mirror of
https://github.com/fluencelabs/wasmer
synced 2024-12-14 14:45:40 +00:00
357 lines
12 KiB
Rust
357 lines
12 KiB
Rust
use crate::recovery::call_protected;
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use crate::{
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backing::{ImportBacking, LocalBacking},
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error::{CallError, CallResult, Result},
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export::{
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Context, Export, ExportIter, FuncPointer, GlobalPointer, MemoryPointer, TablePointer,
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},
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import::{Imports, Namespace},
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module::{ExportIndex, Module, ModuleInner},
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types::{
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FuncIndex, FuncSig, GlobalDesc, GlobalIndex, LocalOrImport, Memory, MemoryIndex, Table,
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TableIndex, Type, Value,
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},
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vm,
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};
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use libffi::high::{arg as libffi_arg, call as libffi_call, CodePtr};
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use std::rc::Rc;
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use std::{iter, mem};
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pub(crate) struct InstanceInner {
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#[allow(dead_code)]
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pub(crate) backing: LocalBacking,
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import_backing: ImportBacking,
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vmctx: Box<vm::Ctx>,
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}
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pub struct Instance {
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pub module: Rc<ModuleInner>,
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inner: Box<InstanceInner>,
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#[allow(dead_code)]
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imports: Box<Imports>,
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}
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impl Instance {
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pub(crate) fn new(module: Rc<ModuleInner>, mut imports: Box<Imports>) -> Result<Instance> {
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// We need the backing and import_backing to create a vm::Ctx, but we need
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// a vm::Ctx to create a backing and an import_backing. The solution is to create an
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// uninitialized vm::Ctx and then initialize it in-place.
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let mut vmctx = unsafe { Box::new(mem::uninitialized()) };
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let import_backing = ImportBacking::new(&module, &mut imports, &mut *vmctx)?;
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let backing = LocalBacking::new(&module, &import_backing, &mut *vmctx);
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// When Pin is stablized, this will use `Box::pinned` instead of `Box::new`.
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let mut inner = Box::new(InstanceInner {
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backing,
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import_backing,
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vmctx,
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});
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// Initialize the vm::Ctx in-place after the backing
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// has been boxed.
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*inner.vmctx = unsafe { vm::Ctx::new(&mut inner.backing, &mut inner.import_backing) };
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let mut instance = Instance {
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module,
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inner,
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imports,
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};
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if let Some(start_index) = instance.module.start_func {
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instance.call_with_index(start_index, &[])?;
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}
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Ok(instance)
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}
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/// Call an exported webassembly function given the export name.
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/// Pass arguments by wrapping each one in the `Value` enum.
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/// The returned value is also returned in a `Value`.
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///
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/// This will eventually return `Result<Option<Vec<Value>>, String>` in
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/// order to support multi-value returns.
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pub fn call(&mut self, name: &str, args: &[Value]) -> CallResult<Option<Value>> {
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let export_index =
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self.module
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.exports
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.get(name)
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.ok_or_else(|| CallError::NoSuchExport {
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name: name.to_string(),
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})?;
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let func_index = if let ExportIndex::Func(func_index) = export_index {
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*func_index
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} else {
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return Err(CallError::ExportNotFunc {
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name: name.to_string(),
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}
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.into());
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};
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self.call_with_index(func_index, args)
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}
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pub fn exports(&mut self) -> ExportIter {
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ExportIter::new(&self.module, &mut self.inner)
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}
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pub fn module(&self) -> Module {
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Module::new(Rc::clone(&self.module))
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}
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}
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impl Instance {
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fn call_with_index(
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&mut self,
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func_index: FuncIndex,
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args: &[Value],
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) -> CallResult<Option<Value>> {
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let (func_ref, ctx, signature) = self.inner.get_func_from_index(&self.module, func_index);
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let func_ptr = CodePtr::from_ptr(func_ref.inner() as _);
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let vmctx_ptr = match ctx {
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Context::External(vmctx) => vmctx,
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Context::Internal => &mut *self.inner.vmctx,
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};
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assert!(
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signature.returns.len() <= 1,
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"multi-value returns not yet supported"
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);
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if !signature.check_sig(args) {
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Err(CallError::Signature {
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expected: signature.clone(),
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found: args.iter().map(|val| val.ty()).collect(),
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})?
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}
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let libffi_args: Vec<_> = args
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.iter()
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.map(|val| match val {
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Value::I32(ref x) => libffi_arg(x),
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Value::I64(ref x) => libffi_arg(x),
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Value::F32(ref x) => libffi_arg(x),
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Value::F64(ref x) => libffi_arg(x),
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})
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.chain(iter::once(libffi_arg(&vmctx_ptr)))
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.collect();
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Ok(call_protected(|| {
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signature
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.returns
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.first()
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.map(|ty| match ty {
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Type::I32 => Value::I32(unsafe { libffi_call(func_ptr, &libffi_args) }),
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Type::I64 => Value::I64(unsafe { libffi_call(func_ptr, &libffi_args) }),
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Type::F32 => Value::F32(unsafe { libffi_call(func_ptr, &libffi_args) }),
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Type::F64 => Value::F64(unsafe { libffi_call(func_ptr, &libffi_args) }),
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})
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.or_else(|| {
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// call with no returns
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unsafe {
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libffi_call::<()>(func_ptr, &libffi_args);
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}
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None
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})
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})?)
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}
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}
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impl InstanceInner {
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pub(crate) fn get_export_from_index(
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&mut self,
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module: &ModuleInner,
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export_index: &ExportIndex,
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) -> Export {
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match export_index {
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ExportIndex::Func(func_index) => {
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let (func, ctx, signature) = self.get_func_from_index(module, *func_index);
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Export::Function {
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func,
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ctx: match ctx {
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Context::Internal => Context::External(&mut *self.vmctx),
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ctx @ Context::External(_) => ctx,
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},
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signature,
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}
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}
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ExportIndex::Memory(memory_index) => {
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let (local, ctx, memory) = self.get_memory_from_index(module, *memory_index);
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Export::Memory {
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local,
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ctx: match ctx {
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Context::Internal => Context::External(&mut *self.vmctx),
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ctx @ Context::External(_) => ctx,
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},
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memory,
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}
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}
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ExportIndex::Global(global_index) => {
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let (local, global) = self.get_global_from_index(module, *global_index);
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Export::Global { local, global }
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}
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ExportIndex::Table(table_index) => {
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let (local, ctx, table) = self.get_table_from_index(module, *table_index);
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Export::Table {
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local,
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ctx: match ctx {
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Context::Internal => Context::External(&mut *self.vmctx),
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ctx @ Context::External(_) => ctx,
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},
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table,
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}
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}
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}
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}
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fn get_func_from_index(
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&mut self,
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module: &ModuleInner,
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func_index: FuncIndex,
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) -> (FuncPointer, Context, FuncSig) {
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let sig_index = *module
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.func_assoc
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.get(func_index)
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.expect("broken invariant, incorrect func index");
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let (func_ptr, ctx) = match func_index.local_or_import(module) {
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LocalOrImport::Local(local_func_index) => (
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module
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.func_resolver
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.get(&module, local_func_index)
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.expect("broken invariant, func resolver not synced with module.exports")
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.cast()
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.as_ptr() as *const _,
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Context::Internal,
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),
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LocalOrImport::Import(imported_func_index) => {
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let imported_func = &self.import_backing.functions[imported_func_index];
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(
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imported_func.func as *const _,
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Context::External(imported_func.vmctx),
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)
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}
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};
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let signature = module.sig_registry.lookup_func_sig(sig_index).clone();
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(unsafe { FuncPointer::new(func_ptr) }, ctx, signature)
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}
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fn get_memory_from_index(
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&mut self,
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module: &ModuleInner,
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mem_index: MemoryIndex,
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) -> (MemoryPointer, Context, Memory) {
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match mem_index.local_or_import(module) {
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LocalOrImport::Local(local_mem_index) => {
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let vm_mem = &mut self.backing.memories[local_mem_index];
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(
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unsafe { MemoryPointer::new(&mut vm_mem.into_vm_memory(local_mem_index)) },
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Context::Internal,
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*module
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.memories
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.get(local_mem_index)
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.expect("broken invariant, memories"),
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)
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}
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LocalOrImport::Import(imported_mem_index) => {
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let &(_, mem) = &module
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.imported_memories
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.get(imported_mem_index)
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.expect("missing imported memory index");
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let vm::ImportedMemory { memory, vmctx } =
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&self.import_backing.memories[imported_mem_index];
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(
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unsafe { MemoryPointer::new(*memory) },
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Context::External(*vmctx),
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*mem,
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)
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}
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}
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}
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fn get_global_from_index(
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&mut self,
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module: &ModuleInner,
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global_index: GlobalIndex,
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) -> (GlobalPointer, GlobalDesc) {
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match global_index.local_or_import(module) {
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LocalOrImport::Local(local_global_index) => {
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let vm_global = &mut self.backing.vm_globals[local_global_index];
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(
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unsafe { GlobalPointer::new(vm_global) },
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module
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.globals
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.get(local_global_index)
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.expect("broken invariant, globals")
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.desc,
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)
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}
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LocalOrImport::Import(imported_global_index) => {
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let &(_, imported_global_desc) = &module
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.imported_globals
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.get(imported_global_index)
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.expect("missing imported global index");
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let vm::ImportedGlobal { global } =
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&self.import_backing.globals[imported_global_index];
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(
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unsafe { GlobalPointer::new(*global) },
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*imported_global_desc,
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)
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}
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}
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}
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fn get_table_from_index(
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&mut self,
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module: &ModuleInner,
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table_index: TableIndex,
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) -> (TablePointer, Context, Table) {
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match table_index.local_or_import(module) {
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LocalOrImport::Local(local_table_index) => {
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let vm_table = &mut self.backing.tables[local_table_index];
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(
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unsafe { TablePointer::new(&mut vm_table.into_vm_table()) },
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Context::Internal,
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*module
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.tables
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.get(local_table_index)
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.expect("broken invariant, tables"),
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)
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}
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LocalOrImport::Import(imported_table_index) => {
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let &(_, tab) = &module
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.imported_tables
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.get(imported_table_index)
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.expect("missing imported table index");
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let vm::ImportedTable { table, vmctx } =
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&self.import_backing.tables[imported_table_index];
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(
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unsafe { TablePointer::new(*table) },
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Context::External(*vmctx),
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*tab,
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)
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}
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}
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}
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}
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impl Namespace for Instance {
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fn get_export(&mut self, name: &str) -> Option<Export> {
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let export_index = self.module.exports.get(name)?;
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Some(self.inner.get_export_from_index(&self.module, export_index))
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}
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}
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// TODO Remove this later, only needed for compilation till emscripten is updated
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impl Instance {
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pub fn memory_offset_addr(&self, index: usize, offset: usize) -> *const u8 {
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unimplemented!()
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}
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}
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