PR https://github.com/bytecodealliance/wasmtime/pull/3187 introduced a
change to the write_to_slice and read_from_slice routines in
data_value.rs that switched byte order on big-endian systems:
the code used to use native byte order, and now hard-codes
little-endian byte order.
Fix by using native byte order again.
* cranelift: Add stack support to the interpreter
We also change the approach for heap loads and stores.
Previously we would use the offset as the address to the heap. However,
this approach does not allow using the load/store instructions to
read/write from both the heap and the stack.
This commit changes the addressing mechanism of the interpreter. We now
return the real addresses from the addressing instructions
(stack_addr/heap_addr), and instead check if the address passed into
the load/store instructions points to an area in the heap or the stack.
* cranelift: Add virtual addresses to cranelift interpreter
Adds a Virtual Addressing scheme that was discussed as a better
alternative to returning the real addresses.
The virtual addresses are split into 4 regions (stack, heap, tables and
global values), and the address itself is composed of an `entry` field
and an `offset` field. In general the `entry` field corresponds to the
instance of the resource (e.g. table5 is entry 5) and the `offset` field
is a byte offset inside that entry.
There is one exception to this which is the stack, where due to only
having one stack, the whole address is an offset field.
The number of bits in entry vs offset fields is variable with respect to
the `region` and the address size (32bits vs 64bits). This is done
because with 32 bit addresses we would have to compromise on heap size,
or have a small number of global values / tables. With 64 bit addresses
we do not have to compromise on this, but we need to support 32 bit
addresses.
* cranelift: Remove interpreter trap codes
* cranelift: Calculate frame_offset when entering or exiting a frame
* cranelift: Add safe read/write interface to DataValue
* cranelift: DataValue write full 128bit slot for booleans
* cranelift: Use DataValue accessors for trampoline.
* Rewrite interpreter generically
This change re-implements the Cranelift interpreter to use generic values; this makes it possible to do abstract interpretation of Cranelift instructions. In doing so, the interpretation state is extracted from the `Interpreter` structure and is accessed via a `State` trait; this makes it possible to not only more clearly observe the interpreter's state but also to interpret using a dummy state (e.g. `ImmutableRegisterState`). This addition made it possible to implement more of the Cranelift instructions (~70%, ignoring the x86-specific instructions).
* Replace macros with closures
As discussed in #2251, in order to be very confident that NaN signaling bits are correctly handled by the compiler, this switches `DataValue` to use Cranelift's `Ieee32` and `Ieee64` structures. This makes it a bit more inconvenient to interpreter Cranelift FP operations but this should change to something like `rustc_apfloat` in the future.
