cranelift/tests/all/debug/obj.rs

use anyhow::{Context as _, Result};
use std::fs::File;
use std::io::Write;
use std::path::Path;
use target_lexicon::Triple;
use wasmtime::Strategy;
use wasmtime_cli::compile_to_obj;

pub fn compile_cranelift(
    wasm: &[u8],
    target: Option<Triple>,
    output: impl AsRef<Path>,
) -> Result<()> {
    let obj = compile_to_obj(
        wasm,
        target.as_ref(),
        Strategy::Cranelift,
        false,
        wasmtime::OptLevel::None,
        true,
    )?;

    let mut file = File::create(output).context("failed to create object file")?;
    file.write_all(&obj)
        .context("failed to write object file")?;

    Ok(())
}
Test basic DWARF generation (#931) * Add obj generation with debug info * Add simple transform check 5 years ago			`use anyhow::{Context as _, Result};`
			`use std::fs::File;`
Migrating code to object (from faerie) (#1848) * Using the "object" library everywhere in wasmtime. * scroll_derive 4 years ago			`use std::io::Write;`
Test basic DWARF generation (#931) * Add obj generation with debug info * Add simple transform check 5 years ago			`use std::path::Path;`
			`use target_lexicon::Triple;`
			`use wasmtime::Strategy;`
			`use wasmtime_cli::compile_to_obj;`

			`pub fn compile_cranelift(`
			`wasm: &[u8],`
			`target: Option<Triple>,`
			`output: impl AsRef<Path>,`
			`) -> Result<()> {`
			`let obj = compile_to_obj(`
			`wasm,`
			`target.as_ref(),`
			`Strategy::Cranelift,`
			`false,`
Optimize generated code via the CLI by default (#973) * Optimize generated code via the CLI by default This commit updates the behavior of the CLI and adds a new flag. It first enables the `--optimize` flag by default, ensuring that usage of the `wasmtime` CLI will enable cranelift optimizations by default. Next it also adds a `--opt-level` flag which is similar to Rust's `-Copt-level` where it takes a string argument of how to optimize. This is updates to support 0/1/2/s, where 1 is currently the same as 2 but added for consistency with other compilers. The default setting is `--opt-level=2`. When the `-O` flag is not passed the `--opt-level` flag is used, otherwise `-O` takes precedent in the sense that it implies `--opt-level=2` which is the highest optimization level. The thinking is that these flags will in general select the highest optimization level specified as the final optimization level. * Add inline docs * fix a test 5 years ago			`wasmtime::OptLevel::None,`
Test basic DWARF generation (#931) * Add obj generation with debug info * Add simple transform check 5 years ago			`true,`
			`)?;`

Migrating code to object (from faerie) (#1848) * Using the "object" library everywhere in wasmtime. * scroll_derive 4 years ago			`let mut file = File::create(output).context("failed to create object file")?;`
Reimplement how unwind information is stored (#3180) * Reimplement how unwind information is stored This commit is a major refactoring of how unwind information is stored after compilation of a function has finished. Previously we would store the raw `UnwindInfo` as a result of compilation and this would get serialized/deserialized alongside the rest of the ELF object that compilation creates. Whenever functions were registered with `CodeMemory` this would also result in registering unwinding information dynamically at runtime, which in the case of Unix, for example, would dynamically created FDE/CIE entries on-the-fly. Eventually I'd like to support compiling Wasmtime without Cranelift, but this means that `UnwindInfo` wouldn't be easily available to decode into and create unwinding information from. To solve this I've changed the ELF object created to have the unwinding information encoded into it ahead-of-time so loading code into memory no longer needs to create unwinding tables. This change has two different implementations for Windows/Unix: * On Windows the implementation was much easier. The unwinding information on Windows is already stored after the function itself in the text section. This was actually slightly duplicated in object building and in code memory allocation. Now the object building continues to do the same, recording unwinding information after functions, and code memory no longer manually tracks this. Additionally Wasmtime will emit a special custom section in the object file with unwinding information which is the list of `RUNTIME_FUNCTION` structures that `RtlAddFunctionTable` expects. This means that the object file has all the information precompiled into it and registration at runtime is simply passing a few pointers around to the runtime. * Unix was a little bit more difficult than Windows. Today a `.eh_frame` section is created on-the-fly with offsets in FDEs specified as the absolute address that functions are loaded at. This absolute address hindered the ability to precompile the FDE into the object file itself. I've switched how addresses are encoded, though, to using `DW_EH_PE_pcrel` which means that FDE addresses are now specified relative to the FDE itself. This means that we can maintain a fixed offset between the `.eh_frame` loaded in memory and the beginning of code memory. When doing so this enables precompiling the `.eh_frame` section into the object file and at runtime when loading an object no further construction of unwinding information is needed. The overall result of this commit is that unwinding information is no longer stored in its cranelift-data-structure form on disk. This means that this unwinding information format is only present during compilation, which will make it that much easier to compile out cranelift in the future. This commit also significantly refactors `CodeMemory` since the way unwinding information is handled is not much different from before. Previously `CodeMemory` was suitable for incrementally adding more and more functions to it, but nowadays a `CodeMemory` either lives per module (in which case all functions are known up front) or it's created once-per-`Func::new` with two trampolines. In both cases we know all functions up front so the functionality of incrementally adding more and more segments is no longer needed. This commit removes the ability to add a function-at-a-time in `CodeMemory` and instead it can now only load objects in their entirety. A small helper function is added to build a small object file for trampolines in `Func::new` to handle allocation there. Finally, this commit also folds the `wasmtime-obj` crate directly into the `wasmtime-cranelift` crate and its builder structure to be more amenable to this strategy of managing unwinding tables. It is not intentional to have any real functional change as a result of this commit. This might accelerate loading a module from cache slightly since less work is needed to manage the unwinding information, but that's just a side benefit from the main goal of this commit which is to remove the dependence on cranelift unwinding information being available at runtime. * Remove isa reexport from wasmtime-environ * Trim down reexports of `cranelift-codegen` Remove everything non-essential so that only the bits which will need to be refactored out of cranelift remain. * Fix debug tests * Review comments 3 years ago			`file.write_all(&obj)`
Migrating code to object (from faerie) (#1848) * Using the "object" library everywhere in wasmtime. * scroll_derive 4 years ago			`.context("failed to write object file")?;`
Test basic DWARF generation (#931) * Add obj generation with debug info * Add simple transform check 5 years ago
			`Ok(())`
			`}`