use crate::LinkError;
use more_asserts::assert_ge;
use wasmer_types::entity::{BoxedSlice, EntityRef, PrimaryMap};
use wasmer_types::{
ExternType, FunctionIndex, ImportError, ImportIndex, MemoryIndex, ModuleInfo, TableIndex,
};
use wasmer_vm::{
FunctionBodyPtr, Imports, LinearMemory, MemoryStyle, StoreObjects, TableStyle, VMExtern,
VMFunctionBody, VMFunctionImport, VMFunctionKind, VMGlobalImport, VMMemoryImport,
VMTableImport,
};
fn get_extern_from_import(module: &ModuleInfo, import_index: &ImportIndex) -> ExternType {
match import_index {
ImportIndex::Function(index) => {
let func = module.signatures[module.functions[*index]].clone();
ExternType::Function(func)
}
ImportIndex::Table(index) => {
let table = module.tables[*index];
ExternType::Table(table)
}
ImportIndex::Memory(index) => {
let memory = module.memories[*index];
ExternType::Memory(memory)
}
ImportIndex::Global(index) => {
let global = module.globals[*index];
ExternType::Global(global)
}
}
}
fn get_extern_type(context: &StoreObjects, extern_: &VMExtern) -> ExternType {
match extern_ {
VMExtern::Function(f) => ExternType::Function(f.get(context).signature.clone()),
VMExtern::Table(t) => ExternType::Table(*t.get(context).ty()),
VMExtern::Memory(m) => ExternType::Memory(m.get(context).ty()),
VMExtern::Global(g) => {
let global = g.get(context).ty();
ExternType::Global(*global)
}
}
}
fn get_runtime_size(context: &StoreObjects, extern_: &VMExtern) -> Option<u32> {
match extern_ {
VMExtern::Table(t) => Some(t.get(context).get_runtime_size()),
VMExtern::Memory(m) => Some(m.get(context).get_runtime_size()),
_ => None,
}
}
#[allow(clippy::result_large_err)]
pub fn resolve_imports(
module: &ModuleInfo,
imports: &[VMExtern],
context: &StoreObjects,
finished_dynamic_function_trampolines: &BoxedSlice<FunctionIndex, FunctionBodyPtr>,
memory_styles: &PrimaryMap<MemoryIndex, MemoryStyle>,
_table_styles: &PrimaryMap<TableIndex, TableStyle>,
) -> Result<Imports, LinkError> {
let mut function_imports = PrimaryMap::with_capacity(module.num_imported_functions);
let mut table_imports = PrimaryMap::with_capacity(module.num_imported_tables);
let mut memory_imports = PrimaryMap::with_capacity(module.num_imported_memories);
let mut global_imports = PrimaryMap::with_capacity(module.num_imported_globals);
for (
wasmer_types::ImportKey {
module: module_name,
field,
import_idx,
},
import_index,
) in module.imports.iter()
{
let import_extern = get_extern_from_import(module, import_index);
let resolved = if let Some(r) = imports.get(*import_idx as usize) {
r
} else {
return Err(LinkError::Import(
module_name.to_string(),
field.to_string(),
ImportError::UnknownImport(import_extern),
));
};
let extern_type = get_extern_type(context, resolved);
let runtime_size = get_runtime_size(context, resolved);
if !extern_type.is_compatible_with(&import_extern, runtime_size) {
return Err(LinkError::Import(
module_name.to_string(),
field.to_string(),
ImportError::IncompatibleType(import_extern, extern_type),
));
}
match *resolved {
VMExtern::Function(handle) => {
let f = handle.get(context);
let address = match f.kind {
VMFunctionKind::Dynamic => {
let index = FunctionIndex::new(function_imports.len());
finished_dynamic_function_trampolines[index].0 as *mut VMFunctionBody as _
}
VMFunctionKind::Static => unsafe { f.anyfunc.as_ptr().as_ref().func_ptr },
};
function_imports.push(VMFunctionImport {
body: address,
environment: unsafe { f.anyfunc.as_ptr().as_ref().vmctx },
handle,
});
}
VMExtern::Table(handle) => {
let t = handle.get(context);
match import_index {
ImportIndex::Table(index) => {
let import_table_ty = t.ty();
let expected_table_ty = &module.tables[*index];
if import_table_ty.ty != expected_table_ty.ty {
return Err(LinkError::Import(
module_name.to_string(),
field.to_string(),
ImportError::IncompatibleType(import_extern, extern_type),
));
}
table_imports.push(VMTableImport {
definition: t.vmtable(),
handle,
});
}
_ => {
unreachable!("Table resolution did not match");
}
}
}
VMExtern::Memory(handle) => {
let m = handle.get(context);
match import_index {
ImportIndex::Memory(index) => {
let export_memory_style = m.style();
let import_memory_style = &memory_styles[*index];
if let (
MemoryStyle::Static { bound, .. },
MemoryStyle::Static {
bound: import_bound,
..
},
) = (export_memory_style, &import_memory_style)
{
assert_ge!(bound, *import_bound);
}
assert_ge!(
export_memory_style.offset_guard_size(),
import_memory_style.offset_guard_size()
);
}
_ => {
panic!("Memory resolution didn't matched");
}
}
memory_imports.push(VMMemoryImport {
definition: m.vmmemory(),
handle,
});
}
VMExtern::Global(handle) => {
let g = handle.get(context);
global_imports.push(VMGlobalImport {
definition: g.vmglobal(),
handle,
});
}
}
}
Ok(Imports::new(
function_imports,
table_imports,
memory_imports,
global_imports,
))
}