//! Defines messages for cross-process message passing based on `ndjson` wire protocol
pub(crate) mod flat;
pub use self::flat::*;
use std::io::{self, BufRead, Write};
use paths::Utf8PathBuf;
use serde::de::DeserializeOwned;
use serde_derive::{Deserialize, Serialize};
use crate::{ProcMacroKind, transport::json};
/// Represents requests sent from the client to the proc-macro-srv.
#[derive(Debug, Serialize, Deserialize)]
pub enum Request {
// IMPORTANT: Keep his first, otherwise postcard will break as its not a self describing format
// As such, this is the only request that needs to be supported across all protocol versions
// and by keeping it first, we ensure it always has the same discriminant encoding in postcard
/// Performs an API version check between the client and the server.
/// Since [`crate::version::VERSION_CHECK_VERSION`]
ApiVersionCheck {},
/// Retrieves a list of macros from a given dynamic library.
/// Since [`crate::version::NO_VERSION_CHECK_VERSION`]
ListMacros { dylib_path: Utf8PathBuf },
/// Expands a procedural macro.
/// Since [`crate::version::NO_VERSION_CHECK_VERSION`]
ExpandMacro(Box<ExpandMacro>),
/// Sets server-specific configurations.
/// Since [`crate::version::RUST_ANALYZER_SPAN_SUPPORT`]
SetConfig(ServerConfig),
}
/// Defines the mode used for handling span data.
#[derive(Copy, Clone, Default, Debug, Serialize, Deserialize, PartialEq, Eq)]
pub enum SpanMode {
/// Default mode, where spans are identified by an ID.
#[default]
Id,
/// Rust Analyzer-specific span handling mode.
RustAnalyzer,
}
/// Represents responses sent from the proc-macro-srv to the client.
#[derive(Debug, Serialize, Deserialize)]
pub enum Response {
// IMPORTANT: Keep his first, otherwise postcard will break as its not a self describing format
// As such, this is the only request that needs to be supported across all protocol versions
// and by keeping it first, we ensure it always has the same discriminant encoding in postcard
/// Returns the API version supported by the server.
/// Since [`crate::version::NO_VERSION_CHECK_VERSION`]
ApiVersionCheck(u32),
/// Returns a list of available macros in a dynamic library.
/// Since [`crate::version::NO_VERSION_CHECK_VERSION`]
ListMacros(Result<Vec<(String, ProcMacroKind)>, String>),
/// Returns result of a macro expansion.
/// Since [`crate::version::NO_VERSION_CHECK_VERSION`]
ExpandMacro(Result<FlatTree, PanicMessage>),
/// Confirms the application of a configuration update.
/// Since [`crate::version::RUST_ANALYZER_SPAN_SUPPORT`]
SetConfig(ServerConfig),
/// Returns the result of a macro expansion, including extended span data.
/// Since [`crate::version::RUST_ANALYZER_SPAN_SUPPORT`]
ExpandMacroExtended(Result<ExpandMacroExtended, PanicMessage>),
}
/// Configuration settings for the proc-macro-srv.
#[derive(Debug, Serialize, Deserialize, Default)]
#[serde(default)]
pub struct ServerConfig {
/// Defines how span data should be handled.
pub span_mode: SpanMode,
}
/// Represents an extended macro expansion response, including span data mappings.
#[derive(Debug, Serialize, Deserialize)]
pub struct ExpandMacroExtended {
/// The expanded syntax tree.
pub tree: FlatTree,
/// Additional span data mappings.
pub span_data_table: Vec<u32>,
}
/// Represents an error message when a macro expansion results in a panic.
#[derive(Debug, Serialize, Deserialize)]
pub struct PanicMessage(pub String);
/// Represents a macro expansion request sent from the client.
#[derive(Debug, Serialize, Deserialize)]
pub struct ExpandMacro {
/// The path to the dynamic library containing the macro.
pub lib: Utf8PathBuf,
/// Environment variables to set during macro expansion.
pub env: Vec<(String, String)>,
/// The current working directory for the macro expansion.
pub current_dir: Option<String>,
/// Macro expansion data, including the macro body, name and attributes.
#[serde(flatten)]
pub data: ExpandMacroData,
}
/// Represents the input data required for expanding a macro.
#[derive(Debug, Serialize, Deserialize)]
pub struct ExpandMacroData {
/// Argument of macro call.
///
/// In custom derive this will be a struct or enum; in attribute-like macro - underlying
/// item; in function-like macro - the macro body.
pub macro_body: FlatTree,
/// Name of macro to expand.
///
/// In custom derive this is the name of the derived trait (`Serialize`, `Getters`, etc.).
/// In attribute-like and function-like macros - single name of macro itself (`show_streams`).
pub macro_name: String,
/// Possible attributes for the attribute-like macros.
pub attributes: Option<FlatTree>,
/// marker for serde skip stuff
#[serde(skip_serializing_if = "ExpnGlobals::skip_serializing_if")]
#[serde(default)]
pub has_global_spans: ExpnGlobals,
/// Table of additional span data.
#[serde(skip_serializing_if = "Vec::is_empty")]
#[serde(default)]
pub span_data_table: Vec<u32>,
}
/// Represents global expansion settings, including span resolution.
#[derive(Copy, Clone, Default, Debug, Serialize, Deserialize)]
pub struct ExpnGlobals {
/// Determines whether to serialize the expansion settings.
#[serde(skip_serializing)]
#[serde(default)]
pub serialize: bool,
/// Defines the `def_site` span location.
pub def_site: usize,
/// Defines the `call_site` span location.
pub call_site: usize,
/// Defines the `mixed_site` span location.
pub mixed_site: usize,
}
impl ExpnGlobals {
fn skip_serializing_if(&self) -> bool {
!self.serialize
}
}
pub trait Message: serde::Serialize + DeserializeOwned {
type Buf;
fn read(inp: &mut dyn BufRead, buf: &mut Self::Buf) -> io::Result<Option<Self>>;
fn write(self, out: &mut dyn Write) -> io::Result<()>;
}
impl Message for Request {
type Buf = String;
fn read(inp: &mut dyn BufRead, buf: &mut Self::Buf) -> io::Result<Option<Self>> {
Ok(match json::read(inp, buf)? {
None => None,
Some(buf) => Some(json::decode(buf)?),
})
}
fn write(self, out: &mut dyn Write) -> io::Result<()> {
let value = json::encode(&self)?;
json::write(out, &value)
}
}
impl Message for Response {
type Buf = String;
fn read(inp: &mut dyn BufRead, buf: &mut Self::Buf) -> io::Result<Option<Self>> {
Ok(match json::read(inp, buf)? {
None => None,
Some(buf) => Some(json::decode(buf)?),
})
}
fn write(self, out: &mut dyn Write) -> io::Result<()> {
let value = json::encode(&self)?;
json::write(out, &value)
}
}
#[cfg(test)]
mod tests {
use intern::Symbol;
use span::{
Edition, ROOT_ERASED_FILE_AST_ID, Span, SpanAnchor, SyntaxContext, TextRange, TextSize,
};
use tt::{
Delimiter, DelimiterKind, Ident, Leaf, Literal, Punct, Spacing, TopSubtree,
TopSubtreeBuilder,
};
use crate::version;
use super::*;
fn fixture_token_tree_top_many_none() -> TopSubtree {
let anchor = SpanAnchor {
file_id: span::EditionedFileId::new(
span::FileId::from_raw(0xe4e4e),
span::Edition::CURRENT,
),
ast_id: ROOT_ERASED_FILE_AST_ID,
};
let mut builder = TopSubtreeBuilder::new(Delimiter {
open: Span {
range: TextRange::empty(TextSize::new(0)),
anchor,
ctx: SyntaxContext::root(Edition::CURRENT),
},
close: Span {
range: TextRange::empty(TextSize::new(0)),
anchor,
ctx: SyntaxContext::root(Edition::CURRENT),
},
kind: DelimiterKind::Invisible,
});
builder.push(
Ident {
sym: Symbol::intern("struct"),
span: Span {
range: TextRange::at(TextSize::new(0), TextSize::of("struct")),
anchor,
ctx: SyntaxContext::root(Edition::CURRENT),
},
is_raw: tt::IdentIsRaw::No,
}
.into(),
);
builder.push(
Ident {
sym: Symbol::intern("Foo"),
span: Span {
range: TextRange::at(TextSize::new(5), TextSize::of("r#Foo")),
anchor,
ctx: SyntaxContext::root(Edition::CURRENT),
},
is_raw: tt::IdentIsRaw::Yes,
}
.into(),
);
builder.push(Leaf::Literal(Literal::new_no_suffix(
"Foo",
Span {
range: TextRange::at(TextSize::new(10), TextSize::of("\"Foo\"")),
anchor,
ctx: SyntaxContext::root(Edition::CURRENT),
},
tt::LitKind::Str,
)));
builder.push(Leaf::Punct(Punct {
char: '@',
span: Span {
range: TextRange::at(TextSize::new(13), TextSize::of('@')),
anchor,
ctx: SyntaxContext::root(Edition::CURRENT),
},
spacing: Spacing::Joint,
}));
builder.open(
DelimiterKind::Brace,
Span {
range: TextRange::at(TextSize::new(14), TextSize::of('{')),
anchor,
ctx: SyntaxContext::root(Edition::CURRENT),
},
);
builder.open(
DelimiterKind::Bracket,
Span {
range: TextRange::at(TextSize::new(15), TextSize::of('[')),
anchor,
ctx: SyntaxContext::root(Edition::CURRENT),
},
);
builder.push(Leaf::Literal(Literal::new(
"0",
Span {
range: TextRange::at(TextSize::new(16), TextSize::of("0u32")),
anchor,
ctx: SyntaxContext::root(Edition::CURRENT),
},
tt::LitKind::Integer,
"u32",
)));
builder.close(Span {
range: TextRange::at(TextSize::new(20), TextSize::of(']')),
anchor,
ctx: SyntaxContext::root(Edition::CURRENT),
});
builder.close(Span {
range: TextRange::at(TextSize::new(21), TextSize::of('}')),
anchor,
ctx: SyntaxContext::root(Edition::CURRENT),
});
builder.build()
}
fn fixture_token_tree_top_empty_none() -> TopSubtree {
let anchor = SpanAnchor {
file_id: span::EditionedFileId::new(
span::FileId::from_raw(0xe4e4e),
span::Edition::CURRENT,
),
ast_id: ROOT_ERASED_FILE_AST_ID,
};
let builder = TopSubtreeBuilder::new(Delimiter {
open: Span {
range: TextRange::empty(TextSize::new(0)),
anchor,
ctx: SyntaxContext::root(Edition::CURRENT),
},
close: Span {
range: TextRange::empty(TextSize::new(0)),
anchor,
ctx: SyntaxContext::root(Edition::CURRENT),
},
kind: DelimiterKind::Invisible,
});
builder.build()
}
fn fixture_token_tree_top_empty_brace() -> TopSubtree {
let anchor = SpanAnchor {
file_id: span::EditionedFileId::new(
span::FileId::from_raw(0xe4e4e),
span::Edition::CURRENT,
),
ast_id: ROOT_ERASED_FILE_AST_ID,
};
let builder = TopSubtreeBuilder::new(Delimiter {
open: Span {
range: TextRange::empty(TextSize::new(0)),
anchor,
ctx: SyntaxContext::root(Edition::CURRENT),
},
close: Span {
range: TextRange::empty(TextSize::new(0)),
anchor,
ctx: SyntaxContext::root(Edition::CURRENT),
},
kind: DelimiterKind::Brace,
});
builder.build()
}
#[test]
fn test_proc_macro_rpc_works() {
for tt in [
fixture_token_tree_top_many_none,
fixture_token_tree_top_empty_none,
fixture_token_tree_top_empty_brace,
] {
for v in version::RUST_ANALYZER_SPAN_SUPPORT..=version::CURRENT_API_VERSION {
let tt = tt();
let mut span_data_table = Default::default();
let task = ExpandMacro {
data: ExpandMacroData {
macro_body: FlatTree::from_subtree(tt.view(), v, &mut span_data_table),
macro_name: Default::default(),
attributes: None,
has_global_spans: ExpnGlobals {
serialize: true,
def_site: 0,
call_site: 0,
mixed_site: 0,
},
span_data_table: Vec::new(),
},
lib: Utf8PathBuf::from_path_buf(std::env::current_dir().unwrap()).unwrap(),
env: Default::default(),
current_dir: Default::default(),
};
let json = serde_json::to_string(&task).unwrap();
// println!("{}", json);
let back: ExpandMacro = serde_json::from_str(&json).unwrap();
assert_eq!(
tt,
back.data.macro_body.to_subtree_resolved(v, &span_data_table),
"version: {v}"
);
}
}
}
#[test]
#[cfg(feature = "sysroot-abi")]
fn test_proc_macro_rpc_works_ts() {
for tt in [
fixture_token_tree_top_many_none,
fixture_token_tree_top_empty_none,
fixture_token_tree_top_empty_brace,
] {
let tt = tt();
for v in version::RUST_ANALYZER_SPAN_SUPPORT..=version::CURRENT_API_VERSION {
let mut span_data_table = Default::default();
let flat_tree = FlatTree::from_subtree(tt.view(), v, &mut span_data_table);
assert_eq!(
tt,
flat_tree.clone().to_subtree_resolved(v, &span_data_table),
"version: {v}"
);
let ts = flat_tree.to_tokenstream_resolved(v, &span_data_table, |a, b| a.cover(b));
let call_site = *span_data_table.first().unwrap();
let mut span_data_table = Default::default();
assert_eq!(
tt,
FlatTree::from_tokenstream(ts.clone(), v, call_site, &mut span_data_table)
.to_subtree_resolved(v, &span_data_table),
"version: {v}, ts:\n{ts:#?}"
);
}
}
}
}