wasmer/lib/runtime-core/src/state.rs

954 lines
34 KiB
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use std::collections::BTreeMap;
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use std::ops::Bound::{Included, Unbounded};
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#[derive(Copy, Clone, Debug, Eq, PartialEq, Hash)]
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pub struct RegisterIndex(pub usize);
#[derive(Copy, Clone, Debug, Eq, PartialEq, Hash)]
pub enum WasmAbstractValue {
Runtime,
Const(u64),
}
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#[derive(Clone, Debug)]
pub struct MachineState {
pub stack_values: Vec<MachineValue>,
pub register_values: Vec<MachineValue>,
pub wasm_stack: Vec<WasmAbstractValue>,
pub wasm_stack_private_depth: usize,
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pub wasm_inst_offset: usize,
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}
#[derive(Clone, Debug, Default)]
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pub struct MachineStateDiff {
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pub last: Option<usize>,
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pub stack_push: Vec<MachineValue>,
pub stack_pop: usize,
pub reg_diff: Vec<(RegisterIndex, MachineValue)>,
pub wasm_stack_push: Vec<WasmAbstractValue>,
pub wasm_stack_pop: usize,
pub wasm_stack_private_depth: usize, // absolute value; not a diff.
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pub wasm_inst_offset: usize, // absolute value; not a diff.
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}
#[derive(Clone, Debug, Eq, PartialEq, Hash)]
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pub enum MachineValue {
Undefined,
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Vmctx,
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PreserveRegister(RegisterIndex),
CopyStackBPRelative(i32), // relative to Base Pointer, in byte offset
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ExplicitShadow, // indicates that all values above this are above the shadow region
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WasmStack(usize),
WasmLocal(usize),
TwoHalves(Box<(MachineValue, MachineValue)>), // 32-bit values. TODO: optimize: add another type for inner "half" value to avoid boxing?
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}
#[derive(Clone, Debug)]
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pub struct FunctionStateMap {
pub initial: MachineState,
pub local_function_id: usize,
pub locals: Vec<WasmAbstractValue>,
pub shadow_size: usize, // for single-pass backend, 32 bytes on x86-64
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pub diffs: Vec<MachineStateDiff>,
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pub wasm_function_header_target_offset: Option<SuspendOffset>,
pub wasm_offset_to_target_offset: BTreeMap<usize, SuspendOffset>,
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pub loop_offsets: BTreeMap<usize, OffsetInfo>, /* suspend_offset -> info */
pub call_offsets: BTreeMap<usize, OffsetInfo>, /* suspend_offset -> info */
pub trappable_offsets: BTreeMap<usize, OffsetInfo>, /* suspend_offset -> info */
}
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#[derive(Clone, Copy, Debug)]
pub enum SuspendOffset {
Loop(usize),
Call(usize),
Trappable(usize),
}
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#[derive(Clone, Debug)]
pub struct OffsetInfo {
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pub end_offset: usize, // excluded bound
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pub diff_id: usize,
pub activate_offset: usize,
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}
#[derive(Clone, Debug)]
pub struct ModuleStateMap {
pub local_functions: BTreeMap<usize, FunctionStateMap>,
pub total_size: usize,
}
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#[derive(Clone, Debug, Serialize, Deserialize)]
pub struct WasmFunctionStateDump {
pub local_function_id: usize,
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pub wasm_inst_offset: usize,
pub stack: Vec<Option<u64>>,
pub locals: Vec<Option<u64>>,
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}
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#[derive(Clone, Debug, Serialize, Deserialize)]
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pub struct ExecutionStateImage {
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pub frames: Vec<WasmFunctionStateDump>,
}
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#[derive(Debug, Clone, Serialize, Deserialize)]
pub struct InstanceImage {
pub memory: Option<Vec<u8>>,
pub globals: Vec<u64>,
pub execution_state: ExecutionStateImage,
}
impl ModuleStateMap {
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fn lookup_ip<F: FnOnce(&FunctionStateMap) -> &BTreeMap<usize, OffsetInfo>>(
&self,
ip: usize,
base: usize,
offset_table_provider: F,
) -> Option<(&FunctionStateMap, MachineState)> {
if ip < base || ip - base >= self.total_size {
None
} else {
let (_, fsm) = self
.local_functions
.range((Unbounded, Included(&(ip - base))))
.last()
.unwrap();
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match offset_table_provider(fsm)
.range((Unbounded, Included(&(ip - base))))
.last()
{
Some((_, x)) => {
if ip - base >= x.end_offset {
None
} else if x.diff_id < fsm.diffs.len() {
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Some((fsm, fsm.diffs[x.diff_id].build_state(fsm)))
} else {
None
}
}
None => None,
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}
}
}
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fn lookup_call_ip(&self, ip: usize, base: usize) -> Option<(&FunctionStateMap, MachineState)> {
self.lookup_ip(ip, base, |fsm| &fsm.call_offsets)
}
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fn lookup_trappable_ip(
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&self,
ip: usize,
base: usize,
) -> Option<(&FunctionStateMap, MachineState)> {
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self.lookup_ip(ip, base, |fsm| &fsm.trappable_offsets)
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}
fn lookup_loop_ip(&self, ip: usize, base: usize) -> Option<(&FunctionStateMap, MachineState)> {
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self.lookup_ip(ip, base, |fsm| &fsm.loop_offsets)
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}
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}
impl FunctionStateMap {
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pub fn new(
initial: MachineState,
local_function_id: usize,
shadow_size: usize,
locals: Vec<WasmAbstractValue>,
) -> FunctionStateMap {
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FunctionStateMap {
initial,
local_function_id,
shadow_size,
locals,
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diffs: vec![],
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wasm_function_header_target_offset: None,
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wasm_offset_to_target_offset: BTreeMap::new(),
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loop_offsets: BTreeMap::new(),
call_offsets: BTreeMap::new(),
trappable_offsets: BTreeMap::new(),
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}
}
}
impl MachineState {
pub fn diff(&self, old: &MachineState) -> MachineStateDiff {
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let first_diff_stack_depth: usize = self
.stack_values
.iter()
.zip(old.stack_values.iter())
.enumerate()
.find(|&(_, (a, b))| a != b)
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.map(|x| x.0)
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.unwrap_or(old.stack_values.len().min(self.stack_values.len()));
assert_eq!(self.register_values.len(), old.register_values.len());
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let reg_diff: Vec<_> = self
.register_values
.iter()
.zip(old.register_values.iter())
.enumerate()
.filter(|&(_, (a, b))| a != b)
.map(|(i, (a, _))| (RegisterIndex(i), a.clone()))
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.collect();
let first_diff_wasm_stack_depth: usize = self
.wasm_stack
.iter()
.zip(old.wasm_stack.iter())
.enumerate()
.find(|&(_, (a, b))| a != b)
.map(|x| x.0)
.unwrap_or(old.wasm_stack.len().min(self.wasm_stack.len()));
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MachineStateDiff {
last: None,
stack_push: self.stack_values[first_diff_stack_depth..].to_vec(),
stack_pop: old.stack_values.len() - first_diff_stack_depth,
reg_diff: reg_diff,
wasm_stack_push: self.wasm_stack[first_diff_wasm_stack_depth..].to_vec(),
wasm_stack_pop: old.wasm_stack.len() - first_diff_wasm_stack_depth,
wasm_stack_private_depth: self.wasm_stack_private_depth,
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wasm_inst_offset: self.wasm_inst_offset,
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}
}
}
impl MachineStateDiff {
pub fn build_state(&self, m: &FunctionStateMap) -> MachineState {
let mut chain: Vec<&MachineStateDiff> = vec![];
chain.push(self);
let mut current = self.last;
while let Some(x) = current {
let that = &m.diffs[x];
current = that.last;
chain.push(that);
}
chain.reverse();
let mut state = m.initial.clone();
for x in chain {
for _ in 0..x.stack_pop {
state.stack_values.pop().unwrap();
}
for v in &x.stack_push {
state.stack_values.push(v.clone());
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}
for &(index, ref v) in &x.reg_diff {
state.register_values[index.0] = v.clone();
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}
for _ in 0..x.wasm_stack_pop {
state.wasm_stack.pop().unwrap();
}
for v in &x.wasm_stack_push {
state.wasm_stack.push(*v);
}
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}
state.wasm_stack_private_depth = self.wasm_stack_private_depth;
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state.wasm_inst_offset = self.wasm_inst_offset;
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state
}
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}
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impl ExecutionStateImage {
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pub fn print_backtrace_if_needed(&self) {
use std::env;
if let Ok(x) = env::var("WASMER_BACKTRACE") {
if x == "1" {
eprintln!("{}", self.colored_output());
return;
}
}
eprintln!("Run with `WASMER_BACKTRACE=1` environment variable to display a backtrace.");
}
pub fn colored_output(&self) -> String {
use colored::*;
fn join_strings(x: impl Iterator<Item = String>, sep: &str) -> String {
let mut ret = String::new();
let mut first = true;
for s in x {
if first {
first = false;
} else {
ret += sep;
}
ret += &s;
}
ret
}
fn format_optional_u64_sequence(x: &[Option<u64>]) -> String {
if x.len() == 0 {
"(empty)".into()
} else {
join_strings(
x.iter().enumerate().map(|(i, x)| {
format!(
"[{}] = {}",
i,
x.map(|x| format!("{}", x))
.unwrap_or_else(|| "?".to_string())
.bold()
.cyan()
)
}),
", ",
)
}
}
let mut ret = String::new();
if self.frames.len() == 0 {
ret += &"Unknown fault address, cannot read stack.".yellow();
ret += "\n";
} else {
ret += &"Backtrace:".bold();
ret += "\n";
for (i, f) in self.frames.iter().enumerate() {
ret += &format!("* Frame {} @ Local function {}", i, f.local_function_id).bold();
ret += "\n";
ret += &format!(
" {} {}\n",
"Offset:".bold().yellow(),
format!("{}", f.wasm_inst_offset).bold().cyan(),
);
ret += &format!(
" {} {}\n",
"Locals:".bold().yellow(),
format_optional_u64_sequence(&f.locals)
);
ret += &format!(
" {} {}\n\n",
"Stack:".bold().yellow(),
format_optional_u64_sequence(&f.stack)
);
}
}
ret
}
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}
impl InstanceImage {
pub fn from_bytes(input: &[u8]) -> Option<InstanceImage> {
use bincode::deserialize;
match deserialize(input) {
Ok(x) => Some(x),
Err(_) => None,
}
}
pub fn to_bytes(&self) -> Vec<u8> {
use bincode::serialize;
serialize(self).unwrap()
}
}
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#[cfg(all(unix, target_arch = "x86_64"))]
pub mod x64 {
use super::*;
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use crate::codegen::BreakpointMap;
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use crate::fault::{catch_unsafe_unwind, run_on_alternative_stack};
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use crate::structures::TypedIndex;
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use crate::types::LocalGlobalIndex;
use crate::vm::Ctx;
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use std::any::Any;
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pub fn new_machine_state() -> MachineState {
MachineState {
stack_values: vec![],
register_values: vec![MachineValue::Undefined; 16 + 8],
wasm_stack: vec![],
wasm_stack_private_depth: 0,
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wasm_inst_offset: ::std::usize::MAX,
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}
}
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#[warn(unused_variables)]
pub unsafe fn invoke_call_return_on_stack(
msm: &ModuleStateMap,
code_base: usize,
image: InstanceImage,
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vmctx: &mut Ctx,
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breakpoints: Option<BreakpointMap>,
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) -> Result<u64, Box<dyn Any>> {
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let mut stack: Vec<u64> = vec![0; 1048576 * 8 / 8]; // 8MB stack
let mut stack_offset: usize = stack.len();
stack_offset -= 3; // placeholder for call return
let mut last_stack_offset: u64 = 0; // rbp
let mut known_registers: [Option<u64>; 24] = [None; 24];
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let local_functions_vec: Vec<&FunctionStateMap> =
msm.local_functions.iter().map(|(_, v)| v).collect();
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// Bottom to top
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for f in image.execution_state.frames.iter().rev() {
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let fsm = local_functions_vec[f.local_function_id];
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let suspend_offset = if f.wasm_inst_offset == ::std::usize::MAX {
fsm.wasm_function_header_target_offset
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} else {
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fsm.wasm_offset_to_target_offset
.get(&f.wasm_inst_offset)
.map(|x| *x)
}
.expect("instruction is not a critical point");
let (activate_offset, diff_id) = match suspend_offset {
SuspendOffset::Loop(x) => fsm.loop_offsets.get(&x),
SuspendOffset::Call(x) => fsm.call_offsets.get(&x),
SuspendOffset::Trappable(x) => fsm.trappable_offsets.get(&x),
}
.map(|x| (x.activate_offset, x.diff_id))
.expect("offset cannot be found in table");
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let diff = &fsm.diffs[diff_id];
let state = diff.build_state(fsm);
stack_offset -= 1;
stack[stack_offset] = stack.as_ptr().offset(last_stack_offset as isize) as usize as u64; // push rbp
last_stack_offset = stack_offset as _;
let mut got_explicit_shadow = false;
for v in state.stack_values.iter() {
match *v {
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MachineValue::Undefined => stack_offset -= 1,
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MachineValue::Vmctx => {
stack_offset -= 1;
stack[stack_offset] = vmctx as *mut Ctx as usize as u64;
}
MachineValue::PreserveRegister(index) => {
stack_offset -= 1;
stack[stack_offset] = known_registers[index.0].unwrap_or(0);
}
MachineValue::CopyStackBPRelative(byte_offset) => {
assert!(byte_offset % 8 == 0);
let target_offset = (byte_offset / 8) as isize;
let v = stack[(last_stack_offset as isize + target_offset) as usize];
stack_offset -= 1;
stack[stack_offset] = v;
}
MachineValue::ExplicitShadow => {
assert!(fsm.shadow_size % 8 == 0);
stack_offset -= fsm.shadow_size / 8;
got_explicit_shadow = true;
}
MachineValue::WasmStack(x) => {
stack_offset -= 1;
match state.wasm_stack[x] {
WasmAbstractValue::Const(x) => {
stack[stack_offset] = x;
}
WasmAbstractValue::Runtime => {
stack[stack_offset] = f.stack[x].unwrap();
}
}
}
MachineValue::WasmLocal(x) => {
stack_offset -= 1;
match fsm.locals[x] {
WasmAbstractValue::Const(x) => {
stack[stack_offset] = x;
}
WasmAbstractValue::Runtime => {
stack[stack_offset] = f.locals[x].unwrap();
}
}
}
MachineValue::TwoHalves(ref inner) => {
stack_offset -= 1;
// TODO: Cleanup
match inner.0 {
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MachineValue::WasmStack(x) => match state.wasm_stack[x] {
WasmAbstractValue::Const(x) => {
assert!(x <= ::std::u32::MAX as u64);
stack[stack_offset] |= x;
}
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WasmAbstractValue::Runtime => {
let v = f.stack[x].unwrap();
assert!(v <= ::std::u32::MAX as u64);
stack[stack_offset] |= v;
}
},
MachineValue::WasmLocal(x) => {
stack_offset -= 1;
match fsm.locals[x] {
WasmAbstractValue::Const(x) => {
assert!(x <= ::std::u32::MAX as u64);
stack[stack_offset] |= x;
}
WasmAbstractValue::Runtime => {
let v = f.locals[x].unwrap();
assert!(v <= ::std::u32::MAX as u64);
stack[stack_offset] |= v;
}
}
}
MachineValue::Undefined => {}
_ => unimplemented!("TwoHalves.0"),
}
match inner.1 {
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MachineValue::WasmStack(x) => match state.wasm_stack[x] {
WasmAbstractValue::Const(x) => {
assert!(x <= ::std::u32::MAX as u64);
stack[stack_offset] |= x << 32;
}
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WasmAbstractValue::Runtime => {
let v = f.stack[x].unwrap();
assert!(v <= ::std::u32::MAX as u64);
stack[stack_offset] |= v << 32;
}
},
MachineValue::WasmLocal(x) => {
stack_offset -= 1;
match fsm.locals[x] {
WasmAbstractValue::Const(x) => {
assert!(x <= ::std::u32::MAX as u64);
stack[stack_offset] |= x << 32;
}
WasmAbstractValue::Runtime => {
let v = f.locals[x].unwrap();
assert!(v <= ::std::u32::MAX as u64);
stack[stack_offset] |= v << 32;
}
}
}
MachineValue::Undefined => {}
_ => unimplemented!("TwoHalves.1"),
}
}
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}
}
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if !got_explicit_shadow {
assert!(fsm.shadow_size % 8 == 0);
stack_offset -= fsm.shadow_size / 8;
}
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for (i, v) in state.register_values.iter().enumerate() {
match *v {
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MachineValue::Undefined => {}
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MachineValue::Vmctx => {
known_registers[i] = Some(vmctx as *mut Ctx as usize as u64);
}
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MachineValue::WasmStack(x) => match state.wasm_stack[x] {
WasmAbstractValue::Const(x) => {
known_registers[i] = Some(x);
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}
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WasmAbstractValue::Runtime => {
known_registers[i] = Some(f.stack[x].unwrap());
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}
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},
MachineValue::WasmLocal(x) => match fsm.locals[x] {
WasmAbstractValue::Const(x) => {
known_registers[i] = Some(x);
}
WasmAbstractValue::Runtime => {
known_registers[i] = Some(f.locals[x].unwrap());
}
},
_ => unreachable!(),
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}
}
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// no need to check 16-byte alignment here because it's possible that we're not at a call entry.
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stack_offset -= 1;
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stack[stack_offset] = (code_base + activate_offset) as u64; // return address
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}
stack_offset -= 1;
stack[stack_offset] = known_registers[X64Register::GPR(GPR::R15).to_index().0].unwrap_or(0);
stack_offset -= 1;
stack[stack_offset] = known_registers[X64Register::GPR(GPR::R14).to_index().0].unwrap_or(0);
stack_offset -= 1;
stack[stack_offset] = known_registers[X64Register::GPR(GPR::R13).to_index().0].unwrap_or(0);
stack_offset -= 1;
stack[stack_offset] = known_registers[X64Register::GPR(GPR::R12).to_index().0].unwrap_or(0);
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stack_offset -= 1;
stack[stack_offset] = known_registers[X64Register::GPR(GPR::R11).to_index().0].unwrap_or(0);
stack_offset -= 1;
stack[stack_offset] = known_registers[X64Register::GPR(GPR::R10).to_index().0].unwrap_or(0);
stack_offset -= 1;
stack[stack_offset] = known_registers[X64Register::GPR(GPR::R9).to_index().0].unwrap_or(0);
stack_offset -= 1;
stack[stack_offset] = known_registers[X64Register::GPR(GPR::R8).to_index().0].unwrap_or(0);
stack_offset -= 1;
stack[stack_offset] = known_registers[X64Register::GPR(GPR::RSI).to_index().0].unwrap_or(0);
stack_offset -= 1;
stack[stack_offset] = known_registers[X64Register::GPR(GPR::RDI).to_index().0].unwrap_or(0);
stack_offset -= 1;
stack[stack_offset] = known_registers[X64Register::GPR(GPR::RDX).to_index().0].unwrap_or(0);
stack_offset -= 1;
stack[stack_offset] = known_registers[X64Register::GPR(GPR::RCX).to_index().0].unwrap_or(0);
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stack_offset -= 1;
stack[stack_offset] = known_registers[X64Register::GPR(GPR::RBX).to_index().0].unwrap_or(0);
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stack_offset -= 1;
stack[stack_offset] = known_registers[X64Register::GPR(GPR::RAX).to_index().0].unwrap_or(0);
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stack_offset -= 1;
stack[stack_offset] = stack.as_ptr().offset(last_stack_offset as isize) as usize as u64; // rbp
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stack_offset -= 1;
stack[stack_offset] =
known_registers[X64Register::XMM(XMM::XMM7).to_index().0].unwrap_or(0);
stack_offset -= 1;
stack[stack_offset] =
known_registers[X64Register::XMM(XMM::XMM6).to_index().0].unwrap_or(0);
stack_offset -= 1;
stack[stack_offset] =
known_registers[X64Register::XMM(XMM::XMM5).to_index().0].unwrap_or(0);
stack_offset -= 1;
stack[stack_offset] =
known_registers[X64Register::XMM(XMM::XMM4).to_index().0].unwrap_or(0);
stack_offset -= 1;
stack[stack_offset] =
known_registers[X64Register::XMM(XMM::XMM3).to_index().0].unwrap_or(0);
stack_offset -= 1;
stack[stack_offset] =
known_registers[X64Register::XMM(XMM::XMM2).to_index().0].unwrap_or(0);
stack_offset -= 1;
stack[stack_offset] =
known_registers[X64Register::XMM(XMM::XMM1).to_index().0].unwrap_or(0);
stack_offset -= 1;
stack[stack_offset] =
known_registers[X64Register::XMM(XMM::XMM0).to_index().0].unwrap_or(0);
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if let Some(ref memory) = image.memory {
assert!(vmctx.internal.memory_bound <= memory.len());
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if vmctx.internal.memory_bound < memory.len() {
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let grow: unsafe extern "C" fn(ctx: &mut Ctx, memory_index: usize, delta: usize) =
::std::mem::transmute((*vmctx.internal.intrinsics).memory_grow);
grow(
vmctx,
0,
(memory.len() - vmctx.internal.memory_bound) / 65536,
);
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assert_eq!(vmctx.internal.memory_bound, memory.len());
}
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::std::slice::from_raw_parts_mut(
vmctx.internal.memory_base,
vmctx.internal.memory_bound,
)
.copy_from_slice(memory);
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}
let globals_len = (*vmctx.module).info.globals.len();
for i in 0..globals_len {
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(*(*vmctx.local_backing).globals[LocalGlobalIndex::new(i)].vm_local_global()).data =
image.globals[i];
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}
drop(image); // free up host memory
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catch_unsafe_unwind(
|| {
run_on_alternative_stack(
stack.as_mut_ptr().offset(stack.len() as isize),
stack.as_mut_ptr().offset(stack_offset as isize),
)
},
breakpoints,
)
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}
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pub fn build_instance_image(
vmctx: &mut Ctx,
execution_state: ExecutionStateImage,
) -> InstanceImage {
unsafe {
let memory = if vmctx.internal.memory_base.is_null() {
None
} else {
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Some(
::std::slice::from_raw_parts(
vmctx.internal.memory_base,
vmctx.internal.memory_bound,
)
.to_vec(),
)
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};
// FIXME: Imported globals
let globals_len = (*vmctx.module).info.globals.len();
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let globals: Vec<u64> = (0..globals_len)
.map(|i| {
(*vmctx.local_backing).globals[LocalGlobalIndex::new(i)]
.get()
.to_u64()
})
.collect();
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InstanceImage {
memory: memory,
globals: globals,
execution_state: execution_state,
}
}
}
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#[warn(unused_variables)]
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pub unsafe fn read_stack(
msm: &ModuleStateMap,
code_base: usize,
mut stack: *const u64,
initially_known_registers: [Option<u64>; 24],
mut initial_address: Option<u64>,
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) -> ExecutionStateImage {
let mut known_registers: [Option<u64>; 24] = initially_known_registers;
let mut results: Vec<WasmFunctionStateDump> = vec![];
for _ in 0.. {
let ret_addr = initial_address.take().unwrap_or_else(|| {
let x = *stack;
stack = stack.offset(1);
x
});
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let (fsm, state) = match msm
.lookup_call_ip(ret_addr as usize, code_base)
.or_else(|| msm.lookup_trappable_ip(ret_addr as usize, code_base))
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.or_else(|| msm.lookup_loop_ip(ret_addr as usize, code_base))
{
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Some(x) => x,
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_ => return ExecutionStateImage { frames: results },
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};
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let mut wasm_stack: Vec<Option<u64>> = state
.wasm_stack
.iter()
.map(|x| match *x {
WasmAbstractValue::Const(x) => Some(x),
WasmAbstractValue::Runtime => None,
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})
.collect();
let mut wasm_locals: Vec<Option<u64>> = fsm
.locals
.iter()
.map(|x| match *x {
WasmAbstractValue::Const(x) => Some(x),
WasmAbstractValue::Runtime => None,
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})
.collect();
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// This must be before the next loop because that modifies `known_registers`.
for (i, v) in state.register_values.iter().enumerate() {
match *v {
MachineValue::Undefined => {}
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MachineValue::Vmctx => {}
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MachineValue::WasmStack(idx) => {
if let Some(v) = known_registers[i] {
wasm_stack[idx] = Some(v);
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} else {
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eprintln!(
"BUG: Register {} for WebAssembly stack slot {} has unknown value.",
i, idx
);
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}
}
MachineValue::WasmLocal(idx) => {
if let Some(v) = known_registers[i] {
wasm_locals[idx] = Some(v);
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}
}
_ => unreachable!(),
}
}
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let mut found_shadow = false;
for v in state.stack_values.iter() {
match *v {
MachineValue::ExplicitShadow => {
found_shadow = true;
break;
}
_ => {}
}
}
if !found_shadow {
stack = stack.offset((fsm.shadow_size / 8) as isize);
}
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for v in state.stack_values.iter().rev() {
match *v {
MachineValue::ExplicitShadow => {
stack = stack.offset((fsm.shadow_size / 8) as isize);
}
MachineValue::Undefined => {
stack = stack.offset(1);
}
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MachineValue::Vmctx => {
stack = stack.offset(1);
}
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MachineValue::PreserveRegister(idx) => {
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known_registers[idx.0] = Some(*stack);
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stack = stack.offset(1);
}
MachineValue::CopyStackBPRelative(_) => {
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stack = stack.offset(1);
}
MachineValue::WasmStack(idx) => {
wasm_stack[idx] = Some(*stack);
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stack = stack.offset(1);
}
MachineValue::WasmLocal(idx) => {
wasm_locals[idx] = Some(*stack);
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stack = stack.offset(1);
}
MachineValue::TwoHalves(ref inner) => {
let v = *stack;
stack = stack.offset(1);
match inner.0 {
MachineValue::WasmStack(idx) => {
wasm_stack[idx] = Some(v & 0xffffffffu64);
}
MachineValue::WasmLocal(idx) => {
wasm_locals[idx] = Some(v & 0xffffffffu64);
}
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MachineValue::Undefined => {}
_ => unimplemented!("TwoHalves.0 (read)"),
}
match inner.1 {
MachineValue::WasmStack(idx) => {
wasm_stack[idx] = Some(v >> 32);
}
MachineValue::WasmLocal(idx) => {
wasm_locals[idx] = Some(v >> 32);
}
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MachineValue::Undefined => {}
_ => unimplemented!("TwoHalves.1 (read)"),
}
}
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}
}
stack = stack.offset(1); // RBP
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wasm_stack.truncate(
wasm_stack
.len()
.checked_sub(state.wasm_stack_private_depth)
.unwrap(),
);
let wfs = WasmFunctionStateDump {
local_function_id: fsm.local_function_id,
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wasm_inst_offset: state.wasm_inst_offset,
stack: wasm_stack,
locals: wasm_locals,
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};
results.push(wfs);
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}
unreachable!();
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}
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#[repr(u8)]
#[derive(Copy, Clone, Debug, Eq, PartialEq, Ord, PartialOrd, Hash)]
pub enum GPR {
RAX,
RCX,
RDX,
RBX,
RSP,
RBP,
RSI,
RDI,
R8,
R9,
R10,
R11,
R12,
R13,
R14,
R15,
}
#[repr(u8)]
#[derive(Copy, Clone, Debug, Eq, PartialEq, Ord, PartialOrd, Hash)]
pub enum XMM {
XMM0,
XMM1,
XMM2,
XMM3,
XMM4,
XMM5,
XMM6,
XMM7,
}
#[derive(Copy, Clone, Debug, Eq, PartialEq)]
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pub enum X64Register {
GPR(GPR),
XMM(XMM),
}
impl X64Register {
pub fn to_index(&self) -> RegisterIndex {
match *self {
X64Register::GPR(x) => RegisterIndex(x as usize),
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X64Register::XMM(x) => RegisterIndex(x as usize + 16),
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}
}
pub fn from_dwarf_regnum(x: u16) -> Option<X64Register> {
Some(match x {
0 => X64Register::GPR(GPR::RAX),
1 => X64Register::GPR(GPR::RDX),
2 => X64Register::GPR(GPR::RCX),
3 => X64Register::GPR(GPR::RBX),
4 => X64Register::GPR(GPR::RSI),
5 => X64Register::GPR(GPR::RDI),
6 => X64Register::GPR(GPR::RBP),
7 => X64Register::GPR(GPR::RSP),
8 => X64Register::GPR(GPR::R8),
9 => X64Register::GPR(GPR::R9),
10 => X64Register::GPR(GPR::R10),
11 => X64Register::GPR(GPR::R11),
12 => X64Register::GPR(GPR::R12),
13 => X64Register::GPR(GPR::R13),
14 => X64Register::GPR(GPR::R14),
15 => X64Register::GPR(GPR::R15),
17 => X64Register::XMM(XMM::XMM0),
18 => X64Register::XMM(XMM::XMM1),
19 => X64Register::XMM(XMM::XMM2),
20 => X64Register::XMM(XMM::XMM3),
21 => X64Register::XMM(XMM::XMM4),
22 => X64Register::XMM(XMM::XMM5),
23 => X64Register::XMM(XMM::XMM6),
24 => X64Register::XMM(XMM::XMM7),
_ => return None,
})
}
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}
}