Crate samply_api
source ·Expand description
This crate implements a JSON API for profiler symbolication with the help of
local symbol files. It exposes a single type called API, and uses the
samply-symbols crate for its implementation.
Just like the samply-symbols crate, this crate does not contain any direct
file access. It is written in such a way that it can be compiled to
WebAssembly, with all file access being mediated via a FileAndPathHelper
trait.
Do not use this crate directly unless you have to. Instead, use
wholesym, which provides a much more ergonomic Rust API.
wholesym exposes the JSON API functionality via SymbolManager::query_json_api.
§Example
use samply_api::samply_symbols::{
FileContents, FileAndPathHelper, FileAndPathHelperResult, OptionallySendFuture,
CandidatePathInfo, FileLocation, LibraryInfo, SymbolManager,
};
use samply_api::samply_symbols::debugid::{CodeId, DebugId};
async fn run_query() -> String {
let this_dir = std::path::PathBuf::from(env!("CARGO_MANIFEST_DIR"));
let helper = ExampleHelper {
artifact_directory: this_dir.join("..").join("fixtures").join("win64-ci")
};
let symbol_manager = SymbolManager::with_helper(helper);
let api = samply_api::Api::new(&symbol_manager);
api.query_api(
"/symbolicate/v5",
r#"{
"memoryMap": [
[
"firefox.pdb",
"AA152DEB2D9B76084C4C44205044422E1"
]
],
"stacks": [
[
[0, 204776],
[0, 129423],
[0, 244290],
[0, 244219]
]
]
}"#,
).await
}
struct ExampleHelper {
artifact_directory: std::path::PathBuf,
}
impl FileAndPathHelper for ExampleHelper {
type F = Vec<u8>;
type FL = ExampleFileLocation;
fn get_candidate_paths_for_debug_file(
&self,
library_info: &LibraryInfo,
) -> FileAndPathHelperResult<Vec<CandidatePathInfo<ExampleFileLocation>>> {
if let Some(debug_name) = library_info.debug_name.as_deref() {
Ok(vec![CandidatePathInfo::SingleFile(ExampleFileLocation(
self.artifact_directory.join(debug_name),
))])
} else {
Ok(vec![])
}
}
fn get_candidate_paths_for_binary(
&self,
library_info: &LibraryInfo,
) -> FileAndPathHelperResult<Vec<CandidatePathInfo<ExampleFileLocation>>> {
if let Some(name) = library_info.name.as_deref() {
Ok(vec![CandidatePathInfo::SingleFile(ExampleFileLocation(
self.artifact_directory.join(name),
))])
} else {
Ok(vec![])
}
}
fn get_dyld_shared_cache_paths(
&self,
_arch: Option<&str>,
) -> FileAndPathHelperResult<Vec<ExampleFileLocation>> {
Ok(vec![])
}
fn load_file(
&self,
location: ExampleFileLocation,
) -> std::pin::Pin<Box<dyn OptionallySendFuture<Output = FileAndPathHelperResult<Self::F>> + '_>> {
Box::pin(async move { Ok(std::fs::read(&location.0)?) })
}
}
#[derive(Clone, Debug)]
struct ExampleFileLocation(std::path::PathBuf);
impl std::fmt::Display for ExampleFileLocation {
fn fmt(&self, f: &mut std::fmt::Formatter<'_>) -> std::fmt::Result {
self.0.to_string_lossy().fmt(f)
}
}
impl FileLocation for ExampleFileLocation {
fn location_for_dyld_subcache(&self, suffix: &str) -> Option<Self> {
let mut filename = self.0.file_name().unwrap().to_owned();
filename.push(suffix);
Some(Self(self.0.with_file_name(filename)))
}
fn location_for_external_object_file(&self, object_file: &str) -> Option<Self> {
Some(Self(object_file.into()))
}
fn location_for_pdb_from_binary(&self, pdb_path_in_binary: &str) -> Option<Self> {
Some(Self(pdb_path_in_binary.into()))
}
fn location_for_source_file(&self, source_file_path: &str) -> Option<Self> {
Some(Self(source_file_path.into()))
}
fn location_for_breakpad_symindex(&self) -> Option<Self> {
Some(Self(self.0.with_extension("symindex")))
}
fn location_for_dwo(&self, _comp_dir: &str, path: &str) -> Option<Self> {
Some(Self(std::path::Path::new(path).into()))
}
fn location_for_dwp(&self) -> Option<Self> {
let mut s = self.0.as_os_str().to_os_string();
s.push(".dwp");
Some(Self(s.into()))
}
}Re-exports§
pub use samply_symbols;pub use samply_symbols::debugid;