wasmer/lib/clif-backend/src/module_env.rs
2019-02-12 10:49:43 -08:00

565 lines
20 KiB
Rust

use crate::{
func_env::FuncEnv,
module::{Converter, Module},
};
use cranelift_codegen::{ir, isa};
use cranelift_wasm::{self, translate_module, FuncTranslator, ModuleEnvironment};
use std::sync::Arc;
use wasmer_runtime_core::{
error::{CompileError, CompileResult},
module::{
DataInitializer, ExportIndex, ImportName, NameIndex, NamespaceIndex, StringTableBuilder,
TableInitializer,
},
structures::{Map, TypedIndex},
types::{
ElementType, GlobalDescriptor, GlobalIndex, GlobalInit, Initializer, LocalFuncIndex,
LocalOrImport, MemoryDescriptor, SigIndex, TableDescriptor, Value,
},
units::Pages,
};
pub struct ModuleEnv<'module, 'isa> {
pub module: &'module mut Module,
isa: &'isa isa::TargetIsa,
pub signatures: Map<SigIndex, ir::Signature>,
globals: Map<GlobalIndex, cranelift_wasm::Global>,
func_bodies: Map<LocalFuncIndex, ir::Function>,
namespace_table_builder: StringTableBuilder<NamespaceIndex>,
name_table_builder: StringTableBuilder<NameIndex>,
}
impl<'module, 'isa> ModuleEnv<'module, 'isa> {
pub fn new(module: &'module mut Module, isa: &'isa isa::TargetIsa) -> Self {
Self {
module,
isa,
signatures: Map::new(),
globals: Map::new(),
func_bodies: Map::new(),
namespace_table_builder: StringTableBuilder::new(),
name_table_builder: StringTableBuilder::new(),
}
}
pub fn translate(mut self, wasm: &[u8]) -> CompileResult<Map<LocalFuncIndex, ir::Function>> {
translate_module(wasm, &mut self)
.map_err(|e| CompileError::InternalError { msg: e.to_string() })?;
self.module.info.namespace_table = self.namespace_table_builder.finish();
self.module.info.name_table = self.name_table_builder.finish();
Ok(self.func_bodies)
}
}
impl<'module, 'isa, 'data> ModuleEnvironment<'data> for ModuleEnv<'module, 'isa> {
/// Get the information needed to produce Cranelift IR for the current target.
fn target_config(&self) -> isa::TargetFrontendConfig {
self.isa.frontend_config()
}
/// Declares a function signature to the environment.
fn declare_signature(&mut self, sig: &ir::Signature) {
self.signatures.push(sig.clone());
self.module
.info
.signatures
.push(Arc::new(Converter(sig).into()));
}
/// Return the signature with the given index.
fn get_signature(&self, clif_sig_index: cranelift_wasm::SignatureIndex) -> &ir::Signature {
&self.signatures[Converter(clif_sig_index).into()]
}
/// Declares a function import to the environment.
fn declare_func_import(
&mut self,
clif_sig_index: cranelift_wasm::SignatureIndex,
namespace: &'data str,
name: &'data str,
) {
// We convert the cranelift signature index to
// a wasmer signature index without deduplicating
// because we'll deduplicate later.
let sig_index = Converter(clif_sig_index).into();
self.module.info.func_assoc.push(sig_index);
let namespace_index = self.namespace_table_builder.register(namespace);
let name_index = self.name_table_builder.register(name);
// Add import names to list of imported functions
self.module.info.imported_functions.push(ImportName {
namespace_index,
name_index,
});
}
/// Return the number of imported funcs.
fn get_num_func_imports(&self) -> usize {
self.module.info.imported_functions.len()
}
/// Declares the type (signature) of a local function in the module.
fn declare_func_type(&mut self, clif_sig_index: cranelift_wasm::SignatureIndex) {
// We convert the cranelift signature index to
// a wasmer signature index without deduplicating
// because we'll deduplicate later.
let sig_index = Converter(clif_sig_index).into();
self.module.info.func_assoc.push(sig_index);
}
/// Return the signature index for the given function index.
fn get_func_type(
&self,
func_index: cranelift_wasm::FuncIndex,
) -> cranelift_wasm::SignatureIndex {
let sig_index: SigIndex = self.module.info.func_assoc[Converter(func_index).into()];
Converter(sig_index).into()
}
/// Declares a global to the environment.
fn declare_global(&mut self, global: cranelift_wasm::Global) {
let desc = GlobalDescriptor {
mutable: global.mutability,
ty: Converter(global.ty).into(),
};
let init = match global.initializer {
cranelift_wasm::GlobalInit::I32Const(x) => Initializer::Const(Value::I32(x)),
cranelift_wasm::GlobalInit::I64Const(x) => Initializer::Const(Value::I64(x)),
cranelift_wasm::GlobalInit::F32Const(x) => {
Initializer::Const(Value::F32(f32::from_bits(x)))
}
cranelift_wasm::GlobalInit::F64Const(x) => {
Initializer::Const(Value::F64(f64::from_bits(x)))
}
cranelift_wasm::GlobalInit::GetGlobal(global_index) => {
// assert!(!desc.mutable);
let global_index: GlobalIndex = Converter(global_index).into();
let imported_global_index = global_index
.local_or_import(self.module)
.import()
.expect("invalid global initializer when declaring an imported global");
Initializer::GetGlobal(imported_global_index)
}
_ => panic!("invalid global initializer when declaring a local global"),
};
// Add global ir to the list of globals
self.module.info.globals.push(GlobalInit { desc, init });
self.globals.push(global);
}
/// Declares a global import to the environment.
fn declare_global_import(
&mut self,
global: cranelift_wasm::Global,
namespace: &'data str,
name: &'data str,
) {
assert!(match global.initializer {
cranelift_wasm::GlobalInit::Import => true,
_ => false,
});
let namespace_index = self.namespace_table_builder.register(namespace);
let name_index = self.name_table_builder.register(name);
let import_name = ImportName {
namespace_index,
name_index,
};
let desc = GlobalDescriptor {
mutable: global.mutability,
ty: Converter(global.ty).into(),
};
// Add global ir to the list of globals
self.module.info.imported_globals.push((import_name, desc));
self.globals.push(global);
}
/// Return the global for the given global index.
fn get_global(&self, global_index: cranelift_wasm::GlobalIndex) -> &cranelift_wasm::Global {
&self.globals[Converter(global_index).into()]
}
/// Declares a table to the environment.
fn declare_table(&mut self, table: cranelift_wasm::Table) {
use cranelift_wasm::TableElementType;
// Add table ir to the list of tables
self.module.info.tables.push(TableDescriptor {
element: match table.ty {
TableElementType::Func => ElementType::Anyfunc,
_ => unimplemented!(),
},
minimum: table.minimum,
maximum: table.maximum,
});
}
/// Declares a table import to the environment.
fn declare_table_import(
&mut self,
table: cranelift_wasm::Table,
namespace: &'data str,
name: &'data str,
) {
use cranelift_wasm::TableElementType;
let namespace_index = self.namespace_table_builder.register(namespace);
let name_index = self.name_table_builder.register(name);
let import_name = ImportName {
namespace_index,
name_index,
};
let imported_table = TableDescriptor {
element: match table.ty {
TableElementType::Func => ElementType::Anyfunc,
_ => unimplemented!(),
},
minimum: table.minimum,
maximum: table.maximum,
};
// Add import names to list of imported tables
self.module
.info
.imported_tables
.push((import_name, imported_table));
}
/// Fills a declared table with references to functions in the module.
fn declare_table_elements(
&mut self,
table_index: cranelift_wasm::TableIndex,
base: Option<cranelift_wasm::GlobalIndex>,
offset: usize,
elements: Vec<cranelift_wasm::FuncIndex>,
) {
// Convert Cranelift GlobalIndex to wamser GlobalIndex
// let base = base.map(|index| WasmerGlobalIndex::new(index.index()));
let base = match base {
Some(global_index) => {
let global_index: GlobalIndex = Converter(global_index).into();
Initializer::GetGlobal(match global_index.local_or_import(self.module) {
LocalOrImport::Import(imported_global_index) => imported_global_index,
LocalOrImport::Local(_) => {
panic!("invalid global initializer when declaring an imported global")
}
})
}
None => Initializer::Const((offset as i32).into()),
};
// Add table initializer to list of table initializers
self.module.info.elem_initializers.push(TableInitializer {
table_index: Converter(table_index).into(),
base,
elements: elements
.iter()
.map(|&func_index| Converter(func_index).into())
.collect(),
});
}
/// Declares a memory to the environment
fn declare_memory(&mut self, memory: cranelift_wasm::Memory) {
self.module.info.memories.push(MemoryDescriptor {
minimum: Pages(memory.minimum),
maximum: memory.maximum.map(|max| Pages(max)),
shared: memory.shared,
});
}
/// Declares a memory import to the environment.
fn declare_memory_import(
&mut self,
memory: cranelift_wasm::Memory,
namespace: &'data str,
name: &'data str,
) {
let namespace_index = self.namespace_table_builder.register(namespace);
let name_index = self.name_table_builder.register(name);
let import_name = ImportName {
namespace_index,
name_index,
};
let memory = MemoryDescriptor {
minimum: Pages(memory.minimum),
maximum: memory.maximum.map(|max| Pages(max)),
shared: memory.shared,
};
// Add import names to list of imported memories
self.module
.info
.imported_memories
.push((import_name, memory));
}
/// Fills a declared memory with bytes at module instantiation.
fn declare_data_initialization(
&mut self,
memory_index: cranelift_wasm::MemoryIndex,
base: Option<cranelift_wasm::GlobalIndex>,
offset: usize,
data: &'data [u8],
) {
// Convert Cranelift GlobalIndex to wamser GlobalIndex
let base = match base {
Some(global_index) => {
let global_index: GlobalIndex = Converter(global_index).into();
Initializer::GetGlobal(match global_index.local_or_import(self.module) {
LocalOrImport::Import(imported_global_index) => imported_global_index,
LocalOrImport::Local(_) => {
panic!("invalid global initializer when declaring an imported global")
}
})
}
None => Initializer::Const((offset as i32).into()),
};
// Add data initializer to list of data initializers
self.module.info.data_initializers.push(DataInitializer {
memory_index: Converter(memory_index).into(),
base,
data: data.to_vec(),
});
}
/// Declares a function export to the environment.
fn declare_func_export(&mut self, func_index: cranelift_wasm::FuncIndex, name: &'data str) {
self.module.info.exports.insert(
name.to_string(),
ExportIndex::Func(Converter(func_index).into()),
);
}
/// Declares a table export to the environment.
fn declare_table_export(&mut self, table_index: cranelift_wasm::TableIndex, name: &'data str) {
self.module.info.exports.insert(
name.to_string(),
ExportIndex::Table(Converter(table_index).into()),
);
}
/// Declares a memory export to the environment.
fn declare_memory_export(
&mut self,
memory_index: cranelift_wasm::MemoryIndex,
name: &'data str,
) {
self.module.info.exports.insert(
name.to_string(),
ExportIndex::Memory(Converter(memory_index).into()),
);
}
/// Declares a global export to the environment.
fn declare_global_export(
&mut self,
global_index: cranelift_wasm::GlobalIndex,
name: &'data str,
) {
self.module.info.exports.insert(
name.to_string(),
ExportIndex::Global(Converter(global_index).into()),
);
}
/// Declares a start function.
fn declare_start_func(&mut self, func_index: cranelift_wasm::FuncIndex) {
self.module.info.start_func = Some(Converter(func_index).into());
}
/// Provides the contents of a function body.
fn define_function_body(&mut self, body_bytes: &'data [u8]) -> cranelift_wasm::WasmResult<()> {
let mut func_translator = FuncTranslator::new();
let func_body = {
let mut func_env = FuncEnv::new(self);
let func_index = self.func_bodies.next_index();
let name = ir::ExternalName::user(0, func_index.index() as u32);
let sig = func_env.generate_signature(
self.get_func_type(Converter(func_index.convert_up(self.module)).into()),
);
let mut func = ir::Function::with_name_signature(name, sig);
func_translator.translate(body_bytes, &mut func, &mut func_env)?;
#[cfg(feature = "debug")]
{
use cranelift_codegen::cursor::{Cursor, FuncCursor};
use cranelift_codegen::ir::InstBuilder;
let entry_ebb = func.layout.entry_block().unwrap();
let ebb = func.dfg.make_ebb();
func.layout.insert_ebb(ebb, entry_ebb);
let mut pos = FuncCursor::new(&mut func).at_first_insertion_point(ebb);
let params = pos.func.dfg.ebb_params(entry_ebb).to_vec();
let new_ebb_params: Vec<_> = params
.iter()
.map(|&param| {
pos.func
.dfg
.append_ebb_param(ebb, pos.func.dfg.value_type(param))
})
.collect();
let start_debug = {
let signature = pos.func.import_signature(ir::Signature {
call_conv: self.target_config().default_call_conv,
params: vec![
ir::AbiParam::special(ir::types::I64, ir::ArgumentPurpose::VMContext),
ir::AbiParam::new(ir::types::I32),
],
returns: vec![],
});
let name = ir::ExternalName::testcase("strtdbug");
pos.func.import_function(ir::ExtFuncData {
name,
signature,
colocated: false,
})
};
let end_debug = {
let signature = pos.func.import_signature(ir::Signature {
call_conv: self.target_config().default_call_conv,
params: vec![ir::AbiParam::special(
ir::types::I64,
ir::ArgumentPurpose::VMContext,
)],
returns: vec![],
});
let name = ir::ExternalName::testcase("enddbug");
pos.func.import_function(ir::ExtFuncData {
name,
signature,
colocated: false,
})
};
let i32_print = {
let signature = pos.func.import_signature(ir::Signature {
call_conv: self.target_config().default_call_conv,
params: vec![
ir::AbiParam::special(ir::types::I64, ir::ArgumentPurpose::VMContext),
ir::AbiParam::new(ir::types::I32),
],
returns: vec![],
});
let name = ir::ExternalName::testcase("i32print");
pos.func.import_function(ir::ExtFuncData {
name,
signature,
colocated: false,
})
};
let i64_print = {
let signature = pos.func.import_signature(ir::Signature {
call_conv: self.target_config().default_call_conv,
params: vec![
ir::AbiParam::special(ir::types::I64, ir::ArgumentPurpose::VMContext),
ir::AbiParam::new(ir::types::I64),
],
returns: vec![],
});
let name = ir::ExternalName::testcase("i64print");
pos.func.import_function(ir::ExtFuncData {
name,
signature,
colocated: false,
})
};
let f32_print = {
let signature = pos.func.import_signature(ir::Signature {
call_conv: self.target_config().default_call_conv,
params: vec![
ir::AbiParam::special(ir::types::I64, ir::ArgumentPurpose::VMContext),
ir::AbiParam::new(ir::types::F32),
],
returns: vec![],
});
let name = ir::ExternalName::testcase("f32print");
pos.func.import_function(ir::ExtFuncData {
name,
signature,
colocated: false,
})
};
let f64_print = {
let signature = pos.func.import_signature(ir::Signature {
call_conv: self.target_config().default_call_conv,
params: vec![
ir::AbiParam::special(ir::types::I64, ir::ArgumentPurpose::VMContext),
ir::AbiParam::new(ir::types::F64),
],
returns: vec![],
});
let name = ir::ExternalName::testcase("f64print");
pos.func.import_function(ir::ExtFuncData {
name,
signature,
colocated: false,
})
};
let vmctx = pos
.func
.special_param(ir::ArgumentPurpose::VMContext)
.expect("missing vmctx parameter");
let func_index = pos.ins().iconst(ir::types::I32, func_index.index() as i64);
pos.ins().call(start_debug, &[vmctx, func_index]);
for param in new_ebb_params.iter().cloned() {
match pos.func.dfg.value_type(param) {
ir::types::I32 => pos.ins().call(i32_print, &[vmctx, param]),
ir::types::I64 => pos.ins().call(i64_print, &[vmctx, param]),
ir::types::F32 => pos.ins().call(f32_print, &[vmctx, param]),
ir::types::F64 => pos.ins().call(f64_print, &[vmctx, param]),
_ => unimplemented!(),
};
}
pos.ins().call(end_debug, &[vmctx]);
pos.ins().jump(entry_ebb, new_ebb_params.as_slice());
}
func
};
// Add function body to list of function bodies.
self.func_bodies.push(func_body);
Ok(())
}
}