use crate::external_references::ExternalReferences; use crate::scope::data::ScopeData; use crate::support::char; use crate::support::int; use crate::support::intptr_t; use crate::Context; use crate::Isolate; use crate::Local; use crate::OwnedIsolate; use std::borrow::Borrow; use std::convert::TryFrom; use std::mem::MaybeUninit; use std::ops::Deref; extern "C" { fn v8__SnapshotCreator__CONSTRUCT( buf: *mut MaybeUninit, external_references: *const intptr_t, ); fn v8__SnapshotCreator__DESTRUCT(this: *mut SnapshotCreator); fn v8__SnapshotCreator__GetIsolate( this: *mut SnapshotCreator, ) -> *mut Isolate; fn v8__SnapshotCreator__CreateBlob( this: *mut SnapshotCreator, function_code_handling: FunctionCodeHandling, ) -> StartupData; fn v8__SnapshotCreator__SetDefaultContext( this: *mut SnapshotCreator, context: *const Context, ); fn v8__StartupData__DESTRUCT(this: *mut StartupData); } #[repr(C)] pub struct StartupData { data: *const char, raw_size: int, } impl Deref for StartupData { type Target = [u8]; fn deref(&self) -> &Self::Target { let data = self.data as *const u8; let len = usize::try_from(self.raw_size).unwrap(); unsafe { std::slice::from_raw_parts(data, len) } } } impl AsRef<[u8]> for StartupData { fn as_ref(&self) -> &[u8] { &**self } } impl Borrow<[u8]> for StartupData { fn borrow(&self) -> &[u8] { &**self } } impl Drop for StartupData { fn drop(&mut self) { unsafe { v8__StartupData__DESTRUCT(self) } } } #[repr(C)] pub enum FunctionCodeHandling { Clear, Keep, } /// Helper class to create a snapshot data blob. #[repr(C)] pub struct SnapshotCreator([usize; 1]); impl SnapshotCreator { /// Create and enter an isolate, and set it up for serialization. /// The isolate is created from scratch. pub fn new(external_references: Option<&'static ExternalReferences>) -> Self { let mut snapshot_creator: MaybeUninit = MaybeUninit::uninit(); let external_references_ptr = if let Some(er) = external_references { er.as_ptr() } else { std::ptr::null() }; unsafe { v8__SnapshotCreator__CONSTRUCT( &mut snapshot_creator, external_references_ptr, ); snapshot_creator.assume_init() } } } impl Drop for SnapshotCreator { fn drop(&mut self) { unsafe { v8__SnapshotCreator__DESTRUCT(self) }; } } impl SnapshotCreator { /// Set the default context to be included in the snapshot blob. /// The snapshot will not contain the global proxy, and we expect one or a /// global object template to create one, to be provided upon deserialization. pub fn set_default_context<'s>(&mut self, context: Local<'s, Context>) { unsafe { v8__SnapshotCreator__SetDefaultContext(self, &*context) }; } /// Creates a snapshot data blob. /// This must not be called from within a handle scope. pub fn create_blob( &mut self, function_code_handling: FunctionCodeHandling, ) -> Option { { let isolate = unsafe { &mut *v8__SnapshotCreator__GetIsolate(self) }; ScopeData::get_root_mut(isolate); } let blob = unsafe { v8__SnapshotCreator__CreateBlob(self, function_code_handling) }; if blob.data.is_null() { debug_assert!(blob.raw_size == 0); None } else { debug_assert!(blob.raw_size > 0); Some(blob) } } /// This is marked unsafe because it should be called at most once per /// snapshot creator. // TODO Because the SnapshotCreator creates its own isolate, we need a way to // get an owned handle to it. This is a questionable design which ought to be // revisited after the libdeno integration is complete. pub unsafe fn get_owned_isolate(&mut self) -> OwnedIsolate { let isolate_ptr = v8__SnapshotCreator__GetIsolate(self); let mut owned_isolate = OwnedIsolate::new(isolate_ptr); ScopeData::new_root(&mut owned_isolate); owned_isolate.create_annex(Box::new(())); owned_isolate } }