use std::collections::BTreeMap; use anyhow::Result; use turbo_tasks::Vc; use turbo_tasks_fs::FileContent; use turbopack_core::asset::Asset; use wasmparser::{Chunk, Parser, Payload}; use crate::source::WebAssemblySource; /// Imports and exports of a WebAssembly file. #[turbo_tasks::value] #[derive(Default)] pub(crate) struct WebAssemblyAnalysis { pub imports: BTreeMap>, pub exports: Vec, } /// Analyse a WebAssembly file. /// /// Extracts imports and exports. #[turbo_tasks::function] pub(crate) async fn analyze(source: Vc) -> Result> { let content = source.content().file_content().await?; let mut analysis = WebAssemblyAnalysis::default(); let FileContent::Content(file) = &*content else { return Ok(analysis.cell()); }; let mut bytes = &*file.content().to_bytes(); let mut parser = Parser::new(0); loop { let payload = match parser.parse(bytes, true)? { Chunk::Parsed { consumed, payload } => { bytes = &bytes[consumed..]; payload } // this state isn't possible with `eof = true` Chunk::NeedMoreData(_) => unreachable!(), }; match payload { Payload::ImportSection(s) => { for import in s { let import = import?; analysis .imports .entry(import.module.to_string()) .or_default() .push(import.name.to_string()); } } Payload::ExportSection(s) => { for export in s { let export = export?; analysis.exports.push(export.name.to_string()); } } // skip over code sections Payload::CodeSectionStart { size, .. } => { parser.skip_section(); bytes = &bytes[size as usize..]; } Payload::End(_) => break, _ => {} } } Ok(analysis.cell()) }