This patch adds the definitions of the RefPtr constructor and operator=.
It also refactors some stuff in AgileReference to make these objects easier
to use. Since it's just a bunch of C++ goop, I figured that you'd be fine to
review this. Let me know if you want to add a reviewer who is more familiar
with the COM nuances.
Depends on D5317
Differential Revision: https://phabricator.services.mozilla.com/D5318
--HG--
extra : moz-landing-system : lando
Several source files use DLL_PREFIX/DLL_SUFFIX defines, and they all set
them in moz.build using `DEFINES`. This is problematic for the WSL
build because the quoting gets lost somewhere between bash and cl.exe.
We cannot simply set them globally in moz.configure because their
stringified definitions would conflict with the `set_config` of
DLL_PREFIX/DLL_SUFFIX. Therefore, we globally define
MOZ_DLL_PREFIX/MOZ_DLL_SUFFIX and change all define-related uses of
DLL_PREFIX/DLL_SUFFIX to use their MOZ-equivalents instead.
This is the only reason I haven't used it before for things like
StyleSheet::State.
Change the underlying type to be the underlying enum representation by default,
but allow to override it if wanted.
Assertions should catch misuses.
Differential Revision: https://phabricator.services.mozilla.com/D5248
--HG--
extra : moz-landing-system : lando
Doing std::move when returning/assigning a local or temporary object is
preventing the compiler from performing copy elision.
Differential Revision: https://phabricator.services.mozilla.com/D5019
--HG--
extra : moz-landing-system : lando
This patch builds the foundation for the ability to relocate HTTP channels from one content process to another in order to ensure that origins are properly isolated. This relocation would normally occur when the response to an HTTP request is a redirect to a different origin.
The patch merely adds the mechanism for relocating the channel, rather than the logic of doing so. This will be provided in a follow-up patch by a specialized service. Right now that functionality is mocked in the test.
How this works:
In nsHttpChannel::OnStartRequest we will query the service that decides whether we need to direct the response to another process. If so, it will return a promise that resolves to a TabParent.
When the promise resolves, in HttpChannelParentListener::TriggerCrossProcessRedirect we call NeckoParent::SendCrossProcessRedirect passing along the required information to recreate the channel in the new process. The NeckoChild in the new process will then instantiate a new channel, call ConnectParent() which creates the associated parent channel, and connects it with the existing nsHttpChannel.
A listener in the new process is then notified of the existence of the new channel. It is required to call completeRedirectSetup on the channel, passing an nsIStreamListener to the call.
We then finish the entire operation with a call to HttpChannelChild::SendCrossProcessRedirectDone which causes us to close the old HttpChannelChild in the previous process and to resume the nsHttpChannel in the main process.
Differential Revision: https://phabricator.services.mozilla.com/D2958
--HG--
rename : netwerk/test/browser/browser_cookie_sync_across_tabs.js => netwerk/test/browser/browser_cross_process_redirect.js
rename : dom/media/test/redirect.sjs => netwerk/test/browser/redirect.sjs
extra : moz-landing-system : lando
This patch builds the foundation for the ability to relocate HTTP channels from one content process to another in order to ensure that origins are properly isolated. This relocation would normally occur when the response to an HTTP request is a redirect to a different origin.
The patch merely adds the mechanism for relocating the channel, rather than the logic of doing so. This will be provided in a follow-up patch by a specialized service. Right now that functionality is mocked in the test.
How this works:
In nsHttpChannel::OnStartRequest we will query the service that decides whether we need to direct the response to another process. If so, it will return a promise that resolves to a TabParent.
When the promise resolves, in HttpChannelParentListener::TriggerCrossProcessRedirect we call NeckoParent::SendCrossProcessRedirect passing along the required information to recreate the channel in the new process. The NeckoChild in the new process will then instantiate a new channel, call ConnectParent() which creates the associated parent channel, and connects it with the existing nsHttpChannel.
A listener in the new process is then notified of the existence of the new channel. It is required to call completeRedirectSetup on the channel, passing an nsIStreamListener to the call.
We then finish the entire operation with a call to HttpChannelChild::SendCrossProcessRedirectDone which causes us to close the old HttpChannelChild in the previous process and to resume the nsHttpChannel in the main process.
Differential Revision: https://phabricator.services.mozilla.com/D2958
--HG--
rename : netwerk/test/browser/browser_cookie_sync_across_tabs.js => netwerk/test/browser/browser_cross_process_redirect.js
rename : dom/media/test/redirect.sjs => netwerk/test/browser/redirect.sjs
extra : moz-landing-system : lando
We move the XPConnect() singleton accessor to nsIXConnect to make it available for consumers outside of XPConnect. Most of the consumers of the singleton accessor just need the nsIXPConnect public interface, except for the IsShuttingDown() member which this patch adds to nsIXPConnect as well.
Differential Revision: https://phabricator.services.mozilla.com/D5151
We move the XPConnect() singleton accessor to nsIXConnect to make it available for consumers outside of XPConnect. Most of the consumers of the singleton accessor just need the nsIXPConnect public interface, except for the IsShuttingDown() member which this patch adds to nsIXPConnect as well.
Differential Revision: https://phabricator.services.mozilla.com/D5151
In the MinGW browser build job, we're going to use -fms-extensions,
which will tell clang to start processing these comments. Clang
cannot process them correctly (it's an upstream bug) but it doesn't
need to, because we include the libs we need in moz.build files.
So we exclude them for MinGW builds. mingw-clang gets them wrong and
mingw-gcc (which doesn't even work anymore on -central) ignored them.
In the future, with a llvm fix, we could clean up the moz.build
files and re-enable these comments.
Differential Revision: https://phabricator.services.mozilla.com/D3527
--HG--
extra : moz-landing-system : lando
There's also a field named mState on IProtocol, and this reduces confusion.
Differential Revision: https://phabricator.services.mozilla.com/D4356
--HG--
extra : moz-landing-system : lando
The test case in this patch fails without the proper fix in the first patch
in this patch series.
In this patch two new nsIDOMWindowUtils APIs are introduced to change the
system font settins in tests. Currently the APIs work only on GTK+ platform.
Also to work the test case properly we need to open a new XUL window because we
don't propagate font changes into descendant documents yet (bug 1478212).
MozReview-Commit-ID: 4OLxEkEuF8d
--HG--
extra : rebase_source : 683e64f07c4d8820e5499d8c15b90975618559b8
Closures are nice but -- as pointed out in bug 1481978 comment #2 --
it's a footgun to take a std::function argument in a context where heap
allocation isn't safe.
Fortunately, non-capturing closures convert to C function pointers,
so a C-style interface with a void* context can still be relatively
ergonomic.
Correctness improvements:
* UTF errors are handled safely per spec instead of dangerously truncating
strings.
* There are fewer converter implementations.
Performance improvements:
* The old code did exact buffer length math, which meant doing UTF math twice
on each input string (once for length calculation and another time for
conversion). Exact length math is more complicated when handling errors
properly, which the old code didn't do. The new code does UTF math on the
string content only once (when converting) but risks allocating more than
once. There are heuristics in place to lower the probability of
reallocation in cases where the double math avoidance isn't enough of a
saving to absorb an allocation and memcpy.
* Previously, in UTF-16 <-> UTF-8 conversions, an ASCII prefix was optimized
but a single non-ASCII code point pessimized the rest of the string. The
new code tries to get back on the fast ASCII path.
* UTF-16 to Latin1 conversion guarantees less about handling of out-of-range
input to eliminate an operation from the inner loop on x86/x86_64.
* When assigning to a pre-existing string, the new code tries to reuse the
old buffer instead of first releasing the old buffer and then allocating a
new one.
* When reallocating from the new code, the memcpy covers only the data that
is part of the logical length of the old string instead of memcpying the
whole capacity. (For old callers old excess memcpy behavior is preserved
due to bogus callers. See bug 1472113.)
* UTF-8 strings in XPConnect that are in the Latin1 range are passed to
SpiderMonkey as Latin1.
New features:
* Conversion between UTF-8 and Latin1 is added in order to enable faster
future interop between Rust code (or otherwise UTF-8-using code) and text
node and SpiderMonkey code that uses Latin1.
MozReview-Commit-ID: JaJuExfILM9