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wasmtime/crates/debug/src/read_debuginfo.rs
Alex Crichton 39e57e3e9a Migrate back to std:: stylistically (#554) 
* Migrate back to `std::` stylistically

This commit moves away from idioms such as `alloc::` and `core::` as
imports of standard data structures and types. Instead it migrates all
crates to uniformly use `std::` for importing standard data structures
and types. This also removes the `std` and `core` features from all
crates to and removes any conditional checking for `feature = "std"`

All of this support was previously added in #407 in an effort to make
wasmtime/cranelift "`no_std` compatible". Unfortunately though this
change comes at a cost:

* The usage of `alloc` and `core` isn't idiomatic. Especially trying to
  dual between types like `HashMap` from `std` as well as from
  `hashbrown` causes imports to be surprising in some cases.
* Unfortunately there was no CI check that crates were `no_std`, so none
  of them actually were. Many crates still imported from `std` or
  depended on crates that used `std`.

It's important to note, however, that **this does not mean that wasmtime
will not run in embedded environments**. The style of the code today and
idioms aren't ready in Rust to support this degree of multiplexing and
makes it somewhat difficult to keep up with the style of `wasmtime`.
Instead it's intended that embedded runtime support will be added as
necessary. Currently only `std` is necessary to build `wasmtime`, and
platforms that natively need to execute `wasmtime` will need to use a
Rust target that supports `std`. Note though that not all of `std` needs
to be supported, but instead much of it could be configured off to
return errors, and `wasmtime` would be configured to gracefully handle
errors.

The goal of this PR is to move `wasmtime` back to idiomatic usage of
features/`std`/imports/etc and help development in the short-term.
Long-term when platform concerns arise (if any) they can be addressed by
moving back to `no_std` crates (but fixing the issues mentioned above)
or ensuring that the target in Rust has `std` available.

* Start filling out platform support doc
2019-11-18 22:04:06 -08:00

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use gimli::{
DebugAbbrev, DebugAddr, DebugInfo, DebugLine, DebugLineStr, DebugLoc, DebugLocLists,
DebugRanges, DebugRngLists, DebugStr, DebugStrOffsets, DebugTypes, EndianSlice, LittleEndian,
LocationLists, RangeLists,
};
use std::collections::HashMap;
use std::path::PathBuf;
use wasmparser::{self, ModuleReader, SectionCode};
trait Reader: gimli::Reader<Offset = usize, Endian = LittleEndian> {}
impl<'input> Reader for gimli::EndianSlice<'input, LittleEndian> {}
pub use wasmparser::Type as WasmType;
pub type Dwarf<'input> = gimli::Dwarf<gimli::EndianSlice<'input, LittleEndian>>;
#[derive(Debug)]
pub struct FunctionMetadata {
pub params: Box<[WasmType]>,
pub locals: Box<[(u32, WasmType)]>,
}
#[derive(Debug)]
pub struct WasmFileInfo {
pub path: Option<PathBuf>,
pub code_section_offset: u64,
pub funcs: Box<[FunctionMetadata]>,
}
#[derive(Debug)]
pub struct NameSection {
pub module_name: Option<String>,
pub func_names: HashMap<u32, String>,
pub locals_names: HashMap<u32, HashMap<u32, String>>,
}
#[derive(Debug)]
pub struct DebugInfoData<'a> {
pub dwarf: Dwarf<'a>,
pub name_section: Option<NameSection>,
pub wasm_file: WasmFileInfo,
}
fn convert_sections<'a>(sections: HashMap<&str, &'a [u8]>) -> Dwarf<'a> {
const EMPTY_SECTION: &[u8] = &[];
let endian = LittleEndian;
let debug_str = DebugStr::new(sections.get(".debug_str").unwrap_or(&EMPTY_SECTION), endian);
let debug_abbrev = DebugAbbrev::new(
sections.get(".debug_abbrev").unwrap_or(&EMPTY_SECTION),
endian,
);
let debug_info = DebugInfo::new(
sections.get(".debug_info").unwrap_or(&EMPTY_SECTION),
endian,
);
let debug_line = DebugLine::new(
sections.get(".debug_line").unwrap_or(&EMPTY_SECTION),
endian,
);
if sections.contains_key(".debug_addr") {
panic!("Unexpected .debug_addr");
}
let debug_addr = DebugAddr::from(EndianSlice::new(EMPTY_SECTION, endian));
if sections.contains_key(".debug_line_str") {
panic!("Unexpected .debug_line_str");
}
let debug_line_str = DebugLineStr::from(EndianSlice::new(EMPTY_SECTION, endian));
let debug_str_sup = DebugStr::from(EndianSlice::new(EMPTY_SECTION, endian));
if sections.contains_key(".debug_rnglists") {
panic!("Unexpected .debug_rnglists");
}
let debug_ranges = match sections.get(".debug_ranges") {
Some(section) => DebugRanges::new(section, endian),
None => DebugRanges::new(EMPTY_SECTION, endian),
};
let debug_rnglists = DebugRngLists::new(EMPTY_SECTION, endian);
let ranges = RangeLists::new(debug_ranges, debug_rnglists);
if sections.contains_key(".debug_loclists") {
panic!("Unexpected .debug_loclists");
}
let debug_loc = match sections.get(".debug_loc") {
Some(section) => DebugLoc::new(section, endian),
None => DebugLoc::new(EMPTY_SECTION, endian),
};
let debug_loclists = DebugLocLists::new(EMPTY_SECTION, endian);
let locations = LocationLists::new(debug_loc, debug_loclists);
if sections.contains_key(".debug_str_offsets") {
panic!("Unexpected .debug_str_offsets");
}
let debug_str_offsets = DebugStrOffsets::from(EndianSlice::new(EMPTY_SECTION, endian));
if sections.contains_key(".debug_types") {
panic!("Unexpected .debug_types");
}
let debug_types = DebugTypes::from(EndianSlice::new(EMPTY_SECTION, endian));
Dwarf {
debug_abbrev,
debug_addr,
debug_info,
debug_line,
debug_line_str,
debug_str,
debug_str_offsets,
debug_str_sup,
debug_types,
locations,
ranges,
}
}
fn read_name_section(reader: wasmparser::NameSectionReader) -> wasmparser::Result<NameSection> {
let mut module_name = None;
let mut func_names = HashMap::new();
let mut locals_names = HashMap::new();
for i in reader.into_iter() {
match i? {
wasmparser::Name::Module(m) => {
module_name = Some(String::from(m.get_name()?));
}
wasmparser::Name::Function(f) => {
let mut reader = f.get_map()?;
while let Ok(naming) = reader.read() {
func_names.insert(naming.index, String::from(naming.name));
}
}
wasmparser::Name::Local(l) => {
let mut reader = l.get_function_local_reader()?;
while let Ok(f) = reader.read() {
let mut names = HashMap::new();
let mut reader = f.get_map()?;
while let Ok(naming) = reader.read() {
names.insert(naming.index, String::from(naming.name));
}
locals_names.insert(f.func_index, names);
}
}
}
}
let result = NameSection {
module_name,
func_names,
locals_names,
};
Ok(result)
}
pub fn read_debuginfo(data: &[u8]) -> DebugInfoData {
let mut reader = ModuleReader::new(data).expect("reader");
let mut sections = HashMap::new();
let mut name_section = None;
let mut code_section_offset = 0;
let mut signatures_params: Vec<Box<[WasmType]>> = Vec::new();
let mut func_params_refs: Vec<usize> = Vec::new();
let mut func_locals: Vec<Box<[(u32, WasmType)]>> = Vec::new();
while !reader.eof() {
let section = reader.read().expect("section");
match section.code {
SectionCode::Custom { name, .. } => {
if name.starts_with(".debug_") {
let mut reader = section.get_binary_reader();
let len = reader.bytes_remaining();
sections.insert(name, reader.read_bytes(len).expect("bytes"));
}
if name == "name" {
if let Ok(reader) = section.get_name_section_reader() {
if let Ok(section) = read_name_section(reader) {
name_section = Some(section);
}
}
}
}
SectionCode::Type => {
signatures_params = section
.get_type_section_reader()
.expect("type section")
.into_iter()
.map(|ft| ft.expect("type").params)
.collect::<Vec<_>>();
}
SectionCode::Function => {
func_params_refs = section
.get_function_section_reader()
.expect("function section")
.into_iter()
.map(|index| index.expect("func index") as usize)
.collect::<Vec<_>>();
}
SectionCode::Code => {
code_section_offset = section.range().start as u64;
func_locals = section
.get_code_section_reader()
.expect("code section")
.into_iter()
.map(|body| {
let locals = body
.expect("body")
.get_locals_reader()
.expect("locals reader");
locals
.into_iter()
.collect::<Result<Vec<_>, _>>()
.expect("locals data")
.into_boxed_slice()
})
.collect::<Vec<_>>();
}
_ => (),
}
}
let func_meta = func_params_refs
.into_iter()
.zip(func_locals.into_iter())
.map(|(params_index, locals)| FunctionMetadata {
params: signatures_params[params_index].clone(),
locals,
})
.collect::<Vec<_>>();
DebugInfoData {
dwarf: convert_sections(sections),
name_section,
wasm_file: WasmFileInfo {
path: None,
code_section_offset,
funcs: func_meta.into_boxed_slice(),
},
}
}
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