mirror of
https://github.com/denoland/deno.git
synced 2024-12-22 15:24:46 -05:00
421 lines
12 KiB
Rust
421 lines
12 KiB
Rust
// Copyright 2018-2024 the Deno authors. All rights reserved. MIT license.
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use crate::callback::PtrSymbol;
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use crate::dlfcn::DynamicLibraryResource;
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use crate::ir::*;
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use crate::symbol::NativeType;
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use crate::symbol::Symbol;
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use crate::FfiPermissions;
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use crate::ForeignFunction;
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use deno_core::op2;
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use deno_core::serde_json::Value;
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use deno_core::serde_v8::ExternalPointer;
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use deno_core::unsync::spawn_blocking;
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use deno_core::v8;
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use deno_core::OpState;
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use deno_core::ResourceId;
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use libffi::middle::Arg;
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use serde::Serialize;
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use std::cell::RefCell;
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use std::ffi::c_void;
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use std::future::Future;
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use std::rc::Rc;
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#[derive(Debug, thiserror::Error)]
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pub enum CallError {
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#[error(transparent)]
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IR(#[from] IRError),
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#[error("Nonblocking FFI call failed: {0}")]
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NonblockingCallFailure(#[source] tokio::task::JoinError),
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#[error("Invalid FFI symbol name: '{0}'")]
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InvalidSymbol(String),
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#[error(transparent)]
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Permission(deno_core::error::AnyError),
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#[error(transparent)]
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Callback(#[from] super::CallbackError),
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}
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// SAFETY: Makes an FFI call
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unsafe fn ffi_call_rtype_struct(
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cif: &libffi::middle::Cif,
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fn_ptr: &libffi::middle::CodePtr,
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call_args: Vec<Arg>,
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out_buffer: *mut u8,
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) {
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libffi::raw::ffi_call(
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cif.as_raw_ptr(),
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Some(*fn_ptr.as_safe_fun()),
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out_buffer as *mut c_void,
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call_args.as_ptr() as *mut *mut c_void,
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);
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}
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// A one-off synchronous FFI call.
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pub(crate) fn ffi_call_sync<'scope>(
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scope: &mut v8::HandleScope<'scope>,
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args: v8::FunctionCallbackArguments,
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symbol: &Symbol,
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out_buffer: Option<OutBuffer>,
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) -> Result<NativeValue, CallError>
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where
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'scope: 'scope,
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{
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let Symbol {
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parameter_types,
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result_type,
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cif,
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ptr: fun_ptr,
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..
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} = symbol;
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let mut ffi_args: Vec<NativeValue> =
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Vec::with_capacity(parameter_types.len());
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for (index, native_type) in parameter_types.iter().enumerate() {
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let value = args.get(index as i32);
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match native_type {
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NativeType::Bool => {
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ffi_args.push(ffi_parse_bool_arg(value)?);
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}
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NativeType::U8 => {
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ffi_args.push(ffi_parse_u8_arg(value)?);
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}
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NativeType::I8 => {
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ffi_args.push(ffi_parse_i8_arg(value)?);
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}
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NativeType::U16 => {
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ffi_args.push(ffi_parse_u16_arg(value)?);
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}
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NativeType::I16 => {
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ffi_args.push(ffi_parse_i16_arg(value)?);
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}
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NativeType::U32 => {
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ffi_args.push(ffi_parse_u32_arg(value)?);
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}
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NativeType::I32 => {
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ffi_args.push(ffi_parse_i32_arg(value)?);
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}
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NativeType::U64 => {
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ffi_args.push(ffi_parse_u64_arg(scope, value)?);
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}
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NativeType::I64 => {
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ffi_args.push(ffi_parse_i64_arg(scope, value)?);
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}
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NativeType::USize => {
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ffi_args.push(ffi_parse_usize_arg(scope, value)?);
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}
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NativeType::ISize => {
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ffi_args.push(ffi_parse_isize_arg(scope, value)?);
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}
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NativeType::F32 => {
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ffi_args.push(ffi_parse_f32_arg(value)?);
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}
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NativeType::F64 => {
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ffi_args.push(ffi_parse_f64_arg(value)?);
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}
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NativeType::Buffer => {
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ffi_args.push(ffi_parse_buffer_arg(scope, value)?);
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}
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NativeType::Struct(_) => {
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ffi_args.push(ffi_parse_struct_arg(scope, value)?);
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}
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NativeType::Pointer => {
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ffi_args.push(ffi_parse_pointer_arg(scope, value)?);
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}
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NativeType::Function => {
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ffi_args.push(ffi_parse_function_arg(scope, value)?);
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}
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NativeType::Void => {
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unreachable!();
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}
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}
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}
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let call_args: Vec<Arg> = ffi_args
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.iter()
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.enumerate()
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// SAFETY: Creating a `Arg` from a `NativeValue` is pretty safe.
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.map(|(i, v)| unsafe { v.as_arg(parameter_types.get(i).unwrap()) })
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.collect();
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// SAFETY: types in the `Cif` match the actual calling convention and
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// types of symbol.
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unsafe {
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Ok(match result_type {
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NativeType::Void => NativeValue {
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void_value: cif.call::<()>(*fun_ptr, &call_args),
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},
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NativeType::Bool => NativeValue {
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bool_value: cif.call::<bool>(*fun_ptr, &call_args),
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},
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NativeType::U8 => NativeValue {
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u8_value: cif.call::<u8>(*fun_ptr, &call_args),
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},
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NativeType::I8 => NativeValue {
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i8_value: cif.call::<i8>(*fun_ptr, &call_args),
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},
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NativeType::U16 => NativeValue {
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u16_value: cif.call::<u16>(*fun_ptr, &call_args),
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},
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NativeType::I16 => NativeValue {
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i16_value: cif.call::<i16>(*fun_ptr, &call_args),
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},
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NativeType::U32 => NativeValue {
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u32_value: cif.call::<u32>(*fun_ptr, &call_args),
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},
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NativeType::I32 => NativeValue {
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i32_value: cif.call::<i32>(*fun_ptr, &call_args),
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},
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NativeType::U64 => NativeValue {
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u64_value: cif.call::<u64>(*fun_ptr, &call_args),
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},
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NativeType::I64 => NativeValue {
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i64_value: cif.call::<i64>(*fun_ptr, &call_args),
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},
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NativeType::USize => NativeValue {
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usize_value: cif.call::<usize>(*fun_ptr, &call_args),
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},
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NativeType::ISize => NativeValue {
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isize_value: cif.call::<isize>(*fun_ptr, &call_args),
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},
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NativeType::F32 => NativeValue {
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f32_value: cif.call::<f32>(*fun_ptr, &call_args),
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},
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NativeType::F64 => NativeValue {
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f64_value: cif.call::<f64>(*fun_ptr, &call_args),
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},
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NativeType::Pointer | NativeType::Function | NativeType::Buffer => {
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NativeValue {
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pointer: cif.call::<*mut c_void>(*fun_ptr, &call_args),
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}
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}
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NativeType::Struct(_) => NativeValue {
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void_value: ffi_call_rtype_struct(
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&symbol.cif,
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&symbol.ptr,
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call_args,
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out_buffer.unwrap().0,
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),
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},
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})
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}
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}
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#[derive(Serialize)]
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#[serde(untagged)]
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pub enum FfiValue {
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Value(Value),
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External(ExternalPointer),
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}
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fn ffi_call(
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call_args: Vec<NativeValue>,
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cif: &libffi::middle::Cif,
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fun_ptr: libffi::middle::CodePtr,
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parameter_types: &[NativeType],
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result_type: NativeType,
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out_buffer: Option<OutBuffer>,
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) -> FfiValue {
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let call_args: Vec<Arg> = call_args
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.iter()
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.enumerate()
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.map(|(index, ffi_arg)| {
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// SAFETY: the union field is initialized
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unsafe { ffi_arg.as_arg(parameter_types.get(index).unwrap()) }
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})
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.collect();
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// SAFETY: types in the `Cif` match the actual calling convention and
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// types of symbol.
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unsafe {
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match result_type {
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NativeType::Void => {
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cif.call::<()>(fun_ptr, &call_args);
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FfiValue::Value(Value::from(()))
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}
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NativeType::Bool => {
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FfiValue::Value(Value::from(cif.call::<bool>(fun_ptr, &call_args)))
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}
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NativeType::U8 => {
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FfiValue::Value(Value::from(cif.call::<u8>(fun_ptr, &call_args)))
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}
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NativeType::I8 => {
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FfiValue::Value(Value::from(cif.call::<i8>(fun_ptr, &call_args)))
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}
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NativeType::U16 => {
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FfiValue::Value(Value::from(cif.call::<u16>(fun_ptr, &call_args)))
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}
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NativeType::I16 => {
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FfiValue::Value(Value::from(cif.call::<i16>(fun_ptr, &call_args)))
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}
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NativeType::U32 => {
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FfiValue::Value(Value::from(cif.call::<u32>(fun_ptr, &call_args)))
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}
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NativeType::I32 => {
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FfiValue::Value(Value::from(cif.call::<i32>(fun_ptr, &call_args)))
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}
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NativeType::U64 => {
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FfiValue::Value(Value::from(cif.call::<u64>(fun_ptr, &call_args)))
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}
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NativeType::I64 => {
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FfiValue::Value(Value::from(cif.call::<i64>(fun_ptr, &call_args)))
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}
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NativeType::USize => {
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FfiValue::Value(Value::from(cif.call::<usize>(fun_ptr, &call_args)))
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}
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NativeType::ISize => {
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FfiValue::Value(Value::from(cif.call::<isize>(fun_ptr, &call_args)))
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}
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NativeType::F32 => {
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FfiValue::Value(Value::from(cif.call::<f32>(fun_ptr, &call_args)))
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}
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NativeType::F64 => {
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FfiValue::Value(Value::from(cif.call::<f64>(fun_ptr, &call_args)))
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}
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NativeType::Pointer | NativeType::Function | NativeType::Buffer => {
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FfiValue::External(ExternalPointer::from(
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cif.call::<*mut c_void>(fun_ptr, &call_args),
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))
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}
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NativeType::Struct(_) => {
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ffi_call_rtype_struct(cif, &fun_ptr, call_args, out_buffer.unwrap().0);
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FfiValue::Value(Value::Null)
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}
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}
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}
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}
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#[op2(async)]
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#[serde]
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pub fn op_ffi_call_ptr_nonblocking<FP>(
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scope: &mut v8::HandleScope,
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state: Rc<RefCell<OpState>>,
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pointer: *mut c_void,
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#[serde] def: ForeignFunction,
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parameters: v8::Local<v8::Array>,
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out_buffer: Option<v8::Local<v8::TypedArray>>,
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) -> Result<impl Future<Output = Result<FfiValue, CallError>>, CallError>
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where
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FP: FfiPermissions + 'static,
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{
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{
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let mut state = state.borrow_mut();
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let permissions = state.borrow_mut::<FP>();
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permissions
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.check_partial_no_path()
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.map_err(CallError::Permission)?;
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};
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let symbol = PtrSymbol::new(pointer, &def)?;
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let call_args = ffi_parse_args(scope, parameters, &def.parameters)?;
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let out_buffer_ptr = out_buffer_as_ptr(scope, out_buffer);
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let join_handle = spawn_blocking(move || {
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let PtrSymbol { cif, ptr } = symbol.clone();
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ffi_call(
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call_args,
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&cif,
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ptr,
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&def.parameters,
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def.result,
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out_buffer_ptr,
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)
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});
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Ok(async move {
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let result = join_handle
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.await
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.map_err(CallError::NonblockingCallFailure)?;
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// SAFETY: Same return type declared to libffi; trust user to have it right beyond that.
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Ok(result)
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})
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}
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/// A non-blocking FFI call.
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#[op2(async)]
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#[serde]
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pub fn op_ffi_call_nonblocking(
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scope: &mut v8::HandleScope,
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state: Rc<RefCell<OpState>>,
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#[smi] rid: ResourceId,
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#[string] symbol: String,
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parameters: v8::Local<v8::Array>,
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out_buffer: Option<v8::Local<v8::TypedArray>>,
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) -> Result<impl Future<Output = Result<FfiValue, CallError>>, CallError> {
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let symbol = {
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let state = state.borrow();
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let resource = state
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.resource_table
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.get::<DynamicLibraryResource>(rid)
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.map_err(CallError::Permission)?;
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let symbols = &resource.symbols;
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*symbols
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.get(&symbol)
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.ok_or_else(|| CallError::InvalidSymbol(symbol))?
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.clone()
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};
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let call_args = ffi_parse_args(scope, parameters, &symbol.parameter_types)?;
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let out_buffer_ptr = out_buffer_as_ptr(scope, out_buffer);
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let join_handle = spawn_blocking(move || {
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let Symbol {
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cif,
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ptr,
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parameter_types,
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result_type,
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..
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} = symbol.clone();
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ffi_call(
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call_args,
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&cif,
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ptr,
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¶meter_types,
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result_type,
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out_buffer_ptr,
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)
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});
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Ok(async move {
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let result = join_handle
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.await
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.map_err(CallError::NonblockingCallFailure)?;
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// SAFETY: Same return type declared to libffi; trust user to have it right beyond that.
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Ok(result)
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})
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}
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#[op2(reentrant)]
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#[serde]
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pub fn op_ffi_call_ptr<FP>(
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scope: &mut v8::HandleScope,
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state: Rc<RefCell<OpState>>,
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pointer: *mut c_void,
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#[serde] def: ForeignFunction,
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parameters: v8::Local<v8::Array>,
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out_buffer: Option<v8::Local<v8::TypedArray>>,
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) -> Result<FfiValue, CallError>
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where
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FP: FfiPermissions + 'static,
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{
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{
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let mut state = state.borrow_mut();
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let permissions = state.borrow_mut::<FP>();
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permissions
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.check_partial_no_path()
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.map_err(CallError::Permission)?;
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};
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let symbol = PtrSymbol::new(pointer, &def)?;
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let call_args = ffi_parse_args(scope, parameters, &def.parameters)?;
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let out_buffer_ptr = out_buffer_as_ptr(scope, out_buffer);
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let result = ffi_call(
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call_args,
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&symbol.cif,
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symbol.ptr,
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&def.parameters,
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def.result.clone(),
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out_buffer_ptr,
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);
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// SAFETY: Same return type declared to libffi; trust user to have it right beyond that.
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Ok(result)
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}
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