crates/der_derive/src/attributes.rs - platform/external/rust/android-crates-io - Git at Google

 //! Attribute-related types used by the proc macro

 use crate::{Asn1Type, Tag, TagMode, TagNumber};
 use proc_macro2::{Span, TokenStream};
 use quote::quote;
 use std::{fmt::Debug, str::FromStr};
 use syn::punctuated::Punctuated;
 use syn::{parse::Parse, parse::ParseStream, Attribute, Ident, LitStr, Path, Token};

 /// Attribute name.
 pub(crate) const ATTR_NAME: &str = "asn1";

 /// Attributes on a `struct` or `enum` type.
 #[derive(Clone, Debug, Default)]
 pub(crate) struct TypeAttrs {
     /// Tagging mode for this type: `EXPLICIT` or `IMPLICIT`, supplied as
     /// `#[asn1(tag_mode = "...")]`.
     ///
     /// The default value is `EXPLICIT`.
     pub tag_mode: TagMode,
 }

 impl TypeAttrs {
     /// Parse attributes from a struct field or enum variant.
     pub fn parse(attrs: &[Attribute]) -> syn::Result<Self> {
         let mut tag_mode = None;

         let mut parsed_attrs = Vec::new();
         AttrNameValue::from_attributes(attrs, &mut parsed_attrs)?;

         for attr in parsed_attrs {
             // `tag_mode = "..."` attribute
             let mode = attr.parse_value("tag_mode")?.ok_or_else(|| {
                 syn::Error::new_spanned(
                     &attr.name,
                     "invalid `asn1` attribute (valid options are `tag_mode`)",
                 )
             })?;

             if tag_mode.is_some() {
                 return Err(syn::Error::new_spanned(
                     &attr.name,
                     "duplicate ASN.1 `tag_mode` attribute",
                 ));
             }

             tag_mode = Some(mode);
         }

         Ok(Self {
             tag_mode: tag_mode.unwrap_or_default(),
         })
     }
 }

 /// Field-level attributes.
 #[derive(Clone, Debug, Default)]
 pub(crate) struct FieldAttrs {
     /// Value of the `#[asn1(type = "...")]` attribute if provided.
     pub asn1_type: Option<Asn1Type>,

     /// Value of the `#[asn1(context_specific = "...")] attribute if provided.
     pub context_specific: Option<TagNumber>,

     /// Indicates name of function that supplies the default value, which will be used in cases
     /// where encoding is omitted per DER and to omit the encoding per DER
     pub default: Option<Path>,

     /// Is this field "extensible", i.e. preceded by the `...` extensibility marker?
     pub extensible: bool,

     /// Is this field `OPTIONAL`?
     pub optional: bool,

     /// Tagging mode for this type: `EXPLICIT` or `IMPLICIT`, supplied as
     /// `#[asn1(tag_mode = "...")]`.
     ///
     /// Inherits from the type-level tagging mode if specified, or otherwise
     /// defaults to `EXPLICIT`.
     pub tag_mode: TagMode,

     /// Is the inner type constructed?
     pub constructed: bool,
 }

 impl FieldAttrs {
     /// Return true when either an optional or default ASN.1 attribute is associated
     /// with a field. Default signifies optionality due to omission of default values in
     /// DER encodings.
     fn is_optional(&self) -> bool {
         self.optional || self.default.is_some()
     }

     /// Parse attributes from a struct field or enum variant.
     pub fn parse(attrs: &[Attribute], type_attrs: &TypeAttrs) -> syn::Result<Self> {
         let mut asn1_type = None;
         let mut context_specific = None;
         let mut default = None;
         let mut extensible = None;
         let mut optional = None;
         let mut tag_mode = None;
         let mut constructed = None;

         let mut parsed_attrs = Vec::new();
         AttrNameValue::from_attributes(attrs, &mut parsed_attrs)?;

         for attr in parsed_attrs {
             // `context_specific = "..."` attribute
             if let Some(tag_number) = attr.parse_value("context_specific")? {
                 if context_specific.is_some() {
                     abort!(attr.name, "duplicate ASN.1 `context_specific` attribute");
                 }

                 context_specific = Some(tag_number);
             // `default` attribute
             } else if attr.parse_value::<String>("default")?.is_some() {
                 if default.is_some() {
                     abort!(attr.name, "duplicate ASN.1 `default` attribute");
                 }

                 default = Some(attr.value.parse().map_err(|e| {
                     syn::Error::new_spanned(
                         attr.value,
                         format_args!("error parsing ASN.1 `default` attribute: {e}"),
                     )
                 })?);
             // `extensible` attribute
             } else if let Some(ext) = attr.parse_value("extensible")? {
                 if extensible.is_some() {
                     abort!(attr.name, "duplicate ASN.1 `extensible` attribute");
                 }

                 extensible = Some(ext);
             // `optional` attribute
             } else if let Some(opt) = attr.parse_value("optional")? {
                 if optional.is_some() {
                     abort!(attr.name, "duplicate ASN.1 `optional` attribute");
                 }

                 optional = Some(opt);
             // `tag_mode` attribute
             } else if let Some(mode) = attr.parse_value("tag_mode")? {
                 if tag_mode.is_some() {
                     abort!(attr.name, "duplicate ASN.1 `tag_mode` attribute");
                 }

                 tag_mode = Some(mode);
             // `type = "..."` attribute
             } else if let Some(ty) = attr.parse_value("type")? {
                 if asn1_type.is_some() {
                     abort!(attr.name, "duplicate ASN.1 `type` attribute");
                 }

                 asn1_type = Some(ty);
             // `constructed = "..."` attribute
             } else if let Some(ty) = attr.parse_value("constructed")? {
                 if constructed.is_some() {
                     abort!(attr.name, "duplicate ASN.1 `constructed` attribute");
                 }

                 constructed = Some(ty);
             } else {
                 abort!(
                     attr.name,
                     "unknown field-level `asn1` attribute \
                     (valid options are `context_specific`, `type`)",
                 );
             }
         }

         Ok(Self {
             asn1_type,
             context_specific,
             default,
             extensible: extensible.unwrap_or_default(),
             optional: optional.unwrap_or_default(),
             tag_mode: tag_mode.unwrap_or(type_attrs.tag_mode),
             constructed: constructed.unwrap_or_default(),
         })
     }

     /// Get the expected [`Tag`] for this field.
     pub fn tag(&self) -> syn::Result<Option<Tag>> {
         match self.context_specific {
             Some(tag_number) => Ok(Some(Tag::ContextSpecific {
                 constructed: self.constructed,
                 number: tag_number,
             })),

             None => match self.tag_mode {
                 TagMode::Explicit => Ok(self.asn1_type.map(Tag::Universal)),
                 TagMode::Implicit => Err(syn::Error::new(
                     Span::call_site(),
                     "implicit tagging requires a `tag_number`",
                 )),
             },
         }
     }

     /// Get a `der::Decoder` object which respects these field attributes.
     pub fn decoder(&self) -> TokenStream {
         if let Some(tag_number) = self.context_specific {
             let type_params = self.asn1_type.map(|ty| ty.type_path()).unwrap_or_default();
             let tag_number = tag_number.to_tokens();

             let context_specific = match self.tag_mode {
                 TagMode::Explicit => {
                     if self.extensible || self.is_optional() {
                         quote! {
                             ::der::asn1::ContextSpecific::<#type_params>::decode_explicit(
                                 reader,
                                 #tag_number
                             )?
                         }
                     } else {
                         quote! {
                             match ::der::asn1::ContextSpecific::<#type_params>::decode(reader)? {
                                 field if field.tag_number == #tag_number => Some(field),
                                 _ => None
                             }
                         }
                     }
                 }
                 TagMode::Implicit => {
                     quote! {
                         ::der::asn1::ContextSpecific::<#type_params>::decode_implicit(
                             reader,
                             #tag_number
                         )?
                     }
                 }
             };

             if self.is_optional() {
                 if let Some(default) = &self.default {
                     quote!(#context_specific.map(|cs| cs.value).unwrap_or_else(#default))
                 } else {
                     quote!(#context_specific.map(|cs| cs.value))
                 }
             } else {
                 // TODO(tarcieri): better error handling?
                 let constructed = self.constructed;
                 quote! {
                     #context_specific.ok_or_else(|| {
                         der::Tag::ContextSpecific {
                             number: #tag_number,
                             constructed: #constructed
                         }.value_error()
                     })?.value
                 }
             }
         } else if let Some(default) = &self.default {
             let type_params = self.asn1_type.map(|ty| ty.type_path()).unwrap_or_default();
             self.asn1_type.map(|ty| ty.decoder()).unwrap_or_else(|| {
                 quote! {
                     Option::<#type_params>::decode(reader)?.unwrap_or_else(#default),
                 }
             })
         } else {
             self.asn1_type
                 .map(|ty| ty.decoder())
                 .unwrap_or_else(|| quote!(reader.decode()?))
         }
     }

     /// Get tokens to encode the binding using `::der::EncodeValue`.
     pub fn value_encode(&self, binding: &TokenStream) -> TokenStream {
         match self.context_specific {
             Some(tag_number) => {
                 let tag_number = tag_number.to_tokens();
                 let tag_mode = self.tag_mode.to_tokens();
                 quote! {
                     ::der::asn1::ContextSpecificRef {
                         tag_number: #tag_number,
                         tag_mode: #tag_mode,
                         value: #binding,
                     }.encode_value(encoder)
                 }
             }

             None => self
                 .asn1_type
                 .map(|ty| {
                     let encoder_obj = ty.encoder(binding);
                     quote!(#encoder_obj.encode_value(encoder))
                 })
                 .unwrap_or_else(|| quote!(#binding.encode_value(encoder))),
         }
     }
 }

 /// Name/value pair attribute.
 pub(crate) struct AttrNameValue {
     /// Attribute name.
     pub name: Path,

     /// Attribute value.
     pub value: LitStr,
 }

 impl Parse for AttrNameValue {
     fn parse(input: ParseStream<'_>) -> syn::Result<Self> {
         let name = match input.parse() {
             Ok(name) => name,
             // If it doesn't parse as a path, check if it's the keyword `type`
             // The asn1 macro uses this even though Path cannot technically contain
             // non-identifiers, so it needs to be forced in.
             Err(e) => {
                 if let Ok(tok) = input.parse::<Token![type]>() {
                     Path::from(Ident::new("type", tok.span))
                 } else {
                     // If it still doesn't parse, report the original error rather than the
                     // one produced by the workaround.
                     return Err(e);
                 }
             }
         };
         input.parse::<Token![=]>()?;
         let value = input.parse()?;
         Ok(Self { name, value })
     }
 }

 impl AttrNameValue {
     pub fn parse_attribute(attr: &Attribute) -> syn::Result<impl IntoIterator<Item = Self>> {
         attr.parse_args_with(Punctuated::<Self, Token![,]>::parse_terminated)
     }

     /// Parse a slice of attributes.
     pub fn from_attributes(attrs: &[Attribute], out: &mut Vec<Self>) -> syn::Result<()> {
         for attr in attrs {
             if !attr.path().is_ident(ATTR_NAME) {
                 continue;
             }

             match Self::parse_attribute(attr) {
                 Ok(parsed) => out.extend(parsed),
                 Err(e) => abort!(attr, e),
             }
         }

         Ok(())
     }

     /// Parse an attribute value if the name matches the specified one.
     pub fn parse_value<T>(&self, name: &str) -> syn::Result<Option<T>>
     where
         T: FromStr + Debug,
         T::Err: Debug,
     {
         Ok(if self.name.is_ident(name) {
             Some(
                 self.value
                     .value()
                     .parse()
                     .map_err(|_| syn::Error::new_spanned(&self.name, "error parsing attribute"))?,
             )
         } else {
             None
         })
     }
 }
	//! Attribute-related types used by the proc macro

	use crate::{Asn1Type, Tag, TagMode, TagNumber};
	use proc_macro2::{Span, TokenStream};
	use quote::quote;
	use std::{fmt::Debug, str::FromStr};
	use syn::punctuated::Punctuated;
	use syn::{parse::Parse, parse::ParseStream, Attribute, Ident, LitStr, Path, Token};

	/// Attribute name.
	pub(crate) const ATTR_NAME: &str = "asn1";

	/// Attributes on a `struct` or `enum` type.
	#[derive(Clone, Debug, Default)]
	pub(crate) struct TypeAttrs {
	/// Tagging mode for this type: `EXPLICIT` or `IMPLICIT`, supplied as
	/// `#[asn1(tag_mode = "...")]`.
	///
	/// The default value is `EXPLICIT`.
	pub tag_mode: TagMode,
	}

	impl TypeAttrs {
	/// Parse attributes from a struct field or enum variant.
	pub fn parse(attrs: &[Attribute]) -> syn::Result<Self> {
	let mut tag_mode = None;

	let mut parsed_attrs = Vec::new();
	AttrNameValue::from_attributes(attrs, &mut parsed_attrs)?;

	for attr in parsed_attrs {
	// `tag_mode = "..."` attribute
	let mode = attr.parse_value("tag_mode")?.ok_or_else(\|\| {
	syn::Error::new_spanned(
	&attr.name,
	"invalid `asn1` attribute (valid options are `tag_mode`)",
	)
	})?;

	if tag_mode.is_some() {
	return Err(syn::Error::new_spanned(
	&attr.name,
	"duplicate ASN.1 `tag_mode` attribute",
	));
	}

	tag_mode = Some(mode);
	}

	Ok(Self {
	tag_mode: tag_mode.unwrap_or_default(),
	})
	}
	}

	/// Field-level attributes.
	#[derive(Clone, Debug, Default)]
	pub(crate) struct FieldAttrs {
	/// Value of the `#[asn1(type = "...")]` attribute if provided.
	pub asn1_type: Option<Asn1Type>,

	/// Value of the `#[asn1(context_specific = "...")] attribute if provided.
	pub context_specific: Option<TagNumber>,

	/// Indicates name of function that supplies the default value, which will be used in cases
	/// where encoding is omitted per DER and to omit the encoding per DER
	pub default: Option<Path>,

	/// Is this field "extensible", i.e. preceded by the `...` extensibility marker?
	pub extensible: bool,

	/// Is this field `OPTIONAL`?
	pub optional: bool,

	/// Tagging mode for this type: `EXPLICIT` or `IMPLICIT`, supplied as
	/// `#[asn1(tag_mode = "...")]`.
	///
	/// Inherits from the type-level tagging mode if specified, or otherwise
	/// defaults to `EXPLICIT`.
	pub tag_mode: TagMode,

	/// Is the inner type constructed?
	pub constructed: bool,
	}

	impl FieldAttrs {
	/// Return true when either an optional or default ASN.1 attribute is associated
	/// with a field. Default signifies optionality due to omission of default values in
	/// DER encodings.
	fn is_optional(&self) -> bool {
	self.optional \|\| self.default.is_some()
	}

	/// Parse attributes from a struct field or enum variant.
	pub fn parse(attrs: &[Attribute], type_attrs: &TypeAttrs) -> syn::Result<Self> {
	let mut asn1_type = None;
	let mut context_specific = None;
	let mut default = None;
	let mut extensible = None;
	let mut optional = None;
	let mut tag_mode = None;
	let mut constructed = None;

	let mut parsed_attrs = Vec::new();
	AttrNameValue::from_attributes(attrs, &mut parsed_attrs)?;

	for attr in parsed_attrs {
	// `context_specific = "..."` attribute
	if let Some(tag_number) = attr.parse_value("context_specific")? {
	if context_specific.is_some() {
	abort!(attr.name, "duplicate ASN.1 `context_specific` attribute");
	}

	context_specific = Some(tag_number);
	// `default` attribute
	} else if attr.parse_value::<String>("default")?.is_some() {
	if default.is_some() {
	abort!(attr.name, "duplicate ASN.1 `default` attribute");
	}

	default = Some(attr.value.parse().map_err(\|e\| {
	syn::Error::new_spanned(
	attr.value,
	format_args!("error parsing ASN.1 `default` attribute: {e}"),
	)
	})?);
	// `extensible` attribute
	} else if let Some(ext) = attr.parse_value("extensible")? {
	if extensible.is_some() {
	abort!(attr.name, "duplicate ASN.1 `extensible` attribute");
	}

	extensible = Some(ext);
	// `optional` attribute
	} else if let Some(opt) = attr.parse_value("optional")? {
	if optional.is_some() {
	abort!(attr.name, "duplicate ASN.1 `optional` attribute");
	}

	optional = Some(opt);
	// `tag_mode` attribute
	} else if let Some(mode) = attr.parse_value("tag_mode")? {
	if tag_mode.is_some() {
	abort!(attr.name, "duplicate ASN.1 `tag_mode` attribute");
	}

	tag_mode = Some(mode);
	// `type = "..."` attribute
	} else if let Some(ty) = attr.parse_value("type")? {
	if asn1_type.is_some() {
	abort!(attr.name, "duplicate ASN.1 `type` attribute");
	}

	asn1_type = Some(ty);
	// `constructed = "..."` attribute
	} else if let Some(ty) = attr.parse_value("constructed")? {
	if constructed.is_some() {
	abort!(attr.name, "duplicate ASN.1 `constructed` attribute");
	}

	constructed = Some(ty);
	} else {
	abort!(
	attr.name,
	"unknown field-level `asn1` attribute \
	(valid options are `context_specific`, `type`)",
	);
	}
	}

	Ok(Self {
	asn1_type,
	context_specific,
	default,
	extensible: extensible.unwrap_or_default(),
	optional: optional.unwrap_or_default(),
	tag_mode: tag_mode.unwrap_or(type_attrs.tag_mode),
	constructed: constructed.unwrap_or_default(),
	})
	}

	/// Get the expected [`Tag`] for this field.
	pub fn tag(&self) -> syn::Result<Option<Tag>> {
	match self.context_specific {
	Some(tag_number) => Ok(Some(Tag::ContextSpecific {
	constructed: self.constructed,
	number: tag_number,
	})),

	None => match self.tag_mode {
	TagMode::Explicit => Ok(self.asn1_type.map(Tag::Universal)),
	TagMode::Implicit => Err(syn::Error::new(
	Span::call_site(),
	"implicit tagging requires a `tag_number`",
	)),
	},
	}
	}

	/// Get a `der::Decoder` object which respects these field attributes.
	pub fn decoder(&self) -> TokenStream {
	if let Some(tag_number) = self.context_specific {
	let type_params = self.asn1_type.map(\|ty\| ty.type_path()).unwrap_or_default();
	let tag_number = tag_number.to_tokens();

	let context_specific = match self.tag_mode {
	TagMode::Explicit => {
	if self.extensible \|\| self.is_optional() {
	quote! {
	::der::asn1::ContextSpecific::<#type_params>::decode_explicit(
	reader,
	#tag_number
	)?
	}
	} else {
	quote! {
	match ::der::asn1::ContextSpecific::<#type_params>::decode(reader)? {
	field if field.tag_number == #tag_number => Some(field),
	_ => None
	}
	}
	}
	}
	TagMode::Implicit => {
	quote! {
	::der::asn1::ContextSpecific::<#type_params>::decode_implicit(
	reader,
	#tag_number
	)?
	}
	}
	};

	if self.is_optional() {
	if let Some(default) = &self.default {
	quote!(#context_specific.map(\|cs\| cs.value).unwrap_or_else(#default))
	} else {
	quote!(#context_specific.map(\|cs\| cs.value))
	}
	} else {
	// TODO(tarcieri): better error handling?
	let constructed = self.constructed;
	quote! {
	#context_specific.ok_or_else(\|\| {
	der::Tag::ContextSpecific {
	number: #tag_number,
	constructed: #constructed
	}.value_error()
	})?.value
	}
	}
	} else if let Some(default) = &self.default {
	let type_params = self.asn1_type.map(\|ty\| ty.type_path()).unwrap_or_default();
	self.asn1_type.map(\|ty\| ty.decoder()).unwrap_or_else(\|\| {
	quote! {
	Option::<#type_params>::decode(reader)?.unwrap_or_else(#default),
	}
	})
	} else {
	self.asn1_type
	.map(\|ty\| ty.decoder())
	.unwrap_or_else(\|\| quote!(reader.decode()?))
	}
	}

	/// Get tokens to encode the binding using `::der::EncodeValue`.
	pub fn value_encode(&self, binding: &TokenStream) -> TokenStream {
	match self.context_specific {
	Some(tag_number) => {
	let tag_number = tag_number.to_tokens();
	let tag_mode = self.tag_mode.to_tokens();
	quote! {
	::der::asn1::ContextSpecificRef {
	tag_number: #tag_number,
	tag_mode: #tag_mode,
	value: #binding,
	}.encode_value(encoder)
	}
	}

	None => self
	.asn1_type
	.map(\|ty\| {
	let encoder_obj = ty.encoder(binding);
	quote!(#encoder_obj.encode_value(encoder))
	})
	.unwrap_or_else(\|\| quote!(#binding.encode_value(encoder))),
	}
	}
	}

	/// Name/value pair attribute.
	pub(crate) struct AttrNameValue {
	/// Attribute name.
	pub name: Path,

	/// Attribute value.
	pub value: LitStr,
	}

	impl Parse for AttrNameValue {
	fn parse(input: ParseStream<'_>) -> syn::Result<Self> {
	let name = match input.parse() {
	Ok(name) => name,
	// If it doesn't parse as a path, check if it's the keyword `type`
	// The asn1 macro uses this even though Path cannot technically contain
	// non-identifiers, so it needs to be forced in.
	Err(e) => {
	if let Ok(tok) = input.parse::<Token![type]>() {
	Path::from(Ident::new("type", tok.span))
	} else {
	// If it still doesn't parse, report the original error rather than the
	// one produced by the workaround.
	return Err(e);
	}
	}
	};
	input.parse::<Token![=]>()?;
	let value = input.parse()?;
	Ok(Self { name, value })
	}
	}

	impl AttrNameValue {
	pub fn parse_attribute(attr: &Attribute) -> syn::Result<impl IntoIterator<Item = Self>> {
	attr.parse_args_with(Punctuated::<Self, Token![,]>::parse_terminated)
	}

	/// Parse a slice of attributes.
	pub fn from_attributes(attrs: &[Attribute], out: &mut Vec<Self>) -> syn::Result<()> {
	for attr in attrs {
	if !attr.path().is_ident(ATTR_NAME) {
	continue;
	}

	match Self::parse_attribute(attr) {
	Ok(parsed) => out.extend(parsed),
	Err(e) => abort!(attr, e),
	}
	}

	Ok(())
	}

	/// Parse an attribute value if the name matches the specified one.
	pub fn parse_value<T>(&self, name: &str) -> syn::Result<Option<T>>
	where
	T: FromStr + Debug,
	T::Err: Debug,
	{
	Ok(if self.name.is_ident(name) {
	Some(
	self.value
	.value()
	.parse()
	.map_err(\|_\| syn::Error::new_spanned(&self.name, "error parsing attribute"))?,
	)
	} else {
	None
	})
	}
	}