers);
}).unwrap();
assert_eq!(asn, vec![10, -129]);

Collects an ASN.1 SET OF value.

This function uses the loan pattern: callback is called back with a BERReader, from which the contents of the SET OF is read.

If you don’t like Vec, you can use read_set_of instead.

This function doesn’t sort the elements. In DER, it is assumed that the elements occur in an order determined by DER encodings of them.

Examples
use yasna;
let data = &[49, 7, 2, 1, 10, 2, 2, 255, 127];
let asn = yasna::parse_der(data, |reader| {
    reader.collect_set_of(|reader| {
        reader.read_i64()
    })
}).unwrap();
assert_eq!(asn, vec![10, -129]);

Reads an ASN.1 NumericString.

Examples
use yasna;
let data = &[18, 7, 49, 50, 56, 32, 50, 53, 54];
let asn = yasna::parse_der(data, |reader| {
    reader.read_numeric_string()
}).unwrap();
assert_eq!(&asn, "128 256");

Reads an ASN.1 PrintableString.

Examples
use yasna;
let data = &[19, 9, 67, 111, 46, 44, 32, 76, 116, 100, 46];
let asn = yasna::parse_der(data, |reader| {
    reader.read_printable_string()
}).unwrap();
assert_eq!(&asn, "Co., Ltd.");

Reads an ASN.1 IA5String.

Examples
use yasna;
let data = &[22, 9, 0x41, 0x53, 0x43, 0x49, 0x49, 0x20, 0x70, 0x6C, 0x7A];
let asn = yasna::parse_der(data, |reader| {
    reader.read_ia5_string()
}).unwrap();
assert_eq!(&asn, "ASCII plz");

Reads an ASN.1 BMPString.

Examples
use yasna;
let data = &[30, 14, 0x00, 0xA3, 0x03, 0xC0, 0x00, 0x20, 0x00, 0x71, 0x00, 0x75, 0x00, 0x75, 0x00, 0x78];
let asn = yasna::parse_der(data, |reader| {
    reader.read_bmp_string()
}).unwrap();
assert_eq!(&asn, "£π quux");

Reads an ASN.1 UTCTime.

Examples
use yasna;
let data = &[
    23, 15, 56, 50, 48, 49, 48, 50, 48,
    55, 48, 48, 45, 48, 53, 48, 48];
let asn = yasna::parse_ber(data, |reader| {
    reader.read_utctime()
}).unwrap();
assert_eq!(asn.datetime().timestamp(), 378820800);
Features

This method is enabled by chrono feature.

[dependencies]
yasna = { version = "*", features = ["chrono"] }

Reads an ASN.1 GeneralizedTime.

Examples
use yasna;
let data = &[
    24, 17, 49, 57, 56, 53, 49, 49, 48, 54,
    50, 49, 46, 49, 52, 49, 53, 57, 90];
let asn = yasna::parse_ber(data, |reader| {
    reader.read_generalized_time()
}).unwrap();
assert_eq!(asn.datetime().timestamp(), 500159309);
Features

This method is enabled by chrono feature.

[dependencies]
yasna = { version = "*", features = ["chrono"] }

Reads an ASN.1 VisibleString.

Examples
use yasna;
let data = &[26, 3, 72, 105, 33];
let asn = yasna::parse_der(data, |reader| {
    reader.read_visible_string()
}).unwrap();
assert_eq!(&asn, "Hi!");

Reads a (explicitly) tagged value.

Examples
use yasna::{self,Tag};
let data = &[163, 3, 2, 1, 10];
let asn = yasna::parse_der(data, |reader| {
    reader.read_tagged(Tag::context(3), |reader| {
        reader.read_i64()
    })
}).unwrap();
assert_eq!(asn, 10);

Reads an implicitly tagged value.

Examples
use yasna::{self,Tag};
let data = &[131, 1, 10];
let asn = yasna::parse_der(data, |reader| {
    reader.read_tagged_implicit(Tag::context(3), |reader| {
        reader.read_i64()
    })
}).unwrap();
assert_eq!(asn, 10);

Lookaheads the tag in the next value. Used to parse CHOICE values.

Examples
use yasna;
use yasna::tags::*;
let data = &[48, 5, 2, 1, 10, 5, 0];
let asn = yasna::parse_der(data, |reader| {
    reader.collect_sequence_of(|reader| {
        let tag = try!(reader.lookahead_tag());
        let choice;
        if tag == TAG_INTEGER {
            choice = Some(try!(reader.read_i64()));
        } else {
            try!(reader.read_null());
            choice = None;
        }
        return Ok(choice);
    })
}).unwrap();
assert_eq!(&asn, &[Some(10), None]);

Read an arbitrary (tag, value) pair as a TaggedDerValue. The length is not included in the returned payload. If the payload has indefinite-length encoding, the EOC bytes are included in the returned payload.

Examples
use yasna;
use yasna::models::TaggedDerValue;
use yasna::tags::TAG_OCTETSTRING;
let data = b"\x04\x06Hello!";
let res = yasna::parse_der(data, |reader| reader.read_tagged_der()).unwrap();
assert_eq!(res, TaggedDerValue::from_tag_and_bytes(TAG_OCTETSTRING, b"Hello!".to_vec()));

Reads a DER object as raw bytes. Tag and length are included in the returned buffer. For indefinite length encoding, EOC bytes are included in the returned buffer as well.

Examples
use yasna;
let data = b"\x04\x06Hello!";
let res = yasna::parse_der(data, |reader| reader.read_der()).unwrap();
assert_eq!(res, data);

Trait Implementations

Formats the value using the given formatter. Read more

Auto Trait Implementations

Blanket Implementations

Gets the TypeId of self. Read more
Immutably borrows from an owned value. Read more
Mutably borrows from an owned value. Read more

Returns the argument unchanged.

Calls U::from(self).

That is, this conversion is whatever the implementation of From<T> for U chooses to do.

The type returned in the event of a conversion error.
Performs the conversion.
The type returned in the event of a conversion error.
Performs the conversion.