mirror of
https://github.com/fluencelabs/wasmer
synced 2024-12-14 22:55:40 +00:00
394 lines
15 KiB
Rust
394 lines
15 KiB
Rust
use crate::{cache::BackendCache, trampoline::Trampolines};
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use crate::{
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libcalls,
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relocation::{
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ExternalRelocation, LibCall, LocalRelocation, LocalTrapSink, Reloc, RelocSink,
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RelocationType, TrapSink, VmCall, VmCallKind,
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},
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signal::HandlerData,
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};
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use rayon::prelude::*;
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use byteorder::{ByteOrder, LittleEndian};
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use cranelift_codegen::{ir, isa, Context};
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use std::{
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mem,
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ptr::{write_unaligned, NonNull},
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sync::Arc,
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};
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use wasmer_runtime_core::cache::Error as CacheError;
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use wasmer_runtime_core::{
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self,
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backend::{
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sys::{Memory, Protect},
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SigRegistry,
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},
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error::{CompileError, CompileResult},
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module::ModuleInfo,
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structures::{Map, SliceMap, TypedIndex},
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types::{FuncSig, LocalFuncIndex, SigIndex},
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vm, vmcalls,
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};
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extern "C" {
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#[cfg(not(target_os = "windows"))]
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pub fn __rust_probestack();
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#[cfg(all(target_os = "windows", target_pointer_width = "64"))]
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pub fn __chkstk();
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}
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fn lookup_func(
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map: &SliceMap<LocalFuncIndex, usize>,
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memory: &Memory,
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local_func_index: LocalFuncIndex,
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) -> Option<NonNull<vm::Func>> {
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let offset = *map.get(local_func_index)?;
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let ptr = unsafe { memory.as_ptr().add(offset) };
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NonNull::new(ptr).map(|nonnull| nonnull.cast())
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}
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#[allow(dead_code)]
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pub struct FuncResolverBuilder {
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map: Map<LocalFuncIndex, usize>,
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memory: Memory,
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local_relocs: Map<LocalFuncIndex, Box<[LocalRelocation]>>,
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external_relocs: Map<LocalFuncIndex, Box<[ExternalRelocation]>>,
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import_len: usize,
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}
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impl FuncResolverBuilder {
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pub fn new_from_backend_cache(
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backend_cache: BackendCache,
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mut code: Memory,
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info: &ModuleInfo,
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) -> Result<(Self, Arc<Trampolines>, HandlerData), CacheError> {
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unsafe {
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code.protect(.., Protect::ReadWrite)
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.map_err(|e| CacheError::Unknown(e.to_string()))?;
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}
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let handler_data =
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HandlerData::new(backend_cache.trap_sink, code.as_ptr() as _, code.size());
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Ok((
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Self {
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map: backend_cache.offsets,
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memory: code,
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local_relocs: Map::new(),
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external_relocs: backend_cache.external_relocs,
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import_len: info.imported_functions.len(),
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},
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Arc::new(Trampolines::from_trampoline_cache(
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backend_cache.trampolines,
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)),
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handler_data,
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))
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}
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pub fn new(
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isa: &isa::TargetIsa,
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function_bodies: Map<LocalFuncIndex, ir::Function>,
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info: &ModuleInfo,
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) -> CompileResult<(Self, HandlerData)> {
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let num_func_bodies = function_bodies.len();
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let mut local_relocs = Map::with_capacity(num_func_bodies);
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let mut external_relocs = Map::with_capacity(num_func_bodies);
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let mut trap_sink = TrapSink::new();
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let compiled_functions: Result<Vec<(Vec<u8>, (RelocSink, LocalTrapSink))>, CompileError> =
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function_bodies
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.into_vec()
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.par_iter()
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.map_init(
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|| Context::new(),
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|ctx, func| {
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let mut code_buf = Vec::new();
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ctx.func = func.to_owned();
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let mut reloc_sink = RelocSink::new();
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let mut local_trap_sink = LocalTrapSink::new();
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ctx.compile_and_emit(
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isa,
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&mut code_buf,
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&mut reloc_sink,
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&mut local_trap_sink,
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)
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.map_err(|e| CompileError::InternalError { msg: e.to_string() })?;
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ctx.clear();
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Ok((code_buf, (reloc_sink, local_trap_sink)))
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},
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)
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.collect();
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let compiled_functions = compiled_functions?;
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let mut total_size = 0;
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// We separate into two iterators, one iterable and one into iterable
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let (code_bufs, sinks): (Vec<Vec<u8>>, Vec<(RelocSink, LocalTrapSink)>) =
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compiled_functions.into_iter().unzip();
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for (code_buf, (reloc_sink, mut local_trap_sink)) in code_bufs.iter().zip(sinks.into_iter())
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{
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// Clear the local trap sink and consolidate all trap info
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// into a single location.
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trap_sink.drain_local(total_size, &mut local_trap_sink);
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// Round up each function's size to pointer alignment.
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total_size += round_up(code_buf.len(), mem::size_of::<usize>());
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local_relocs.push(reloc_sink.local_relocs.into_boxed_slice());
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external_relocs.push(reloc_sink.external_relocs.into_boxed_slice());
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}
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let mut memory = Memory::with_size(total_size)
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.map_err(|e| CompileError::InternalError { msg: e.to_string() })?;
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unsafe {
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memory
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.protect(.., Protect::ReadWrite)
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.map_err(|e| CompileError::InternalError { msg: e.to_string() })?;
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}
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// Normally, excess memory due to alignment and page-rounding would
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// be filled with null-bytes. On x86 (and x86_64),
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// "\x00\x00" disassembles to "add byte ptr [eax],al".
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//
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// If the instruction pointer falls out of its designated area,
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// it would be better if it would immediately crash instead of
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// continuing on and causing non-local issues.
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//
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// "\xCC" disassembles to "int3", which will immediately cause
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// an interrupt that we can catch if we want.
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for i in unsafe { memory.as_slice_mut() } {
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*i = 0xCC;
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}
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let mut map = Map::with_capacity(num_func_bodies);
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let mut previous_end = 0;
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for compiled in code_bufs.iter() {
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let new_end = previous_end + round_up(compiled.len(), mem::size_of::<usize>());
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unsafe {
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memory.as_slice_mut()[previous_end..previous_end + compiled.len()]
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.copy_from_slice(&compiled[..]);
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}
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map.push(previous_end);
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previous_end = new_end;
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}
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let handler_data =
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HandlerData::new(Arc::new(trap_sink), memory.as_ptr() as _, memory.size());
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let mut func_resolver_builder = Self {
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map,
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memory,
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local_relocs,
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external_relocs,
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import_len: info.imported_functions.len(),
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};
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func_resolver_builder.relocate_locals();
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Ok((func_resolver_builder, handler_data))
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}
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fn relocate_locals(&mut self) {
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for (index, relocs) in self.local_relocs.iter() {
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for ref reloc in relocs.iter() {
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let local_func_index = LocalFuncIndex::new(reloc.target.index() - self.import_len);
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let target_func_address = lookup_func(&self.map, &self.memory, local_func_index)
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.unwrap()
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.as_ptr() as usize;
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// We need the address of the current function
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// because these calls are relative.
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let func_addr = lookup_func(&self.map, &self.memory, index)
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.unwrap()
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.as_ptr() as usize;
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unsafe {
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let reloc_address = func_addr + reloc.offset as usize;
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let reloc_delta = target_func_address
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.wrapping_sub(reloc_address)
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.wrapping_add(reloc.addend as usize);
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write_unaligned(reloc_address as *mut u32, reloc_delta as u32);
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}
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}
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}
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}
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pub fn finalize(
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mut self,
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signatures: &SliceMap<SigIndex, FuncSig>,
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trampolines: Arc<Trampolines>,
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handler_data: HandlerData,
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) -> CompileResult<(FuncResolver, BackendCache)> {
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for (index, relocs) in self.external_relocs.iter() {
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for ref reloc in relocs.iter() {
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let target_func_address: isize = match reloc.target {
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RelocationType::LibCall(libcall) => match libcall {
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LibCall::CeilF32 => libcalls::ceilf32 as isize,
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LibCall::FloorF32 => libcalls::floorf32 as isize,
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LibCall::TruncF32 => libcalls::truncf32 as isize,
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LibCall::NearestF32 => libcalls::nearbyintf32 as isize,
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LibCall::CeilF64 => libcalls::ceilf64 as isize,
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LibCall::FloorF64 => libcalls::floorf64 as isize,
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LibCall::TruncF64 => libcalls::truncf64 as isize,
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LibCall::NearestF64 => libcalls::nearbyintf64 as isize,
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#[cfg(all(target_pointer_width = "64", target_os = "windows"))]
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LibCall::Probestack => __chkstk as isize,
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#[cfg(not(target_os = "windows"))]
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LibCall::Probestack => __rust_probestack as isize,
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},
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RelocationType::Intrinsic(ref name) => match name.as_str() {
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"i32print" => i32_print as isize,
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"i64print" => i64_print as isize,
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"f32print" => f32_print as isize,
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"f64print" => f64_print as isize,
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"strtdbug" => start_debug as isize,
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"enddbug" => end_debug as isize,
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_ => Err(CompileError::InternalError {
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msg: format!("unexpected intrinsic: {}", name),
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})?,
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},
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RelocationType::VmCall(vmcall) => match vmcall {
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VmCall::Local(kind) => match kind {
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VmCallKind::StaticMemoryGrow => vmcalls::local_static_memory_grow as _,
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VmCallKind::StaticMemorySize => vmcalls::local_static_memory_size as _,
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VmCallKind::SharedStaticMemoryGrow => unimplemented!(),
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VmCallKind::SharedStaticMemorySize => unimplemented!(),
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VmCallKind::DynamicMemoryGrow => {
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vmcalls::local_dynamic_memory_grow as _
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}
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VmCallKind::DynamicMemorySize => {
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vmcalls::local_dynamic_memory_size as _
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}
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},
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VmCall::Import(kind) => match kind {
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VmCallKind::StaticMemoryGrow => {
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vmcalls::imported_static_memory_grow as _
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}
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VmCallKind::StaticMemorySize => {
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vmcalls::imported_static_memory_size as _
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}
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VmCallKind::SharedStaticMemoryGrow => unimplemented!(),
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VmCallKind::SharedStaticMemorySize => unimplemented!(),
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VmCallKind::DynamicMemoryGrow => {
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vmcalls::imported_dynamic_memory_grow as _
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}
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VmCallKind::DynamicMemorySize => {
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vmcalls::imported_dynamic_memory_size as _
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}
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},
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},
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RelocationType::Signature(sig_index) => {
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let signature = SigRegistry.lookup_signature_ref(&signatures[sig_index]);
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let sig_index = SigRegistry.lookup_sig_index(signature);
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sig_index.index() as _
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}
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};
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// We need the address of the current function
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// because some of these calls are relative.
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let func_addr = lookup_func(&self.map, &self.memory, index)
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.unwrap()
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.as_ptr() as usize;
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// Determine relocation type and apply relocation.
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match reloc.reloc {
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Reloc::Abs8 => {
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let ptr_to_write = (target_func_address as u64)
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.checked_add(reloc.addend as u64)
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.unwrap();
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let empty_space_offset = self.map[index] + reloc.offset as usize;
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let ptr_slice = unsafe {
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&mut self.memory.as_slice_mut()
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[empty_space_offset..empty_space_offset + 8]
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};
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LittleEndian::write_u64(ptr_slice, ptr_to_write);
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}
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Reloc::X86PCRel4 | Reloc::X86CallPCRel4 => unsafe {
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let reloc_address = (func_addr as usize) + reloc.offset as usize;
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let reloc_delta = target_func_address
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.wrapping_sub(reloc_address as isize)
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.wrapping_add(reloc.addend as isize);
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write_unaligned(reloc_address as *mut u32, reloc_delta as u32);
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},
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}
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}
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}
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unsafe {
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self.memory
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.protect(.., Protect::ReadExec)
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.map_err(|e| CompileError::InternalError { msg: e.to_string() })?;
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}
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let backend_cache = BackendCache {
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external_relocs: self.external_relocs.clone(),
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offsets: self.map.clone(),
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trap_sink: handler_data.trap_data,
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trampolines: trampolines.to_trampoline_cache(),
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};
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Ok((
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FuncResolver {
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map: self.map,
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memory: Arc::new(self.memory),
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},
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backend_cache,
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))
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}
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}
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unsafe impl Sync for FuncResolver {}
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unsafe impl Send for FuncResolver {}
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/// Resolves a function index to a function address.
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pub struct FuncResolver {
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map: Map<LocalFuncIndex, usize>,
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pub(crate) memory: Arc<Memory>,
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}
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impl FuncResolver {
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pub fn lookup(&self, index: LocalFuncIndex) -> Option<NonNull<vm::Func>> {
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lookup_func(&self.map, &self.memory, index)
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}
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}
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#[inline]
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fn round_up(n: usize, multiple: usize) -> usize {
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(n + multiple - 1) & !(multiple - 1)
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}
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extern "C" fn i32_print(_ctx: &mut vm::Ctx, n: i32) {
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eprint!(" i32: {},", n);
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}
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extern "C" fn i64_print(_ctx: &mut vm::Ctx, n: i64) {
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eprint!(" i64: {},", n);
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}
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extern "C" fn f32_print(_ctx: &mut vm::Ctx, n: f32) {
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eprint!(" f32: {},", n);
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}
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extern "C" fn f64_print(_ctx: &mut vm::Ctx, n: f64) {
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eprint!(" f64: {},", n);
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}
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extern "C" fn start_debug(ctx: &mut vm::Ctx, func_index: u32) {
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if let Some(symbol_map) = unsafe { ctx.borrow_symbol_map() } {
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if let Some(fn_name) = symbol_map.get(&func_index) {
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eprint!("func ({} ({})), args: [", fn_name, func_index);
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return;
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}
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}
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eprint!("func ({}), args: [", func_index);
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}
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extern "C" fn end_debug(_ctx: &mut vm::Ctx) {
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eprintln!(" ]");
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}
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