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//! ASN.1 tags.

mod class;
mod mode;
mod number;

pub use self::{class::Class, mode::TagMode, number::TagNumber};

use crate::{Decodable, Decoder, DerOrd, Encodable, Encoder, Error, ErrorKind, Length, Result};
use core::{cmp::Ordering, fmt};

/// Indicator bit for constructed form encoding (i.e. vs primitive form)
const CONSTRUCTED_FLAG: u8 = 0b100000;

/// Types which have a constant ASN.1 [`Tag`].
pub trait FixedTag {
    /// ASN.1 tag
    const TAG: Tag;
}

/// Types which have an ASN.1 [`Tag`].
pub trait Tagged {
    /// Get the ASN.1 tag that this type is encoded with.
    fn tag(&self) -> Tag;
}

/// Types which are [`FixedTag`] always have a known [`Tag`] type.
impl<T: FixedTag> Tagged for T {
    fn tag(&self) -> Tag {
        T::TAG
    }
}

/// ASN.1 tags.
///
/// Tags are the leading identifier octet of the Tag-Length-Value encoding
/// used by ASN.1 DER and identify the type of the subsequent value.
///
/// They are described in X.690 Section 8.1.2: Identifier octets, and
/// structured as follows:
///
/// ```text
/// | Class | P/C | Tag Number |
/// ```
///
/// - Bits 8/7: [`Class`]
/// - Bit 6: primitive (0) or constructed (1)
/// - Bits 5-1: tag number
#[derive(Copy, Clone, Eq, PartialEq, PartialOrd, Ord)]
#[non_exhaustive]
pub enum Tag {
    /// `BOOLEAN` tag: `1`.
    Boolean,

    /// `INTEGER` tag: `2`.
    Integer,

    /// `BIT STRING` tag: `3`.
    BitString,

    /// `OCTET STRING` tag: `4`.
    OctetString,

    /// `NULL` tag: `5`.
    Null,

    /// `OBJECT IDENTIFIER` tag: `6`.
    ObjectIdentifier,

    /// `ENUMERATED` tag: `10`.
    Enumerated,

    /// `UTF8String` tag: `12`.
    Utf8String,

    /// `SEQUENCE` tag: `16`.
    Sequence,

    /// `SET` and `SET OF` tag: `17`.
    Set,

    /// `NumericString` tag: `18`.
    NumericString,

    /// `PrintableString` tag: `19`.
    PrintableString,

    /// `IA5String` tag: `22`.
    Ia5String,

    /// `UTCTime` tag: `23`.
    UtcTime,

    /// `GeneralizedTime` tag: `24`.
    GeneralizedTime,

    /// `VisibleString` tag: `26`.
    VisibleString,

    /// `BMPString` tag: `30`.
    BmpString,

    /// Application tag.
    Application {
        /// Is this tag constructed? (vs primitive).
        constructed: bool,

        /// Tag number.
        number: TagNumber,
    },

    /// Context-specific tag.
    ContextSpecific {
        /// Is this tag constructed? (vs primitive).
        constructed: bool,

        /// Tag number.
        number: TagNumber,
    },

    /// Private tag number.
    Private {
        /// Is this tag constructed? (vs primitive).
        constructed: bool,

        /// Tag number.
        number: TagNumber,
    },
}

impl Tag {
    /// Assert that this [`Tag`] matches the provided expected tag.
    ///
    /// On mismatch, returns an [`Error`] with [`ErrorKind::TagUnexpected`].
    pub fn assert_eq(self, expected: Tag) -> Result<Tag> {
        if self == expected {
            Ok(self)
        } else {
            Err(self.unexpected_error(Some(expected)))
        }
    }

    /// Get the [`Class`] that corresponds to this [`Tag`].
    pub fn class(self) -> Class {
        match self {
            Tag::Application { .. } => Class::Application,
            Tag::ContextSpecific { .. } => Class::ContextSpecific,
            Tag::Private { .. } => Class::Private,
            _ => Class::Universal,
        }
    }

    /// Get the [`TagNumber`] (lower 6-bits) for this tag.
    pub fn number(self) -> TagNumber {
        TagNumber(self.octet() & TagNumber::MASK)
    }

    /// Does this tag represent a constructed (as opposed to primitive) field?
    pub fn is_constructed(self) -> bool {
        self.octet() & CONSTRUCTED_FLAG != 0
    }

    /// Is this an application tag?
    pub fn is_application(self) -> bool {
        self.class() == Class::Application
    }

    /// Is this a context-specific tag?
    pub fn is_context_specific(self) -> bool {
        self.class() == Class::ContextSpecific
    }

    /// Is this a private tag?
    pub fn is_private(self) -> bool {
        self.class() == Class::Private
    }

    /// Is this a universal tag?
    pub fn is_universal(self) -> bool {
        self.class() == Class::Universal
    }

    /// Get the octet encoding for this [`Tag`].
    pub fn octet(self) -> u8 {
        match self {
            Tag::Boolean => 0x01,
            Tag::Integer => 0x02,
            Tag::BitString => 0x03,
            Tag::OctetString => 0x04,
            Tag::Null => 0x05,
            Tag::ObjectIdentifier => 0x06,
            Tag::Enumerated => 0x0A,
            Tag::Utf8String => 0x0C,
            Tag::Sequence => 0x10 | CONSTRUCTED_FLAG,
            Tag::Set => 0x11 | CONSTRUCTED_FLAG,
            Tag::NumericString => 0x12,
            Tag::PrintableString => 0x13,
            Tag::Ia5String => 0x16,
            Tag::UtcTime => 0x17,
            Tag::GeneralizedTime => 0x18,
            Tag::VisibleString => 0x1A,
            Tag::BmpString => 0x1D,
            Tag::Application {
                constructed,
                number,
            }
            | Tag::ContextSpecific {
                constructed,
                number,
            }
            | Tag::Private {
                constructed,
                number,
            } => self.class().octet(constructed, number),
        }
    }

    /// Create an [`Error`] for an invalid [`Length`].
    pub fn length_error(self) -> Error {
        ErrorKind::Length { tag: self }.into()
    }

    /// Create an [`Error`] for an non-canonical value with the ASN.1 type
    /// identified by this tag.
    pub fn non_canonical_error(self) -> Error {
        ErrorKind::Noncanonical { tag: self }.into()
    }

    /// Create an [`Error`] because the current tag was unexpected, with an
    /// optional expected tag.
    pub fn unexpected_error(self, expected: Option<Self>) -> Error {
        ErrorKind::TagUnexpected {
            expected,
            actual: self,
        }
        .into()
    }

    /// Create an [`Error`] for an invalid value with the ASN.1 type identified
    /// by this tag.
    pub fn value_error(self) -> Error {
        ErrorKind::Value { tag: self }.into()
    }
}

impl TryFrom<u8> for Tag {
    type Error = Error;

    fn try_from(byte: u8) -> Result<Tag> {
        let constructed = byte & CONSTRUCTED_FLAG != 0;
        let number = TagNumber::try_from(byte & TagNumber::MASK)?;

        match byte {
            0x01 => Ok(Tag::Boolean),
            0x02 => Ok(Tag::Integer),
            0x03 => Ok(Tag::BitString),
            0x04 => Ok(Tag::OctetString),
            0x05 => Ok(Tag::Null),
            0x06 => Ok(Tag::ObjectIdentifier),
            0x0A => Ok(Tag::Enumerated),
            0x0C => Ok(Tag::Utf8String),
            0x12 => Ok(Tag::NumericString),
            0x13 => Ok(Tag::PrintableString),
            0x16 => Ok(Tag::Ia5String),
            0x17 => Ok(Tag::UtcTime),
            0x18 => Ok(Tag::GeneralizedTime),
            0x1A => Ok(Tag::VisibleString),
            0x1d => Ok(Tag::BmpString),
            0x30 => Ok(Tag::Sequence), // constructed
            0x31 => Ok(Tag::Set),      // constructed
            0x40..=0x7E => Ok(Tag::Application {
                constructed,
                number,
            }),
            0x80..=0xBE => Ok(Tag::ContextSpecific {
                constructed,
                number,
            }),
            0xC0..=0xFE => Ok(Tag::Private {
                constructed,
                number,
            }),
            _ => Err(ErrorKind::TagUnknown { byte }.into()),
        }
    }
}

impl From<Tag> for u8 {
    fn from(tag: Tag) -> u8 {
        tag.octet()
    }
}

impl From<&Tag> for u8 {
    fn from(tag: &Tag) -> u8 {
        u8::from(*tag)
    }
}

impl Decodable<'_> for Tag {
    fn decode(decoder: &mut Decoder<'_>) -> Result<Self> {
        decoder.byte().and_then(Self::try_from)
    }
}

impl Encodable for Tag {
    fn encoded_len(&self) -> Result<Length> {
        Ok(Length::ONE)
    }

    fn encode(&self, encoder: &mut Encoder<'_>) -> Result<()> {
        encoder.byte(self.into())
    }
}

impl DerOrd for Tag {
    fn der_cmp(&self, other: &Self) -> Result<Ordering> {
        Ok(self.octet().cmp(&other.octet()))
    }
}

impl fmt::Display for Tag {
    fn fmt(&self, f: &mut fmt::Formatter<'_>) -> fmt::Result {
        const FIELD_TYPE: [&str; 2] = ["primitive", "constructed"];

        match *self {
            Tag::Boolean => f.write_str("BOOLEAN"),
            Tag::Integer => f.write_str("INTEGER"),
            Tag::BitString => f.write_str("BIT STRING"),
            Tag::OctetString => f.write_str("OCTET STRING"),
            Tag::Null => f.write_str("NULL"),
            Tag::ObjectIdentifier => f.write_str("OBJECT IDENTIFIER"),
            Tag::Enumerated => f.write_str("ENUMERATED"),
            Tag::Utf8String => f.write_str("UTF8String"),
            Tag::Set => f.write_str("SET"),
            Tag::NumericString => f.write_str("NumericString"),
            Tag::PrintableString => f.write_str("PrintableString"),
            Tag::Ia5String => f.write_str("IA5String"),
            Tag::UtcTime => f.write_str("UTCTime"),
            Tag::GeneralizedTime => f.write_str("GeneralizedTime"),
            Tag::VisibleString => f.write_str("VisibleString"),
            Tag::BmpString => f.write_str("BMPString"),
            Tag::Sequence => f.write_str("SEQUENCE"),
            Tag::Application {
                constructed,
                number,
            } => write!(
                f,
                "APPLICATION [{}] ({})",
                number, FIELD_TYPE[constructed as usize]
            ),
            Tag::ContextSpecific {
                constructed,
                number,
            } => write!(
                f,
                "CONTEXT-SPECIFIC [{}] ({})",
                number, FIELD_TYPE[constructed as usize]
            ),
            Tag::Private {
                constructed,
                number,
            } => write!(
                f,
                "PRIVATE [{}] ({})",
                number, FIELD_TYPE[constructed as usize]
            ),
        }
    }
}

impl fmt::Debug for Tag {
    fn fmt(&self, f: &mut fmt::Formatter<'_>) -> fmt::Result {
        write!(f, "Tag(0x{:02x}: {})", u8::from(*self), self)
    }
}

#[cfg(test)]
mod tests {
    use super::TagNumber;
    use super::{Class, Tag};

    #[test]
    fn tag_class() {
        assert_eq!(Tag::Boolean.class(), Class::Universal);
        assert_eq!(Tag::Integer.class(), Class::Universal);
        assert_eq!(Tag::BitString.class(), Class::Universal);
        assert_eq!(Tag::OctetString.class(), Class::Universal);
        assert_eq!(Tag::Null.class(), Class::Universal);
        assert_eq!(Tag::ObjectIdentifier.class(), Class::Universal);
        assert_eq!(Tag::Enumerated.class(), Class::Universal);
        assert_eq!(Tag::Utf8String.class(), Class::Universal);
        assert_eq!(Tag::Set.class(), Class::Universal);
        assert_eq!(Tag::NumericString.class(), Class::Universal);
        assert_eq!(Tag::PrintableString.class(), Class::Universal);
        assert_eq!(Tag::Ia5String.class(), Class::Universal);
        assert_eq!(Tag::UtcTime.class(), Class::Universal);
        assert_eq!(Tag::GeneralizedTime.class(), Class::Universal);
        assert_eq!(Tag::Sequence.class(), Class::Universal);

        for num in 0..=30 {
            for &constructed in &[false, true] {
                let number = TagNumber::new(num);

                assert_eq!(
                    Tag::Application {
                        constructed,
                        number
                    }
                    .class(),
                    Class::Application
                );

                assert_eq!(
                    Tag::ContextSpecific {
                        constructed,
                        number
                    }
                    .class(),
                    Class::ContextSpecific
                );

                assert_eq!(
                    Tag::Private {
                        constructed,
                        number
                    }
                    .class(),
                    Class::Private
                );
            }
        }
    }
}