This aligns the code more closely with how the input stream pump works: 0
available bytes when the stream itself told us it's ready means the stream is at
the end.
Collect telemetry for all requests to get an exact percentage of
requests that are subject to HSTS priming, and how many result in an
HSTS Priming request being sent. Clean up telemetry to remove instances
of double counting requests if a priming request was sent.
HSTSPrimingListener::ReportTiming was using mCallback to calculate
timing telemetry, but we were calling swap() on the nsCOMPtr. Give it an
explicit argument for the callback.
Add tests for telemetry values to all of the HSTS priming tests. This
tests for the minimum as telemetry may be gathered on background or
other requests.
MozReview-Commit-ID: 5V2Nf0Ugc3r
--HG--
extra : rebase_source : daa357219a77d912a78b95a703430f39d884c6ab
MozReview-Commit-ID: A1lCqvbQYAF
There is no clean API-based solution to this, so instead I went grovelling
through the DCOM wire protocol and was able to write a function that converts
handler OBJREFs into standard OBJREFs.
See also:
https://msdn.microsoft.com/en-us/library/cc226801
--HG--
extra : rebase_source : a650055c4adda3a1d99262e47f2b463074c6b935
MozReview-Commit-ID: 2pyAiw53rj7
Currently we wrap every outpointer interface with its own interceptor. Even two
identical interface outparams will get their own unique interceptors. Not only
does this violate COM object identity, but it is also inefficient; if an
interceptor already exists for a given interface, we should reuse it.
This patch adds a live set: when we create a new interceptor, we first check
the live set and reuse an existing interceptor if it is present. Otherwise we
create a new one and then insert it into the set.
The set uses thread-safe weak references to guard against races during
interceptor teardown.
--HG--
extra : rebase_source : fb3f11600fb368d169bd1164433e2d8780592146
MozReview-Commit-ID: AmS5oBNV7Po
When creating a new interceptor, we already have the correct target interface.
The interceptor ignores this and does a redundant inter-thread QI to resolve
an interface that we already have!
This patch adds a fast path to interceptor initialization that skips all of that
stuff and directly initializes itself using the given target interceptor.
--HG--
extra : rebase_source : dcfff7270efd5bda990e240bb06a9206656d5852
MozReview-Commit-ID: AmS5oBNV7Po
When creating a new interceptor, we already have the correct target interface.
The interceptor ignores this and does a redundant inter-thread QI to resolve
an interface that we already have!
This patch adds a fast path to interceptor initialization that skips all of that
stuff and directly initializes itself using the given target interceptor.
--HG--
extra : rebase_source : bb017b8098b3d94c453d6be982a205ade36c772d
In TSF mode, application should retrieve messages with ITfMessagePump::GetMessage() or ITfMessagePump::PeekMessage() since TSF/TIP may handle the message before or after the host application handles it.
This patch rewrites the API users with WinUtils::(Get|Peek)Message() which use ITfMessagePump if it's available.
MozReview-Commit-ID: LwHIgp7SxLH
--HG--
extra : rebase_source : aa5750af9812f9b107c29546cbee6f9eede6ebfa
This patch does the following renamings, which increase consistency.
- GeckoProfilerInitRAII -> AutoProfilerInit
- GeckoProfilerThread{Sleep,Wake}RAII -> AutoProfilerThread{Sleep,Wake}
- GeckoProfilerTracingRAII -> AutoProfilerTracing
- AutoProfilerRegister -> AutoProfilerRegisterThread
- ProfilerStackFrameRAII -> AutoProfilerLabel
- nsJSUtils::mProfilerRAII -> nsJSUtils::mAutoProfilerLabel
Plus a few other minor ones (e.g. local variables).
The patch also add MOZ_GUARD_OBJECT macros to all the profiler RAII classes
that lack them, and does some minor whitespace reformatting.
--HG--
extra : rebase_source : 47e298fdd6f6b4af70e3357ec0b7b0580c0d0f50
Includes re-importing gyp files removed from upstream in v56, and then
updating them to match the BUILD.gn file changes.
--HG--
rename : media/webrtc/trunk/webrtc/call/audio_send_stream.cc => media/webrtc/trunk/webrtc/call/audio_send_stream_call.cc
PHttpBackgroundChannel is created by content process because PBackground IPDL
can only be initiated from content process. The background channel deletion is
controlled by chrome process while PHttpChannel is going to be closed or canceled.
BackgroundChannelRegistrar is introduced for pairing HttpChannelParent and
HttpBackgroundChannelParent since they are created over different IPDL
asynchronously.
nsIParentRedirectingChannel.continueVerification is introduced to asynchronously
wait for background channel to be established on the new channel during the
Redirect2Verify phase.
MozReview-Commit-ID: 41l8ivan8iA
--HG--
extra : rebase_source : b8b6d7e7c037efaa9fc13df14191205c603e833a
Carsten "Tomcat" Book
Wes Kocher
Bill McCloskey
Eric Rahm
Boris Zbarsky
Marco Castelluccio
Kate McKinley
Aaron Klotz
Tom Ritter
Jeff Muizelaar
Jan Varga
Kyle Machulis
Ryan VanderMeulen
Stephen A Pohl
Masayuki Nakano
Kartikaya Gupta
Sebastian Hengst
Christoph Diehl
Nicholas Nethercote
Randell Jesup
Shih-Chiang Chien