wasmtime/lib/wasm/src/environ/spec.rs

//! All the runtime support necessary for the wasm to cranelift translation is formalized by the
//! traits `FunctionEnvironment` and `ModuleEnvironment`.
use cranelift_codegen::cursor::FuncCursor;
use cranelift_codegen::ir::{self, InstBuilder};
use cranelift_codegen::isa::TargetFrontendConfig;
use std::convert::From;
use std::vec::Vec;
use translation_utils::{
    FuncIndex, Global, GlobalIndex, Memory, MemoryIndex, SignatureIndex, Table, TableIndex,
};
use wasmparser::BinaryReaderError;

/// The value of a WebAssembly global variable.
#[derive(Clone, Copy)]
pub enum GlobalVariable {
    /// This is a constant global with a value known at compile time.
    Const(ir::Value),

    /// This is a variable in memory that should be referenced through a `GlobalValue`.
    Memory {
        /// The address of the global variable storage.
        gv: ir::GlobalValue,
        /// The global variable's type.
        ty: ir::Type,
    },
}

/// A WebAssembly translation error.
///
/// When a WebAssembly function can't be translated, one of these error codes will be returned
/// to describe the failure.
#[derive(Fail, Debug, PartialEq, Eq)]
pub enum WasmError {
    /// The input WebAssembly code is invalid.
    ///
    /// This error code is used by a WebAssembly translator when it encounters invalid WebAssembly
    /// code. This should never happen for validated WebAssembly code.
    #[fail(
        display = "Invalid input WebAssembly code at offset {}: {}",
        _1,
        _0
    )]
    InvalidWebAssembly {
        /// A string describing the validation error.
        message: &'static str,
        /// The bytecode offset where the error occurred.
        offset: usize,
    },

    /// A feature used by the WebAssembly code is not supported by the embedding environment.
    ///
    /// Embedding environments may have their own limitations and feature restrictions.
    #[fail(display = "Unsupported feature: {}", _0)]
    Unsupported(&'static str),

    /// An implementation limit was exceeded.
    ///
    /// Cranelift can compile very large and complicated functions, but the [implementation has
    /// limits][limits] that cause compilation to fail when they are exceeded.
    ///
    /// [limits]: https://cranelift.readthedocs.io/en/latest/ir.html#implementation-limits
    #[fail(display = "Implementation limit exceeded")]
    ImplLimitExceeded,
}

impl From<BinaryReaderError> for WasmError {
    /// Convert from a `BinaryReaderError` to a `WasmError`.
    fn from(e: BinaryReaderError) -> Self {
        let BinaryReaderError { message, offset } = e;
        WasmError::InvalidWebAssembly { message, offset }
    }
}

/// A convenient alias for a `Result` that uses `WasmError` as the error type.
pub type WasmResult<T> = Result<T, WasmError>;

/// How to return from functions.
#[derive(Copy, Clone, PartialEq, Eq, Debug)]
pub enum ReturnMode {
    /// Use normal return instructions as needed.
    NormalReturns,
    /// Use a single fallthrough return at the end of the function.
    FallthroughReturn,
}

/// Environment affecting the translation of a single WebAssembly function.
///
/// A `FuncEnvironment` trait object is required to translate a WebAssembly function to Cranelift
/// IR. The function environment provides information about the WebAssembly module as well as the
/// runtime environment.
pub trait FuncEnvironment {
    /// Get the information needed to produce Cranelift IR for the given target.
    fn target_config(&self) -> TargetFrontendConfig;

    /// Get the Cranelift integer type to use for native pointers.
    ///
    /// This returns `I64` for 64-bit architectures and `I32` for 32-bit architectures.
    fn pointer_type(&self) -> ir::Type {
        ir::Type::int(u16::from(self.target_config().pointer_bits())).unwrap()
    }

    /// Get the size of a native pointer, in bytes.
    fn pointer_bytes(&self) -> u8 {
        self.target_config().pointer_bytes()
    }

    /// Set up the necessary preamble definitions in `func` to access the global variable
    /// identified by `index`.
    ///
    /// The index space covers both imported globals and globals defined by the module.
    ///
    /// Return the global variable reference that should be used to access the global and the
    /// WebAssembly type of the global.
    fn make_global(&mut self, func: &mut ir::Function, index: GlobalIndex) -> GlobalVariable;

    /// Set up the necessary preamble definitions in `func` to access the linear memory identified
    /// by `index`.
    ///
    /// The index space covers both imported and locally declared memories.
    fn make_heap(&mut self, func: &mut ir::Function, index: MemoryIndex) -> ir::Heap;

    /// Set up the necessary preamble definitions in `func` to access the table identified
    /// by `index`.
    ///
    /// The index space covers both imported and locally declared tables.
    fn make_table(&mut self, func: &mut ir::Function, index: TableIndex) -> ir::Table;

    /// Set up a signature definition in the preamble of `func` that can be used for an indirect
    /// call with signature `index`.
    ///
    /// The signature may contain additional arguments needed for an indirect call, but the
    /// arguments marked as `ArgumentPurpose::Normal` must correspond to the WebAssembly signature
    /// arguments.
    ///
    /// The signature will only be used for indirect calls, even if the module has direct function
    /// calls with the same WebAssembly type.
    fn make_indirect_sig(&mut self, func: &mut ir::Function, index: SignatureIndex) -> ir::SigRef;

    /// Set up an external function definition in the preamble of `func` that can be used to
    /// directly call the function `index`.
    ///
    /// The index space covers both imported functions and functions defined in the current module.
    ///
    /// The function's signature may contain additional arguments needed for a direct call, but the
    /// arguments marked as `ArgumentPurpose::Normal` must correspond to the WebAssembly signature
    /// arguments.
    ///
    /// The function's signature will only be used for direct calls, even if the module has
    /// indirect calls with the same WebAssembly type.
    fn make_direct_func(&mut self, func: &mut ir::Function, index: FuncIndex) -> ir::FuncRef;

    /// Translate a `call_indirect` WebAssembly instruction at `pos`.
    ///
    /// Insert instructions at `pos` for an indirect call to the function `callee` in the table
    /// `table_index` with WebAssembly signature `sig_index`. The `callee` value will have type
    /// `i32`.
    ///
    /// The signature `sig_ref` was previously created by `make_indirect_sig()`.
    ///
    /// Return the call instruction whose results are the WebAssembly return values.
    #[cfg_attr(feature = "cargo-clippy", allow(too_many_arguments))]
    fn translate_call_indirect(
        &mut self,
        pos: FuncCursor,
        table_index: TableIndex,
        table: ir::Table,
        sig_index: SignatureIndex,
        sig_ref: ir::SigRef,
        callee: ir::Value,
        call_args: &[ir::Value],
    ) -> WasmResult<ir::Inst>;

    /// Translate a `call` WebAssembly instruction at `pos`.
    ///
    /// Insert instructions at `pos` for a direct call to the function `callee_index`.
    ///
    /// The function reference `callee` was previously created by `make_direct_func()`.
    ///
    /// Return the call instruction whose results are the WebAssembly return values.
    fn translate_call(
        &mut self,
        mut pos: FuncCursor,
        _callee_index: FuncIndex,
        callee: ir::FuncRef,
        call_args: &[ir::Value],
    ) -> WasmResult<ir::Inst> {
        Ok(pos.ins().call(callee, call_args))
    }

    /// Translate a `memory.grow` WebAssembly instruction.
    ///
    /// The `index` provided identifies the linear memory to grow, and `heap` is the heap reference
    /// returned by `make_heap` for the same index.
    ///
    /// The `val` value is the requested memory size in pages.
    ///
    /// Returns the old size (in pages) of the memory.
    fn translate_memory_grow(
        &mut self,
        pos: FuncCursor,
        index: MemoryIndex,
        heap: ir::Heap,
        val: ir::Value,
    ) -> WasmResult<ir::Value>;

    /// Translates a `memory.size` WebAssembly instruction.
    ///
    /// The `index` provided identifies the linear memory to query, and `heap` is the heap reference
    /// returned by `make_heap` for the same index.
    ///
    /// Returns the size in pages of the memory.
    fn translate_memory_size(
        &mut self,
        pos: FuncCursor,
        index: MemoryIndex,
        heap: ir::Heap,
    ) -> WasmResult<ir::Value>;

    /// Emit code at the beginning of every wasm loop.
    ///
    /// This can be used to insert explicit interrupt or safepoint checking at
    /// the beginnings of loops.
    fn translate_loop_header(&mut self, _pos: FuncCursor) {
        // By default, don't emit anything.
    }

    /// Should the code be structured to use a single `fallthrough_return` instruction at the end
    /// of the function body, rather than `return` instructions as needed? This is used by VMs
    /// to append custom epilogues.
    fn return_mode(&self) -> ReturnMode {
        ReturnMode::NormalReturns
    }
}

/// An object satisfying the `ModuleEnvironment` trait can be passed as argument to the
/// [`translate_module`](fn.translate_module.html) function. These methods should not be called
/// by the user, they are only for `cranelift-wasm` internal use.
pub trait ModuleEnvironment<'data> {
    /// Get the information needed to produce Cranelift IR for the current target.
    fn target_config(&self) -> &TargetFrontendConfig;

    /// Return the name for the given function index.
    fn get_func_name(&self, func_index: FuncIndex) -> ir::ExternalName;

    /// Declares a function signature to the environment.
    fn declare_signature(&mut self, sig: &ir::Signature);

    /// Return the signature with the given index.
    fn get_signature(&self, sig_index: SignatureIndex) -> &ir::Signature;

    /// Declares a function import to the environment.
    fn declare_func_import(
        &mut self,
        sig_index: SignatureIndex,
        module: &'data str,
        field: &'data str,
    );

    /// Return the number of imported funcs.
    fn get_num_func_imports(&self) -> usize;

    /// Declares the type (signature) of a local function in the module.
    fn declare_func_type(&mut self, sig_index: SignatureIndex);

    /// Return the signature index for the given function index.
    fn get_func_type(&self, func_index: FuncIndex) -> SignatureIndex;

    /// Declares a global to the environment.
    fn declare_global(&mut self, global: Global);

    /// Return the global for the given global index.
    fn get_global(&self, global_index: GlobalIndex) -> &Global;

    /// Declares a table to the environment.
    fn declare_table(&mut self, table: Table);
    /// Fills a declared table with references to functions in the module.
    fn declare_table_elements(
        &mut self,
        table_index: TableIndex,
        base: Option<GlobalIndex>,
        offset: usize,
        elements: Vec<FuncIndex>,
    );
    /// Declares a memory to the environment
    fn declare_memory(&mut self, memory: Memory);
    /// Fills a declared memory with bytes at module instantiation.
    fn declare_data_initialization(
        &mut self,
        memory_index: MemoryIndex,
        base: Option<GlobalIndex>,
        offset: usize,
        data: &'data [u8],
    );

    /// Declares a function export to the environment.
    fn declare_func_export(&mut self, func_index: FuncIndex, name: &'data str);
    /// Declares a table export to the environment.
    fn declare_table_export(&mut self, table_index: TableIndex, name: &'data str);
    /// Declares a memory export to the environment.
    fn declare_memory_export(&mut self, memory_index: MemoryIndex, name: &'data str);
    /// Declares a global export to the environment.
    fn declare_global_export(&mut self, global_index: GlobalIndex, name: &'data str);

    /// Declares a start function.
    fn declare_start_func(&mut self, index: FuncIndex);

    /// Provides the contents of a function body.
    fn define_function_body(&mut self, body_bytes: &'data [u8]) -> WasmResult<()>;
}