tor_netdoc/parse2/traits.rs
1//! Core model for netdoc parsing
2
3use super::*;
4
5/// A document or section that can be parsed
6///
7/// Normally [derived](derive_deftly_template_NetdocParseable).
8pub trait NetdocParseable: Sized {
9 /// Document type for errors, normally its intro keyword
10 fn doctype_for_error() -> &'static str;
11
12 /// Is `Keyword` an intro Item Keyword for this kind of document?
13 ///
14 /// This is used with 1-keyword lookahead, to allow us to push or pop
15 /// the parsing state into or out of a sub-document.
16 ///
17 /// For signatures sections, this should report *every* recognised keyword.
18 fn is_intro_item_keyword(kw: KeywordRef<'_>) -> bool;
19
20 /// Parse the document from a stream of Items
21 ///
22 /// Should stop before reading any keyword matching `stop_at`.
23 /// (Except, right at the start.)
24 ///
25 /// Should also stop before reading a 2nd intro keyword,
26 /// so that successive calls to this function can parse
27 /// successive sub-documents of this kind.
28 ///
29 /// Otherwise, should continue until EOF.
30 ///
31 /// Must check whether the first item is this document's `is_intro_item_keyword`,
32 /// and error if not.
33 fn from_items(input: &mut ItemStream<'_>, stop_at: stop_at!()) -> Result<Self, ErrorProblem>;
34
35 /// Is `Keyword` a structural keyword for this kind of document?
36 ///
37 /// Returns `Some(IsStructural)` for:
38 /// - this type's intro item keyword (`is_intro_item_keyword`)
39 /// - the intro items or structural items for any of its sub-documents and sections
40 /// `#[deftly(netdoc(subdoc))]`
41 ///
42 /// (This means it returns true for *any* item in a signatures subdocument
43 /// ie any field in a struct decorated `#[deftly(netdoc(signatures))]`
44 /// since those are considered intro items.)
45 ///
46 /// Used for avoiding parsing ambiguity when a netdoc from a semi-trusted source
47 /// is embedded into another netdoc.
48 /// See <https://spec.torproject.org/dir-spec/creating-key-certificates.html#nesting>.
49 ///
50 /// # Return type and relationship to `is_intro_item_keyword`
51 ///
52 /// Returns `Option<IsStructural>`
53 /// so that it has a different type to [`NetdocParseable::is_intro_item_keyword`],
54 /// preventing accidental confusion between the two kinds of keyword property enquiry.
55 ///
56 /// Our parsing algorithms actually only care about *intro keywords* for sub-documents.
57 /// We don't need to worry about anything else;
58 /// notably, we don't need to care about other structural items within those sub-documents.
59 ///
60 /// Except for authcerts in votes,, which are nested documents
61 /// with partially trusted content.
62 /// That is what this method is for.
63 ///
64 /// So, we privilege `is_intro_item_keyword` by having it return `bool`
65 /// and by the affordances in [`StopAt`].
66 fn is_structural_keyword(kw: KeywordRef<'_>) -> Option<IsStructural>;
67}
68
69/// A collection of fields that can be parsed within a section
70///
71/// None of the items can be structural.
72///
73/// Normally [derived](derive_deftly_template_NetdocParseableFields).
74pub trait NetdocParseableFields: Sized {
75 /// The partially-parsed set of items.
76 type Accumulator: Sized + Debug + Send + Sync + 'static;
77
78 /// Is this one of the keywords in this struct
79 fn is_item_keyword(kw: KeywordRef<'_>) -> bool;
80
81 /// Accumulate an item in this struct
82 ///
83 /// # Panics
84 ///
85 /// The caller must have first checked the `item`'s keyword with `is_item_keyword`.
86 /// If this *isn't* an item for this structure, may panic.
87 fn accumulate_item(acc: &mut Self::Accumulator, item: UnparsedItem<'_>) -> Result<(), EP>;
88
89 /// Finish
90 ///
91 /// Resolves the `Accumulator` into the output type.
92 /// Generally, this means throwing an error if expected fields were not present.
93 ///
94 /// `items` is provided to obtain the parsing options and similar purposes.
95 /// Its position in the input stream should not be relied on.
96 fn finish(acc: Self::Accumulator, items: &ItemStream<'_>) -> Result<Self, EP>;
97}
98
99/// An item (value) that can be parsed in a netdoc
100///
101/// This is the type `T` of a field `item: T` in a netdoc type.
102///
103/// An implementation is provided for tuples of `ItemArgumentParseable`,
104/// which parses each argument in turn,
105/// ignores additional arguments,
106/// and rejects any Object.
107///
108/// Typically derived with
109/// [`#[derive_deftly(ItemValueParseable)]`](derive_deftly_template_ItemValueParseable).
110///
111/// Signature items are special, and implement [`SignatureItemParseable`] instead.
112pub trait ItemValueParseable: Sized {
113 /// Parse the item's value
114 fn from_unparsed(item: UnparsedItem<'_>) -> Result<Self, ErrorProblem>;
115}
116
117/// An (individual) argument that can be parsed from in a netdoc
118///
119/// An implementations is provided for **`T: FromStr`**,
120/// which expects a single argument and passes it to `FromStr`.
121///
122/// For netdoc arguments whose specified syntax spans multiple space-separated words,
123/// use a manual implementation or a wrapper type.
124pub trait ItemArgumentParseable: Sized {
125 /// Parse the argument
126 fn from_args<'s>(args: &mut ArgumentStream<'s>) -> Result<Self, ArgumentError>;
127}
128
129/// An Object value that be parsed from a netdoc
130pub trait ItemObjectParseable: Sized {
131 /// Check that the Label is right
132 fn check_label(label: &str) -> Result<(), ErrorProblem>;
133
134 /// Convert the bytes of the Object (which was present) into the actual value
135 ///
136 /// `input` has been base64-decoded.
137 fn from_bytes(input: &[u8]) -> Result<Self, ErrorProblem>;
138}
139
140/// Token indicating that a keyword is structural
141///
142/// Returned by [`NetdocParseable::is_structural_keyword`]
143#[derive(Copy, Clone, Debug, Eq, PartialEq, Ord, PartialOrd, Hash)]
144#[allow(clippy::exhaustive_structs)]
145pub struct IsStructural;
146
147//---------- provided blanket impls ----------
148
149impl<T: ItemArgumentParseable> ItemArgumentParseable for Arc<T> {
150 fn from_args<'s>(args: &mut ArgumentStream<'s>) -> Result<Self, ArgumentError> {
151 T::from_args(args).map(Arc::new)
152 }
153}
154
155impl<T: ItemArgumentParseable + GloballyInternable + Eq + Hash + 'static> ItemArgumentParseable
156 for Intern<T>
157{
158 fn from_args<'s>(args: &mut ArgumentStream<'s>) -> Result<Self, ArgumentError> {
159 T::from_args(args).map(|x| T::into_intern(x))
160 }
161}
162
163impl<T: NormalItemArgument + FromStr> ItemArgumentParseable for T {
164 fn from_args<'s>(args: &mut ArgumentStream<'s>) -> Result<Self, AE> {
165 let v = args
166 .next()
167 .ok_or(AE::Missing)?
168 .parse()
169 .map_err(|_e| AE::Invalid)?;
170 Ok(v)
171 }
172}
173
174impl<T: ItemValueParseable> ItemValueParseable for Arc<T> {
175 fn from_unparsed(item: UnparsedItem<'_>) -> Result<Self, ErrorProblem> {
176 T::from_unparsed(item).map(Arc::new)
177 }
178}
179
180impl<T: ItemValueParseable + GloballyInternable + Eq + Hash + 'static> ItemValueParseable
181 for Intern<T>
182{
183 fn from_unparsed(item: UnparsedItem<'_>) -> Result<Self, ErrorProblem> {
184 T::from_unparsed(item).map(|x| T::into_intern(x))
185 }
186}
187
188impl<T: NetdocParseable> NetdocParseable for Arc<T> {
189 fn doctype_for_error() -> &'static str {
190 T::doctype_for_error()
191 }
192 fn is_intro_item_keyword(kw: KeywordRef<'_>) -> bool {
193 T::is_intro_item_keyword(kw)
194 }
195 fn is_structural_keyword(kw: KeywordRef<'_>) -> Option<IsStructural> {
196 T::is_structural_keyword(kw)
197 }
198 fn from_items(input: &mut ItemStream<'_>, stop_at: stop_at!()) -> Result<Self, EP> {
199 T::from_items(input, stop_at).map(Arc::new)
200 }
201}
202impl<T: NetdocParseableFields> NetdocParseableFields for Arc<T> {
203 type Accumulator = T::Accumulator;
204 fn is_item_keyword(kw: KeywordRef<'_>) -> bool {
205 T::is_item_keyword(kw)
206 }
207 fn accumulate_item(acc: &mut Self::Accumulator, item: UnparsedItem<'_>) -> Result<(), EP> {
208 T::accumulate_item(acc, item)
209 }
210 fn finish(acc: Self::Accumulator, items: &ItemStream) -> Result<Self, EP> {
211 T::finish(acc, items).map(Arc::new)
212 }
213}
214
215/// implement [`ItemValueParseable`] for a particular tuple size
216macro_rules! item_value_parseable_for_tuple {
217 { $($i:literal)* } => { paste! {
218 impl< $( [<T$i>]: ItemArgumentParseable, )* >
219 ItemValueParseable for ( $( [<T$i>], )* )
220 {
221 fn from_unparsed(
222 #[allow(unused_mut)]
223 mut item: UnparsedItem<'_>,
224 ) -> Result<Self, ErrorProblem> {
225 let r = ( $(
226 <[<T$i>] as ItemArgumentParseable>::from_args(
227 item.args_mut(),
228 ).map_err(item.args().error_handler(stringify!($i)))?,
229 )* );
230 item.check_no_object()?;
231 Ok(r)
232 }
233 }
234 } }
235}
236
237item_value_parseable_for_tuple! {}
238item_value_parseable_for_tuple! { 0 }
239item_value_parseable_for_tuple! { 0 1 }
240item_value_parseable_for_tuple! { 0 1 2 }
241item_value_parseable_for_tuple! { 0 1 2 3 }
242item_value_parseable_for_tuple! { 0 1 2 3 4 }
243item_value_parseable_for_tuple! { 0 1 2 3 4 5 }
244item_value_parseable_for_tuple! { 0 1 2 3 4 5 6 }
245item_value_parseable_for_tuple! { 0 1 2 3 4 5 6 7 }
246item_value_parseable_for_tuple! { 0 1 2 3 4 5 6 7 8 }
247item_value_parseable_for_tuple! { 0 1 2 3 4 5 6 7 8 9 }