wasmtime_environ/component.rs
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//! Support for the component model in Wasmtime.
//!
//! This module contains all of the internal type definitions used by Wasmtime
//! to process the component model. Despite everything being `pub` here this is
//! not the public interface of Wasmtime to the component model. Instead this is
//! the internal support to mirror the core wasm support that Wasmtime already
//! implements.
//!
//! Some main items contained within here are:
//!
//! * Type hierarchy information for the component model
//! * Translation of a component into Wasmtime's representation
//! * Type information about a component used at runtime
//!
//! This module also contains a lot of Serialize/Deserialize types which are
//! encoded in the final compiled image for a component.
//!
//! Note that this entire module is gated behind the `component-model` Cargo
//! feature.
//!
//! ## Warning: In-progress
//!
//! As-of the time of this writing this module is incomplete and under
//! development. It will be added to incrementally over time as more features
//! are implemented. Current design decisions are also susceptible to change at
//! any time. Some comments may reflect historical rather than current state as
//! well (sorry).
/// Canonical ABI-defined constant for the maximum number of "flat" parameters
/// to a wasm function, or the maximum number of parameters a core wasm function
/// will take for just the parameters used. Over this number the heap is used
/// for transferring parameters.
pub const MAX_FLAT_PARAMS: usize = 16;
/// Canonical ABI-defined constant for the maximum number of "flat" results.
/// This number of results are returned directly from wasm and otherwise results
/// are transferred through memory.
pub const MAX_FLAT_RESULTS: usize = 1;
mod artifacts;
mod info;
mod names;
mod types;
mod vmcomponent_offsets;
pub use self::artifacts::*;
pub use self::info::*;
pub use self::names::*;
pub use self::types::*;
pub use self::vmcomponent_offsets::*;
#[cfg(feature = "compile")]
mod compiler;
#[cfg(feature = "compile")]
pub mod dfg;
#[cfg(feature = "compile")]
mod translate;
#[cfg(feature = "compile")]
mod types_builder;
#[cfg(feature = "compile")]
pub use self::compiler::*;
#[cfg(feature = "compile")]
pub use self::translate::*;
#[cfg(feature = "compile")]
pub use self::types_builder::*;
/// Helper macro to iterate over the transcoders that the host will provide
/// adapter modules through libcalls.
#[macro_export]
macro_rules! foreach_transcoder {
($mac:ident) => {
$mac! {
utf8_to_utf8(src: ptr_u8, len: size, dst: ptr_u8);
utf16_to_utf16(src: ptr_u16, len: size, dst: ptr_u16);
latin1_to_latin1(src: ptr_u8, len: size, dst: ptr_u8);
latin1_to_utf16(src: ptr_u8, len: size, dst: ptr_u16);
utf8_to_utf16(src: ptr_u8, len: size, dst: ptr_u16) -> size;
utf16_to_utf8(src: ptr_u16, src_len: size, dst: ptr_u8, dst_len: size, ret2: ptr_size) -> size;
latin1_to_utf8(src: ptr_u8, src_len: size, dst: ptr_u8, dst_len: size, ret2: ptr_size) -> size;
utf16_to_compact_probably_utf16(src: ptr_u16, len: size, dst: ptr_u16) -> size;
utf8_to_latin1(src: ptr_u8, len: size, dst: ptr_u8, ret2: ptr_size) -> size;
utf16_to_latin1(src: ptr_u16, len: size, dst: ptr_u8, ret2: ptr_size) -> size;
utf8_to_compact_utf16(src: ptr_u8, src_len: size, dst: ptr_u16, dst_len: size, bytes_so_far: size) -> size;
utf16_to_compact_utf16(src: ptr_u16, src_len: size, dst: ptr_u16, dst_len: size, bytes_so_far: size) -> size;
}
};
}
/// Helper macro, like `foreach_transcoder`, to iterate over builtins for
/// components unrelated to transcoding.
#[macro_export]
macro_rules! foreach_builtin_component_function {
($mac:ident) => {
$mac! {
resource_new32(vmctx: vmctx, resource: u32, rep: u32) -> u32;
resource_rep32(vmctx: vmctx, resource: u32, idx: u32) -> u32;
// Returns an `Option<u32>` where `None` is "no destructor needed"
// and `Some(val)` is "run the destructor on this rep". The option
// is encoded as a 64-bit integer where the low bit is Some/None
// and bits 1-33 are the payload.
resource_drop(vmctx: vmctx, resource: u32, idx: u32) -> u64;
resource_transfer_own(vmctx: vmctx, src_idx: u32, src_table: u32, dst_table: u32) -> u32;
resource_transfer_borrow(vmctx: vmctx, src_idx: u32, src_table: u32, dst_table: u32) -> u32;
resource_enter_call(vmctx: vmctx);
resource_exit_call(vmctx: vmctx);
}
};
}