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use crate::linker::{Definition, DefinitionType};
use crate::prelude::*;
use crate::runtime::vm::{
Imports, InstanceAllocationRequest, ModuleRuntimeInfo, StorePtr, VMFuncRef, VMFunctionImport,
VMGlobalImport, VMMemoryImport, VMOpaqueContext, VMTableImport,
};
use crate::store::{InstanceId, StoreOpaque, Stored};
use crate::types::matching;
use crate::{
AsContextMut, Engine, Export, Extern, Func, Global, Memory, Module, ModuleExport, SharedMemory,
StoreContext, StoreContextMut, Table, TypedFunc,
};
use alloc::sync::Arc;
use core::ptr::NonNull;
use wasmparser::WasmFeatures;
use wasmtime_environ::{
EntityIndex, EntityType, FuncIndex, GlobalIndex, MemoryIndex, PrimaryMap, TableIndex, TypeTrace,
};
/// An instantiated WebAssembly module.
///
/// This type represents the instantiation of a [`Module`]. Once instantiated
/// you can access the [`exports`](Instance::exports) which are of type
/// [`Extern`] and provide the ability to call functions, set globals, read
/// memory, etc. When interacting with any wasm code you'll want to make an
/// [`Instance`] to call any code or execute anything.
///
/// Instances are owned by a [`Store`](crate::Store) which is passed in at
/// creation time. It's recommended to create instances with
/// [`Linker::instantiate`](crate::Linker::instantiate) or similar
/// [`Linker`](crate::Linker) methods, but a more low-level constructor is also
/// available as [`Instance::new`].
#[derive(Copy, Clone, Debug)]
#[repr(transparent)]
pub struct Instance(Stored<InstanceData>);
pub(crate) struct InstanceData {
/// The id of the instance within the store, used to find the original
/// `InstanceHandle`.
id: InstanceId,
/// A lazily-populated list of exports of this instance. The order of
/// exports here matches the order of the exports in the original
/// module.
exports: Vec<Option<Extern>>,
}
impl InstanceData {
pub fn from_id(id: InstanceId) -> InstanceData {
InstanceData {
id,
exports: vec![],
}
}
}
impl Instance {
/// Creates a new [`Instance`] from the previously compiled [`Module`] and
/// list of `imports` specified.
///
/// This method instantiates the `module` provided with the `imports`,
/// following the procedure in the [core specification][inst] to
/// instantiate. Instantiation can fail for a number of reasons (many
/// specified below), but if successful the `start` function will be
/// automatically run (if specified in the `module`) and then the
/// [`Instance`] will be returned.
///
/// Per the WebAssembly spec, instantiation includes running the module's
/// start function, if it has one (not to be confused with the `_start`
/// function, which is not run).
///
/// Note that this is a low-level function that just performs an
/// instantiation. See the [`Linker`](crate::Linker) struct for an API which
/// provides a convenient way to link imports and provides automatic Command
/// and Reactor behavior.
///
/// ## Providing Imports
///
/// The entries in the list of `imports` are intended to correspond 1:1
/// with the list of imports returned by [`Module::imports`]. Before
/// calling [`Instance::new`] you'll want to inspect the return value of
/// [`Module::imports`] and, for each import type, create an [`Extern`]
/// which corresponds to that type. These [`Extern`] values are all then
/// collected into a list and passed to this function.
///
/// Note that this function is intentionally relatively low level. For an
/// easier time passing imports by doing name-based resolution it's
/// recommended to instead use the [`Linker`](crate::Linker) type.
///
/// ## Errors
///
/// This function can fail for a number of reasons, including, but not
/// limited to:
///
/// * The number of `imports` provided doesn't match the number of imports
/// returned by the `module`'s [`Module::imports`] method.
/// * The type of any [`Extern`] doesn't match the corresponding
/// [`ExternType`] entry that it maps to.
/// * The `start` function in the instance, if present, traps.
/// * Module/instance resource limits are exceeded.
///
/// When instantiation fails it's recommended to inspect the return value to
/// see why it failed, or bubble it upwards. If you'd like to specifically
/// check for trap errors, you can use `error.downcast::<Trap>()`. For more
/// about error handling see the [`Trap`] documentation.
///
/// [`Trap`]: crate::Trap
///
/// # Panics
///
/// This function will panic if called with a store associated with a
/// [`asynchronous config`](crate::Config::async_support). This function
/// will also panic if any [`Extern`] supplied is not owned by `store`.
///
/// [inst]: https://webassembly.github.io/spec/core/exec/modules.html#exec-instantiation
/// [`ExternType`]: crate::ExternType
pub fn new(
mut store: impl AsContextMut,
module: &Module,
imports: &[Extern],
) -> Result<Instance> {
let mut store = store.as_context_mut();
let imports = Instance::typecheck_externs(store.0, module, imports)?;
// Note that the unsafety here should be satisfied by the call to
// `typecheck_externs` above which satisfies the condition that all
// the imports are valid for this module.
unsafe { Instance::new_started(&mut store, module, imports.as_ref()) }
}
/// Same as [`Instance::new`], except for usage in [asynchronous stores].
///
/// For more details about this function see the documentation on
/// [`Instance::new`]. The only difference between these two methods is that
/// this one will asynchronously invoke the wasm start function in case it
/// calls any imported function which is an asynchronous host function (e.g.
/// created with [`Func::new_async`](crate::Func::new_async).
///
/// # Panics
///
/// This function will panic if called with a store associated with a
/// [`synchronous config`](crate::Config::new). This is only compatible with
/// stores associated with an [`asynchronous
/// config`](crate::Config::async_support).
///
/// This function will also panic, like [`Instance::new`], if any [`Extern`]
/// specified does not belong to `store`.
#[cfg(feature = "async")]
pub async fn new_async<T>(
mut store: impl AsContextMut<Data = T>,
module: &Module,
imports: &[Extern],
) -> Result<Instance>
where
T: Send,
{
let mut store = store.as_context_mut();
let imports = Instance::typecheck_externs(store.0, module, imports)?;
// See `new` for notes on this unsafety
unsafe { Instance::new_started_async(&mut store, module, imports.as_ref()).await }
}
fn typecheck_externs(
store: &mut StoreOpaque,
module: &Module,
imports: &[Extern],
) -> Result<OwnedImports> {
for import in imports {
if !import.comes_from_same_store(store) {
bail!("cross-`Store` instantiation is not currently supported");
}
}
typecheck(module, imports, |cx, ty, item| {
let item = DefinitionType::from(store, item);
cx.definition(ty, &item)
})?;
let mut owned_imports = OwnedImports::new(module);
for import in imports {
owned_imports.push(import, store, module);
}
Ok(owned_imports)
}
/// Internal function to create an instance and run the start function.
///
/// This function's unsafety is the same as `Instance::new_raw`.
pub(crate) unsafe fn new_started<T>(
store: &mut StoreContextMut<'_, T>,
module: &Module,
imports: Imports<'_>,
) -> Result<Instance> {
assert!(
!store.0.async_support(),
"must use async instantiation when async support is enabled",
);
Self::new_started_impl(store, module, imports)
}
/// Internal function to create an instance and run the start function.
///
/// ONLY CALL THIS IF YOU HAVE ALREADY CHECKED FOR ASYNCNESS AND HANDLED
/// THE FIBER NONSENSE
pub(crate) unsafe fn new_started_impl<T>(
store: &mut StoreContextMut<'_, T>,
module: &Module,
imports: Imports<'_>,
) -> Result<Instance> {
let (instance, start) = Instance::new_raw(store.0, module, imports)?;
if let Some(start) = start {
instance.start_raw(store, start)?;
}
Ok(instance)
}
/// Internal function to create an instance and run the start function.
///
/// This function's unsafety is the same as `Instance::new_raw`.
#[cfg(feature = "async")]
async unsafe fn new_started_async<T>(
store: &mut StoreContextMut<'_, T>,
module: &Module,
imports: Imports<'_>,
) -> Result<Instance>
where
T: Send,
{
assert!(
store.0.async_support(),
"must use sync instantiation when async support is disabled",
);
store
.on_fiber(|store| Self::new_started_impl(store, module, imports))
.await?
}
/// Internal function to create an instance which doesn't have its `start`
/// function run yet.
///
/// This is not intended to be exposed from Wasmtime, it's intended to
/// refactor out common code from `new_started` and `new_started_async`.
///
/// Note that this step needs to be run on a fiber in async mode even
/// though it doesn't do any blocking work because an async resource
/// limiter may need to yield.
///
/// # Unsafety
///
/// This method is unsafe because it does not type-check the `imports`
/// provided. The `imports` provided must be suitable for the module
/// provided as well.
unsafe fn new_raw(
store: &mut StoreOpaque,
module: &Module,
imports: Imports<'_>,
) -> Result<(Instance, Option<FuncIndex>)> {
if !Engine::same(store.engine(), module.engine()) {
bail!("cross-`Engine` instantiation is not currently supported");
}
store.bump_resource_counts(module)?;
// Allocate the GC heap, if necessary.
let _ = store.gc_store_mut()?;
let compiled_module = module.compiled_module();
// Register the module just before instantiation to ensure we keep the module
// properly referenced while in use by the store.
let module_id = store.modules_mut().register_module(module);
store.fill_func_refs();
// The first thing we do is issue an instance allocation request
// to the instance allocator. This, on success, will give us an
// instance handle.
//
// Note that the `host_state` here is a pointer back to the
// `Instance` we'll be returning from this function. This is a
// circular reference so we can't construct it before we construct
// this instance, so we determine what the ID is and then assert
// it's the same later when we do actually insert it.
let instance_to_be = store.store_data().next_id::<InstanceData>();
let mut instance_handle =
store
.engine()
.allocator()
.allocate_module(InstanceAllocationRequest {
runtime_info: &ModuleRuntimeInfo::Module(module.clone()),
imports,
host_state: Box::new(Instance(instance_to_be)),
store: StorePtr::new(store.traitobj()),
wmemcheck: store.engine().config().wmemcheck,
pkey: store.get_pkey(),
})?;
// The instance still has lots of setup, for example
// data/elements/start/etc. This can all fail, but even on failure
// the instance may persist some state via previous successful
// initialization. For this reason once we have an instance handle
// we immediately insert it into the store to keep it alive.
//
// Note that we `clone` the instance handle just to make easier
// working the borrow checker here easier. Technically the `&mut
// instance` has somewhat of a borrow on `store` (which
// conflicts with the borrow on `store.engine`) but this doesn't
// matter in practice since initialization isn't even running any
// code here anyway.
let id = store.add_instance(instance_handle.clone(), module_id);
// Additionally, before we start doing fallible instantiation, we
// do one more step which is to insert an `InstanceData`
// corresponding to this instance. This `InstanceData` can be used
// via `Caller::get_export` if our instance's state "leaks" into
// other instances, even if we don't return successfully from this
// function.
//
// We don't actually load all exports from the instance at this
// time, instead preferring to lazily load them as they're demanded.
// For module/instance exports, though, those aren't actually
// stored in the instance handle so we need to immediately handle
// those here.
let instance = {
let exports = vec![None; compiled_module.module().exports.len()];
let data = InstanceData { id, exports };
Instance::from_wasmtime(data, store)
};
// double-check our guess of what the new instance's ID would be
// was actually correct.
assert_eq!(instance.0, instance_to_be);
// Now that we've recorded all information we need to about this
// instance within a `Store` we can start performing fallible
// initialization. Note that we still defer the `start` function to
// later since that may need to run asynchronously.
//
// If this returns an error (or if the start function traps) then
// any other initialization which may have succeeded which placed
// items from this instance into other instances should be ok when
// those items are loaded and run we'll have all the metadata to
// look at them.
instance_handle.initialize(
compiled_module.module(),
store
.engine()
.features()
.contains(WasmFeatures::BULK_MEMORY),
)?;
Ok((instance, compiled_module.module().start_func))
}
pub(crate) fn from_wasmtime(handle: InstanceData, store: &mut StoreOpaque) -> Instance {
Instance(store.store_data_mut().insert(handle))
}
fn start_raw<T>(&self, store: &mut StoreContextMut<'_, T>, start: FuncIndex) -> Result<()> {
let id = store.0.store_data()[self.0].id;
// If a start function is present, invoke it. Make sure we use all the
// trap-handling configuration in `store` as well.
let instance = store.0.instance_mut(id);
let f = instance.get_exported_func(start);
let caller_vmctx = instance.vmctx();
unsafe {
super::func::invoke_wasm_and_catch_traps(store, |_default_caller| {
let func = f.func_ref.as_ref().array_call;
func(
f.func_ref.as_ref().vmctx,
VMOpaqueContext::from_vmcontext(caller_vmctx),
[].as_mut_ptr(),
0,
)
})?;
}
Ok(())
}
/// Get this instance's module.
pub fn module<'a, T: 'a>(&self, store: impl Into<StoreContext<'a, T>>) -> &'a Module {
self._module(store.into().0)
}
fn _module<'a>(&self, store: &'a StoreOpaque) -> &'a Module {
let InstanceData { id, .. } = store[self.0];
store.module_for_instance(id).unwrap()
}
/// Returns the list of exported items from this [`Instance`].
///
/// # Panics
///
/// Panics if `store` does not own this instance.
pub fn exports<'a, T: 'a>(
&'a self,
store: impl Into<StoreContextMut<'a, T>>,
) -> impl ExactSizeIterator<Item = Export<'a>> + 'a {
self._exports(store.into().0)
}
fn _exports<'a>(
&'a self,
store: &'a mut StoreOpaque,
) -> impl ExactSizeIterator<Item = Export<'a>> + 'a {
// If this is an `Instantiated` instance then all the `exports` may not
// be filled in. Fill them all in now if that's the case.
let InstanceData { exports, id, .. } = &store[self.0];
if exports.iter().any(|e| e.is_none()) {
let module = Arc::clone(store.instance(*id).module());
let data = &store[self.0];
let id = data.id;
for name in module.exports.keys() {
let instance = store.instance(id);
if let Some((export_name_index, _, &entity)) =
instance.module().exports.get_full(name)
{
self._get_export(store, entity, export_name_index);
}
}
}
let data = &store.store_data()[self.0];
let module = store.instance(data.id).module();
module
.exports
.iter()
.zip(&data.exports)
.map(|((name, _), export)| Export::new(name, export.clone().unwrap()))
}
/// Looks up an exported [`Extern`] value by name.
///
/// This method will search the module for an export named `name` and return
/// the value, if found.
///
/// Returns `None` if there was no export named `name`.
///
/// # Panics
///
/// Panics if `store` does not own this instance.
///
/// # Why does `get_export` take a mutable context?
///
/// This method requires a mutable context because an instance's exports are
/// lazily populated, and we cache them as they are accessed. This makes
/// instantiating a module faster, but also means this method requires a
/// mutable context.
pub fn get_export(&self, mut store: impl AsContextMut, name: &str) -> Option<Extern> {
let store = store.as_context_mut().0;
let data = &store[self.0];
let instance = store.instance(data.id);
let (export_name_index, _, &entity) = instance.module().exports.get_full(name)?;
self._get_export(store, entity, export_name_index)
}
/// Looks up an exported [`Extern`] value by a [`ModuleExport`] value.
///
/// This is similar to [`Instance::get_export`] but uses a [`ModuleExport`] value to avoid
/// string lookups where possible. [`ModuleExport`]s can be obtained by calling
/// [`Module::get_export_index`] on the [`Module`] that this instance was instantiated with.
///
/// This method will search the module for an export with a matching entity index and return
/// the value, if found.
///
/// Returns `None` if there was no export with a matching entity index.
/// # Panics
///
/// Panics if `store` does not own this instance.
pub fn get_module_export(
&self,
mut store: impl AsContextMut,
export: &ModuleExport,
) -> Option<Extern> {
let store = store.as_context_mut().0;
// Verify the `ModuleExport` matches the module used in this instance.
if self._module(store).id() != export.module {
return None;
}
self._get_export(store, export.entity, export.export_name_index)
}
fn _get_export(
&self,
store: &mut StoreOpaque,
entity: EntityIndex,
export_name_index: usize,
) -> Option<Extern> {
// Instantiated instances will lazily fill in exports, so we process
// all that lazy logic here.
let data = &store[self.0];
if let Some(export) = &data.exports[export_name_index] {
return Some(export.clone());
}
let instance = store.instance_mut(data.id); // Reborrow the &mut InstanceHandle
let item =
unsafe { Extern::from_wasmtime_export(instance.get_export_by_index(entity), store) };
let data = &mut store[self.0];
data.exports[export_name_index] = Some(item.clone());
Some(item)
}
/// Looks up an exported [`Func`] value by name.
///
/// Returns `None` if there was no export named `name`, or if there was but
/// it wasn't a function.
///
/// # Panics
///
/// Panics if `store` does not own this instance.
pub fn get_func(&self, store: impl AsContextMut, name: &str) -> Option<Func> {
self.get_export(store, name)?.into_func()
}
/// Looks up an exported [`Func`] value by name and with its type.
///
/// This function is a convenience wrapper over [`Instance::get_func`] and
/// [`Func::typed`]. For more information see the linked documentation.
///
/// Returns an error if `name` isn't a function export or if the export's
/// type did not match `Params` or `Results`
///
/// # Panics
///
/// Panics if `store` does not own this instance.
pub fn get_typed_func<Params, Results>(
&self,
mut store: impl AsContextMut,
name: &str,
) -> Result<TypedFunc<Params, Results>>
where
Params: crate::WasmParams,
Results: crate::WasmResults,
{
let f = self
.get_export(store.as_context_mut(), name)
.and_then(|f| f.into_func())
.ok_or_else(|| anyhow!("failed to find function export `{}`", name))?;
Ok(f.typed::<Params, Results>(store)
.with_context(|| format!("failed to convert function `{name}` to given type"))?)
}
/// Looks up an exported [`Table`] value by name.
///
/// Returns `None` if there was no export named `name`, or if there was but
/// it wasn't a table.
///
/// # Panics
///
/// Panics if `store` does not own this instance.
pub fn get_table(&self, store: impl AsContextMut, name: &str) -> Option<Table> {
self.get_export(store, name)?.into_table()
}
/// Looks up an exported [`Memory`] value by name.
///
/// Returns `None` if there was no export named `name`, or if there was but
/// it wasn't a memory.
///
/// # Panics
///
/// Panics if `store` does not own this instance.
pub fn get_memory(&self, store: impl AsContextMut, name: &str) -> Option<Memory> {
self.get_export(store, name)?.into_memory()
}
/// Looks up an exported [`SharedMemory`] value by name.
///
/// Returns `None` if there was no export named `name`, or if there was but
/// it wasn't a shared memory.
///
/// # Panics
///
/// Panics if `store` does not own this instance.
pub fn get_shared_memory(
&self,
mut store: impl AsContextMut,
name: &str,
) -> Option<SharedMemory> {
let mut store = store.as_context_mut();
self.get_export(&mut store, name)?.into_shared_memory()
}
/// Looks up an exported [`Global`] value by name.
///
/// Returns `None` if there was no export named `name`, or if there was but
/// it wasn't a global.
///
/// # Panics
///
/// Panics if `store` does not own this instance.
pub fn get_global(&self, store: impl AsContextMut, name: &str) -> Option<Global> {
self.get_export(store, name)?.into_global()
}
#[cfg(feature = "component-model")]
pub(crate) fn id(&self, store: &StoreOpaque) -> InstanceId {
store[self.0].id
}
/// Get all globals within this instance.
///
/// Returns both import and defined globals.
///
/// Returns both exported and non-exported globals.
///
/// Gives access to the full globals space.
pub(crate) fn all_globals<'a>(
&'a self,
store: &'a mut StoreOpaque,
) -> impl ExactSizeIterator<Item = (GlobalIndex, Global)> + 'a {
let data = &store[self.0];
let instance = store.instance_mut(data.id);
instance
.all_globals()
.collect::<Vec<_>>()
.into_iter()
.map(|(i, g)| (i, unsafe { Global::from_wasmtime_global(g, store) }))
}
/// Get all memories within this instance.
///
/// Returns both import and defined memories.
///
/// Returns both exported and non-exported memories.
///
/// Gives access to the full memories space.
pub(crate) fn all_memories<'a>(
&'a self,
store: &'a mut StoreOpaque,
) -> impl ExactSizeIterator<Item = (MemoryIndex, Memory)> + 'a {
let data = &store[self.0];
let instance = store.instance_mut(data.id);
instance
.all_memories()
.collect::<Vec<_>>()
.into_iter()
.map(|(i, m)| (i, unsafe { Memory::from_wasmtime_memory(m, store) }))
}
}
pub(crate) struct OwnedImports {
functions: PrimaryMap<FuncIndex, VMFunctionImport>,
tables: PrimaryMap<TableIndex, VMTableImport>,
memories: PrimaryMap<MemoryIndex, VMMemoryImport>,
globals: PrimaryMap<GlobalIndex, VMGlobalImport>,
}
impl OwnedImports {
fn new(module: &Module) -> OwnedImports {
let mut ret = OwnedImports::empty();
ret.reserve(module);
return ret;
}
pub(crate) fn empty() -> OwnedImports {
OwnedImports {
functions: PrimaryMap::new(),
tables: PrimaryMap::new(),
memories: PrimaryMap::new(),
globals: PrimaryMap::new(),
}
}
pub(crate) fn reserve(&mut self, module: &Module) {
let raw = module.compiled_module().module();
self.functions.reserve(raw.num_imported_funcs);
self.tables.reserve(raw.num_imported_tables);
self.memories.reserve(raw.num_imported_memories);
self.globals.reserve(raw.num_imported_globals);
}
#[cfg(feature = "component-model")]
pub(crate) fn clear(&mut self) {
self.functions.clear();
self.tables.clear();
self.memories.clear();
self.globals.clear();
}
fn push(&mut self, item: &Extern, store: &mut StoreOpaque, module: &Module) {
match item {
Extern::Func(i) => {
self.functions.push(i.vmimport(store, module));
}
Extern::Global(i) => {
self.globals.push(i.vmimport(store));
}
Extern::Table(i) => {
self.tables.push(i.vmimport(store));
}
Extern::Memory(i) => {
self.memories.push(i.vmimport(store));
}
Extern::SharedMemory(i) => {
self.memories.push(i.vmimport(store));
}
}
}
/// Note that this is unsafe as the validity of `item` is not verified and
/// it contains a bunch of raw pointers.
#[cfg(feature = "component-model")]
pub(crate) unsafe fn push_export(&mut self, item: &crate::runtime::vm::Export) {
match item {
crate::runtime::vm::Export::Function(f) => {
let f = f.func_ref.as_ref();
self.functions.push(VMFunctionImport {
wasm_call: f.wasm_call.unwrap(),
array_call: f.array_call,
vmctx: f.vmctx,
});
}
crate::runtime::vm::Export::Global(g) => {
self.globals.push(VMGlobalImport { from: g.definition });
}
crate::runtime::vm::Export::Table(t) => {
self.tables.push(VMTableImport {
from: t.definition,
vmctx: t.vmctx,
});
}
crate::runtime::vm::Export::Memory(m) => {
self.memories.push(VMMemoryImport {
from: m.definition,
vmctx: m.vmctx,
index: m.index,
});
}
}
}
pub(crate) fn as_ref(&self) -> Imports<'_> {
Imports {
tables: self.tables.values().as_slice(),
globals: self.globals.values().as_slice(),
memories: self.memories.values().as_slice(),
functions: self.functions.values().as_slice(),
}
}
}
/// An instance, pre-instantiation, that is ready to be instantiated.
///
/// This structure represents an instance *just before* it was instantiated,
/// after all type-checking and imports have been resolved. The only thing left
/// to do for this instance is to actually run the process of instantiation.
///
/// Note that an `InstancePre` may not be tied to any particular [`Store`] if
/// none of the imports it closed over are tied to any particular [`Store`].
///
/// This structure is created through the [`Linker::instantiate_pre`] method,
/// which also has some more information and examples.
///
/// [`Store`]: crate::Store
/// [`Linker::instantiate_pre`]: crate::Linker::instantiate_pre
pub struct InstancePre<T> {
module: Module,
/// The items which this `InstancePre` use to instantiate the `module`
/// provided, passed to `Instance::new_started` after inserting them into a
/// `Store`.
///
/// Note that this is stored as an `Arc<[T]>` to quickly move a strong
/// reference to everything internally into a `Store<T>` without having to
/// clone each individual item.
items: Arc<[Definition]>,
/// A count of `Definition::HostFunc` entries in `items` above to
/// preallocate space in a `Store` up front for all entries to be inserted.
host_funcs: usize,
/// The `VMFuncRef`s for the functions in `items` that do not
/// have a `wasm_call` trampoline. We pre-allocate and pre-patch these
/// `VMFuncRef`s so that we don't have to do it at
/// instantiation time.
///
/// This is an `Arc<[T]>` for the same reason as `items`.
func_refs: Arc<[VMFuncRef]>,
_marker: core::marker::PhantomData<fn() -> T>,
}
/// InstancePre's clone does not require T: Clone
impl<T> Clone for InstancePre<T> {
fn clone(&self) -> Self {
Self {
module: self.module.clone(),
items: self.items.clone(),
host_funcs: self.host_funcs,
func_refs: self.func_refs.clone(),
_marker: self._marker,
}
}
}
impl<T> InstancePre<T> {
/// Creates a new `InstancePre` which type-checks the `items` provided and
/// on success is ready to instantiate a new instance.
///
/// # Unsafety
///
/// This method is unsafe as the `T` of the `InstancePre<T>` is not
/// guaranteed to be the same as the `T` within the `Store`, the caller must
/// verify that.
pub(crate) unsafe fn new(module: &Module, items: Vec<Definition>) -> Result<InstancePre<T>> {
typecheck(module, &items, |cx, ty, item| cx.definition(ty, &item.ty()))?;
let mut func_refs = vec![];
let mut host_funcs = 0;
for item in &items {
match item {
Definition::Extern(_, _) => {}
Definition::HostFunc(f) => {
host_funcs += 1;
if f.func_ref().wasm_call.is_none() {
// `f` needs its `VMFuncRef::wasm_call` patched with a
// Wasm-to-native trampoline.
debug_assert!(matches!(f.host_ctx(), crate::HostContext::Array(_)));
func_refs.push(VMFuncRef {
wasm_call: module.wasm_to_array_trampoline(f.sig_index()),
..*f.func_ref()
});
}
}
}
}
Ok(InstancePre {
module: module.clone(),
items: items.into(),
host_funcs,
func_refs: func_refs.into(),
_marker: core::marker::PhantomData,
})
}
/// Returns a reference to the module that this [`InstancePre`] will be
/// instantiating.
pub fn module(&self) -> &Module {
&self.module
}
/// Instantiates this instance, creating a new instance within the provided
/// `store`.
///
/// This function will run the actual process of instantiation to
/// completion. This will use all of the previously-closed-over items as
/// imports to instantiate the module that this was originally created with.
///
/// For more information about instantiation see [`Instance::new`].
///
/// # Panics
///
/// Panics if any import closed over by this [`InstancePre`] isn't owned by
/// `store`, or if `store` has async support enabled. Additionally this
/// function will panic if the `store` provided comes from a different
/// [`Engine`] than the [`InstancePre`] originally came from.
pub fn instantiate(&self, mut store: impl AsContextMut<Data = T>) -> Result<Instance> {
let mut store = store.as_context_mut();
let imports = pre_instantiate_raw(
&mut store.0,
&self.module,
&self.items,
self.host_funcs,
&self.func_refs,
)?;
// This unsafety should be handled by the type-checking performed by the
// constructor of `InstancePre` to assert that all the imports we're passing
// in match the module we're instantiating.
unsafe { Instance::new_started(&mut store, &self.module, imports.as_ref()) }
}
/// Creates a new instance, running the start function asynchronously
/// instead of inline.
///
/// For more information about asynchronous instantiation see the
/// documentation on [`Instance::new_async`].
///
/// # Panics
///
/// Panics if any import closed over by this [`InstancePre`] isn't owned by
/// `store`, or if `store` does not have async support enabled.
#[cfg(feature = "async")]
pub async fn instantiate_async(
&self,
mut store: impl AsContextMut<Data = T>,
) -> Result<Instance>
where
T: Send,
{
let mut store = store.as_context_mut();
let imports = pre_instantiate_raw(
&mut store.0,
&self.module,
&self.items,
self.host_funcs,
&self.func_refs,
)?;
// This unsafety should be handled by the type-checking performed by the
// constructor of `InstancePre` to assert that all the imports we're passing
// in match the module we're instantiating.
unsafe { Instance::new_started_async(&mut store, &self.module, imports.as_ref()).await }
}
}
/// Helper function shared between
/// `InstancePre::{instantiate,instantiate_async}`
///
/// This is an out-of-line function to avoid the generic on `InstancePre` and
/// get this compiled into the `wasmtime` crate to avoid having it monomorphized
/// elsewhere.
fn pre_instantiate_raw(
store: &mut StoreOpaque,
module: &Module,
items: &Arc<[Definition]>,
host_funcs: usize,
func_refs: &Arc<[VMFuncRef]>,
) -> Result<OwnedImports> {
if host_funcs > 0 {
// Any linker-defined function of the `Definition::HostFunc` variant
// will insert a function into the store automatically as part of
// instantiation, so reserve space here to make insertion more efficient
// as it won't have to realloc during the instantiation.
store.store_data_mut().reserve_funcs(host_funcs);
// The usage of `to_extern_store_rooted` requires that the items are
// rooted via another means, which happens here by cloning the list of
// items into the store once. This avoids cloning each individual item
// below.
store.push_rooted_funcs(items.clone());
store.push_instance_pre_func_refs(func_refs.clone());
}
let mut func_refs = func_refs.iter().map(|f| NonNull::from(f));
let mut imports = OwnedImports::new(module);
for import in items.iter() {
if !import.comes_from_same_store(store) {
bail!("cross-`Store` instantiation is not currently supported");
}
// This unsafety should be encapsulated in the constructor of
// `InstancePre` where the `T` of the original item should match the
// `T` of the store. Additionally the rooting necessary has happened
// above.
let item = match import {
Definition::Extern(e, _) => e.clone(),
Definition::HostFunc(func) => unsafe {
func.to_func_store_rooted(
store,
if func.func_ref().wasm_call.is_none() {
Some(func_refs.next().unwrap())
} else {
None
},
)
.into()
},
};
imports.push(&item, store, module);
}
Ok(imports)
}
fn typecheck<I>(
module: &Module,
import_args: &[I],
check: impl Fn(&matching::MatchCx<'_>, &EntityType, &I) -> Result<()>,
) -> Result<()> {
let env_module = module.compiled_module().module();
let expected_len = env_module.imports().count();
let actual_len = import_args.len();
if expected_len != actual_len {
bail!("expected {expected_len} imports, found {actual_len}");
}
let cx = matching::MatchCx::new(module.engine());
for ((name, field, mut expected_ty), actual) in env_module.imports().zip(import_args) {
expected_ty.canonicalize_for_runtime_usage(&mut |module_index| {
module.signatures().shared_type(module_index).unwrap()
});
check(&cx, &expected_ty, actual)
.with_context(|| format!("incompatible import type for `{name}::{field}`"))?;
}
Ok(())
}