use crate::{
abi::{align_to, ABIOperand, ABISig, LocalSlot, ABI},
masm::MacroAssembler,
};
use anyhow::Result;
use smallvec::SmallVec;
use std::ops::Range;
use wasmparser::{BinaryReader, FuncValidator, ValidatorResources};
use wasmtime_environ::{TypeConvert, WasmType};
pub(crate) type Locals = SmallVec<[LocalSlot; 16]>;
pub(crate) struct DefinedLocalsRange(Range<u32>);
impl DefinedLocalsRange {
pub fn as_range(&self) -> &Range<u32> {
&self.0
}
}
#[derive(Default)]
pub(crate) struct DefinedLocals {
pub defined_locals: Locals,
pub stack_size: u32,
}
impl DefinedLocals {
pub fn new<A: ABI>(
types: &impl TypeConvert,
reader: &mut BinaryReader<'_>,
validator: &mut FuncValidator<ValidatorResources>,
) -> Result<Self> {
let mut next_stack = 0;
let local_count = reader.read_var_u32()?;
let mut slots: Locals = Default::default();
for _ in 0..local_count {
let position = reader.original_position();
let count = reader.read_var_u32()?;
let ty = reader.read()?;
validator.define_locals(position, count, ty)?;
let ty = types.convert_valtype(ty);
for _ in 0..count {
let ty_size = <A as ABI>::sizeof(&ty);
next_stack = align_to(next_stack, ty_size) + ty_size;
slots.push(LocalSlot::new(ty, next_stack));
}
}
Ok(Self {
defined_locals: slots,
stack_size: next_stack,
})
}
}
pub(crate) struct Frame {
pub locals_size: u32,
pub defined_locals_range: DefinedLocalsRange,
pub locals: Locals,
pub vmctx_slot: LocalSlot,
pub results_base_slot: Option<LocalSlot>,
}
impl Frame {
pub fn new<A: ABI>(sig: &ABISig, defined_locals: &DefinedLocals) -> Result<Self> {
let (mut locals, defined_locals_start) = Self::compute_arg_slots::<A>(sig)?;
locals.extend(
defined_locals
.defined_locals
.iter()
.map(|l| LocalSlot::new(l.ty, l.offset + defined_locals_start)),
);
let ptr_size = <A as ABI>::word_bytes();
let vmctx_offset =
align_to(defined_locals_start + defined_locals.stack_size, ptr_size) + ptr_size;
let (results_base_slot, locals_size) = if sig.params.has_retptr() {
match sig.params.unwrap_results_area_operand() {
ABIOperand::Stack { ty, offset, .. } => (
Some(LocalSlot::stack_arg(
*ty,
*offset + (<A as ABI>::arg_base_offset() as u32),
)),
align_to(vmctx_offset, <A as ABI>::stack_align().into()),
),
ABIOperand::Reg { ty, .. } => {
let offs = align_to(vmctx_offset, ptr_size) + ptr_size;
(
Some(LocalSlot::new(*ty, offs)),
align_to(offs, <A as ABI>::stack_align().into()),
)
}
}
} else {
(
None,
align_to(vmctx_offset, <A as ABI>::stack_align().into()),
)
};
Ok(Self {
locals,
locals_size,
vmctx_slot: LocalSlot::i64(vmctx_offset),
defined_locals_range: DefinedLocalsRange(
defined_locals_start..(defined_locals_start + defined_locals.stack_size),
),
results_base_slot,
})
}
pub fn get_local(&self, index: u32) -> Option<&LocalSlot> {
self.locals.get(index as usize)
}
pub fn get_local_address<M: MacroAssembler>(
&self,
index: u32,
masm: &mut M,
) -> (WasmType, M::Address) {
self.get_local(index)
.map(|slot| (slot.ty, masm.local_address(slot)))
.unwrap_or_else(|| panic!("Invalid local slot: {}", index))
}
fn compute_arg_slots<A: ABI>(sig: &ABISig) -> Result<(Locals, u32)> {
let arg_base_offset = <A as ABI>::arg_base_offset().into();
let mut next_stack = 0u32;
let slots: Locals = sig
.params_without_retptr()
.into_iter()
.map(|arg| Self::abi_arg_slot(&arg, &mut next_stack, arg_base_offset))
.collect();
Ok((slots, next_stack))
}
fn abi_arg_slot(arg: &ABIOperand, next_stack: &mut u32, arg_base_offset: u32) -> LocalSlot {
match arg {
ABIOperand::Reg { ty, size, .. } => {
*next_stack = align_to(*next_stack, *size) + *size;
LocalSlot::new(*ty, *next_stack)
}
ABIOperand::Stack { ty, offset, .. } => {
LocalSlot::stack_arg(*ty, offset + arg_base_offset)
}
}
}
}