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Code Issues Projects Releases Wiki Activity

Read stack values based on state map.

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This commit is contained in:
losfair
2019-06-12 22:02:15 +08:00
parent 00b6bf632a
commit 32008eba88
8 changed files with 599 additions and 144 deletions
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2
examples/single_pass_tests/read_stack.wat
View File

@ -3,7 +3,7 @@
(func $stack_read (import "wasi_unstable" "stack_read") (type $t1)) (func $stack_read (import "wasi_unstable" "stack_read") (type $t1))
(func $_start (export "_start") (func $_start (export "_start")
(if (i32.ne (call $fib (i32.const 10)) (i32.const 55)) (if (i32.ne (call $fib (i32.const 1)) (i32.const 1))
(then unreachable) (then unreachable)
) )
) )

8
lib/runtime-core/src/backend.rs
View File

@ -1,10 +1,10 @@
use crate::{ use crate::{
error::CompileResult, error::CompileResult,
module::ModuleInner, module::ModuleInner,
state::ModuleStateMap,
typed_func::Wasm, typed_func::Wasm,
types::{LocalFuncIndex, SigIndex}, types::{LocalFuncIndex, SigIndex},
vm, vm,
state::ModuleStateMap,
}; };
use crate::{ use crate::{
@ -85,9 +85,9 @@ pub trait RunnableModule: Send + Sync {
local_func_index: LocalFuncIndex, local_func_index: LocalFuncIndex,
) -> Option<NonNull<vm::Func>>; ) -> Option<NonNull<vm::Func>>;
fn get_module_state_map( fn get_module_state_map(&self) -> Option<ModuleStateMap> {
&self, None
) -> Option<ModuleStateMap> { None } }
/// A wasm trampoline contains the necesarry data to dynamically call an exported wasm function. /// A wasm trampoline contains the necesarry data to dynamically call an exported wasm function.
/// Given a particular signature index, we are returned a trampoline that is matched with that /// Given a particular signature index, we are returned a trampoline that is matched with that

168
lib/runtime-core/src/state.rs
View File

@ -1,4 +1,5 @@
use std::collections::BTreeMap; use std::collections::BTreeMap;
use std::fmt::Debug;
use std::ops::Bound::{Included, Unbounded}; use std::ops::Bound::{Included, Unbounded};
#[derive(Copy, Clone, Debug, Eq, PartialEq, Hash)] #[derive(Copy, Clone, Debug, Eq, PartialEq, Hash)]
@ -23,7 +24,7 @@ pub enum MachineValue {
Undefined, Undefined,
PreserveRegister(RegisterIndex), PreserveRegister(RegisterIndex),
CopyStackBPRelative(i32), // relative to Base Pointer, in byte offset CopyStackBPRelative(i32), // relative to Base Pointer, in byte offset
ExplicitShadow, // indicates that all values above this are above the shadow region ExplicitShadow, // indicates that all values above this are above the shadow region
WasmStack(usize), WasmStack(usize),
WasmLocal(usize), WasmLocal(usize),
} }
@ -43,14 +44,64 @@ pub struct ModuleStateMap {
pub total_size: usize, pub total_size: usize,
} }
#[derive(Clone, Debug)]
pub struct DenseArrayMap<T: Clone + Debug> {
pub elements: Vec<Option<T>>,
}
impl<T: Clone + Debug> DenseArrayMap<T> {
pub fn new() -> DenseArrayMap<T> {
DenseArrayMap { elements: vec![] }
}
pub fn set(&mut self, idx: usize, elem: T) {
while self.elements.len() < idx + 1 {
self.elements.push(None);
}
self.elements[idx] = Some(elem);
}
pub fn into_vec(self) -> Option<Vec<T>> {
let mut ret: Vec<T> = Vec::with_capacity(self.elements.len());
for elem in self.elements {
if elem.is_none() {
return None;
}
ret.push(elem.unwrap());
}
Some(ret)
}
}
#[derive(Clone, Debug)]
pub struct WasmFunctionState {
stack: Vec<Option<u64>>,
locals: Vec<u64>,
}
impl ModuleStateMap { impl ModuleStateMap {
pub fn lookup_call_ip(&self, ip: usize, base: usize) -> Option<(&FunctionStateMap, MachineState)> { pub fn lookup_call_ip(
&self,
ip: usize,
base: usize,
) -> Option<(&FunctionStateMap, MachineState)> {
if ip < base || ip - base >= self.total_size { if ip < base || ip - base >= self.total_size {
None None
} else { } else {
//println!("lookup ip: {} in {:?}", ip - base, self.local_functions); //println!("lookup ip: {} in {:?}", ip - base, self.local_functions);
let fsm = self.local_functions.range((Unbounded, Included(&(ip - base)))).last().map(|x| x.1).unwrap(); let fsm = self
Some((fsm, fsm.call_offsets.get(&(ip - base)).map(|x| fsm.diffs[*x].build_state(fsm)).unwrap())) .local_functions
.range((Unbounded, Included(&(ip - base))))
.last()
.map(|x| x.1)
.unwrap();
Some((
fsm,
fsm.call_offsets
.get(&(ip - base))
.map(|x| fsm.diffs[*x].build_state(fsm))
.unwrap(),
))
} }
} }
} }
@ -69,11 +120,20 @@ impl FunctionStateMap {
impl MachineState { impl MachineState {
pub fn diff(&self, old: &MachineState) -> MachineStateDiff { pub fn diff(&self, old: &MachineState) -> MachineStateDiff {
let first_diff_stack_depth: usize = self.stack_values.iter().zip(old.stack_values.iter()).enumerate() let first_diff_stack_depth: usize = self
.find(|&(_, (&a, &b))| a != b).map(|x| x.0) .stack_values
.iter()
.zip(old.stack_values.iter())
.enumerate()
.find(|&(_, (&a, &b))| a != b)
.map(|x| x.0)
.unwrap_or(old.stack_values.len().min(self.stack_values.len())); .unwrap_or(old.stack_values.len().min(self.stack_values.len()));
assert_eq!(self.register_values.len(), old.register_values.len()); assert_eq!(self.register_values.len(), old.register_values.len());
let reg_diff: Vec<_> = self.register_values.iter().zip(old.register_values.iter()).enumerate() let reg_diff: Vec<_> = self
.register_values
.iter()
.zip(old.register_values.iter())
.enumerate()
.filter(|&(_, (&a, &b))| a != b) .filter(|&(_, (&a, &b))| a != b)
.map(|(i, (&a, _))| (RegisterIndex(i), a)) .map(|(i, (&a, _))| (RegisterIndex(i), a))
.collect(); .collect();
@ -124,31 +184,83 @@ pub mod x64 {
} }
} }
pub fn read_stack(msm: &ModuleStateMap, code_base: usize, mut stack: *const u64) { #[warn(unused_variables)]
pub unsafe fn read_stack(msm: &ModuleStateMap, code_base: usize, mut stack: *const u64) {
let r15 = *stack;
let r14 = *stack.offset(1);
let r13 = *stack.offset(2);
let r12 = *stack.offset(3);
let rbx = *stack.offset(4);
stack = stack.offset(5);
let mut next_known_registers: [Option<u64>; 24] = [None; 24];
next_known_registers[X64Register::GPR(GPR::R15).to_index().0] = Some(r15);
next_known_registers[X64Register::GPR(GPR::R14).to_index().0] = Some(r14);
next_known_registers[X64Register::GPR(GPR::R13).to_index().0] = Some(r13);
next_known_registers[X64Register::GPR(GPR::R12).to_index().0] = Some(r12);
next_known_registers[X64Register::GPR(GPR::RBX).to_index().0] = Some(rbx);
for i in 0.. { for i in 0.. {
unsafe { let known_registers = ::std::mem::replace(&mut next_known_registers, [None; 24]);
let ret_addr = *stack; let mut wasm_stack: DenseArrayMap<u64> = DenseArrayMap::new();
stack = stack.offset(1); let mut wasm_locals: DenseArrayMap<u64> = DenseArrayMap::new();
let (fsm, state) = match msm.lookup_call_ip(ret_addr as usize, code_base) { let ret_addr = *stack;
Some(x) => x, stack = stack.offset(1);
_ => break let (fsm, state) = match msm.lookup_call_ip(ret_addr as usize, code_base) {
}; Some(x) => x,
let mut found_shadow = false; _ => break,
for v in &state.stack_values { };
match *v { let mut found_shadow = false;
MachineValue::ExplicitShadow => { for v in state.stack_values.iter().rev() {
stack = stack.offset((fsm.shadow_size / 8) as isize); match *v {
found_shadow = true; MachineValue::ExplicitShadow => {
} stack = stack.offset((fsm.shadow_size / 8) as isize);
_ => { found_shadow = true;
stack = stack.offset(1); }
} MachineValue::Undefined => {
stack = stack.offset(1);
}
MachineValue::PreserveRegister(idx) => {
next_known_registers[idx.0] = Some(*stack);
stack = stack.offset(1);
}
MachineValue::CopyStackBPRelative(offset) => {
stack = stack.offset(1);
}
MachineValue::WasmStack(idx) => {
wasm_stack.set(idx, *stack);
stack = stack.offset(1);
}
MachineValue::WasmLocal(idx) => {
wasm_locals.set(idx, *stack);
stack = stack.offset(1);
} }
} }
assert_eq!(found_shadow, true);
stack = stack.offset(1); // RBP
println!("Frame #{}: {:p} {:?}", i, ret_addr as *const u8, state);
} }
for (i, v) in state.register_values.iter().enumerate() {
match *v {
MachineValue::Undefined => {}
MachineValue::WasmStack(idx) => {
if let Some(v) = known_registers[i] {
wasm_stack.set(idx, v);
}
}
MachineValue::WasmLocal(idx) => {
if let Some(v) = known_registers[i] {
wasm_locals.set(idx, v);
}
}
_ => unreachable!(),
}
}
assert_eq!(found_shadow, true);
stack = stack.offset(1); // RBP
let wfs = WasmFunctionState {
stack: wasm_stack.elements,
locals: wasm_locals.into_vec().unwrap(),
};
println!("Frame #{}: {:p} {:?}", i, ret_addr as *const u8, wfs);
} }
} }

23
lib/runtime-core/src/trampoline_x64.rs
View File

@ -7,9 +7,9 @@
//! Variadic functions are not supported because `rax` is used by the trampoline code. //! Variadic functions are not supported because `rax` is used by the trampoline code.
use crate::loader::CodeMemory; use crate::loader::CodeMemory;
use std::{mem, slice};
use crate::vm::Ctx; use crate::vm::Ctx;
use std::fmt; use std::fmt;
use std::{mem, slice};
lazy_static! { lazy_static! {
/// Reads the context pointer from `mm0`. /// Reads the context pointer from `mm0`.
@ -100,13 +100,21 @@ impl TrampolineBufferBuilder {
idx idx
} }
pub fn add_context_rsp_trampoline( pub fn add_context_rsp_state_preserving_trampoline(
&mut self, &mut self,
target: unsafe extern "C" fn (&mut Ctx, *const CallContext, *const u64), target: unsafe extern "C" fn(&mut Ctx, *const CallContext, *const u64),
context: *const CallContext, context: *const CallContext,
) -> usize { ) -> usize {
let idx = self.offsets.len(); let idx = self.offsets.len();
self.offsets.push(self.code.len()); self.offsets.push(self.code.len());
self.code.extend_from_slice(&[
0x53, // push %rbx
0x41, 0x54, // push %r12
0x41, 0x55, // push %r13
0x41, 0x56, // push %r14
0x41, 0x57, // push %r15
]);
self.code.extend_from_slice(&[ self.code.extend_from_slice(&[
0x48, 0xbe, // movabsq ?, %rsi 0x48, 0xbe, // movabsq ?, %rsi
]); ]);
@ -120,7 +128,14 @@ impl TrampolineBufferBuilder {
]); ]);
self.code.extend_from_slice(value_to_bytes(&target)); self.code.extend_from_slice(value_to_bytes(&target));
self.code.extend_from_slice(&[ self.code.extend_from_slice(&[
0xff, 0xe0, // jmpq *%rax 0xff, 0xd0, // callq *%rax
]);
self.code.extend_from_slice(&[
0x48, 0x81, 0xc4, // add ?, %rsp
]);
self.code.extend_from_slice(value_to_bytes(&40i32)); // 5 * 8
self.code.extend_from_slice(&[
0xc3, //retq
]); ]);
idx idx
} }

482
lib/singlepass-backend/src/codegen_x64.rs
View File

@ -11,7 +11,7 @@ use smallvec::SmallVec;
use std::ptr::NonNull; use std::ptr::NonNull;
use std::{ use std::{
any::Any, any::Any,
collections::{HashMap, BTreeMap}, collections::{BTreeMap, HashMap},
sync::{Arc, RwLock}, sync::{Arc, RwLock},
}; };
use wasmer_runtime_core::{ use wasmer_runtime_core::{
@ -22,6 +22,10 @@ use wasmer_runtime_core::{
codegen::*, codegen::*,
memory::MemoryType, memory::MemoryType,
module::{ModuleInfo, ModuleInner}, module::{ModuleInfo, ModuleInner},
state::{
x64::new_machine_state, x64::X64Register, FunctionStateMap, MachineState, MachineStateDiff,
MachineValue, ModuleStateMap,
},
structures::{Map, TypedIndex}, structures::{Map, TypedIndex},
typed_func::Wasm, typed_func::Wasm,
types::{ types::{
@ -29,7 +33,6 @@ use wasmer_runtime_core::{
TableIndex, Type, TableIndex, Type,
}, },
vm::{self, LocalGlobal, LocalTable, INTERNALS_SIZE}, vm::{self, LocalGlobal, LocalTable, INTERNALS_SIZE},
state::{ModuleStateMap, FunctionStateMap, x64::X64Register, MachineState, MachineValue, MachineStateDiff, x64::new_machine_state},
}; };
use wasmparser::{Operator, Type as WpType}; use wasmparser::{Operator, Type as WpType};
@ -146,7 +149,7 @@ pub struct InstMetadata {
#[derive(Copy, Clone, Debug)] #[derive(Copy, Clone, Debug)]
pub enum SpecialInst { pub enum SpecialInst {
Loop, /* header state */ Loop, /* header state */
Call { mid_offset: usize }, /* inside state */ Call { mid_offset: usize }, /* inside state */
} }
@ -453,9 +456,11 @@ impl ModuleCodeGenerator<X64FunctionCode, X64ExecutionContext, CodegenError>
.collect(), .collect(),
); );
let local_function_maps: BTreeMap<usize, FunctionStateMap> = self.functions.iter().map(|x| { let local_function_maps: BTreeMap<usize, FunctionStateMap> = self
(x.offset, x.fsm.clone()) .functions
}).collect(); .iter()
.map(|x| (x.offset, x.fsm.clone()))
.collect();
struct Placeholder; struct Placeholder;
impl CacheGen for Placeholder { impl CacheGen for Placeholder {
@ -767,7 +772,11 @@ impl X64FunctionCode {
// Using Red Zone here. // Using Red Zone here.
let loc_b = get_location_released(a, m, value_stack.pop().unwrap()); let loc_b = get_location_released(a, m, value_stack.pop().unwrap());
let loc_a = get_location_released(a, m, value_stack.pop().unwrap()); let loc_a = get_location_released(a, m, value_stack.pop().unwrap());
let ret = m.acquire_locations(a, &[(WpType::I32, MachineValue::WasmStack(value_stack.len()))], false)[0]; let ret = m.acquire_locations(
a,
&[(WpType::I32, MachineValue::WasmStack(value_stack.len()))],
false,
)[0];
if loc_a != ret { if loc_a != ret {
let tmp = m.acquire_temp_gpr().unwrap(); let tmp = m.acquire_temp_gpr().unwrap();
@ -806,7 +815,11 @@ impl X64FunctionCode {
// Using Red Zone here. // Using Red Zone here.
let loc_b = get_location_released(a, m, value_stack.pop().unwrap()); let loc_b = get_location_released(a, m, value_stack.pop().unwrap());
let loc_a = get_location_released(a, m, value_stack.pop().unwrap()); let loc_a = get_location_released(a, m, value_stack.pop().unwrap());
let ret = m.acquire_locations(a, &[(WpType::I64, MachineValue::WasmStack(value_stack.len()))], false)[0]; let ret = m.acquire_locations(
a,
&[(WpType::I64, MachineValue::WasmStack(value_stack.len()))],
false,
)[0];
if loc_a != ret { if loc_a != ret {
let tmp = m.acquire_temp_gpr().unwrap(); let tmp = m.acquire_temp_gpr().unwrap();
@ -846,7 +859,11 @@ impl X64FunctionCode {
// Using Red Zone here. // Using Red Zone here.
let loc_a = get_location_released(a, m, value_stack.pop().unwrap()); let loc_a = get_location_released(a, m, value_stack.pop().unwrap());
let ret = m.acquire_locations(a, &[(WpType::I32, MachineValue::WasmStack(value_stack.len()))], false)[0]; let ret = m.acquire_locations(
a,
&[(WpType::I32, MachineValue::WasmStack(value_stack.len()))],
false,
)[0];
match ret { match ret {
Location::GPR(x) => { Location::GPR(x) => {
Self::emit_relaxed_binop(a, m, Assembler::emit_cmp, Size::S32, loc_b, loc_a); Self::emit_relaxed_binop(a, m, Assembler::emit_cmp, Size::S32, loc_b, loc_a);
@ -888,7 +905,11 @@ impl X64FunctionCode {
// Using Red Zone here. // Using Red Zone here.
let loc_a = get_location_released(a, m, value_stack.pop().unwrap()); let loc_a = get_location_released(a, m, value_stack.pop().unwrap());
let ret = m.acquire_locations(a, &[(WpType::I32, MachineValue::WasmStack(value_stack.len()))], false)[0]; let ret = m.acquire_locations(
a,
&[(WpType::I32, MachineValue::WasmStack(value_stack.len()))],
false,
)[0];
match ret { match ret {
Location::GPR(x) => { Location::GPR(x) => {
Self::emit_relaxed_binop(a, m, Assembler::emit_cmp, Size::S64, loc_b, loc_a); Self::emit_relaxed_binop(a, m, Assembler::emit_cmp, Size::S64, loc_b, loc_a);
@ -927,7 +948,11 @@ impl X64FunctionCode {
f: fn(&mut Assembler, Size, Location, Location), f: fn(&mut Assembler, Size, Location, Location),
) { ) {
let loc = get_location_released(a, m, value_stack.pop().unwrap()); let loc = get_location_released(a, m, value_stack.pop().unwrap());
let ret = m.acquire_locations(a, &[(WpType::I32, MachineValue::WasmStack(value_stack.len()))], false)[0]; let ret = m.acquire_locations(
a,
&[(WpType::I32, MachineValue::WasmStack(value_stack.len()))],
false,
)[0];
match loc { match loc {
Location::Imm32(_) => { Location::Imm32(_) => {
@ -966,7 +991,11 @@ impl X64FunctionCode {
f: fn(&mut Assembler, Size, Location, Location), f: fn(&mut Assembler, Size, Location, Location),
) { ) {
let loc = get_location_released(a, m, value_stack.pop().unwrap()); let loc = get_location_released(a, m, value_stack.pop().unwrap());
let ret = m.acquire_locations(a, &[(WpType::I64, MachineValue::WasmStack(value_stack.len()))], false)[0]; let ret = m.acquire_locations(
a,
&[(WpType::I64, MachineValue::WasmStack(value_stack.len()))],
false,
)[0];
match loc { match loc {
Location::Imm64(_) | Location::Imm32(_) => { Location::Imm64(_) | Location::Imm32(_) => {
@ -1006,7 +1035,11 @@ impl X64FunctionCode {
) { ) {
let loc_b = get_location_released(a, m, value_stack.pop().unwrap()); let loc_b = get_location_released(a, m, value_stack.pop().unwrap());
let loc_a = get_location_released(a, m, value_stack.pop().unwrap()); let loc_a = get_location_released(a, m, value_stack.pop().unwrap());
let ret = m.acquire_locations(a, &[(WpType::I32, MachineValue::WasmStack(value_stack.len()))], false)[0]; let ret = m.acquire_locations(
a,
&[(WpType::I32, MachineValue::WasmStack(value_stack.len()))],
false,
)[0];
a.emit_mov(Size::S32, loc_b, Location::GPR(GPR::RCX)); a.emit_mov(Size::S32, loc_b, Location::GPR(GPR::RCX));
@ -1027,7 +1060,11 @@ impl X64FunctionCode {
) { ) {
let loc_b = get_location_released(a, m, value_stack.pop().unwrap()); let loc_b = get_location_released(a, m, value_stack.pop().unwrap());
let loc_a = get_location_released(a, m, value_stack.pop().unwrap()); let loc_a = get_location_released(a, m, value_stack.pop().unwrap());
let ret = m.acquire_locations(a, &[(WpType::I64, MachineValue::WasmStack(value_stack.len()))], false)[0]; let ret = m.acquire_locations(
a,
&[(WpType::I64, MachineValue::WasmStack(value_stack.len()))],
false,
)[0];
a.emit_mov(Size::S64, loc_b, Location::GPR(GPR::RCX)); a.emit_mov(Size::S64, loc_b, Location::GPR(GPR::RCX));
@ -1048,7 +1085,11 @@ impl X64FunctionCode {
) { ) {
let loc_b = get_location_released(a, m, value_stack.pop().unwrap()); let loc_b = get_location_released(a, m, value_stack.pop().unwrap());
let loc_a = get_location_released(a, m, value_stack.pop().unwrap()); let loc_a = get_location_released(a, m, value_stack.pop().unwrap());
let ret = m.acquire_locations(a, &[(WpType::F64, MachineValue::WasmStack(value_stack.len()))], false)[0]; let ret = m.acquire_locations(
a,
&[(WpType::F64, MachineValue::WasmStack(value_stack.len()))],
false,
)[0];
value_stack.push((ret, LocalOrTemp::Temp)); value_stack.push((ret, LocalOrTemp::Temp));
Self::emit_relaxed_avx(a, m, f, loc_a, loc_b, ret); Self::emit_relaxed_avx(a, m, f, loc_a, loc_b, ret);
@ -1063,7 +1104,11 @@ impl X64FunctionCode {
) { ) {
let loc_b = get_location_released(a, m, value_stack.pop().unwrap()); let loc_b = get_location_released(a, m, value_stack.pop().unwrap());
let loc_a = get_location_released(a, m, value_stack.pop().unwrap()); let loc_a = get_location_released(a, m, value_stack.pop().unwrap());
let ret = m.acquire_locations(a, &[(WpType::I32, MachineValue::WasmStack(value_stack.len()))], false)[0]; let ret = m.acquire_locations(
a,
&[(WpType::I32, MachineValue::WasmStack(value_stack.len()))],
false,
)[0];
value_stack.push((ret, LocalOrTemp::Temp)); value_stack.push((ret, LocalOrTemp::Temp));
Self::emit_relaxed_avx(a, m, f, loc_a, loc_b, ret); Self::emit_relaxed_avx(a, m, f, loc_a, loc_b, ret);
@ -1078,7 +1123,11 @@ impl X64FunctionCode {
f: fn(&mut Assembler, XMM, XMMOrMemory, XMM), f: fn(&mut Assembler, XMM, XMMOrMemory, XMM),
) { ) {
let loc = get_location_released(a, m, value_stack.pop().unwrap()); let loc = get_location_released(a, m, value_stack.pop().unwrap());
let ret = m.acquire_locations(a, &[(WpType::F64, MachineValue::WasmStack(value_stack.len()))], false)[0]; let ret = m.acquire_locations(
a,
&[(WpType::F64, MachineValue::WasmStack(value_stack.len()))],
false,
)[0];
value_stack.push((ret, LocalOrTemp::Temp)); value_stack.push((ret, LocalOrTemp::Temp));
Self::emit_relaxed_avx(a, m, f, loc, loc, ret); Self::emit_relaxed_avx(a, m, f, loc, loc, ret);
@ -1179,7 +1228,9 @@ impl X64FunctionCode {
if reg != GPR::RBP { if reg != GPR::RBP {
unreachable!(); unreachable!();
} }
m.state.stack_values.push(MachineValue::CopyStackBPRelative(offset)); // TODO: Read value at this offset m.state
.stack_values
.push(MachineValue::CopyStackBPRelative(offset)); // TODO: Read value at this offset
} }
_ => { _ => {
m.state.stack_values.push(MachineValue::Undefined); m.state.stack_values.push(MachineValue::Undefined);
@ -1291,7 +1342,10 @@ impl X64FunctionCode {
m.state.stack_values.pop().unwrap(); m.state.stack_values.pop().unwrap();
} }
assert_eq!(m.state.stack_values.pop().unwrap(), MachineValue::ExplicitShadow); assert_eq!(
m.state.stack_values.pop().unwrap(),
MachineValue::ExplicitShadow
);
} }
/// Emits a System V call sequence, specialized for labels as the call target. /// Emits a System V call sequence, specialized for labels as the call target.
@ -1497,7 +1551,11 @@ impl X64FunctionCode {
m.release_temp_gpr(tmp); m.release_temp_gpr(tmp);
} }
pub fn get_state_diff(m: &Machine, fsm: &mut FunctionStateMap, control_stack: &[ControlFrame]) -> usize { pub fn get_state_diff(
m: &Machine,
fsm: &mut FunctionStateMap,
control_stack: &[ControlFrame],
) -> usize {
let last_frame = control_stack.last().unwrap(); let last_frame = control_stack.last().unwrap();
let mut diff = m.state.diff(&last_frame.state); let mut diff = m.state.diff(&last_frame.state);
diff.last = Some(last_frame.state_diff_id); diff.last = Some(last_frame.state_diff_id);
@ -1718,7 +1776,10 @@ impl FunctionCodeGenerator<CodegenError> for X64FunctionCode {
); );
self.machine.acquire_locations( self.machine.acquire_locations(
a, a,
&[(type_to_wp_type(module_info.globals[local_index].desc.ty), MachineValue::WasmStack(self.value_stack.len()))], &[(
type_to_wp_type(module_info.globals[local_index].desc.ty),
MachineValue::WasmStack(self.value_stack.len()),
)],
false, false,
)[0] )[0]
} }
@ -1738,9 +1799,10 @@ impl FunctionCodeGenerator<CodegenError> for X64FunctionCode {
); );
self.machine.acquire_locations( self.machine.acquire_locations(
a, a,
&[(type_to_wp_type( &[(
module_info.imported_globals[import_index].1.ty, type_to_wp_type(module_info.imported_globals[import_index].1.ty),
), MachineValue::WasmStack(self.value_stack.len()))], MachineValue::WasmStack(self.value_stack.len()),
)],
false, false,
)[0] )[0]
} }
@ -1861,7 +1923,11 @@ impl FunctionCodeGenerator<CodegenError> for X64FunctionCode {
get_location_released(a, &mut self.machine, self.value_stack.pop().unwrap()); get_location_released(a, &mut self.machine, self.value_stack.pop().unwrap());
let loc_a = let loc_a =
get_location_released(a, &mut self.machine, self.value_stack.pop().unwrap()); get_location_released(a, &mut self.machine, self.value_stack.pop().unwrap());
let ret = self.machine.acquire_locations(a, &[(WpType::I32, MachineValue::WasmStack(self.value_stack.len()))], false)[0]; let ret = self.machine.acquire_locations(
a,
&[(WpType::I32, MachineValue::WasmStack(self.value_stack.len()))],
false,
)[0];
a.emit_mov(Size::S32, loc_a, Location::GPR(GPR::RAX)); a.emit_mov(Size::S32, loc_a, Location::GPR(GPR::RAX));
a.emit_xor(Size::S32, Location::GPR(GPR::RDX), Location::GPR(GPR::RDX)); a.emit_xor(Size::S32, Location::GPR(GPR::RDX), Location::GPR(GPR::RDX));
Self::emit_relaxed_xdiv( Self::emit_relaxed_xdiv(
@ -1880,7 +1946,11 @@ impl FunctionCodeGenerator<CodegenError> for X64FunctionCode {
get_location_released(a, &mut self.machine, self.value_stack.pop().unwrap()); get_location_released(a, &mut self.machine, self.value_stack.pop().unwrap());
let loc_a = let loc_a =
get_location_released(a, &mut self.machine, self.value_stack.pop().unwrap()); get_location_released(a, &mut self.machine, self.value_stack.pop().unwrap());
let ret = self.machine.acquire_locations(a, &[(WpType::I32, MachineValue::WasmStack(self.value_stack.len()))], false)[0]; let ret = self.machine.acquire_locations(
a,
&[(WpType::I32, MachineValue::WasmStack(self.value_stack.len()))],
false,
)[0];
a.emit_mov(Size::S32, loc_a, Location::GPR(GPR::RAX)); a.emit_mov(Size::S32, loc_a, Location::GPR(GPR::RAX));
a.emit_cdq(); a.emit_cdq();
Self::emit_relaxed_xdiv( Self::emit_relaxed_xdiv(
@ -1899,7 +1969,11 @@ impl FunctionCodeGenerator<CodegenError> for X64FunctionCode {
get_location_released(a, &mut self.machine, self.value_stack.pop().unwrap()); get_location_released(a, &mut self.machine, self.value_stack.pop().unwrap());
let loc_a = let loc_a =
get_location_released(a, &mut self.machine, self.value_stack.pop().unwrap()); get_location_released(a, &mut self.machine, self.value_stack.pop().unwrap());
let ret = self.machine.acquire_locations(a, &[(WpType::I32, MachineValue::WasmStack(self.value_stack.len()))], false)[0]; let ret = self.machine.acquire_locations(
a,
&[(WpType::I32, MachineValue::WasmStack(self.value_stack.len()))],
false,
)[0];
a.emit_mov(Size::S32, loc_a, Location::GPR(GPR::RAX)); a.emit_mov(Size::S32, loc_a, Location::GPR(GPR::RAX));
a.emit_xor(Size::S32, Location::GPR(GPR::RDX), Location::GPR(GPR::RDX)); a.emit_xor(Size::S32, Location::GPR(GPR::RDX), Location::GPR(GPR::RDX));
Self::emit_relaxed_xdiv( Self::emit_relaxed_xdiv(
@ -1918,7 +1992,11 @@ impl FunctionCodeGenerator<CodegenError> for X64FunctionCode {
get_location_released(a, &mut self.machine, self.value_stack.pop().unwrap()); get_location_released(a, &mut self.machine, self.value_stack.pop().unwrap());
let loc_a = let loc_a =
get_location_released(a, &mut self.machine, self.value_stack.pop().unwrap()); get_location_released(a, &mut self.machine, self.value_stack.pop().unwrap());
let ret = self.machine.acquire_locations(a, &[(WpType::I32, MachineValue::WasmStack(self.value_stack.len()))], false)[0]; let ret = self.machine.acquire_locations(
a,
&[(WpType::I32, MachineValue::WasmStack(self.value_stack.len()))],
false,
)[0];
let normal_path = a.get_label(); let normal_path = a.get_label();
let end = a.get_label(); let end = a.get_label();
@ -2118,7 +2196,11 @@ impl FunctionCodeGenerator<CodegenError> for X64FunctionCode {
get_location_released(a, &mut self.machine, self.value_stack.pop().unwrap()); get_location_released(a, &mut self.machine, self.value_stack.pop().unwrap());
let loc_a = let loc_a =
get_location_released(a, &mut self.machine, self.value_stack.pop().unwrap()); get_location_released(a, &mut self.machine, self.value_stack.pop().unwrap());
let ret = self.machine.acquire_locations(a, &[(WpType::I64, MachineValue::WasmStack(self.value_stack.len()))], false)[0]; let ret = self.machine.acquire_locations(
a,
&[(WpType::I64, MachineValue::WasmStack(self.value_stack.len()))],
false,
)[0];
a.emit_mov(Size::S64, loc_a, Location::GPR(GPR::RAX)); a.emit_mov(Size::S64, loc_a, Location::GPR(GPR::RAX));
a.emit_xor(Size::S64, Location::GPR(GPR::RDX), Location::GPR(GPR::RDX)); a.emit_xor(Size::S64, Location::GPR(GPR::RDX), Location::GPR(GPR::RDX));
Self::emit_relaxed_xdiv( Self::emit_relaxed_xdiv(
@ -2137,7 +2219,11 @@ impl FunctionCodeGenerator<CodegenError> for X64FunctionCode {
get_location_released(a, &mut self.machine, self.value_stack.pop().unwrap()); get_location_released(a, &mut self.machine, self.value_stack.pop().unwrap());
let loc_a = let loc_a =
get_location_released(a, &mut self.machine, self.value_stack.pop().unwrap()); get_location_released(a, &mut self.machine, self.value_stack.pop().unwrap());
let ret = self.machine.acquire_locations(a, &[(WpType::I64, MachineValue::WasmStack(self.value_stack.len()))], false)[0]; let ret = self.machine.acquire_locations(
a,
&[(WpType::I64, MachineValue::WasmStack(self.value_stack.len()))],
false,
)[0];
a.emit_mov(Size::S64, loc_a, Location::GPR(GPR::RAX)); a.emit_mov(Size::S64, loc_a, Location::GPR(GPR::RAX));
a.emit_cqo(); a.emit_cqo();
Self::emit_relaxed_xdiv( Self::emit_relaxed_xdiv(
@ -2156,7 +2242,11 @@ impl FunctionCodeGenerator<CodegenError> for X64FunctionCode {
get_location_released(a, &mut self.machine, self.value_stack.pop().unwrap()); get_location_released(a, &mut self.machine, self.value_stack.pop().unwrap());
let loc_a = let loc_a =
get_location_released(a, &mut self.machine, self.value_stack.pop().unwrap()); get_location_released(a, &mut self.machine, self.value_stack.pop().unwrap());
let ret = self.machine.acquire_locations(a, &[(WpType::I64, MachineValue::WasmStack(self.value_stack.len()))], false)[0]; let ret = self.machine.acquire_locations(
a,
&[(WpType::I64, MachineValue::WasmStack(self.value_stack.len()))],
false,
)[0];
a.emit_mov(Size::S64, loc_a, Location::GPR(GPR::RAX)); a.emit_mov(Size::S64, loc_a, Location::GPR(GPR::RAX));
a.emit_xor(Size::S64, Location::GPR(GPR::RDX), Location::GPR(GPR::RDX)); a.emit_xor(Size::S64, Location::GPR(GPR::RDX), Location::GPR(GPR::RDX));
Self::emit_relaxed_xdiv( Self::emit_relaxed_xdiv(
@ -2175,7 +2265,11 @@ impl FunctionCodeGenerator<CodegenError> for X64FunctionCode {
get_location_released(a, &mut self.machine, self.value_stack.pop().unwrap()); get_location_released(a, &mut self.machine, self.value_stack.pop().unwrap());
let loc_a = let loc_a =
get_location_released(a, &mut self.machine, self.value_stack.pop().unwrap()); get_location_released(a, &mut self.machine, self.value_stack.pop().unwrap());
let ret = self.machine.acquire_locations(a, &[(WpType::I64, MachineValue::WasmStack(self.value_stack.len()))], false)[0]; let ret = self.machine.acquire_locations(
a,
&[(WpType::I64, MachineValue::WasmStack(self.value_stack.len()))],
false,
)[0];
let normal_path = a.get_label(); let normal_path = a.get_label();
let end = a.get_label(); let end = a.get_label();
@ -2349,7 +2443,11 @@ impl FunctionCodeGenerator<CodegenError> for X64FunctionCode {
Operator::I64ExtendUI32 => { Operator::I64ExtendUI32 => {
let loc = let loc =
get_location_released(a, &mut self.machine, self.value_stack.pop().unwrap()); get_location_released(a, &mut self.machine, self.value_stack.pop().unwrap());
let ret = self.machine.acquire_locations(a, &[(WpType::I64, MachineValue::WasmStack(self.value_stack.len()))], false)[0]; let ret = self.machine.acquire_locations(
a,
&[(WpType::I64, MachineValue::WasmStack(self.value_stack.len()))],
false,
)[0];
self.value_stack.push((ret, LocalOrTemp::Temp)); self.value_stack.push((ret, LocalOrTemp::Temp));
Self::emit_relaxed_binop( Self::emit_relaxed_binop(
a, a,
@ -2363,7 +2461,11 @@ impl FunctionCodeGenerator<CodegenError> for X64FunctionCode {
Operator::I64ExtendSI32 => { Operator::I64ExtendSI32 => {
let loc = let loc =
get_location_released(a, &mut self.machine, self.value_stack.pop().unwrap()); get_location_released(a, &mut self.machine, self.value_stack.pop().unwrap());
let ret = self.machine.acquire_locations(a, &[(WpType::I64, MachineValue::WasmStack(self.value_stack.len()))], false)[0]; let ret = self.machine.acquire_locations(
a,
&[(WpType::I64, MachineValue::WasmStack(self.value_stack.len()))],
false,
)[0];
self.value_stack.push((ret, LocalOrTemp::Temp)); self.value_stack.push((ret, LocalOrTemp::Temp));
Self::emit_relaxed_zx_sx( Self::emit_relaxed_zx_sx(
a, a,
@ -2378,7 +2480,11 @@ impl FunctionCodeGenerator<CodegenError> for X64FunctionCode {
Operator::I32WrapI64 => { Operator::I32WrapI64 => {
let loc = let loc =
get_location_released(a, &mut self.machine, self.value_stack.pop().unwrap()); get_location_released(a, &mut self.machine, self.value_stack.pop().unwrap());
let ret = self.machine.acquire_locations(a, &[(WpType::I32, MachineValue::WasmStack(self.value_stack.len()))], false)[0]; let ret = self.machine.acquire_locations(
a,
&[(WpType::I32, MachineValue::WasmStack(self.value_stack.len()))],
false,
)[0];
self.value_stack.push((ret, LocalOrTemp::Temp)); self.value_stack.push((ret, LocalOrTemp::Temp));
Self::emit_relaxed_binop( Self::emit_relaxed_binop(
a, a,
@ -2501,7 +2607,11 @@ impl FunctionCodeGenerator<CodegenError> for X64FunctionCode {
get_location_released(a, &mut self.machine, self.value_stack.pop().unwrap()); get_location_released(a, &mut self.machine, self.value_stack.pop().unwrap());
let loc_a = let loc_a =
get_location_released(a, &mut self.machine, self.value_stack.pop().unwrap()); get_location_released(a, &mut self.machine, self.value_stack.pop().unwrap());
let ret = self.machine.acquire_locations(a, &[(WpType::F32, MachineValue::WasmStack(self.value_stack.len()))], false)[0]; let ret = self.machine.acquire_locations(
a,
&[(WpType::F32, MachineValue::WasmStack(self.value_stack.len()))],
false,
)[0];
self.value_stack.push((ret, LocalOrTemp::Temp)); self.value_stack.push((ret, LocalOrTemp::Temp));
let tmp1 = self.machine.acquire_temp_gpr().unwrap(); let tmp1 = self.machine.acquire_temp_gpr().unwrap();
@ -2527,7 +2637,11 @@ impl FunctionCodeGenerator<CodegenError> for X64FunctionCode {
Operator::F32Abs => { Operator::F32Abs => {
let loc = let loc =
get_location_released(a, &mut self.machine, self.value_stack.pop().unwrap()); get_location_released(a, &mut self.machine, self.value_stack.pop().unwrap());
let ret = self.machine.acquire_locations(a, &[(WpType::F32, MachineValue::WasmStack(self.value_stack.len()))], false)[0]; let ret = self.machine.acquire_locations(
a,
&[(WpType::F32, MachineValue::WasmStack(self.value_stack.len()))],
false,
)[0];
self.value_stack.push((ret, LocalOrTemp::Temp)); self.value_stack.push((ret, LocalOrTemp::Temp));
let tmp = self.machine.acquire_temp_gpr().unwrap(); let tmp = self.machine.acquire_temp_gpr().unwrap();
a.emit_mov(Size::S32, loc, Location::GPR(tmp)); a.emit_mov(Size::S32, loc, Location::GPR(tmp));
@ -2543,7 +2657,11 @@ impl FunctionCodeGenerator<CodegenError> for X64FunctionCode {
Operator::F32Neg => { Operator::F32Neg => {
let loc = let loc =
get_location_released(a, &mut self.machine, self.value_stack.pop().unwrap()); get_location_released(a, &mut self.machine, self.value_stack.pop().unwrap());
let ret = self.machine.acquire_locations(a, &[(WpType::F32, MachineValue::WasmStack(self.value_stack.len()))], false)[0]; let ret = self.machine.acquire_locations(
a,
&[(WpType::F32, MachineValue::WasmStack(self.value_stack.len()))],
false,
)[0];
self.value_stack.push((ret, LocalOrTemp::Temp)); self.value_stack.push((ret, LocalOrTemp::Temp));
let tmp = self.machine.acquire_temp_gpr().unwrap(); let tmp = self.machine.acquire_temp_gpr().unwrap();
a.emit_mov(Size::S32, loc, Location::GPR(tmp)); a.emit_mov(Size::S32, loc, Location::GPR(tmp));
@ -2663,7 +2781,11 @@ impl FunctionCodeGenerator<CodegenError> for X64FunctionCode {
get_location_released(a, &mut self.machine, self.value_stack.pop().unwrap()); get_location_released(a, &mut self.machine, self.value_stack.pop().unwrap());
let loc_a = let loc_a =
get_location_released(a, &mut self.machine, self.value_stack.pop().unwrap()); get_location_released(a, &mut self.machine, self.value_stack.pop().unwrap());
let ret = self.machine.acquire_locations(a, &[(WpType::F64, MachineValue::WasmStack(self.value_stack.len()))], false)[0]; let ret = self.machine.acquire_locations(
a,
&[(WpType::F64, MachineValue::WasmStack(self.value_stack.len()))],
false,
)[0];
self.value_stack.push((ret, LocalOrTemp::Temp)); self.value_stack.push((ret, LocalOrTemp::Temp));
let tmp1 = self.machine.acquire_temp_gpr().unwrap(); let tmp1 = self.machine.acquire_temp_gpr().unwrap();
@ -2698,7 +2820,11 @@ impl FunctionCodeGenerator<CodegenError> for X64FunctionCode {
Operator::F64Abs => { Operator::F64Abs => {
let loc = let loc =
get_location_released(a, &mut self.machine, self.value_stack.pop().unwrap()); get_location_released(a, &mut self.machine, self.value_stack.pop().unwrap());
let ret = self.machine.acquire_locations(a, &[(WpType::F64, MachineValue::WasmStack(self.value_stack.len()))], false)[0]; let ret = self.machine.acquire_locations(
a,
&[(WpType::F64, MachineValue::WasmStack(self.value_stack.len()))],
false,
)[0];
self.value_stack.push((ret, LocalOrTemp::Temp)); self.value_stack.push((ret, LocalOrTemp::Temp));
let tmp = self.machine.acquire_temp_gpr().unwrap(); let tmp = self.machine.acquire_temp_gpr().unwrap();
@ -2720,7 +2846,11 @@ impl FunctionCodeGenerator<CodegenError> for X64FunctionCode {
Operator::F64Neg => { Operator::F64Neg => {
let loc = let loc =
get_location_released(a, &mut self.machine, self.value_stack.pop().unwrap()); get_location_released(a, &mut self.machine, self.value_stack.pop().unwrap());
let ret = self.machine.acquire_locations(a, &[(WpType::F64, MachineValue::WasmStack(self.value_stack.len()))], false)[0]; let ret = self.machine.acquire_locations(
a,
&[(WpType::F64, MachineValue::WasmStack(self.value_stack.len()))],
false,
)[0];
self.value_stack.push((ret, LocalOrTemp::Temp)); self.value_stack.push((ret, LocalOrTemp::Temp));
let tmp = self.machine.acquire_temp_gpr().unwrap(); let tmp = self.machine.acquire_temp_gpr().unwrap();
a.emit_mov(Size::S64, loc, Location::GPR(tmp)); a.emit_mov(Size::S64, loc, Location::GPR(tmp));
@ -2745,7 +2875,11 @@ impl FunctionCodeGenerator<CodegenError> for X64FunctionCode {
Operator::I32ReinterpretF32 => { Operator::I32ReinterpretF32 => {
let loc = let loc =
get_location_released(a, &mut self.machine, self.value_stack.pop().unwrap()); get_location_released(a, &mut self.machine, self.value_stack.pop().unwrap());
let ret = self.machine.acquire_locations(a, &[(WpType::I32, MachineValue::WasmStack(self.value_stack.len()))], false)[0]; let ret = self.machine.acquire_locations(
a,
&[(WpType::I32, MachineValue::WasmStack(self.value_stack.len()))],
false,
)[0];
self.value_stack.push((ret, LocalOrTemp::Temp)); self.value_stack.push((ret, LocalOrTemp::Temp));
if loc != ret { if loc != ret {
@ -2762,7 +2896,11 @@ impl FunctionCodeGenerator<CodegenError> for X64FunctionCode {
Operator::F32ReinterpretI32 => { Operator::F32ReinterpretI32 => {
let loc = let loc =
get_location_released(a, &mut self.machine, self.value_stack.pop().unwrap()); get_location_released(a, &mut self.machine, self.value_stack.pop().unwrap());
let ret = self.machine.acquire_locations(a, &[(WpType::F32, MachineValue::WasmStack(self.value_stack.len()))], false)[0]; let ret = self.machine.acquire_locations(
a,
&[(WpType::F32, MachineValue::WasmStack(self.value_stack.len()))],
false,
)[0];
self.value_stack.push((ret, LocalOrTemp::Temp)); self.value_stack.push((ret, LocalOrTemp::Temp));
if loc != ret { if loc != ret {
@ -2780,7 +2918,11 @@ impl FunctionCodeGenerator<CodegenError> for X64FunctionCode {
Operator::I64ReinterpretF64 => { Operator::I64ReinterpretF64 => {
let loc = let loc =
get_location_released(a, &mut self.machine, self.value_stack.pop().unwrap()); get_location_released(a, &mut self.machine, self.value_stack.pop().unwrap());
let ret = self.machine.acquire_locations(a, &[(WpType::I64, MachineValue::WasmStack(self.value_stack.len()))], false)[0]; let ret = self.machine.acquire_locations(
a,
&[(WpType::I64, MachineValue::WasmStack(self.value_stack.len()))],
false,
)[0];
self.value_stack.push((ret, LocalOrTemp::Temp)); self.value_stack.push((ret, LocalOrTemp::Temp));
if loc != ret { if loc != ret {
@ -2797,7 +2939,11 @@ impl FunctionCodeGenerator<CodegenError> for X64FunctionCode {
Operator::F64ReinterpretI64 => { Operator::F64ReinterpretI64 => {
let loc = let loc =
get_location_released(a, &mut self.machine, self.value_stack.pop().unwrap()); get_location_released(a, &mut self.machine, self.value_stack.pop().unwrap());
let ret = self.machine.acquire_locations(a, &[(WpType::F64, MachineValue::WasmStack(self.value_stack.len()))], false)[0]; let ret = self.machine.acquire_locations(
a,
&[(WpType::F64, MachineValue::WasmStack(self.value_stack.len()))],
false,
)[0];
self.value_stack.push((ret, LocalOrTemp::Temp)); self.value_stack.push((ret, LocalOrTemp::Temp));
if loc != ret { if loc != ret {
@ -2815,7 +2961,11 @@ impl FunctionCodeGenerator<CodegenError> for X64FunctionCode {
Operator::I32TruncUF32 => { Operator::I32TruncUF32 => {
let loc = let loc =
get_location_released(a, &mut self.machine, self.value_stack.pop().unwrap()); get_location_released(a, &mut self.machine, self.value_stack.pop().unwrap());
let ret = self.machine.acquire_locations(a, &[(WpType::I32, MachineValue::WasmStack(self.value_stack.len()))], false)[0]; let ret = self.machine.acquire_locations(
a,
&[(WpType::I32, MachineValue::WasmStack(self.value_stack.len()))],
false,
)[0];
self.value_stack.push((ret, LocalOrTemp::Temp)); self.value_stack.push((ret, LocalOrTemp::Temp));
let tmp_out = self.machine.acquire_temp_gpr().unwrap(); let tmp_out = self.machine.acquire_temp_gpr().unwrap();
let tmp_in = self.machine.acquire_temp_xmm().unwrap(); let tmp_in = self.machine.acquire_temp_xmm().unwrap();
@ -2840,7 +2990,11 @@ impl FunctionCodeGenerator<CodegenError> for X64FunctionCode {
Operator::I32TruncSF32 => { Operator::I32TruncSF32 => {
let loc = let loc =
get_location_released(a, &mut self.machine, self.value_stack.pop().unwrap()); get_location_released(a, &mut self.machine, self.value_stack.pop().unwrap());
let ret = self.machine.acquire_locations(a, &[(WpType::I32, MachineValue::WasmStack(self.value_stack.len()))], false)[0]; let ret = self.machine.acquire_locations(
a,
&[(WpType::I32, MachineValue::WasmStack(self.value_stack.len()))],
false,
)[0];
self.value_stack.push((ret, LocalOrTemp::Temp)); self.value_stack.push((ret, LocalOrTemp::Temp));
let tmp_out = self.machine.acquire_temp_gpr().unwrap(); let tmp_out = self.machine.acquire_temp_gpr().unwrap();
let tmp_in = self.machine.acquire_temp_xmm().unwrap(); let tmp_in = self.machine.acquire_temp_xmm().unwrap();
@ -2871,7 +3025,11 @@ impl FunctionCodeGenerator<CodegenError> for X64FunctionCode {
Operator::I64TruncSF32 => { Operator::I64TruncSF32 => {
let loc = let loc =
get_location_released(a, &mut self.machine, self.value_stack.pop().unwrap()); get_location_released(a, &mut self.machine, self.value_stack.pop().unwrap());
let ret = self.machine.acquire_locations(a, &[(WpType::I64, MachineValue::WasmStack(self.value_stack.len()))], false)[0]; let ret = self.machine.acquire_locations(
a,
&[(WpType::I64, MachineValue::WasmStack(self.value_stack.len()))],
false,
)[0];
self.value_stack.push((ret, LocalOrTemp::Temp)); self.value_stack.push((ret, LocalOrTemp::Temp));
let tmp_out = self.machine.acquire_temp_gpr().unwrap(); let tmp_out = self.machine.acquire_temp_gpr().unwrap();
let tmp_in = self.machine.acquire_temp_xmm().unwrap(); let tmp_in = self.machine.acquire_temp_xmm().unwrap();
@ -2916,7 +3074,11 @@ impl FunctionCodeGenerator<CodegenError> for X64FunctionCode {
*/ */
let loc = let loc =
get_location_released(a, &mut self.machine, self.value_stack.pop().unwrap()); get_location_released(a, &mut self.machine, self.value_stack.pop().unwrap());
let ret = self.machine.acquire_locations(a, &[(WpType::I64, MachineValue::WasmStack(self.value_stack.len()))], false)[0]; let ret = self.machine.acquire_locations(
a,
&[(WpType::I64, MachineValue::WasmStack(self.value_stack.len()))],
false,
)[0];
self.value_stack.push((ret, LocalOrTemp::Temp)); self.value_stack.push((ret, LocalOrTemp::Temp));
let tmp_out = self.machine.acquire_temp_gpr().unwrap(); let tmp_out = self.machine.acquire_temp_gpr().unwrap();
let tmp_in = self.machine.acquire_temp_xmm().unwrap(); // xmm2 let tmp_in = self.machine.acquire_temp_xmm().unwrap(); // xmm2
@ -2971,7 +3133,11 @@ impl FunctionCodeGenerator<CodegenError> for X64FunctionCode {
Operator::I32TruncUF64 => { Operator::I32TruncUF64 => {
let loc = let loc =
get_location_released(a, &mut self.machine, self.value_stack.pop().unwrap()); get_location_released(a, &mut self.machine, self.value_stack.pop().unwrap());
let ret = self.machine.acquire_locations(a, &[(WpType::I32, MachineValue::WasmStack(self.value_stack.len()))], false)[0]; let ret = self.machine.acquire_locations(
a,
&[(WpType::I32, MachineValue::WasmStack(self.value_stack.len()))],
false,
)[0];
self.value_stack.push((ret, LocalOrTemp::Temp)); self.value_stack.push((ret, LocalOrTemp::Temp));
let tmp_out = self.machine.acquire_temp_gpr().unwrap(); let tmp_out = self.machine.acquire_temp_gpr().unwrap();
let tmp_in = self.machine.acquire_temp_xmm().unwrap(); let tmp_in = self.machine.acquire_temp_xmm().unwrap();
@ -2996,7 +3162,11 @@ impl FunctionCodeGenerator<CodegenError> for X64FunctionCode {
Operator::I32TruncSF64 => { Operator::I32TruncSF64 => {
let loc = let loc =
get_location_released(a, &mut self.machine, self.value_stack.pop().unwrap()); get_location_released(a, &mut self.machine, self.value_stack.pop().unwrap());
let ret = self.machine.acquire_locations(a, &[(WpType::I32, MachineValue::WasmStack(self.value_stack.len()))], false)[0]; let ret = self.machine.acquire_locations(
a,
&[(WpType::I32, MachineValue::WasmStack(self.value_stack.len()))],
false,
)[0];
self.value_stack.push((ret, LocalOrTemp::Temp)); self.value_stack.push((ret, LocalOrTemp::Temp));
let tmp_out = self.machine.acquire_temp_gpr().unwrap(); let tmp_out = self.machine.acquire_temp_gpr().unwrap();
let tmp_in = self.machine.acquire_temp_xmm().unwrap(); let tmp_in = self.machine.acquire_temp_xmm().unwrap();
@ -3032,7 +3202,11 @@ impl FunctionCodeGenerator<CodegenError> for X64FunctionCode {
Operator::I64TruncSF64 => { Operator::I64TruncSF64 => {
let loc = let loc =
get_location_released(a, &mut self.machine, self.value_stack.pop().unwrap()); get_location_released(a, &mut self.machine, self.value_stack.pop().unwrap());
let ret = self.machine.acquire_locations(a, &[(WpType::I64, MachineValue::WasmStack(self.value_stack.len()))], false)[0]; let ret = self.machine.acquire_locations(
a,
&[(WpType::I64, MachineValue::WasmStack(self.value_stack.len()))],
false,
)[0];
self.value_stack.push((ret, LocalOrTemp::Temp)); self.value_stack.push((ret, LocalOrTemp::Temp));
let tmp_out = self.machine.acquire_temp_gpr().unwrap(); let tmp_out = self.machine.acquire_temp_gpr().unwrap();
let tmp_in = self.machine.acquire_temp_xmm().unwrap(); let tmp_in = self.machine.acquire_temp_xmm().unwrap();
@ -3063,7 +3237,11 @@ impl FunctionCodeGenerator<CodegenError> for X64FunctionCode {
Operator::I64TruncUF64 => { Operator::I64TruncUF64 => {
let loc = let loc =
get_location_released(a, &mut self.machine, self.value_stack.pop().unwrap()); get_location_released(a, &mut self.machine, self.value_stack.pop().unwrap());
let ret = self.machine.acquire_locations(a, &[(WpType::I64, MachineValue::WasmStack(self.value_stack.len()))], false)[0]; let ret = self.machine.acquire_locations(
a,
&[(WpType::I64, MachineValue::WasmStack(self.value_stack.len()))],
false,
)[0];
self.value_stack.push((ret, LocalOrTemp::Temp)); self.value_stack.push((ret, LocalOrTemp::Temp));
let tmp_out = self.machine.acquire_temp_gpr().unwrap(); let tmp_out = self.machine.acquire_temp_gpr().unwrap();
let tmp_in = self.machine.acquire_temp_xmm().unwrap(); // xmm2 let tmp_in = self.machine.acquire_temp_xmm().unwrap(); // xmm2
@ -3118,7 +3296,11 @@ impl FunctionCodeGenerator<CodegenError> for X64FunctionCode {
Operator::F32ConvertSI32 => { Operator::F32ConvertSI32 => {
let loc = let loc =
get_location_released(a, &mut self.machine, self.value_stack.pop().unwrap()); get_location_released(a, &mut self.machine, self.value_stack.pop().unwrap());
let ret = self.machine.acquire_locations(a, &[(WpType::F32, MachineValue::WasmStack(self.value_stack.len()))], false)[0]; let ret = self.machine.acquire_locations(
a,
&[(WpType::F32, MachineValue::WasmStack(self.value_stack.len()))],
false,
)[0];
self.value_stack.push((ret, LocalOrTemp::Temp)); self.value_stack.push((ret, LocalOrTemp::Temp));
let tmp_out = self.machine.acquire_temp_xmm().unwrap(); let tmp_out = self.machine.acquire_temp_xmm().unwrap();
let tmp_in = self.machine.acquire_temp_gpr().unwrap(); let tmp_in = self.machine.acquire_temp_gpr().unwrap();
@ -3133,7 +3315,11 @@ impl FunctionCodeGenerator<CodegenError> for X64FunctionCode {
Operator::F32ConvertUI32 => { Operator::F32ConvertUI32 => {
let loc = let loc =
get_location_released(a, &mut self.machine, self.value_stack.pop().unwrap()); get_location_released(a, &mut self.machine, self.value_stack.pop().unwrap());
let ret = self.machine.acquire_locations(a, &[(WpType::F32, MachineValue::WasmStack(self.value_stack.len()))], false)[0]; let ret = self.machine.acquire_locations(
a,
&[(WpType::F32, MachineValue::WasmStack(self.value_stack.len()))],
false,
)[0];
self.value_stack.push((ret, LocalOrTemp::Temp)); self.value_stack.push((ret, LocalOrTemp::Temp));
let tmp_out = self.machine.acquire_temp_xmm().unwrap(); let tmp_out = self.machine.acquire_temp_xmm().unwrap();
let tmp_in = self.machine.acquire_temp_gpr().unwrap(); let tmp_in = self.machine.acquire_temp_gpr().unwrap();
@ -3148,7 +3334,11 @@ impl FunctionCodeGenerator<CodegenError> for X64FunctionCode {
Operator::F32ConvertSI64 => { Operator::F32ConvertSI64 => {
let loc = let loc =
get_location_released(a, &mut self.machine, self.value_stack.pop().unwrap()); get_location_released(a, &mut self.machine, self.value_stack.pop().unwrap());
let ret = self.machine.acquire_locations(a, &[(WpType::F32, MachineValue::WasmStack(self.value_stack.len()))], false)[0]; let ret = self.machine.acquire_locations(
a,
&[(WpType::F32, MachineValue::WasmStack(self.value_stack.len()))],
false,
)[0];
self.value_stack.push((ret, LocalOrTemp::Temp)); self.value_stack.push((ret, LocalOrTemp::Temp));
let tmp_out = self.machine.acquire_temp_xmm().unwrap(); let tmp_out = self.machine.acquire_temp_xmm().unwrap();
let tmp_in = self.machine.acquire_temp_gpr().unwrap(); let tmp_in = self.machine.acquire_temp_gpr().unwrap();
@ -3163,7 +3353,11 @@ impl FunctionCodeGenerator<CodegenError> for X64FunctionCode {
Operator::F32ConvertUI64 => { Operator::F32ConvertUI64 => {
let loc = let loc =
get_location_released(a, &mut self.machine, self.value_stack.pop().unwrap()); get_location_released(a, &mut self.machine, self.value_stack.pop().unwrap());
let ret = self.machine.acquire_locations(a, &[(WpType::F32, MachineValue::WasmStack(self.value_stack.len()))], false)[0]; let ret = self.machine.acquire_locations(
a,
&[(WpType::F32, MachineValue::WasmStack(self.value_stack.len()))],
false,
)[0];
self.value_stack.push((ret, LocalOrTemp::Temp)); self.value_stack.push((ret, LocalOrTemp::Temp));
let tmp_out = self.machine.acquire_temp_xmm().unwrap(); let tmp_out = self.machine.acquire_temp_xmm().unwrap();
let tmp_in = self.machine.acquire_temp_gpr().unwrap(); let tmp_in = self.machine.acquire_temp_gpr().unwrap();
@ -3195,7 +3389,11 @@ impl FunctionCodeGenerator<CodegenError> for X64FunctionCode {
Operator::F64ConvertSI32 => { Operator::F64ConvertSI32 => {
let loc = let loc =
get_location_released(a, &mut self.machine, self.value_stack.pop().unwrap()); get_location_released(a, &mut self.machine, self.value_stack.pop().unwrap());
let ret = self.machine.acquire_locations(a, &[(WpType::F64, MachineValue::WasmStack(self.value_stack.len()))], false)[0]; let ret = self.machine.acquire_locations(
a,
&[(WpType::F64, MachineValue::WasmStack(self.value_stack.len()))],
false,
)[0];
self.value_stack.push((ret, LocalOrTemp::Temp)); self.value_stack.push((ret, LocalOrTemp::Temp));
let tmp_out = self.machine.acquire_temp_xmm().unwrap(); let tmp_out = self.machine.acquire_temp_xmm().unwrap();
let tmp_in = self.machine.acquire_temp_gpr().unwrap(); let tmp_in = self.machine.acquire_temp_gpr().unwrap();
@ -3210,7 +3408,11 @@ impl FunctionCodeGenerator<CodegenError> for X64FunctionCode {
Operator::F64ConvertUI32 => { Operator::F64ConvertUI32 => {
let loc = let loc =
get_location_released(a, &mut self.machine, self.value_stack.pop().unwrap()); get_location_released(a, &mut self.machine, self.value_stack.pop().unwrap());
let ret = self.machine.acquire_locations(a, &[(WpType::F64, MachineValue::WasmStack(self.value_stack.len()))], false)[0]; let ret = self.machine.acquire_locations(
a,
&[(WpType::F64, MachineValue::WasmStack(self.value_stack.len()))],
false,
)[0];
self.value_stack.push((ret, LocalOrTemp::Temp)); self.value_stack.push((ret, LocalOrTemp::Temp));
let tmp_out = self.machine.acquire_temp_xmm().unwrap(); let tmp_out = self.machine.acquire_temp_xmm().unwrap();
let tmp_in = self.machine.acquire_temp_gpr().unwrap(); let tmp_in = self.machine.acquire_temp_gpr().unwrap();
@ -3225,7 +3427,11 @@ impl FunctionCodeGenerator<CodegenError> for X64FunctionCode {
Operator::F64ConvertSI64 => { Operator::F64ConvertSI64 => {
let loc = let loc =
get_location_released(a, &mut self.machine, self.value_stack.pop().unwrap()); get_location_released(a, &mut self.machine, self.value_stack.pop().unwrap());
let ret = self.machine.acquire_locations(a, &[(WpType::F64, MachineValue::WasmStack(self.value_stack.len()))], false)[0]; let ret = self.machine.acquire_locations(
a,
&[(WpType::F64, MachineValue::WasmStack(self.value_stack.len()))],
false,
)[0];
self.value_stack.push((ret, LocalOrTemp::Temp)); self.value_stack.push((ret, LocalOrTemp::Temp));
let tmp_out = self.machine.acquire_temp_xmm().unwrap(); let tmp_out = self.machine.acquire_temp_xmm().unwrap();
let tmp_in = self.machine.acquire_temp_gpr().unwrap(); let tmp_in = self.machine.acquire_temp_gpr().unwrap();
@ -3240,7 +3446,11 @@ impl FunctionCodeGenerator<CodegenError> for X64FunctionCode {
Operator::F64ConvertUI64 => { Operator::F64ConvertUI64 => {
let loc = let loc =
get_location_released(a, &mut self.machine, self.value_stack.pop().unwrap()); get_location_released(a, &mut self.machine, self.value_stack.pop().unwrap());
let ret = self.machine.acquire_locations(a, &[(WpType::F64, MachineValue::WasmStack(self.value_stack.len()))], false)[0]; let ret = self.machine.acquire_locations(
a,
&[(WpType::F64, MachineValue::WasmStack(self.value_stack.len()))],
false,
)[0];
self.value_stack.push((ret, LocalOrTemp::Temp)); self.value_stack.push((ret, LocalOrTemp::Temp));
let tmp_out = self.machine.acquire_temp_xmm().unwrap(); let tmp_out = self.machine.acquire_temp_xmm().unwrap();
let tmp_in = self.machine.acquire_temp_gpr().unwrap(); let tmp_in = self.machine.acquire_temp_gpr().unwrap();
@ -3311,7 +3521,14 @@ impl FunctionCodeGenerator<CodegenError> for X64FunctionCode {
self.machine.release_locations_only_stack(a, &released); self.machine.release_locations_only_stack(a, &released);
if return_types.len() > 0 { if return_types.len() > 0 {
let ret = self.machine.acquire_locations(a, &[(return_types[0], MachineValue::WasmStack(self.value_stack.len()))], false)[0]; let ret = self.machine.acquire_locations(
a,
&[(
return_types[0],
MachineValue::WasmStack(self.value_stack.len()),
)],
false,
)[0];
self.value_stack.push((ret, LocalOrTemp::Temp)); self.value_stack.push((ret, LocalOrTemp::Temp));
a.emit_mov(Size::S64, Location::GPR(GPR::RAX), ret); a.emit_mov(Size::S64, Location::GPR(GPR::RAX), ret);
} }
@ -3426,7 +3643,14 @@ impl FunctionCodeGenerator<CodegenError> for X64FunctionCode {
self.machine.release_locations_only_stack(a, &released); self.machine.release_locations_only_stack(a, &released);
if return_types.len() > 0 { if return_types.len() > 0 {
let ret = self.machine.acquire_locations(a, &[(return_types[0], MachineValue::WasmStack(self.value_stack.len()))], false)[0]; let ret = self.machine.acquire_locations(
a,
&[(
return_types[0],
MachineValue::WasmStack(self.value_stack.len()),
)],
false,
)[0];
self.value_stack.push((ret, LocalOrTemp::Temp)); self.value_stack.push((ret, LocalOrTemp::Temp));
a.emit_mov(Size::S64, Location::GPR(GPR::RAX), ret); a.emit_mov(Size::S64, Location::GPR(GPR::RAX), ret);
} }
@ -3448,7 +3672,11 @@ impl FunctionCodeGenerator<CodegenError> for X64FunctionCode {
}, },
value_stack_depth: self.value_stack.len(), value_stack_depth: self.value_stack.len(),
state: self.machine.state.clone(), state: self.machine.state.clone(),
state_diff_id: Self::get_state_diff(&self.machine, &mut self.fsm, &self.control_stack), state_diff_id: Self::get_state_diff(
&self.machine,
&mut self.fsm,
&self.control_stack,
),
}); });
Self::emit_relaxed_binop( Self::emit_relaxed_binop(
a, a,
@ -3499,7 +3727,11 @@ impl FunctionCodeGenerator<CodegenError> for X64FunctionCode {
get_location_released(a, &mut self.machine, self.value_stack.pop().unwrap()); get_location_released(a, &mut self.machine, self.value_stack.pop().unwrap());
let v_a = let v_a =
get_location_released(a, &mut self.machine, self.value_stack.pop().unwrap()); get_location_released(a, &mut self.machine, self.value_stack.pop().unwrap());
let ret = self.machine.acquire_locations(a, &[(WpType::I64, MachineValue::WasmStack(self.value_stack.len()))], false)[0]; let ret = self.machine.acquire_locations(
a,
&[(WpType::I64, MachineValue::WasmStack(self.value_stack.len()))],
false,
)[0];
self.value_stack.push((ret, LocalOrTemp::Temp)); self.value_stack.push((ret, LocalOrTemp::Temp));
let end_label = a.get_label(); let end_label = a.get_label();
@ -3549,12 +3781,17 @@ impl FunctionCodeGenerator<CodegenError> for X64FunctionCode {
}, },
value_stack_depth: self.value_stack.len(), value_stack_depth: self.value_stack.len(),
state: self.machine.state.clone(), state: self.machine.state.clone(),
state_diff_id: Self::get_state_diff(&self.machine, &mut self.fsm, &self.control_stack), state_diff_id: Self::get_state_diff(
&self.machine,
&mut self.fsm,
&self.control_stack,
),
}); });
} }
Operator::Loop { ty } => { Operator::Loop { ty } => {
let label = a.get_label(); let label = a.get_label();
let state_diff_id = Self::get_state_diff(&self.machine, &mut self.fsm, &self.control_stack); let state_diff_id =
Self::get_state_diff(&self.machine, &mut self.fsm, &self.control_stack);
self.control_stack.push(ControlFrame { self.control_stack.push(ControlFrame {
label: label, label: label,
loop_like: true, loop_like: true,
@ -3568,7 +3805,9 @@ impl FunctionCodeGenerator<CodegenError> for X64FunctionCode {
state_diff_id, state_diff_id,
}); });
inst_metadata.special = Some((SpecialInst::Loop, state_diff_id)); inst_metadata.special = Some((SpecialInst::Loop, state_diff_id));
self.fsm.loop_offsets.insert(a.get_offset().0, state_diff_id); self.fsm
.loop_offsets
.insert(a.get_offset().0, state_diff_id);
a.emit_label(label); a.emit_label(label);
} }
Operator::Nop => {} Operator::Nop => {}
@ -3596,7 +3835,11 @@ impl FunctionCodeGenerator<CodegenError> for X64FunctionCode {
::std::iter::once(Location::Imm32(memory_index.index() as u32)), ::std::iter::once(Location::Imm32(memory_index.index() as u32)),
None, None,
); );
let ret = self.machine.acquire_locations(a, &[(WpType::I64, MachineValue::WasmStack(self.value_stack.len()))], false)[0]; let ret = self.machine.acquire_locations(
a,
&[(WpType::I64, MachineValue::WasmStack(self.value_stack.len()))],
false,
)[0];
self.value_stack.push((ret, LocalOrTemp::Temp)); self.value_stack.push((ret, LocalOrTemp::Temp));
a.emit_mov(Size::S64, Location::GPR(GPR::RAX), ret); a.emit_mov(Size::S64, Location::GPR(GPR::RAX), ret);
} }
@ -3637,14 +3880,22 @@ impl FunctionCodeGenerator<CodegenError> for X64FunctionCode {
self.machine.release_locations_only_stack(a, &[param_pages]); self.machine.release_locations_only_stack(a, &[param_pages]);
} }
let ret = self.machine.acquire_locations(a, &[(WpType::I64, MachineValue::WasmStack(self.value_stack.len()))], false)[0]; let ret = self.machine.acquire_locations(
a,
&[(WpType::I64, MachineValue::WasmStack(self.value_stack.len()))],
false,
)[0];
self.value_stack.push((ret, LocalOrTemp::Temp)); self.value_stack.push((ret, LocalOrTemp::Temp));
a.emit_mov(Size::S64, Location::GPR(GPR::RAX), ret); a.emit_mov(Size::S64, Location::GPR(GPR::RAX), ret);
} }
Operator::I32Load { ref memarg } => { Operator::I32Load { ref memarg } => {
let target = let target =
get_location_released(a, &mut self.machine, self.value_stack.pop().unwrap()); get_location_released(a, &mut self.machine, self.value_stack.pop().unwrap());
let ret = self.machine.acquire_locations(a, &[(WpType::I32, MachineValue::WasmStack(self.value_stack.len()))], false)[0]; let ret = self.machine.acquire_locations(
a,
&[(WpType::I32, MachineValue::WasmStack(self.value_stack.len()))],
false,
)[0];
self.value_stack.push((ret, LocalOrTemp::Temp)); self.value_stack.push((ret, LocalOrTemp::Temp));
Self::emit_memory_op( Self::emit_memory_op(
@ -3670,7 +3921,11 @@ impl FunctionCodeGenerator<CodegenError> for X64FunctionCode {
Operator::F32Load { ref memarg } => { Operator::F32Load { ref memarg } => {
let target = let target =
get_location_released(a, &mut self.machine, self.value_stack.pop().unwrap()); get_location_released(a, &mut self.machine, self.value_stack.pop().unwrap());
let ret = self.machine.acquire_locations(a, &[(WpType::F32, MachineValue::WasmStack(self.value_stack.len()))], false)[0]; let ret = self.machine.acquire_locations(
a,
&[(WpType::F32, MachineValue::WasmStack(self.value_stack.len()))],
false,
)[0];
self.value_stack.push((ret, LocalOrTemp::Temp)); self.value_stack.push((ret, LocalOrTemp::Temp));
Self::emit_memory_op( Self::emit_memory_op(
@ -3696,7 +3951,11 @@ impl FunctionCodeGenerator<CodegenError> for X64FunctionCode {
Operator::I32Load8U { ref memarg } => { Operator::I32Load8U { ref memarg } => {
let target = let target =
get_location_released(a, &mut self.machine, self.value_stack.pop().unwrap()); get_location_released(a, &mut self.machine, self.value_stack.pop().unwrap());
let ret = self.machine.acquire_locations(a, &[(WpType::I32, MachineValue::WasmStack(self.value_stack.len()))], false)[0]; let ret = self.machine.acquire_locations(
a,
&[(WpType::I32, MachineValue::WasmStack(self.value_stack.len()))],
false,
)[0];
self.value_stack.push((ret, LocalOrTemp::Temp)); self.value_stack.push((ret, LocalOrTemp::Temp));
Self::emit_memory_op( Self::emit_memory_op(
@ -3723,7 +3982,11 @@ impl FunctionCodeGenerator<CodegenError> for X64FunctionCode {
Operator::I32Load8S { ref memarg } => { Operator::I32Load8S { ref memarg } => {
let target = let target =
get_location_released(a, &mut self.machine, self.value_stack.pop().unwrap()); get_location_released(a, &mut self.machine, self.value_stack.pop().unwrap());
let ret = self.machine.acquire_locations(a, &[(WpType::I32, MachineValue::WasmStack(self.value_stack.len()))], false)[0]; let ret = self.machine.acquire_locations(
a,
&[(WpType::I32, MachineValue::WasmStack(self.value_stack.len()))],
false,
)[0];
self.value_stack.push((ret, LocalOrTemp::Temp)); self.value_stack.push((ret, LocalOrTemp::Temp));
Self::emit_memory_op( Self::emit_memory_op(
@ -3750,7 +4013,11 @@ impl FunctionCodeGenerator<CodegenError> for X64FunctionCode {
Operator::I32Load16U { ref memarg } => { Operator::I32Load16U { ref memarg } => {
let target = let target =
get_location_released(a, &mut self.machine, self.value_stack.pop().unwrap()); get_location_released(a, &mut self.machine, self.value_stack.pop().unwrap());
let ret = self.machine.acquire_locations(a, &[(WpType::I32, MachineValue::WasmStack(self.value_stack.len()))], false)[0]; let ret = self.machine.acquire_locations(
a,
&[(WpType::I32, MachineValue::WasmStack(self.value_stack.len()))],
false,
)[0];
self.value_stack.push((ret, LocalOrTemp::Temp)); self.value_stack.push((ret, LocalOrTemp::Temp));
Self::emit_memory_op( Self::emit_memory_op(
@ -3777,7 +4044,11 @@ impl FunctionCodeGenerator<CodegenError> for X64FunctionCode {
Operator::I32Load16S { ref memarg } => { Operator::I32Load16S { ref memarg } => {
let target = let target =
get_location_released(a, &mut self.machine, self.value_stack.pop().unwrap()); get_location_released(a, &mut self.machine, self.value_stack.pop().unwrap());
let ret = self.machine.acquire_locations(a, &[(WpType::I32, MachineValue::WasmStack(self.value_stack.len()))], false)[0]; let ret = self.machine.acquire_locations(
a,
&[(WpType::I32, MachineValue::WasmStack(self.value_stack.len()))],
false,
)[0];
self.value_stack.push((ret, LocalOrTemp::Temp)); self.value_stack.push((ret, LocalOrTemp::Temp));
Self::emit_memory_op( Self::emit_memory_op(
@ -3908,7 +4179,11 @@ impl FunctionCodeGenerator<CodegenError> for X64FunctionCode {
Operator::I64Load { ref memarg } => { Operator::I64Load { ref memarg } => {
let target = let target =
get_location_released(a, &mut self.machine, self.value_stack.pop().unwrap()); get_location_released(a, &mut self.machine, self.value_stack.pop().unwrap());
let ret = self.machine.acquire_locations(a, &[(WpType::I64, MachineValue::WasmStack(self.value_stack.len()))], false)[0]; let ret = self.machine.acquire_locations(
a,
&[(WpType::I64, MachineValue::WasmStack(self.value_stack.len()))],
false,
)[0];
self.value_stack.push((ret, LocalOrTemp::Temp)); self.value_stack.push((ret, LocalOrTemp::Temp));
Self::emit_memory_op( Self::emit_memory_op(
@ -3934,7 +4209,11 @@ impl FunctionCodeGenerator<CodegenError> for X64FunctionCode {
Operator::F64Load { ref memarg } => { Operator::F64Load { ref memarg } => {
let target = let target =
get_location_released(a, &mut self.machine, self.value_stack.pop().unwrap()); get_location_released(a, &mut self.machine, self.value_stack.pop().unwrap());
let ret = self.machine.acquire_locations(a, &[(WpType::F64, MachineValue::WasmStack(self.value_stack.len()))], false)[0]; let ret = self.machine.acquire_locations(
a,
&[(WpType::F64, MachineValue::WasmStack(self.value_stack.len()))],
false,
)[0];
self.value_stack.push((ret, LocalOrTemp::Temp)); self.value_stack.push((ret, LocalOrTemp::Temp));
Self::emit_memory_op( Self::emit_memory_op(
@ -3960,7 +4239,11 @@ impl FunctionCodeGenerator<CodegenError> for X64FunctionCode {
Operator::I64Load8U { ref memarg } => { Operator::I64Load8U { ref memarg } => {
let target = let target =
get_location_released(a, &mut self.machine, self.value_stack.pop().unwrap()); get_location_released(a, &mut self.machine, self.value_stack.pop().unwrap());
let ret = self.machine.acquire_locations(a, &[(WpType::I64, MachineValue::WasmStack(self.value_stack.len()))], false)[0]; let ret = self.machine.acquire_locations(
a,
&[(WpType::I64, MachineValue::WasmStack(self.value_stack.len()))],
false,
)[0];
self.value_stack.push((ret, LocalOrTemp::Temp)); self.value_stack.push((ret, LocalOrTemp::Temp));
Self::emit_memory_op( Self::emit_memory_op(
@ -3987,7 +4270,11 @@ impl FunctionCodeGenerator<CodegenError> for X64FunctionCode {
Operator::I64Load8S { ref memarg } => { Operator::I64Load8S { ref memarg } => {
let target = let target =
get_location_released(a, &mut self.machine, self.value_stack.pop().unwrap()); get_location_released(a, &mut self.machine, self.value_stack.pop().unwrap());
let ret = self.machine.acquire_locations(a, &[(WpType::I64, MachineValue::WasmStack(self.value_stack.len()))], false)[0]; let ret = self.machine.acquire_locations(
a,
&[(WpType::I64, MachineValue::WasmStack(self.value_stack.len()))],
false,
)[0];
self.value_stack.push((ret, LocalOrTemp::Temp)); self.value_stack.push((ret, LocalOrTemp::Temp));
Self::emit_memory_op( Self::emit_memory_op(
@ -4014,7 +4301,11 @@ impl FunctionCodeGenerator<CodegenError> for X64FunctionCode {
Operator::I64Load16U { ref memarg } => { Operator::I64Load16U { ref memarg } => {
let target = let target =
get_location_released(a, &mut self.machine, self.value_stack.pop().unwrap()); get_location_released(a, &mut self.machine, self.value_stack.pop().unwrap());
let ret = self.machine.acquire_locations(a, &[(WpType::I64, MachineValue::WasmStack(self.value_stack.len()))], false)[0]; let ret = self.machine.acquire_locations(
a,
&[(WpType::I64, MachineValue::WasmStack(self.value_stack.len()))],
false,
)[0];
self.value_stack.push((ret, LocalOrTemp::Temp)); self.value_stack.push((ret, LocalOrTemp::Temp));
Self::emit_memory_op( Self::emit_memory_op(
@ -4041,7 +4332,11 @@ impl FunctionCodeGenerator<CodegenError> for X64FunctionCode {
Operator::I64Load16S { ref memarg } => { Operator::I64Load16S { ref memarg } => {
let target = let target =
get_location_released(a, &mut self.machine, self.value_stack.pop().unwrap()); get_location_released(a, &mut self.machine, self.value_stack.pop().unwrap());
let ret = self.machine.acquire_locations(a, &[(WpType::I64, MachineValue::WasmStack(self.value_stack.len()))], false)[0]; let ret = self.machine.acquire_locations(
a,
&[(WpType::I64, MachineValue::WasmStack(self.value_stack.len()))],
false,
)[0];
self.value_stack.push((ret, LocalOrTemp::Temp)); self.value_stack.push((ret, LocalOrTemp::Temp));
Self::emit_memory_op( Self::emit_memory_op(
@ -4068,7 +4363,11 @@ impl FunctionCodeGenerator<CodegenError> for X64FunctionCode {
Operator::I64Load32U { ref memarg } => { Operator::I64Load32U { ref memarg } => {
let target = let target =
get_location_released(a, &mut self.machine, self.value_stack.pop().unwrap()); get_location_released(a, &mut self.machine, self.value_stack.pop().unwrap());
let ret = self.machine.acquire_locations(a, &[(WpType::I64, MachineValue::WasmStack(self.value_stack.len()))], false)[0]; let ret = self.machine.acquire_locations(
a,
&[(WpType::I64, MachineValue::WasmStack(self.value_stack.len()))],
false,
)[0];
self.value_stack.push((ret, LocalOrTemp::Temp)); self.value_stack.push((ret, LocalOrTemp::Temp));
Self::emit_memory_op( Self::emit_memory_op(
@ -4100,7 +4399,11 @@ impl FunctionCodeGenerator<CodegenError> for X64FunctionCode {
Operator::I64Load32S { ref memarg } => { Operator::I64Load32S { ref memarg } => {
let target = let target =
get_location_released(a, &mut self.machine, self.value_stack.pop().unwrap()); get_location_released(a, &mut self.machine, self.value_stack.pop().unwrap());
let ret = self.machine.acquire_locations(a, &[(WpType::I64, MachineValue::WasmStack(self.value_stack.len()))], false)[0]; let ret = self.machine.acquire_locations(
a,
&[(WpType::I64, MachineValue::WasmStack(self.value_stack.len()))],
false,
)[0];
self.value_stack.push((ret, LocalOrTemp::Temp)); self.value_stack.push((ret, LocalOrTemp::Temp));
Self::emit_memory_op( Self::emit_memory_op(
@ -4439,9 +4742,14 @@ impl FunctionCodeGenerator<CodegenError> for X64FunctionCode {
if frame.returns.len() > 0 { if frame.returns.len() > 0 {
assert_eq!(frame.returns.len(), 1); assert_eq!(frame.returns.len(), 1);
let loc = self.machine.acquire_locations(a, &[ let loc = self.machine.acquire_locations(
(frame.returns[0], MachineValue::WasmStack(self.value_stack.len())) a,
], false)[0]; &[(
frame.returns[0],
MachineValue::WasmStack(self.value_stack.len()),
)],
false,
)[0];
a.emit_mov(Size::S64, Location::GPR(GPR::RAX), loc); a.emit_mov(Size::S64, Location::GPR(GPR::RAX), loc);
self.value_stack.push((loc, LocalOrTemp::Temp)); self.value_stack.push((loc, LocalOrTemp::Temp));
} }

33
lib/singlepass-backend/src/machine.rs
View File

@ -1,9 +1,9 @@
use crate::emitter_x64::*; use crate::emitter_x64::*;
use smallvec::SmallVec; use smallvec::SmallVec;
use std::collections::HashSet; use std::collections::HashSet;
use wasmparser::Type as WpType;
use wasmer_runtime_core::state::*;
use wasmer_runtime_core::state::x64::X64Register; use wasmer_runtime_core::state::x64::X64Register;
use wasmer_runtime_core::state::*;
use wasmparser::Type as WpType;
struct MachineStackOffset(usize); struct MachineStackOffset(usize);
@ -188,11 +188,13 @@ impl Machine {
match *loc { match *loc {
Location::GPR(ref x) => { Location::GPR(ref x) => {
assert_eq!(self.used_gprs.remove(x), true); assert_eq!(self.used_gprs.remove(x), true);
self.state.register_values[X64Register::GPR(*x).to_index().0] = MachineValue::Undefined; self.state.register_values[X64Register::GPR(*x).to_index().0] =
MachineValue::Undefined;
} }
Location::XMM(ref x) => { Location::XMM(ref x) => {
assert_eq!(self.used_xmms.remove(x), true); assert_eq!(self.used_xmms.remove(x), true);
self.state.register_values[X64Register::XMM(*x).to_index().0] = MachineValue::Undefined; self.state.register_values[X64Register::XMM(*x).to_index().0] =
MachineValue::Undefined;
} }
Location::Memory(GPR::RBP, x) => { Location::Memory(GPR::RBP, x) => {
if x >= 0 { if x >= 0 {
@ -224,11 +226,13 @@ impl Machine {
match *loc { match *loc {
Location::GPR(ref x) => { Location::GPR(ref x) => {
assert_eq!(self.used_gprs.remove(x), true); assert_eq!(self.used_gprs.remove(x), true);
self.state.register_values[X64Register::GPR(*x).to_index().0] = MachineValue::Undefined; self.state.register_values[X64Register::GPR(*x).to_index().0] =
MachineValue::Undefined;
} }
Location::XMM(ref x) => { Location::XMM(ref x) => {
assert_eq!(self.used_xmms.remove(x), true); assert_eq!(self.used_xmms.remove(x), true);
self.state.register_values[X64Register::XMM(*x).to_index().0] = MachineValue::Undefined; self.state.register_values[X64Register::XMM(*x).to_index().0] =
MachineValue::Undefined;
} }
_ => {} _ => {}
} }
@ -342,7 +346,8 @@ impl Machine {
for (i, loc) in locations.iter().enumerate() { for (i, loc) in locations.iter().enumerate() {
match *loc { match *loc {
Location::GPR(x) => { Location::GPR(x) => {
self.state.register_values[X64Register::GPR(x).to_index().0] = MachineValue::WasmLocal(i); self.state.register_values[X64Register::GPR(x).to_index().0] =
MachineValue::WasmLocal(i);
} }
Location::Memory(_, _) => { Location::Memory(_, _) => {
self.state.stack_values.push(MachineValue::WasmLocal(i)); self.state.stack_values.push(MachineValue::WasmLocal(i));
@ -375,14 +380,18 @@ impl Machine {
if let Location::GPR(x) = *loc { if let Location::GPR(x) = *loc {
a.emit_push(Size::S64, *loc); a.emit_push(Size::S64, *loc);
self.stack_offset.0 += 8; self.stack_offset.0 += 8;
self.state.stack_values.push(MachineValue::PreserveRegister(X64Register::GPR(x).to_index())); self.state.stack_values.push(MachineValue::PreserveRegister(
X64Register::GPR(x).to_index(),
));
} }
} }
// Save R15 for vmctx use. // Save R15 for vmctx use.
a.emit_push(Size::S64, Location::GPR(GPR::R15)); a.emit_push(Size::S64, Location::GPR(GPR::R15));
self.stack_offset.0 += 8; self.stack_offset.0 += 8;
self.state.stack_values.push(MachineValue::PreserveRegister(X64Register::GPR(GPR::R15).to_index())); self.state.stack_values.push(MachineValue::PreserveRegister(
X64Register::GPR(GPR::R15).to_index(),
));
// Save the offset of static area. // Save the offset of static area.
self.save_area_offset = Some(MachineStackOffset(self.stack_offset.0)); self.save_area_offset = Some(MachineStackOffset(self.stack_offset.0));
@ -457,7 +466,11 @@ mod test {
fn test_release_locations_keep_state_nopanic() { fn test_release_locations_keep_state_nopanic() {
let mut machine = Machine::new(); let mut machine = Machine::new();
let mut assembler = Assembler::new().unwrap(); let mut assembler = Assembler::new().unwrap();
let locs = machine.acquire_locations(&mut assembler, &[(WpType::I32, MachineValue::Undefined); 10], false); let locs = machine.acquire_locations(
&mut assembler,
&[(WpType::I32, MachineValue::Undefined); 10],
false,
);
machine.release_locations_keep_state(&mut assembler, &locs); machine.release_locations_keep_state(&mut assembler, &locs);
} }

23
lib/wasi/src/lib.rs
View File

@ -20,10 +20,15 @@ use std::path::PathBuf;
pub use self::utils::is_wasi_module; pub use self::utils::is_wasi_module;
use wasmer_runtime_core::{func, import::ImportObject, imports, trampoline::{TrampolineBufferBuilder, CallContext}};
use wasmer_runtime_core::state::{x64::read_stack};
use wasmer_runtime_core::vm::Ctx;
use std::rc::Rc; use std::rc::Rc;
use wasmer_runtime_core::state::x64::read_stack;
use wasmer_runtime_core::vm::Ctx;
use wasmer_runtime_core::{
func,
import::ImportObject,
imports,
trampoline::{CallContext, TrampolineBufferBuilder},
};
/// This is returned in the Box<dyn Any> RuntimeError::Error variant. /// This is returned in the Box<dyn Any> RuntimeError::Error variant.
/// Use `downcast` or `downcast_ref` to retrieve the `ExitCode`. /// Use `downcast` or `downcast_ref` to retrieve the `ExitCode`.
@ -38,18 +43,20 @@ pub fn generate_import_object(
mapped_dirs: Vec<(String, PathBuf)>, mapped_dirs: Vec<(String, PathBuf)>,
) -> ImportObject { ) -> ImportObject {
unsafe extern "C" fn read_stack(ctx: &mut Ctx, _: *const CallContext, stack: *const u64) { unsafe extern "C" fn read_stack(ctx: &mut Ctx, _: *const CallContext, stack: *const u64) {
let msm = (*ctx.module).runnable_module.get_module_state_map().unwrap(); let msm = (*ctx.module)
.runnable_module
.get_module_state_map()
.unwrap();
let code_base = (*ctx.module).runnable_module.get_code().unwrap().as_ptr() as usize; let code_base = (*ctx.module).runnable_module.get_code().unwrap().as_ptr() as usize;
self::read_stack(&msm, code_base, stack); self::read_stack(&msm, code_base, stack);
} }
let mut builder = TrampolineBufferBuilder::new(); let mut builder = TrampolineBufferBuilder::new();
let idx = builder.add_context_rsp_trampoline(read_stack, ::std::ptr::null()); let idx = builder.add_context_rsp_state_preserving_trampoline(read_stack, ::std::ptr::null());
let trampolines = builder.build(); let trampolines = builder.build();
let read_stack_indirect: fn (&mut Ctx) = unsafe { let read_stack_indirect: fn(&mut Ctx) =
::std::mem::transmute(trampolines.get_trampoline(idx)) unsafe { ::std::mem::transmute(trampolines.get_trampoline(idx)) };
};
let trampolines = Rc::new(trampolines); let trampolines = Rc::new(trampolines);

4
lib/wasi/src/state.rs
View File

@ -10,11 +10,11 @@ use std::{
fs, fs,
io::{self, Read, Seek, Write}, io::{self, Read, Seek, Write},
path::PathBuf, path::PathBuf,
time::SystemTime,
rc::Rc, rc::Rc,
time::SystemTime,
}; };
use wasmer_runtime_core::debug; use wasmer_runtime_core::debug;
use wasmer_runtime_core::trampoline::{TrampolineBuffer}; use wasmer_runtime_core::trampoline::TrampolineBuffer;
pub const MAX_SYMLINKS: usize = 100; pub const MAX_SYMLINKS: usize = 100;