wasmparser 0.225.0

A simple event-driven library for parsing WebAssembly binary files.
Documentation
use crate::limits::MAX_WASM_CANONICAL_OPTIONS;
use crate::prelude::*;
use crate::{
    BinaryReader, BinaryReaderError, ComponentValType, FromReader, Result, SectionLimited,
};

/// Represents options for component functions.
#[derive(Debug, Clone, Copy, PartialEq, Eq)]
pub enum CanonicalOption {
    /// The string types in the function signature are UTF-8 encoded.
    UTF8,
    /// The string types in the function signature are UTF-16 encoded.
    UTF16,
    /// The string types in the function signature are compact UTF-16 encoded.
    CompactUTF16,
    /// The memory to use if the lifting or lowering of a function requires memory access.
    ///
    /// The value is an index to a core memory.
    Memory(u32),
    /// The realloc function to use if the lifting or lowering of a function requires memory
    /// allocation.
    ///
    /// The value is an index to a core function of type `(func (param i32 i32 i32 i32) (result i32))`.
    Realloc(u32),
    /// The post-return function to use if the lifting of a function requires
    /// cleanup after the function returns.
    PostReturn(u32),
    /// Indicates that specified function should be lifted or lowered using the `async` ABI.
    Async,
    /// The function to use if the async lifting of a function should receive task/stream/future progress events
    /// using a callback.
    Callback(u32),
}

/// Represents a canonical function in a WebAssembly component.
#[derive(Debug, Clone, Eq, PartialEq)]
pub enum CanonicalFunction {
    /// The function lifts a core WebAssembly function to the canonical ABI.
    Lift {
        /// The index of the core WebAssembly function to lift.
        core_func_index: u32,
        /// The index of the lifted function's type.
        type_index: u32,
        /// The canonical options for the function.
        options: Box<[CanonicalOption]>,
    },
    /// The function lowers a canonical ABI function to a core WebAssembly function.
    Lower {
        /// The index of the function to lower.
        func_index: u32,
        /// The canonical options for the function.
        options: Box<[CanonicalOption]>,
    },
    /// A function which creates a new owned handle to a resource.
    ResourceNew {
        /// The type index of the resource that's being created.
        resource: u32,
    },
    /// A function which is used to drop resource handles of the specified type.
    ResourceDrop {
        /// The type index of the resource that's being dropped.
        resource: u32,
    },
    /// A function which returns the underlying i32-based representation of the
    /// specified resource.
    ResourceRep {
        /// The type index of the resource that's being accessed.
        resource: u32,
    },
    /// A function which spawns a new thread by invoking the shared function.
    ThreadSpawn {
        /// The index of the function to spawn.
        func_ty_index: u32,
    },
    /// A function which returns the number of threads that can be expected to
    /// execute concurrently
    ThreadHwConcurrency,
    /// A function which tells the host to enable or disable backpressure for
    /// the caller's instance.
    TaskBackpressure,
    /// A function which returns a result to the caller of a lifted export
    /// function.  This allows the callee to continue executing after returning
    /// a result.
    TaskReturn {
        /// The result type, if any.
        result: Option<ComponentValType>,
    },
    /// A function which waits for at least one outstanding async
    /// task/stream/future to make progress, returning the first such event.
    TaskWait {
        /// If `true`, indicates the caller instance maybe reentered.
        async_: bool,
        /// Memory to use when storing the event.
        memory: u32,
    },
    /// A function which checks whether any outstanding async task/stream/future
    /// has made progress.  Unlike `task.wait`, this does not block and may
    /// return nothing if no such event has occurred.
    TaskPoll {
        /// If `true`, indicates the caller instance maybe reentered.
        async_: bool,
        /// Memory to use when storing the event, if any.
        memory: u32,
    },
    /// A function which yields control to the host so that other tasks are able
    /// to make progress, if any.
    TaskYield {
        /// If `true`, indicates the caller instance maybe reentered.
        async_: bool,
    },
    /// A function to drop a specified task which has completed.
    SubtaskDrop,
    /// A function to create a new `stream` handle of the specified type.
    StreamNew {
        /// The `stream` type to instantiate.
        ty: u32,
    },
    /// A function to read from a `stream` of the specified type.
    StreamRead {
        /// The `stream` type to expect.
        ty: u32,
        /// Any options (e.g. string encoding) to use when storing values to
        /// memory.
        options: Box<[CanonicalOption]>,
    },
    /// A function to write to a `stream` of the specified type.
    StreamWrite {
        /// The `stream` type to expect.
        ty: u32,
        /// Any options (e.g. string encoding) to use when loading values from
        /// memory.
        options: Box<[CanonicalOption]>,
    },
    /// A function to cancel an in-progress read from a `stream` of the
    /// specified type.
    StreamCancelRead {
        /// The `stream` type to expect.
        ty: u32,
        /// If `false`, block until cancellation completes rather than return
        /// `BLOCKED`.
        async_: bool,
    },
    /// A function to cancel an in-progress write to a `stream` of the specified
    /// type.
    StreamCancelWrite {
        /// The `stream` type to expect.
        ty: u32,
        /// If `false`, block until cancellation completes rather than return
        /// `BLOCKED`.
        async_: bool,
    },
    /// A function to close the readable end of a `stream` of the specified
    /// type.
    StreamCloseReadable {
        /// The `stream` type to expect.
        ty: u32,
    },
    /// A function to close the writable end of a `stream` of the specified
    /// type.
    StreamCloseWritable {
        /// The `stream` type to expect.
        ty: u32,
    },
    /// A function to create a new `future` handle of the specified type.
    FutureNew {
        /// The `future` type to instantiate.
        ty: u32,
    },
    /// A function to read from a `future` of the specified type.
    FutureRead {
        /// The `future` type to expect.
        ty: u32,
        /// Any options (e.g. string encoding) to use when storing values to
        /// memory.
        options: Box<[CanonicalOption]>,
    },
    /// A function to write to a `future` of the specified type.
    FutureWrite {
        /// The `future` type to expect.
        ty: u32,
        /// Any options (e.g. string encoding) to use when loading values from
        /// memory.
        options: Box<[CanonicalOption]>,
    },
    /// A function to cancel an in-progress read from a `future` of the
    /// specified type.
    FutureCancelRead {
        /// The `future` type to expect.
        ty: u32,
        /// If `false`, block until cancellation completes rather than return
        /// `BLOCKED`.
        async_: bool,
    },
    /// A function to cancel an in-progress write to a `future` of the specified
    /// type.
    FutureCancelWrite {
        /// The `future` type to expect.
        ty: u32,
        /// If `false`, block until cancellation completes rather than return
        /// `BLOCKED`.
        async_: bool,
    },
    /// A function to close the readable end of a `future` of the specified
    /// type.
    FutureCloseReadable {
        /// The `future` type to expect.
        ty: u32,
    },
    /// A function to close the writable end of a `future` of the specified
    /// type.
    FutureCloseWritable {
        /// The `future` type to expect.
        ty: u32,
    },
    /// A function to create a new `error-context` with a specified debug
    /// message.
    ErrorContextNew {
        /// String encoding, memory, etc. to use when loading debug message.
        options: Box<[CanonicalOption]>,
    },
    /// A function to get the debug message for a specified `error-context`.
    ///
    /// Note that the debug message might not necessarily match what was passed
    /// to `error.new`.
    ErrorContextDebugMessage {
        /// String encoding, memory, etc. to use when storing debug message.
        options: Box<[CanonicalOption]>,
    },
    /// A function to drop a specified `error-context`.
    ErrorContextDrop,
}

/// A reader for the canonical section of a WebAssembly component.
pub type ComponentCanonicalSectionReader<'a> = SectionLimited<'a, CanonicalFunction>;

impl<'a> FromReader<'a> for CanonicalFunction {
    fn from_reader(reader: &mut BinaryReader<'a>) -> Result<CanonicalFunction> {
        Ok(match reader.read_u8()? {
            0x00 => match reader.read_u8()? {
                0x00 => {
                    let core_func_index = reader.read_var_u32()?;
                    let options = reader
                        .read_iter(MAX_WASM_CANONICAL_OPTIONS, "canonical options")?
                        .collect::<Result<_>>()?;
                    let type_index = reader.read_var_u32()?;
                    CanonicalFunction::Lift {
                        core_func_index,
                        options,
                        type_index,
                    }
                }
                x => return reader.invalid_leading_byte(x, "canonical function lift"),
            },
            0x01 => match reader.read_u8()? {
                0x00 => CanonicalFunction::Lower {
                    func_index: reader.read_var_u32()?,
                    options: reader
                        .read_iter(MAX_WASM_CANONICAL_OPTIONS, "canonical options")?
                        .collect::<Result<_>>()?,
                },
                x => return reader.invalid_leading_byte(x, "canonical function lower"),
            },
            0x02 => CanonicalFunction::ResourceNew {
                resource: reader.read()?,
            },
            0x03 => CanonicalFunction::ResourceDrop {
                resource: reader.read()?,
            },
            0x04 => CanonicalFunction::ResourceRep {
                resource: reader.read()?,
            },
            0x05 => CanonicalFunction::ThreadSpawn {
                func_ty_index: reader.read()?,
            },
            0x06 => CanonicalFunction::ThreadHwConcurrency,
            0x08 => CanonicalFunction::TaskBackpressure,
            0x09 => CanonicalFunction::TaskReturn {
                result: match reader.read_u8()? {
                    0x00 => Some(reader.read()?),
                    0x01 => {
                        if reader.read_u8()? == 0 {
                            None
                        } else {
                            return Err(BinaryReaderError::new(
                                "named results not allowed for `task.return` intrinsic",
                                reader.original_position() - 2,
                            ));
                        }
                    }
                    x => return reader.invalid_leading_byte(x, "`task.return` result"),
                },
            },
            0x0a => CanonicalFunction::TaskWait {
                async_: reader.read()?,
                memory: reader.read()?,
            },
            0x0b => CanonicalFunction::TaskPoll {
                async_: reader.read()?,
                memory: reader.read()?,
            },
            0x0c => CanonicalFunction::TaskYield {
                async_: reader.read()?,
            },
            0x0d => CanonicalFunction::SubtaskDrop,
            0x0e => CanonicalFunction::StreamNew { ty: reader.read()? },
            0x0f => CanonicalFunction::StreamRead {
                ty: reader.read()?,
                options: reader
                    .read_iter(MAX_WASM_CANONICAL_OPTIONS, "canonical options")?
                    .collect::<Result<_>>()?,
            },
            0x10 => CanonicalFunction::StreamWrite {
                ty: reader.read()?,
                options: reader
                    .read_iter(MAX_WASM_CANONICAL_OPTIONS, "canonical options")?
                    .collect::<Result<_>>()?,
            },
            0x11 => CanonicalFunction::StreamCancelRead {
                ty: reader.read()?,
                async_: reader.read()?,
            },
            0x12 => CanonicalFunction::StreamCancelWrite {
                ty: reader.read()?,
                async_: reader.read()?,
            },
            0x13 => CanonicalFunction::StreamCloseReadable { ty: reader.read()? },
            0x14 => CanonicalFunction::StreamCloseWritable { ty: reader.read()? },
            0x15 => CanonicalFunction::FutureNew { ty: reader.read()? },
            0x16 => CanonicalFunction::FutureRead {
                ty: reader.read()?,
                options: reader
                    .read_iter(MAX_WASM_CANONICAL_OPTIONS, "canonical options")?
                    .collect::<Result<_>>()?,
            },
            0x17 => CanonicalFunction::FutureWrite {
                ty: reader.read()?,
                options: reader
                    .read_iter(MAX_WASM_CANONICAL_OPTIONS, "canonical options")?
                    .collect::<Result<_>>()?,
            },
            0x18 => CanonicalFunction::FutureCancelRead {
                ty: reader.read()?,
                async_: reader.read()?,
            },
            0x19 => CanonicalFunction::FutureCancelWrite {
                ty: reader.read()?,
                async_: reader.read()?,
            },
            0x1a => CanonicalFunction::FutureCloseReadable { ty: reader.read()? },
            0x1b => CanonicalFunction::FutureCloseWritable { ty: reader.read()? },
            0x1c => CanonicalFunction::ErrorContextNew {
                options: reader
                    .read_iter(MAX_WASM_CANONICAL_OPTIONS, "canonical options")?
                    .collect::<Result<_>>()?,
            },
            0x1d => CanonicalFunction::ErrorContextDebugMessage {
                options: reader
                    .read_iter(MAX_WASM_CANONICAL_OPTIONS, "canonical options")?
                    .collect::<Result<_>>()?,
            },
            0x1e => CanonicalFunction::ErrorContextDrop,
            x => return reader.invalid_leading_byte(x, "canonical function"),
        })
    }
}

impl<'a> FromReader<'a> for CanonicalOption {
    fn from_reader(reader: &mut BinaryReader<'a>) -> Result<Self> {
        Ok(match reader.read_u8()? {
            0x00 => CanonicalOption::UTF8,
            0x01 => CanonicalOption::UTF16,
            0x02 => CanonicalOption::CompactUTF16,
            0x03 => CanonicalOption::Memory(reader.read_var_u32()?),
            0x04 => CanonicalOption::Realloc(reader.read_var_u32()?),
            0x05 => CanonicalOption::PostReturn(reader.read_var_u32()?),
            0x06 => CanonicalOption::Async,
            0x07 => CanonicalOption::Callback(reader.read_var_u32()?),
            x => return reader.invalid_leading_byte(x, "canonical option"),
        })
    }
}