use crate::environ::{FuncEnvironment, GlobalVariable, ModuleEnvironment, TargetEnvironment};
use crate::func_translator::FuncTranslator;
use crate::state::FuncTranslationState;
use crate::WasmType;
use crate::{
DataIndex, DefinedFuncIndex, ElemIndex, FuncIndex, Global, GlobalIndex, Memory, MemoryIndex,
Table, TableIndex, TypeIndex, WasmFuncType, WasmResult,
};
use core::convert::TryFrom;
use cranelift_codegen::cursor::FuncCursor;
use cranelift_codegen::ir::immediates::{Offset32, Uimm64};
use cranelift_codegen::ir::{self, InstBuilder};
use cranelift_codegen::ir::{types::*, UserFuncName};
use cranelift_codegen::isa::{CallConv, TargetFrontendConfig};
use cranelift_entity::{EntityRef, PrimaryMap, SecondaryMap};
use cranelift_frontend::FunctionBuilder;
use std::boxed::Box;
use std::string::String;
use std::vec::Vec;
use wasmparser::{FuncValidator, FunctionBody, Operator, ValidatorResources, WasmFeatures};
pub struct Exportable<T> {
pub entity: T,
pub export_names: Vec<String>,
}
impl<T> Exportable<T> {
pub fn new(entity: T) -> Self {
Self {
entity,
export_names: Vec::new(),
}
}
}
pub struct DummyModuleInfo {
config: TargetFrontendConfig,
pub signatures: PrimaryMap<TypeIndex, ir::Signature>,
pub imported_funcs: Vec<(String, String)>,
pub imported_globals: Vec<(String, String)>,
pub imported_tables: Vec<(String, String)>,
pub imported_memories: Vec<(String, String)>,
pub functions: PrimaryMap<FuncIndex, Exportable<TypeIndex>>,
pub function_bodies: PrimaryMap<DefinedFuncIndex, ir::Function>,
pub tables: PrimaryMap<TableIndex, Exportable<Table>>,
pub memories: PrimaryMap<MemoryIndex, Exportable<Memory>>,
pub globals: PrimaryMap<GlobalIndex, Exportable<Global>>,
pub start_func: Option<FuncIndex>,
}
impl DummyModuleInfo {
pub fn new(config: TargetFrontendConfig) -> Self {
Self {
config,
signatures: PrimaryMap::new(),
imported_funcs: Vec::new(),
imported_globals: Vec::new(),
imported_tables: Vec::new(),
imported_memories: Vec::new(),
functions: PrimaryMap::new(),
function_bodies: PrimaryMap::new(),
tables: PrimaryMap::new(),
memories: PrimaryMap::new(),
globals: PrimaryMap::new(),
start_func: None,
}
}
}
#[derive(Clone)]
pub struct ExpectedReachability {
reachability: Vec<(bool, bool)>,
before_idx: usize,
after_idx: usize,
}
impl ExpectedReachability {
fn check_before(&mut self, reachable: bool) {
assert_eq!(reachable, self.reachability[self.before_idx].0);
self.before_idx += 1;
}
fn check_after(&mut self, reachable: bool) {
assert_eq!(reachable, self.reachability[self.after_idx].1);
self.after_idx += 1;
}
fn check_end(&self) {
assert_eq!(self.before_idx, self.reachability.len());
assert_eq!(self.after_idx, self.reachability.len());
}
}
pub struct DummyEnvironment {
pub info: DummyModuleInfo,
trans: FuncTranslator,
pub func_bytecode_sizes: Vec<usize>,
debug_info: bool,
pub module_name: Option<String>,
function_names: SecondaryMap<FuncIndex, String>,
expected_reachability: Option<ExpectedReachability>,
}
impl DummyEnvironment {
pub fn new(config: TargetFrontendConfig, debug_info: bool) -> Self {
Self {
info: DummyModuleInfo::new(config),
trans: FuncTranslator::new(),
func_bytecode_sizes: Vec::new(),
debug_info,
module_name: None,
function_names: SecondaryMap::new(),
expected_reachability: None,
}
}
pub fn func_env(&self) -> DummyFuncEnvironment {
DummyFuncEnvironment::new(&self.info, self.expected_reachability.clone())
}
fn get_func_type(&self, func_index: FuncIndex) -> TypeIndex {
self.info.functions[func_index].entity
}
pub fn get_num_func_imports(&self) -> usize {
self.info.imported_funcs.len()
}
pub fn get_func_name(&self, func_index: FuncIndex) -> Option<&str> {
self.function_names.get(func_index).map(String::as_ref)
}
pub fn test_expected_reachability(&mut self, reachability: Vec<(bool, bool)>) {
self.expected_reachability = Some(ExpectedReachability {
reachability,
before_idx: 0,
after_idx: 0,
});
}
}
pub struct DummyFuncEnvironment<'dummy_environment> {
pub mod_info: &'dummy_environment DummyModuleInfo,
expected_reachability: Option<ExpectedReachability>,
}
impl<'dummy_environment> DummyFuncEnvironment<'dummy_environment> {
pub fn new(
mod_info: &'dummy_environment DummyModuleInfo,
expected_reachability: Option<ExpectedReachability>,
) -> Self {
Self {
mod_info,
expected_reachability,
}
}
fn vmctx_sig(&self, sigidx: TypeIndex) -> ir::Signature {
let mut sig = self.mod_info.signatures[sigidx].clone();
sig.params.push(ir::AbiParam::special(
self.pointer_type(),
ir::ArgumentPurpose::VMContext,
));
sig
}
fn reference_type(&self) -> ir::Type {
match self.pointer_type() {
ir::types::I32 => ir::types::R32,
ir::types::I64 => ir::types::R64,
_ => panic!("unsupported pointer type"),
}
}
}
impl<'dummy_environment> TargetEnvironment for DummyFuncEnvironment<'dummy_environment> {
fn target_config(&self) -> TargetFrontendConfig {
self.mod_info.config
}
}
impl<'dummy_environment> FuncEnvironment for DummyFuncEnvironment<'dummy_environment> {
fn make_global(
&mut self,
func: &mut ir::Function,
index: GlobalIndex,
) -> WasmResult<GlobalVariable> {
let offset = i32::try_from((index.index() * 8) + 8).unwrap().into();
let vmctx = func.create_global_value(ir::GlobalValueData::VMContext {});
Ok(GlobalVariable::Memory {
gv: vmctx,
offset,
ty: match self.mod_info.globals[index].entity.wasm_ty {
WasmType::I32 => ir::types::I32,
WasmType::I64 => ir::types::I64,
WasmType::F32 => ir::types::F32,
WasmType::F64 => ir::types::F64,
WasmType::V128 => ir::types::I8X16,
WasmType::FuncRef | WasmType::ExternRef => ir::types::R64,
},
})
}
fn make_heap(&mut self, func: &mut ir::Function, _index: MemoryIndex) -> WasmResult<ir::Heap> {
let addr = func.create_global_value(ir::GlobalValueData::VMContext);
let gv = func.create_global_value(ir::GlobalValueData::Load {
base: addr,
offset: Offset32::new(0),
global_type: self.pointer_type(),
readonly: true,
});
Ok(func.create_heap(ir::HeapData {
base: gv,
min_size: 0.into(),
offset_guard_size: 0x8000_0000.into(),
style: ir::HeapStyle::Static {
bound: 0x1_0000_0000.into(),
},
index_type: I32,
}))
}
fn make_table(&mut self, func: &mut ir::Function, _index: TableIndex) -> WasmResult<ir::Table> {
let vmctx = func.create_global_value(ir::GlobalValueData::VMContext);
let base_gv = func.create_global_value(ir::GlobalValueData::Load {
base: vmctx,
offset: Offset32::new(0),
global_type: self.pointer_type(),
readonly: true, });
let bound_gv = func.create_global_value(ir::GlobalValueData::Load {
base: vmctx,
offset: Offset32::new(0),
global_type: I32,
readonly: true,
});
Ok(func.create_table(ir::TableData {
base_gv,
min_size: Uimm64::new(0),
bound_gv,
element_size: Uimm64::from(u64::from(self.pointer_bytes()) * 2),
index_type: I32,
}))
}
fn make_indirect_sig(
&mut self,
func: &mut ir::Function,
index: TypeIndex,
) -> WasmResult<ir::SigRef> {
Ok(func.import_signature(self.vmctx_sig(index)))
}
fn make_direct_func(
&mut self,
func: &mut ir::Function,
index: FuncIndex,
) -> WasmResult<ir::FuncRef> {
let sigidx = self.mod_info.functions[index].entity;
let signature = func.import_signature(self.vmctx_sig(sigidx));
let name =
ir::ExternalName::User(func.declare_imported_user_function(ir::UserExternalName {
namespace: 0,
index: index.as_u32(),
}));
Ok(func.import_function(ir::ExtFuncData {
name,
signature,
colocated: false,
}))
}
fn before_translate_operator(
&mut self,
_op: &Operator,
_builder: &mut FunctionBuilder,
state: &FuncTranslationState,
) -> WasmResult<()> {
if let Some(ref mut r) = &mut self.expected_reachability {
r.check_before(state.reachable());
}
Ok(())
}
fn after_translate_operator(
&mut self,
_op: &Operator,
_builder: &mut FunctionBuilder,
state: &FuncTranslationState,
) -> WasmResult<()> {
if let Some(ref mut r) = &mut self.expected_reachability {
r.check_after(state.reachable());
}
Ok(())
}
fn after_translate_function(
&mut self,
_builder: &mut FunctionBuilder,
_state: &FuncTranslationState,
) -> WasmResult<()> {
if let Some(ref mut r) = &mut self.expected_reachability {
r.check_end();
}
Ok(())
}
fn translate_call_indirect(
&mut self,
builder: &mut FunctionBuilder,
_table_index: TableIndex,
_table: ir::Table,
_sig_index: TypeIndex,
sig_ref: ir::SigRef,
callee: ir::Value,
call_args: &[ir::Value],
) -> WasmResult<ir::Inst> {
let vmctx = builder
.func
.special_param(ir::ArgumentPurpose::VMContext)
.expect("Missing vmctx parameter");
let ptr = self.pointer_type();
let callee_offset = if ptr == I32 {
builder.ins().imul_imm(callee, 4)
} else {
let ext = builder.ins().uextend(I64, callee);
builder.ins().imul_imm(ext, 4)
};
let mflags = ir::MemFlags::trusted();
let func_ptr = builder.ins().load(ptr, mflags, callee_offset, 0);
let mut args = ir::ValueList::default();
args.push(func_ptr, &mut builder.func.dfg.value_lists);
args.extend(call_args.iter().cloned(), &mut builder.func.dfg.value_lists);
args.push(vmctx, &mut builder.func.dfg.value_lists);
Ok(builder
.ins()
.CallIndirect(ir::Opcode::CallIndirect, INVALID, sig_ref, args)
.0)
}
fn translate_call(
&mut self,
mut pos: FuncCursor,
_callee_index: FuncIndex,
callee: ir::FuncRef,
call_args: &[ir::Value],
) -> WasmResult<ir::Inst> {
let vmctx = pos
.func
.special_param(ir::ArgumentPurpose::VMContext)
.expect("Missing vmctx parameter");
let mut args = ir::ValueList::default();
args.extend(call_args.iter().cloned(), &mut pos.func.dfg.value_lists);
args.push(vmctx, &mut pos.func.dfg.value_lists);
Ok(pos.ins().Call(ir::Opcode::Call, INVALID, callee, args).0)
}
fn translate_memory_grow(
&mut self,
mut pos: FuncCursor,
_index: MemoryIndex,
_heap: ir::Heap,
_val: ir::Value,
) -> WasmResult<ir::Value> {
Ok(pos.ins().iconst(I32, -1))
}
fn translate_memory_size(
&mut self,
mut pos: FuncCursor,
_index: MemoryIndex,
_heap: ir::Heap,
) -> WasmResult<ir::Value> {
Ok(pos.ins().iconst(I32, -1))
}
fn translate_memory_copy(
&mut self,
_pos: FuncCursor,
_src_index: MemoryIndex,
_src_heap: ir::Heap,
_dst_index: MemoryIndex,
_dst_heap: ir::Heap,
_dst: ir::Value,
_src: ir::Value,
_len: ir::Value,
) -> WasmResult<()> {
Ok(())
}
fn translate_memory_fill(
&mut self,
_pos: FuncCursor,
_index: MemoryIndex,
_heap: ir::Heap,
_dst: ir::Value,
_val: ir::Value,
_len: ir::Value,
) -> WasmResult<()> {
Ok(())
}
fn translate_memory_init(
&mut self,
_pos: FuncCursor,
_index: MemoryIndex,
_heap: ir::Heap,
_seg_index: u32,
_dst: ir::Value,
_src: ir::Value,
_len: ir::Value,
) -> WasmResult<()> {
Ok(())
}
fn translate_data_drop(&mut self, _pos: FuncCursor, _seg_index: u32) -> WasmResult<()> {
Ok(())
}
fn translate_table_size(
&mut self,
mut pos: FuncCursor,
_index: TableIndex,
_table: ir::Table,
) -> WasmResult<ir::Value> {
Ok(pos.ins().iconst(I32, -1))
}
fn translate_table_grow(
&mut self,
mut pos: FuncCursor,
_table_index: TableIndex,
_table: ir::Table,
_delta: ir::Value,
_init_value: ir::Value,
) -> WasmResult<ir::Value> {
Ok(pos.ins().iconst(I32, -1))
}
fn translate_table_get(
&mut self,
builder: &mut FunctionBuilder,
_table_index: TableIndex,
_table: ir::Table,
_index: ir::Value,
) -> WasmResult<ir::Value> {
Ok(builder.ins().null(self.reference_type()))
}
fn translate_table_set(
&mut self,
_builder: &mut FunctionBuilder,
_table_index: TableIndex,
_table: ir::Table,
_value: ir::Value,
_index: ir::Value,
) -> WasmResult<()> {
Ok(())
}
fn translate_table_copy(
&mut self,
_pos: FuncCursor,
_dst_index: TableIndex,
_dst_table: ir::Table,
_src_index: TableIndex,
_src_table: ir::Table,
_dst: ir::Value,
_src: ir::Value,
_len: ir::Value,
) -> WasmResult<()> {
Ok(())
}
fn translate_table_fill(
&mut self,
_pos: FuncCursor,
_table_index: TableIndex,
_dst: ir::Value,
_val: ir::Value,
_len: ir::Value,
) -> WasmResult<()> {
Ok(())
}
fn translate_table_init(
&mut self,
_pos: FuncCursor,
_seg_index: u32,
_table_index: TableIndex,
_table: ir::Table,
_dst: ir::Value,
_src: ir::Value,
_len: ir::Value,
) -> WasmResult<()> {
Ok(())
}
fn translate_elem_drop(&mut self, _pos: FuncCursor, _seg_index: u32) -> WasmResult<()> {
Ok(())
}
fn translate_ref_func(
&mut self,
mut pos: FuncCursor,
_func_index: FuncIndex,
) -> WasmResult<ir::Value> {
Ok(pos.ins().null(self.reference_type()))
}
fn translate_custom_global_get(
&mut self,
mut pos: FuncCursor,
_global_index: GlobalIndex,
) -> WasmResult<ir::Value> {
Ok(pos.ins().iconst(I32, -1))
}
fn translate_custom_global_set(
&mut self,
_pos: FuncCursor,
_global_index: GlobalIndex,
_val: ir::Value,
) -> WasmResult<()> {
Ok(())
}
fn translate_atomic_wait(
&mut self,
mut pos: FuncCursor,
_index: MemoryIndex,
_heap: ir::Heap,
_addr: ir::Value,
_expected: ir::Value,
_timeout: ir::Value,
) -> WasmResult<ir::Value> {
Ok(pos.ins().iconst(I32, -1))
}
fn translate_atomic_notify(
&mut self,
mut pos: FuncCursor,
_index: MemoryIndex,
_heap: ir::Heap,
_addr: ir::Value,
_count: ir::Value,
) -> WasmResult<ir::Value> {
Ok(pos.ins().iconst(I32, 0))
}
fn unsigned_add_overflow_condition(&self) -> ir::condcodes::IntCC {
unimplemented!()
}
}
impl TargetEnvironment for DummyEnvironment {
fn target_config(&self) -> TargetFrontendConfig {
self.info.config
}
}
impl<'data> ModuleEnvironment<'data> for DummyEnvironment {
fn declare_type_func(&mut self, wasm: WasmFuncType) -> WasmResult<()> {
let mut sig = ir::Signature::new(CallConv::Fast);
let mut cvt = |ty: &WasmType| {
let reference_type = match self.pointer_type() {
ir::types::I32 => ir::types::R32,
ir::types::I64 => ir::types::R64,
_ => panic!("unsupported pointer type"),
};
ir::AbiParam::new(match ty {
WasmType::I32 => ir::types::I32,
WasmType::I64 => ir::types::I64,
WasmType::F32 => ir::types::F32,
WasmType::F64 => ir::types::F64,
WasmType::V128 => ir::types::I8X16,
WasmType::FuncRef | WasmType::ExternRef => reference_type,
})
};
sig.params.extend(wasm.params().iter().map(&mut cvt));
sig.returns.extend(wasm.returns().iter().map(&mut cvt));
self.info.signatures.push(sig);
Ok(())
}
fn declare_func_import(
&mut self,
index: TypeIndex,
module: &'data str,
field: &'data str,
) -> WasmResult<()> {
assert_eq!(
self.info.functions.len(),
self.info.imported_funcs.len(),
"Imported functions must be declared first"
);
self.info.functions.push(Exportable::new(index));
self.info
.imported_funcs
.push((String::from(module), String::from(field)));
Ok(())
}
fn declare_func_type(&mut self, index: TypeIndex) -> WasmResult<()> {
self.info.functions.push(Exportable::new(index));
Ok(())
}
fn declare_global(&mut self, global: Global) -> WasmResult<()> {
self.info.globals.push(Exportable::new(global));
Ok(())
}
fn declare_global_import(
&mut self,
global: Global,
module: &'data str,
field: &'data str,
) -> WasmResult<()> {
self.info.globals.push(Exportable::new(global));
self.info
.imported_globals
.push((String::from(module), String::from(field)));
Ok(())
}
fn declare_table(&mut self, table: Table) -> WasmResult<()> {
self.info.tables.push(Exportable::new(table));
Ok(())
}
fn declare_table_import(
&mut self,
table: Table,
module: &'data str,
field: &'data str,
) -> WasmResult<()> {
self.info.tables.push(Exportable::new(table));
self.info
.imported_tables
.push((String::from(module), String::from(field)));
Ok(())
}
fn declare_table_elements(
&mut self,
_table_index: TableIndex,
_base: Option<GlobalIndex>,
_offset: u32,
_elements: Box<[FuncIndex]>,
) -> WasmResult<()> {
Ok(())
}
fn declare_passive_element(
&mut self,
_elem_index: ElemIndex,
_segments: Box<[FuncIndex]>,
) -> WasmResult<()> {
Ok(())
}
fn declare_passive_data(
&mut self,
_elem_index: DataIndex,
_segments: &'data [u8],
) -> WasmResult<()> {
Ok(())
}
fn declare_memory(&mut self, memory: Memory) -> WasmResult<()> {
self.info.memories.push(Exportable::new(memory));
Ok(())
}
fn declare_memory_import(
&mut self,
memory: Memory,
module: &'data str,
field: &'data str,
) -> WasmResult<()> {
self.info.memories.push(Exportable::new(memory));
self.info
.imported_memories
.push((String::from(module), String::from(field)));
Ok(())
}
fn declare_data_initialization(
&mut self,
_memory_index: MemoryIndex,
_base: Option<GlobalIndex>,
_offset: u64,
_data: &'data [u8],
) -> WasmResult<()> {
Ok(())
}
fn declare_func_export(&mut self, func_index: FuncIndex, name: &'data str) -> WasmResult<()> {
self.info.functions[func_index]
.export_names
.push(String::from(name));
Ok(())
}
fn declare_table_export(
&mut self,
table_index: TableIndex,
name: &'data str,
) -> WasmResult<()> {
self.info.tables[table_index]
.export_names
.push(String::from(name));
Ok(())
}
fn declare_memory_export(
&mut self,
memory_index: MemoryIndex,
name: &'data str,
) -> WasmResult<()> {
self.info.memories[memory_index]
.export_names
.push(String::from(name));
Ok(())
}
fn declare_global_export(
&mut self,
global_index: GlobalIndex,
name: &'data str,
) -> WasmResult<()> {
self.info.globals[global_index]
.export_names
.push(String::from(name));
Ok(())
}
fn declare_start_func(&mut self, func_index: FuncIndex) -> WasmResult<()> {
debug_assert!(self.info.start_func.is_none());
self.info.start_func = Some(func_index);
Ok(())
}
fn define_function_body(
&mut self,
mut validator: FuncValidator<ValidatorResources>,
body: FunctionBody<'data>,
) -> WasmResult<()> {
self.func_bytecode_sizes
.push(body.get_binary_reader().bytes_remaining());
let func = {
let mut func_environ =
DummyFuncEnvironment::new(&self.info, self.expected_reachability.clone());
let func_index =
FuncIndex::new(self.get_num_func_imports() + self.info.function_bodies.len());
let sig = func_environ.vmctx_sig(self.get_func_type(func_index));
let mut func =
ir::Function::with_name_signature(UserFuncName::user(0, func_index.as_u32()), sig);
if self.debug_info {
func.collect_debug_info();
}
self.trans
.translate_body(&mut validator, body, &mut func, &mut func_environ)?;
func
};
self.info.function_bodies.push(func);
Ok(())
}
fn declare_module_name(&mut self, name: &'data str) {
self.module_name = Some(String::from(name));
}
fn declare_func_name(&mut self, func_index: FuncIndex, name: &'data str) {
self.function_names[func_index] = String::from(name);
}
fn wasm_features(&self) -> WasmFeatures {
WasmFeatures {
multi_value: true,
simd: true,
reference_types: true,
bulk_memory: true,
..WasmFeatures::default()
}
}
}