The original patch had caused some assertions so I rewrote it. This now puts
all untracked top-level requests on the new list while they are being compiled
so handles preload requests too.
Differential Revision: https://phabricator.services.mozilla.com/D119386
There are parse tasks present when the JS engine is being shut down that have
finished but haven't had their results collected by the embedding. This
shouldn't happen, and I think it's happening here because we're leaking a
JSRuntime (we cancel these when we shut down a runtime).
There's a comment that says this isn't necessary but cancelling outstanding
compile requests in ScriptLoader::Destroy fixes this problem on try. I don't
understand well enough to know what's going wrong with the current approach but
this fixes both the crash and the leak.
Differential Revision: https://phabricator.services.mozilla.com/D119315
There are parse tasks present when the JS engine is being shut down that have
finished but haven't had their results collected by the embedding. This
shouldn't happen, and I think it's happening here because we're leaking a
JSRuntime (we cancel these when we shut down a runtime).
There's a comment that says this isn't necessary but cancelling outstanding
compile requests in ScriptLoader::Destroy fixes this problem on try. I don't
understand well enough to know what's going wrong with the current approach but
this fixes both the crash and the leak.
Differential Revision: https://phabricator.services.mozilla.com/D119315
There's a pattern of clearing JS things when calling mozilla::DropJSObjects,
but mozilla::DropJSObjects already clears the JS things itself by calling
CycleCollectedJSRuntime::RemoveJSHolder.
Differential Revision: https://phabricator.services.mozilla.com/D115885
Firstly we need to find a usable ScriptLoader for code in the content script sandbox,
for that we use the normal ScriptLoader associated with DOMWindow wrapped by the sandbox.
Secondly we need to execute the module in the global of the sandbox instead of the
"ScriptGlobal" the ScriptLoader is actually associated with. The main
behavior change here comes from using xpc::NativeGlobal in HostImportModuleDynamically
and passing that global around inside ScriptFetchOptions.
To ensure that content-scripts and the webpage don't share imported modules,
the module map (mFetchingModules and mFetchedModules) now uses a complex key
of <URI, Global>. The Global is a nullptr for normal imports from a webpage.
Differential Revision: https://phabricator.services.mozilla.com/D107076
Firstly we need to find a usable ScriptLoader for code in the content script sandbox,
for that we use the normal ScriptLoader associated with DOMWindow wrapped by the sandbox.
Secondly we need to execute the module in the global of the sandbox instead of the
"ScriptGlobal" the ScriptLoader is actually associated with. The main
behavior change here comes from using xpc::NativeGlobal in HostImportModuleDynamically
and passing that global around inside ScriptFetchOptions.
To ensure that content-scripts and the webpage don't share imported modules,
the module map (mFetchingModules and mFetchedModules) now uses a complex key
of <URI, Global>. The Global is a nullptr for normal imports from a webpage.
Differential Revision: https://phabricator.services.mozilla.com/D107076
Firstly we need to find a usable ScriptLoader for code in the content script sandbox,
for that we use the normal ScriptLoader associated with DOMWindow wrapped by the sandbox.
Secondly we need to execute the module in the global of the sandbox instead of the
"ScriptGlobal" the ScriptLoader is actually associated with. The main
behavior change here comes from using xpc::NativeGlobal in HostImportModuleDynamically
and passing that global around inside ScriptFetchOptions.
To ensure that content-scripts and the webpage don't share imported modules,
the module map (mFetchingModules and mFetchedModules) now uses a complex key
of <URI, Global>. The Global is a nullptr for normal imports from a webpage.
Differential Revision: https://phabricator.services.mozilla.com/D107076
The changes proposed here will speculatively parse all external scripts off thread as soon as they are fetched, except for async, link preload, and non parser inserted scripts. This should save us some time since currently all scripts are parsed right before execution or while they are blocking the dom parser.
Differential Revision: https://phabricator.services.mozilla.com/D76644
We can reduce the size of the SSO by removing the element slot entirely, and instead retrieve the element through a callback function. The callback will take in the value in the private slot of the SSO, which is either a LoadedScript* (from the browser) or a JSObject* (from the shell). In addition, this removes the requirement of having a script dom element ready when parsing a JS script which can open up new opportunities for performance.
Differential Revision: https://phabricator.services.mozilla.com/D70417
We can reduce the size of the SSO by removing the element slot entirely, and instead retrieve the element through a callback function. The callback will take in the value in the private slot of the SSO, which is either a LoadedScript* (from the browser) or a JSObject* (from the shell). In addition, this removes the requirement of having a script dom element ready when parsing a JS script which can open up new opportunities for performance.
Differential Revision: https://phabricator.services.mozilla.com/D70417
The inclusions were removed with the following very crude script and the
resulting breakage was fixed up by hand. The manual fixups did either
revert the changes done by the script, replace a generic header with a more
specific one or replace a header with a forward declaration.
find . -name "*.idl" | grep -v web-platform | grep -v third_party | while read path; do
interfaces=$(grep "^\(class\|interface\).*:.*" "$path" | cut -d' ' -f2)
if [ -n "$interfaces" ]; then
if [[ "$interfaces" == *$'\n'* ]]; then
regexp="\("
for i in $interfaces; do regexp="$regexp$i\|"; done
regexp="${regexp%%\\\|}\)"
else
regexp="$interfaces"
fi
interface=$(basename "$path")
rg -l "#include.*${interface%%.idl}.h" . | while read path2; do
hits=$(grep -v "#include.*${interface%%.idl}.h" "$path2" | grep -c "$regexp" )
if [ $hits -eq 0 ]; then
echo "Removing ${interface} from ${path2}"
grep -v "#include.*${interface%%.idl}.h" "$path2" > "$path2".tmp
mv -f "$path2".tmp "$path2"
fi
done
fi
done
Differential Revision: https://phabricator.services.mozilla.com/D55442
The inclusions were removed with the following very crude script and the
resulting breakage was fixed up by hand. The manual fixups did either
revert the changes done by the script, replace a generic header with a more
specific one or replace a header with a forward declaration.
find . -name "*.idl" | grep -v web-platform | grep -v third_party | while read path; do
interfaces=$(grep "^\(class\|interface\).*:.*" "$path" | cut -d' ' -f2)
if [ -n "$interfaces" ]; then
if [[ "$interfaces" == *$'\n'* ]]; then
regexp="\("
for i in $interfaces; do regexp="$regexp$i\|"; done
regexp="${regexp%%\\\|}\)"
else
regexp="$interfaces"
fi
interface=$(basename "$path")
rg -l "#include.*${interface%%.idl}.h" . | while read path2; do
hits=$(grep -v "#include.*${interface%%.idl}.h" "$path2" | grep -c "$regexp" )
if [ $hits -eq 0 ]; then
echo "Removing ${interface} from ${path2}"
grep -v "#include.*${interface%%.idl}.h" "$path2" > "$path2".tmp
mv -f "$path2".tmp "$path2"
fi
done
fi
done
Differential Revision: https://phabricator.services.mozilla.com/D55442
