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Format with rustfmt 0.9.0.

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This commit is contained in:
Dan Gohman
2017-09-06 08:37:12 -07:00
parent d0fe50a2a8
commit 3868467917
3 changed files with 227 additions and 203 deletions
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59
lib/wasmstandalone/src/execution.rs
View File

@@ -66,20 +66,20 @@ pub struct ExecutableCode {
/// Executes a module that has been translated with the `StandaloneRuntime` runtime implementation.
pub fn compile_module(trans_result: &TranslationResult) -> Result<ExecutableCode, String> {
let mut shared_builder = settings::builder();
shared_builder
.enable("enable_verifier")
.expect("Missing enable_verifier setting");
shared_builder
.set("is_64bit", "1")
.expect("Missing 64bits setting");
shared_builder.enable("enable_verifier").expect(
"Missing enable_verifier setting",
);
shared_builder.set("is_64bit", "1").expect(
"Missing 64bits setting",
);
let isa = match isa::lookup("intel") {
Err(_) => {
panic!() // The target ISA is not available.
}
Ok(mut isa_builder) => {
isa_builder
.enable("haswell")
.expect("Missing haswell setting");
isa_builder.enable("haswell").expect(
"Missing haswell setting",
);
isa_builder.finish(settings::Flags::new(&shared_builder))
}
};
@@ -90,7 +90,8 @@ pub fn compile_module(trans_result: &TranslationResult) -> Result<ExecutableCode
let (il, imports) = match function {
&FunctionTranslation::Import() => {
if trans_result.start_index.is_some() &&
trans_result.start_index.unwrap() == function_index {
trans_result.start_index.unwrap() == function_index
{
return Err(String::from("start function should not be an import"));
} else {
functions_code.push(Vec::new());
@@ -106,10 +107,9 @@ pub fn compile_module(trans_result: &TranslationResult) -> Result<ExecutableCode
};
verify_function(&il, None).unwrap();
context.func = il;
let code_size = context
.compile(&*isa)
.map_err(|e| pretty_error(&context.func, Some(&*isa), e))? as
usize;
let code_size = context.compile(&*isa).map_err(|e| {
pretty_error(&context.func, Some(&*isa), e)
})? as usize;
if code_size == 0 {
return Err(String::from("no code generated by Cretonne"));
}
@@ -127,7 +127,9 @@ pub fn compile_module(trans_result: &TranslationResult) -> Result<ExecutableCode
relocate(&functions_metatada, &mut functions_code);
// After having emmitted the code to memory, we deal with relocations
match trans_result.start_index {
None => Err(String::from("No start function defined, aborting execution")),
None => Err(String::from(
"No start function defined, aborting execution",
)),
Some(index) => {
Ok(ExecutableCode {
functions_code,
@@ -141,13 +143,17 @@ pub fn compile_module(trans_result: &TranslationResult) -> Result<ExecutableCode
pub fn execute(exec: ExecutableCode) -> Result<(), String> {
let code_buf = &exec.functions_code[exec.start_index];
unsafe {
match protect(code_buf.as_ptr(),
match protect(
code_buf.as_ptr(),
code_buf.len(),
Protection::ReadWriteExecute) {
Protection::ReadWriteExecute,
) {
Ok(()) => (),
Err(err) => {
return Err(format!("failed to give executable permission to code: {}",
err.description()))
return Err(format!(
"failed to give executable permission to code: {}",
err.description()
))
}
};
// Rather than writing inline assembly to jump to the code region, we use the fact that
@@ -216,10 +222,10 @@ fn relocate(functions_metatada: &Vec<FunctionMetaData>, functions_code: &mut Vec
.offset(offset as isize + 4) as
isize;
let target_ebb_address: isize =
functions_code[func_index]
.as_ptr()
.offset(il_func.offsets[ebb] as isize) as
isize;
functions_code[func_index].as_ptr().offset(
il_func.offsets[ebb] as
isize,
) as isize;
let reloc_delta_i32: i32 = (target_ebb_address - reloc_address) as i32;
write_unaligned(reloc_address as *mut i32, reloc_delta_i32);
}
@@ -231,10 +237,11 @@ fn relocate(functions_metatada: &Vec<FunctionMetaData>, functions_code: &mut Vec
}
/// Pretty-print a verifier error.
pub fn pretty_verifier_error(func: &Function,
pub fn pretty_verifier_error(
func: &Function,
isa: Option<&TargetIsa>,
err: verifier::Error)
-> String {
err: verifier::Error,
) -> String {
let mut msg = err.to_string();
match err.location {
AnyEntity::Inst(inst) => {

159
lib/wasmstandalone/src/standalone.rs
View File

@@ -72,10 +72,11 @@ impl StandaloneRuntime {
/// tells how to translate runtime-dependent wasm instructions. These functions should not be
/// called by the user.
impl WasmRuntime for StandaloneRuntime {
fn translate_get_global(&self,
fn translate_get_global(
&self,
builder: &mut FunctionBuilder<Local>,
global_index: GlobalIndex)
-> Value {
global_index: GlobalIndex,
) -> Value {
debug_assert!(self.instantiated);
let ty = self.globals.info[global_index as usize].global.ty;
let offset = self.globals.info[global_index as usize].offset;
@@ -85,10 +86,12 @@ impl WasmRuntime for StandaloneRuntime {
let addr_val = builder.ins().iconst(I64, addr);
builder.ins().load(ty, memflags, addr_val, memoffset)
}
fn translate_set_global(&self,
fn translate_set_global(
&self,
builder: &mut FunctionBuilder<Local>,
global_index: GlobalIndex,
val: Value) {
val: Value,
) {
let offset = self.globals.info[global_index as usize].offset;
let memflags = MemFlags::new();
let memoffset = Offset32::new(offset as i32);
@@ -96,23 +99,24 @@ impl WasmRuntime for StandaloneRuntime {
let addr_val = builder.ins().iconst(I64, addr);
builder.ins().store(memflags, val, addr_val, memoffset);
}
fn translate_memory_base_address(&self,
fn translate_memory_base_address(
&self,
builder: &mut FunctionBuilder<Local>,
memory_index: MemoryIndex)
-> Value {
memory_index: MemoryIndex,
) -> Value {
let addr: i64 = unsafe { transmute(self.memories[memory_index].data.as_ptr()) };
builder.ins().iconst(I64, addr)
}
fn translate_grow_memory(&mut self,
fn translate_grow_memory(
&mut self,
builder: &mut FunctionBuilder<Local>,
pages: Value)
-> Value {
pages: Value,
) -> Value {
debug_assert!(self.instantiated);
let grow_mem_func = match self.has_grow_memory {
Some(grow_mem_func) => grow_mem_func,
None => {
let sig_ref =
builder.import_signature(Signature {
let sig_ref = builder.import_signature(Signature {
call_conv: CallConv::Native,
argument_bytes: None,
argument_types: vec![ArgumentType::new(I32)],
@@ -137,8 +141,7 @@ impl WasmRuntime for StandaloneRuntime {
call_conv: CallConv::Native,
argument_bytes: None,
argument_types: Vec::new(),
return_types:
vec![ArgumentType::new(I32)],
return_types: vec![ArgumentType::new(I32)],
});
builder.import_function(ExtFuncData {
name: FunctionName::new("current_memory"),
@@ -150,26 +153,31 @@ impl WasmRuntime for StandaloneRuntime {
let call_inst = builder.ins().call(cur_mem_func, &[]);
*builder.inst_results(call_inst).first().unwrap()
}
fn translate_call_indirect<'a>(&self,
fn translate_call_indirect<'a>(
&self,
builder: &'a mut FunctionBuilder<Local>,
sig_ref: SigRef,
index_val: Value,
call_args: &[Value])
-> &'a [Value] {
call_args: &[Value],
) -> &'a [Value] {
let trap_ebb = builder.create_ebb();
let continue_ebb = builder.create_ebb();
let size_val = builder.ins().iconst(I32, self.tables[0].info.size as i64);
let zero_val = builder.ins().iconst(I32, 0);
builder
.ins()
.br_icmp(IntCC::UnsignedLessThan, index_val, zero_val, trap_ebb, &[]);
builder
.ins()
.br_icmp(IntCC::UnsignedGreaterThanOrEqual,
builder.ins().br_icmp(
IntCC::UnsignedLessThan,
index_val,
zero_val,
trap_ebb,
&[],
);
builder.ins().br_icmp(
IntCC::UnsignedGreaterThanOrEqual,
index_val,
size_val,
trap_ebb,
&[]);
&[],
);
builder.seal_block(trap_ebb);
let offset_val = builder.ins().imul_imm(index_val, 4);
let base_table_addr: i64 = unsafe { transmute(self.tables[0].data.as_ptr()) };
@@ -177,12 +185,17 @@ impl WasmRuntime for StandaloneRuntime {
let table_entry_addr_val = builder.ins().iadd(table_addr_val, offset_val);
let memflags = MemFlags::new();
let memoffset = Offset32::new(0);
let table_entry_val = builder
.ins()
.load(I32, memflags, table_entry_addr_val, memoffset);
let call_inst = builder
.ins()
.call_indirect(sig_ref, table_entry_val, call_args);
let table_entry_val = builder.ins().load(
I32,
memflags,
table_entry_addr_val,
memoffset,
);
let call_inst = builder.ins().call_indirect(
sig_ref,
table_entry_val,
call_args,
);
builder.ins().jump(continue_ebb, &[]);
builder.seal_block(continue_ebb);
builder.switch_to_block(trap_ebb, &[]);
@@ -205,36 +218,36 @@ impl WasmRuntime for StandaloneRuntime {
for globalinfo in self.globals.info.iter() {
match globalinfo.global.initializer {
GlobalInit::I32Const(val) => unsafe {
write(self.globals
.data
.as_mut_ptr()
.offset(globalinfo.offset as isize) as
*mut i32,
val)
write(
self.globals.data.as_mut_ptr().offset(
globalinfo.offset as isize,
) as *mut i32,
val,
)
},
GlobalInit::I64Const(val) => unsafe {
write(self.globals
.data
.as_mut_ptr()
.offset(globalinfo.offset as isize) as
*mut i64,
val)
write(
self.globals.data.as_mut_ptr().offset(
globalinfo.offset as isize,
) as *mut i64,
val,
)
},
GlobalInit::F32Const(val) => unsafe {
write(self.globals
.data
.as_mut_ptr()
.offset(globalinfo.offset as isize) as
*mut f32,
transmute(val))
write(
self.globals.data.as_mut_ptr().offset(
globalinfo.offset as isize,
) as *mut f32,
transmute(val),
)
},
GlobalInit::F64Const(val) => unsafe {
write(self.globals
.data
.as_mut_ptr()
.offset(globalinfo.offset as isize) as
*mut f64,
transmute(val))
write(
self.globals.data.as_mut_ptr().offset(
globalinfo.offset as isize,
) as *mut f64,
transmute(val),
)
},
GlobalInit::Import() => {
// We don't initialize, this is inter-module linking
@@ -244,10 +257,9 @@ impl WasmRuntime for StandaloneRuntime {
let ref_offset = self.globals.info[index].offset;
let size = globalinfo.global.ty.bytes();
unsafe {
let dst = self.globals
.data
.as_mut_ptr()
.offset(globalinfo.offset as isize);
let dst = self.globals.data.as_mut_ptr().offset(
globalinfo.offset as isize,
);
let src = self.globals.data.as_ptr().offset(ref_offset as isize);
copy_nonoverlapping(src, dst, size as usize)
}
@@ -261,9 +273,7 @@ impl WasmRuntime for StandaloneRuntime {
}
fn declare_global(&mut self, global: Global) {
debug_assert!(!self.instantiated);
self.globals
.info
.push(GlobalInfo {
self.globals.info.push(GlobalInfo {
global: global,
offset: 0,
});
@@ -274,17 +284,18 @@ impl WasmRuntime for StandaloneRuntime {
elements_vec.resize(table.size as usize, TableElement::Trap());
let mut addresses_vec = Vec::with_capacity(table.size as usize);
addresses_vec.resize(table.size as usize, 0);
self.tables
.push(TableData {
self.tables.push(TableData {
info: table,
data: addresses_vec,
elements: elements_vec,
});
}
fn declare_table_elements(&mut self,
fn declare_table_elements(
&mut self,
table_index: TableIndex,
offset: usize,
elements: &[FunctionIndex]) {
elements: &[FunctionIndex],
) {
debug_assert!(!self.instantiated);
for (i, elt) in elements.iter().enumerate() {
self.tables[table_index].elements[offset as usize + i] = TableElement::Function(*elt);
@@ -294,17 +305,17 @@ impl WasmRuntime for StandaloneRuntime {
debug_assert!(!self.instantiated);
let mut memory_vec = Vec::with_capacity(memory.pages_count as usize * PAGE_SIZE);
memory_vec.resize(memory.pages_count as usize * PAGE_SIZE, 0);
self.memories
.push(MemoryData {
self.memories.push(MemoryData {
info: memory,
data: memory_vec,
});
}
fn declare_data_initialization(&mut self,
fn declare_data_initialization(
&mut self,
memory_index: MemoryIndex,
offset: usize,
data: &[u8])
-> Result<(), String> {
data: &[u8],
) -> Result<(), String> {
if offset + data.len() > self.memories[memory_index].info.pages_count * PAGE_SIZE {
return Err(String::from("initialization data out of bounds"));
}
@@ -325,8 +336,10 @@ impl StandaloneRuntime {
}
/// Shows the value of a global variable.
pub fn inspect_global(&self, global_index: usize) -> &[u8] {
let (offset, len) = (self.globals.info[global_index].offset,
self.globals.info[global_index].global.ty.bytes() as usize);
let (offset, len) = (
self.globals.info[global_index].offset,
self.globals.info[global_index].global.ty.bytes() as usize,
);
&self.globals.data[offset..offset + len]
}
}

54
src/main.rs
View File

@@ -101,7 +101,9 @@ fn read_wasm_file(path: PathBuf) -> Result<Vec<u8>, io::Error> {
fn main() {
let args: Args = Docopt::new(USAGE)
.and_then(|d| d.help(true).version(Some(format!("0.0.0"))).deserialize())
.and_then(|d| {
d.help(true).version(Some(format!("0.0.0"))).deserialize()
})
.unwrap_or_else(|e| e.exit());
let mut terminal = term::stdout().unwrap();
for filename in args.arg_file.iter() {
@@ -312,13 +314,12 @@ fn handle_module(args: &Args, path: PathBuf, name: String) -> Result<(), String>
if split.len() != 3 {
break;
}
let memory = standalone_runtime
.inspect_memory(str::parse(split[0]).unwrap(),
let memory = standalone_runtime.inspect_memory(
str::parse(split[0]).unwrap(),
str::parse(split[1]).unwrap(),
str::parse(split[2]).unwrap());
let mut s = memory
.iter()
.fold(String::from("#"), |mut acc, byte| {
str::parse(split[2]).unwrap(),
);
let mut s = memory.iter().fold(String::from("#"), |mut acc, byte| {
acc.push_str(format!("{:02x}_", byte).as_str());
acc
});
@@ -334,19 +335,17 @@ fn handle_module(args: &Args, path: PathBuf, name: String) -> Result<(), String>
}
// Prints out a Wasm module, and for each function the corresponding translation in Cretonne IL.
fn pretty_print_translation(filename: &String,
fn pretty_print_translation(
filename: &String,
data: &Vec<u8>,
translation: &TranslationResult,
writer_wast: &mut Write,
writer_cretonne: &mut Write)
-> Result<(), io::Error> {
writer_cretonne: &mut Write,
) -> Result<(), io::Error> {
let mut terminal = term::stdout().unwrap();
let mut parser = Parser::new(data.as_slice());
let mut parser_writer = Writer::new(writer_wast);
let imports_count = translation
.functions
.iter()
.fold(0, |acc, &ref f| match f {
let imports_count = translation.functions.iter().fold(0, |acc, &ref f| match f {
&FunctionTranslation::Import() => acc + 1,
&FunctionTranslation::Code { .. } => acc,
});
@@ -370,10 +369,12 @@ fn pretty_print_translation(filename: &String,
match parser.read() {
s @ &ParserState::BeginFunctionBody { .. } => {
terminal.fg(term::color::BLUE).unwrap();
write!(writer_cretonne,
write!(
writer_cretonne,
"====== Function No. {} of module \"{}\" ======\n",
function_index,
filename)?;
filename
)?;
terminal.fg(term::color::CYAN).unwrap();
write!(writer_cretonne, "Wast ---------->\n")?;
terminal.reset().unwrap();
@@ -398,13 +399,13 @@ fn pretty_print_translation(filename: &String,
};
}
}
let mut function_string =
format!(" {}",
let mut function_string = format!(
" {}",
match translation.functions[function_index + imports_count] {
FunctionTranslation::Code { ref il, .. } => il,
FunctionTranslation::Import() => panic!("should not happen"),
}
.display(None));
}.display(None)
);
function_string.pop();
let function_str = str::replace(function_string.as_str(), "\n", "\n ");
terminal.fg(term::color::CYAN).unwrap();
@@ -422,17 +423,20 @@ fn pretty_print_translation(filename: &String,
}
/// Pretty-print a verifier error.
pub fn pretty_verifier_error(func: &ir::Function,
pub fn pretty_verifier_error(
func: &ir::Function,
isa: Option<&TargetIsa>,
err: verifier::Error)
-> String {
err: verifier::Error,
) -> String {
let msg = err.to_string();
let str1 = match err.location {
AnyEntity::Inst(inst) => {
format!("{}\n{}: {}\n\n",
format!(
"{}\n{}: {}\n\n",
msg,
inst,
func.dfg.display_inst(inst, isa))
func.dfg.display_inst(inst, isa)
)
}
_ => String::from(format!("{}\n", msg)),
};