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2022-03-01Merge branch 'master' (DRTVWR-557) into DRTVWR-546Andrey Kleshchev
# Conflicts: # autobuild.xml # doc/contributions.txt # indra/cmake/GLOD.cmake # indra/llcommon/tests/llprocess_test.cpp # indra/newview/VIEWER_VERSION.txt # indra/newview/lldrawpoolavatar.cpp # indra/newview/llfloatermodelpreview.cpp # indra/newview/llmodelpreview.cpp # indra/newview/llviewertexturelist.cpp # indra/newview/llvovolume.cpp # indra/newview/viewer_manifest.py
2021-12-10SL-15742: Convert build scripts to Python 3Bennett Goble
This changeset makes it possible to build the Second Life viewer using Python 3. It is designed to be used with an equivalent Autobuild branch so that a developer can compile without needing Python 2 on their machine. Breaking change: Python 2 support ending Rather than supporting two versions of Python, including one that was discontinued at the beginning of the year, this branch focuses on pouring future effort into Python 3 only. As a result, scripts do not need to be backwards compatible. This means that build environments, be they on personal computers and on build agents, need to have a compatible interpreter. Notes - SLVersionChecker will still use Python 2 on macOS - Fixed the message template url used by template_verifier.py
2021-11-24SL-16094: Fix WorkQueue test for correct behavior of runFor().Nat Goodspeed
Turns out that one of our WorkQueue integration tests was relying on the incorrect runFor() behavior that we just fixed, so the test broke. Now that runFor() doesn't wait around for work to be posted, use an explicit wait loop instead. To support this, add LLCond::get(functor), where functor must accept a const reference to the stored data. This new get() returns whatever the functor returns, allowing a caller to peek at the stored data. Also use universal references for all remaining LLCond functor arguments.
2021-11-24DRTVWR-546, SL-16220, SL-16094: Undo previous glthread branch revert.Nat Goodspeed
Reverting a merge is sticky: it tells git you never want to see that branch again. Merging the DRTVWR-546 branch, which contained the revert, into the glthread branch undid much of the development work on that branch. To restore it we must revert the revert. This reverts commit 029b41c0419e975bbb28454538b46dc69ce5d2ba.
2021-11-15Revert "SL-16220: Merge branch 'origin/DRTVWR-546' into glthread"Dave Houlton
This reverts commit 5188a26a8521251dda07ac0140bb129f28417e49, reversing changes made to 819088563e13f1d75e048311fbaf0df4a79b7e19.
2021-11-04SL-16202: Merge branch 'sl-16220' into glthreadNat Goodspeed
2021-10-27SL-16220: Add tests for WorkQueue::waitForResult(), void & non-void.Nat Goodspeed
2021-10-25SL-16220: Specialize WorkQueue for callable with void return.Nat Goodspeed
Add a test exercising this feature.
2021-10-15Merge branch 'DRTVWR-546' of ssh://bitbucket.org/lindenlab/viewer into ↵Brad Payne (Vir Linden)
DRTVWR-546
2021-10-07SL-16024: Defend against two threads making "anonymous" WorkQueues.Nat Goodspeed
Also make workqueue_test.cpp more robust.
2021-10-07SL-16024: Add LL::WorkQueue for passing work items between threads.Nat Goodspeed
A typical WorkQueue has a string name, which can be used to find it to post work to it. "Work" is a nullary callable. WorkQueue is a multi-producer, multi-consumer thread-safe queue: multiple threads can service the WorkQueue, multiple threads can post work to it. Work can be scheduled in the future by submitting with a timestamp. In addition, a given work item can be scheduled to run on a recurring basis. A requesting thread servicing a WorkQueue of its own, such as the viewer's main thread, can submit work to another WorkQueue along with a callback to be passed the result (of arbitrary type) of the first work item. The callback is posted to the originating WorkQueue, permitting safe data exchange between participating threads. Methods are provided for different kinds of servicing threads. runUntilClose() is useful for a simple worker thread. runFor(duration) devotes no more than a specified time slice to that WorkQueue, e.g. for use by the main thread.
2021-10-07SL-16024: Adapt llinstancetracker_test.cpp to getInstance() change.Nat Goodspeed
2021-10-06SL-16024: Fix ThreadSafeSchedule::tryPopFor(), tryPopUntil().Nat Goodspeed
ThreadSafeSchedule::tryPopUntil() (and therefore tryPopFor()) was simply delegating to LLThreadSafeQueue::tryPopUntil(), with an adjusted timeout since we want to wake up as soon as the head item, if any, becomes ready. But then we have to loop back to retry the pop to actually deal with that head item. In addition, ThreadSafeSchedule::popWithTime() was spinning rather than properly blocking on a timed condition variable. Fixed.
2021-10-05SL-16024: Add ThreadSafeSchedule, a timestamped LLThreadSafeQueue.Nat Goodspeed
ThreadSafeSchedule orders its items by timestamp, which can be passed either implicitly or explicitly. The timestamp specifies earliest delivery time: an item cannot be popped until that time. Add initial tests. Tweak the LLThreadSafeQueue base class to support ThreadSafeSchedule: introduce virtual canPop() method to report whether the current head item is available to pop. The base class unconditionally says yes, ThreadSafeSchedule says it depends on whether its timestamp is still in the future. This replaces the protected pop_() overload accepting a predicate. Rather than explicitly passing a predicate through a couple levels of function call, use canPop() at the level it matters. Runtime behavior that varies depending on an object's leaf class is what virtual functions were invented for. Give pop_() a three-state enum return so pop() can distinguish between "closed and empty" (throws exception) versus "closed, not yet drained because we're not yet ready to pop the head item" (waits). Also break out protected tryPopUntil_() method, the body logic of tryPopUntil(). The public method locks the data structure, the protected method requires that its caller has already done so. Add chrono.h with a more full-featured LL::time_point_cast() function than the one found in <chrono>, which only converts between time_point durations, not between time_points based on different clocks.
2021-10-04SL-16024: Introduce tuple.h with tuple_cons(), tuple_cdr().Nat Goodspeed
These functions allow prepending or removing an item at the left end of an arbitrary tuple -- for instance, to add a sequence key to a caller's data, then remove it again when delivering the original tuple.
2021-09-15SL-15742 - python 3 support for integration test scriptBrad Payne (Vir Linden)
2021-05-11SL-10297: Move LL_ERRS crash location into the LL_ERRS macro itself.Nat Goodspeed
Introduce Oz's LLERROR_CRASH macro analogous to the old LLError::crashAndLoop() function. Change LL_ENDL macro so that, after calling flush(), if the CallSite is for LEVEL_ERROR, we invoke LLERROR_CRASH right there. Change the meaning of LLError::FatalFunction. It used to be responsible for the actual crash (hence crashAndLoop()). Now, instead, its role is to disrupt control flow in some other way if you DON'T want to crash: throw an exception, or call exit() or some such. Any FatalFunction that returns normally will fall into the new crash in LL_ENDL. Accordingly, the new default FatalFunction is a no-op lambda. This eliminates the need to test for empty (not set) FatalFunction in Log::flush(). Remove LLError::crashAndLoop() because the official LL_ERRS crash is now in LL_ENDL. One of the two common use cases for setFatalFunction() used to be to intercept control in the last moments before crashing -- not to crash or to avoid crashing, but to capture the LL_ERRS message in some way. Especially when that's temporary, though (e.g. LLLeap), saving and restoring the previous FatalFunction only works when the lifespans of the relevant objects are strictly LIFO. Either way, that's a misuse of FatalFunction. Fortunately the Recorder mechanism exactly addresses that case. Introduce a GenericRecorder template subclass, with LLError::addGenericRecorder(callable) that accepts a callable with suitable (level, message) signature, instantiates a GenericRecorder, adds it to the logging machinery and returns the RecorderPtr for possible later use with removeRecorder(). Change llappviewer.cpp's errorCallback() to an addGenericRecorder() callable. Its role was simply to update gDebugInfo["FatalMessage"] with the LL_ERRS message, then call writeDebugInfo(), before calling crashAndLoop() to finish crashing. Remove the crashAndLoop() call, retaining the gDebugInfo logic. Pass errorCallback() to LLError::addGenericRecorder() instead of setFatalFunction(). Oddly, errorCallback()'s crashAndLoop() call was conditional on a compile-time SHADER_CRASH_NONFATAL symbol. The new mechanism provides no way to support SHADER_CRASH_NONFATAL -- it is a Bad Idea to return normally from any LL_ERRS invocation! Rename LLLeapImpl::fatalFunction() to onError(). Instead of passing it to LLError::setFatalFunction(), pass it to addGenericRecorder(). Capture the returned RecorderPtr in mRecorder, replacing mPrevFatalFunction. Then ~LLLeapImpl() calls removeRecorder(mRecorder) instead of restoring mPrevFatalFunction (which, as noted above, was order-sensitive). Of course, every enabled Recorder is called with every log message. onError() and errorCallback() must specifically test for calls with LEVEL_ERROR. LLSingletonBase::logerrs() used to call LLError::getFatalFunction(), check the return and call it if non-empty, else call LLError::crashAndLoop(). Replace all that with LLERROR_CRASH. Remove from llappviewer.cpp the watchdog_llerrs_callback() and watchdog_killer_callback() functions. watchdog_killer_callback(), passed to Watchdog::init(), used to setFatalFunction(watchdog_llerrs_callback) and then invoke LL_ERRS() -- which seems a bit roundabout. watchdog_llerrs_callback(), in turn, replicated much of the logic in the primary errorCallback() function before replicating the crash from llwatchdog.cpp's default_killer_callback(). Instead, pass LLWatchdog::init() a lambda that invokes the LL_ERRS() message formerly found in watchdog_killer_callback(). It no longer needs to override FatalFunction with watchdog_llerrs_callback() because errorCallback() will still be called as a Recorder, obviating watchdog_llerrs_callback()'s first half; and LL_ENDL will handle the crash, obviating the second half. Remove from llappviewer.cpp the static fast_exit() function, which was simply an alias for _exit() acceptable to boost::bind(). Use a lambda directly calling _exit() instead of using boost::bind() at all. In the CaptureLog class in llcommon/tests/wrapllerrs.h, instead of statically referencing the wouldHaveCrashed() function from test.cpp, simply save and restore the current FatalFunction across the LLError::saveAndResetSettings() call. llerror_test.cpp calls setFatalFunction(fatalCall), where fatalCall() was a function that simply set a fatalWasCalled bool rather than actually crashing in any way. Of course, that implementation would now lead to crashing the test program. Make fatalCall() throw a new FatalWasCalled exception. Introduce a CATCH(LL_ERRS("tag"), "message") macro that expands to: LL_ERRS("tag") << "message" << LL_ENDL; within a try/catch block that catches FatalWasCalled and sets the same bool. Change all existing LL_ERRS() in llerror_test.cpp to corresponding CATCH() calls. In fact there's also an LL_DEBUGS(bad tag) invocation that exercises an LL_ERRS internal to llerror.cpp; wrap that too.
2020-05-27DRTVWR-476: LLMainThreadTask cross-thread test hangs. Skip.Nat Goodspeed
2020-05-13DRTVWR-476: Default LLSDNotationFormatter now OPTIONS_PRETTY_BINARY.Nat Goodspeed
LLSDNotationFormatter (also LLSDNotationStreamer that uses it, plus operator<<(std::ostream&, const LLSD&) that uses LLSDNotationStreamer) is most useful for displaying LLSD to a human, e.g. for logging. Having the default dump raw binary bytes into the log file is not only suboptimal, it can truncate the output if one of those bytes is '\0'. (This is a problem with the logging subsystem, but that's a story for another day.) Use OPTIONS_PRETTY_BINARY wherever there is a default LLSDFormatter ::EFormatterOptions argument. Also, allow setting LLSDFormatter subclass boolalpha(), realFormat() and format(options) using optional constructor arguments. Naturally, each subclass that supports this must accept and forward these constructor arguments to its LLSDFormatter base class constructor. Fix a couple bugs in LLSDNotationFormatter::format_impl() for an LLSD::Binary value with OPTIONS_PRETTY_BINARY: - The code unconditionally emitted a b(len) type prefix followed by either raw binary or hex, depending on the option flag. OPTIONS_PRETTY_BINARY caused it to emit "0x" before the hex representation of the data. This is wrong in that it can't be read back by either the C++ or the Python LLSD parser. Correct OPTIONS_PRETTY_BINARY formatting consists of b16"hex digits" rather than b(len)"raw bytes". - Although the code did set hex mode, it didn't set either the field width or the fill character, so that a byte value less than 16 would emit a single digit rather than two. Instead of having one LLSDFormatter::format() method with an optional options argument, declare two overloads. The format() overload without options passes the mOptions data member to the overload accepting options. Refactor the LLSDFormatter family, hoisting the recursive format_impl() method (accepting level) to a pure virtual method at LLSDFormatter base-class level. Most subclasses therefore need not override either base-class format() method, only format_impl(). In fact the short format() overload isn't even virtual. Consistently use LLSDFormatter::EFormatterOptions enum as the options parameter wherever such options are accepted.
2020-04-03DRTVWR-476: Cherry-pick debug aids from commit 77b0c53 (fiber-mutex)Nat Goodspeed
2020-03-26DRTVWR-476: Apparently it can take more than 2s for threads to chat.Nat Goodspeed
llmainthreadtask_test builds in a Sync timeout to keep build-time tests from hanging. That timeout was set to 2000ms, which seems as though it ought to be plenty enough time for a process with only 2 threads to exchange data between them. But on TeamCity EC2 Windows build hosts, sometimes we hit that timeout and fail. Extend it to try to improve the robustness of builds, even though the possibility of a production viewer blocking for that long for anything seems worrisome. (Fortunately the production viewer does not use Sync.)
2020-03-25DRTVWR-476: Re-enable LLInstanceTracker tests disabled months ago.Nat Goodspeed
2020-03-25DRTVWR-476: Update LLMainThreadTask tests for simpler API.Nat Goodspeed
2020-03-25DRTVWR-476: Add unit tests for LLMainThreadTask.Nat Goodspeed
Now that we have the Sync class to help construct unit tests that move forward in a deterministic stepwise order, we can build suitable unit tests for LLMainThreadTask.
2020-03-25DRTVWR-476: Add LLTHROW()/LOG_UNHANDLED_EXCEPTION() test.Nat Goodspeed
llexception_test.cpp is about discovering appropriate infrastructure to get good information from the LLTHROW() and LOG_UNHANDLED_EXCEPTION() mechanism. But we didn't before have a test that actually exercises them. Now we do.
2020-03-25DRTVWR-476: Infrastructure to help manage long-lived coroutines.Nat Goodspeed
Introduce LLCoros::Stop exception, with subclasses Stopping, Stopped and Shutdown. Add LLCoros::checkStop(), intended to be called periodically by any coroutine with nontrivial lifespan. It checks the LLApp status and, unless isRunning(), throws one of these new exceptions. Make LLCoros::toplevel() catch Stop specially and log forcible coroutine termination. Now that LLApp status matters even in a test program, introduce a trivial LLTestApp subclass whose sole function is to make isRunning() true. (LLApp::setStatus() is protected: only a subclass can call it.) Add LLTestApp instances to lleventcoro_test.cpp and lllogin_test.cpp. Make LLCoros::toplevel() accept parameters by value rather than by const reference so we can continue using them even after context switches. Make private LLCoros::get_CoroData() static. Given that we've observed some coroutines living past LLCoros destruction, making the caller call LLCoros::instance() is more dangerous than encapsulating it within a static method -- since the encapsulated call can check LLCoros::wasDeleted() first and do something reasonable instead. This also eliminates the need for both a const and non-const overload. Defend LLCoros::delete_CoroData() (cleanup function for fiber_specific_ptr for CoroData, implicitly called after coroutine termination) against calls after ~LLCoros(). Add a status string to coroutine-local data, with LLCoro::setStatus(), getStatus() and RAII class TempStatus. Add an optional 'when' string argument to LLCoros::printActiveCoroutines(). Make ~LLCoros() print the coroutines still active at destruction.
2020-03-25DRTVWR-476: Add LLEventLogProxy, LLEventLogProxyFor<T>.Nat Goodspeed
LLEventLogProxy can be introduced to serve as a logging proxy for an existing LLEventPump subclass instance. Access through the LLEventLogProxy will be logged; access directly to the underlying LLEventPump will not. LLEventLogProxyFor<LLEventPumpSubclass> functions as a drop-in replacement for the original LLEventPumpSubclass instance. It internally instantiates LLEventPumpSubclass and serves as a proxy for that instance. Add unit tests for LLEventMailDrop and LLEventLogProxyFor<LLEventMailDrop>, both "plain" (events only) and via lleventcoro.h synchronization.
2020-03-25DRTVWR-476: Add Sync class to help with stepwise coroutine tests.Nat Goodspeed
Sync is specifically intended for test programs. It is based on an LLScalarCond<int>. The idea is that each of two coroutines can watch for the other to get a chance to run, indicated by incrementing the wrapped int and notifying the wrapped condition_variable. This is less hand-wavy than calling llcoro::suspend() and hoping that the other routine will have had a chance to run. Use Sync in lleventcoro_test.cpp. Also refactor lleventcoro_test.cpp so that instead of a collection of static data requiring a clear() call at start of each individual test function, the relevant data is all part of the test_data struct common to all test functions. Make the helper coroutine functions members of test_data too. Introduce llcoro::logname(), a convenience function to log the name of the currently executing coroutine or "main" if in the thread's main coroutine.
2020-03-25DRTVWR-476: Improve llprocess_test.cpp diagnostic output.Nat Goodspeed
If the test<1>() child process terminates with nonzero rc, also report any stdout/stderr it might have emitted first.
2020-03-25DRTVWR-476: Add basic tests for LLCond.Nat Goodspeed
2020-03-25[DRTVWR-476] - fix compiler errors 32 bit windows buildAnchor
2020-03-25[DRTVWR-476] - temporary skip failing llinstancetracker tests to get TC ↵Anchor
build working
2020-03-25SL-793: Use Boost.Fiber instead of the "dcoroutine" library.Nat Goodspeed
Longtime fans will remember that the "dcoroutine" library is a Google Summer of Code project by Giovanni P. Deretta. He originally called it "Boost.Coroutine," and we originally added it to our 3p-boost autobuild package as such. But when the official Boost.Coroutine library came along (with a very different API), and we still needed the API of the GSoC project, we renamed the unofficial one "dcoroutine" to allow coexistence. The "dcoroutine" library had an internal low-level API more or less analogous to Boost.Context. We later introduced an implementation of that internal API based on Boost.Context, a step towards eliminating the GSoC code in favor of official, supported Boost code. However, recent versions of Boost.Context no longer support the API on which we built the shim for "dcoroutine." We started down the path of reimplementing that shim using the current Boost.Context API -- then realized that it's time to bite the bullet and replace the "dcoroutine" API with the Boost.Fiber API, which we've been itching to do for literally years now. Naturally, most of the heavy lifting is in llcoros.{h,cpp} and lleventcoro.{h,cpp} -- which is good: the LLCoros layer abstracts away most of the differences between "dcoroutine" and Boost.Fiber. The one feature Boost.Fiber does not provide is the ability to forcibly terminate some other fiber. Accordingly, disable LLCoros::kill() and LLCoprocedureManager::shutdown(). The only known shutdown() call was in LLCoprocedurePool's destructor. We also took the opportunity to remove postAndSuspend2() and its associated machinery: FutureListener2, LLErrorEvent, errorException(), errorLog(), LLCoroEventPumps. All that dual-LLEventPump stuff was introduced at a time when the Responder pattern was king, and we assumed we'd want to listen on one LLEventPump with the success handler and on another with the error handler. We have never actually used that in practice. Remove associated tests, of course. There is one other semantic difference that necessitates patching a number of tests: with "dcoroutine," fulfilling a future IMMEDIATELY resumes the waiting coroutine. With Boost.Fiber, fulfilling a future merely marks the fiber as ready to resume next time the scheduler gets around to it. To observe the test side effects, we've inserted a number of llcoro::suspend() calls -- also in the main loop. For a long time we retained a single unit test exercising the raw "dcoroutine" API. Remove that. Eliminate llcoro_get_id.{h,cpp}, which provided llcoro::get_id(), which was a hack to emulate fiber-local variables. Since Boost.Fiber has an actual API for that, remove the hack. In fact, use (new alias) LLCoros::local_ptr for LLSingleton's dependency tracking in place of llcoro::get_id(). In CMake land, replace BOOST_COROUTINE_LIBRARY with BOOST_FIBER_LIBRARY. We don't actually use the Boost.Coroutine for anything (though there exist plausible use cases).
2020-03-25DRTVWR-494: Dispatch all LLSingleton construction to the main thread.Nat Goodspeed
Given the viewer's mutually-dependent LLSingletons, given that different threads might simultaneously request different LLSingletons from such a chain of circular dependencies, the key to avoiding deadlock is to serialize all LLSingleton construction on one thread: the main thread. Add comments to LLSingleton::getInstance() explaining the problem and the solution. Recast LLSingleton's static SingletonData to use LockStatic. Instead of using Locker, and simply trusting that every reference to sData is within the dynamic scope of a Locker instance, LockStatic enforces that: you can only access SingletonData members via LockStatic. Reorganize the switch in getInstance() to group the CONSTRUCTING error, the INITIALIZING/INITIALIZED success case, and the DELETED/UNINITIALIZED construction case. When [re]constructing an instance, on the main thread, retain the lock and call constructSingleton() (and capture_dependency()) directly. On a secondary thread, unlock LockStatic and use LLMainThreadTask::dispatch() to call getInstance() on the main thread. Since we might end up enqueuing multiple such tasks, it's important to let getInstance() notice when the instance has already been constructed and simply return the existing pointer. Add loginfos() method, sibling to logerrs(), logwarns() and logdebugs(). Produce loginfos() messages when dispatching to the main thread, when actually running on the main thread and when resuming the suspended requesting thread. Make deleteSingleton() manage all associated state, instead of delegating some of that work to ~LLSingleton(). Now, within LockStatic, extract the instance pointer and set state to DELETED; that lets subsequent code, which retains the only remaining pointer to the instance, remove the master-list entry, call the subclass cleanupSingleton() and destructor without needing to hold the lock. In fact, entirely remove ~LLSingleton(). Import LLSingletonBase::cleanup_() method to wrap the call to subclass cleanupSingleton() in try/catch. Remove cleanupAll() calls from llsingleton_test.cpp, and reorder the success cases to reflect the fact that T::cleanupSingleton() is called immediately before ~T() for each distinct LLSingleton subclass T. When getInstance() on a secondary thread dispatches to the main thread, it necessarily unlocks its LockStatic lock. But an LLSingleton dependency chain strongly depends on the function stack on which getInstance() is invoked -- the task dispatched to the main thread doesn't know the dependencies tracked on the requesting thread stack. So, once the main thread delivers the instance pointer, the requesting thread captures its own dependencies for that instance. Back in the requesting thread, obtaining the current EInitState to pass to capture_dependencies() would have required relocking LockStatic. Instead, I've convinced myself that (a) capture_dependencies() only wanted to know EInitState to produce an error for CONSTRUCTING, and (b) in CONSTRUCTING state, we never get as far as capture_dependencies() because getInstance() produces an error first. Eliminate the EInitState parameter from all capture_dependencies() methods. Remove the LLSingletonBase::capture_dependency() stanza that tested EInitState. Make the capture_dependencies() variants that accepted LockStatic instead accept LLSingletonBase*. That lets getInstance(), in the LLMainThreadTask case, pass the newly-returned instance pointer. For symmetry, make pop_initializing() accept LLSingletonBase* as well, instead of accepting LockStatic and extracting mInstance.
2020-03-25DRTVWR-494: Defend LLInstanceTracker against multi-thread usage.Nat Goodspeed
The previous implementation went to some effort to crash if anyone attempted to create or destroy an LLInstanceTracker subclass instance during traversal. That restriction is manageable within a single thread, but becomes unworkable if it's possible that a given subclass might be used on more than one thread. Remove LLInstanceTracker::instance_iter, beginInstances(), endInstances(), also key_iter, beginKeys() and endKeys(). Instead, introduce key_snapshot() and instance_snapshot(), the only means of iterating over LLInstanceTracker instances. (These are intended to resemble functions, but in fact the current implementation simply presents the classes.) Iterating over a captured snapshot defends against container modifications during traversal. The term 'snapshot' reminds the coder that a new instance created during traversal will not be considered. To defend against instance deletion during traversal, a snapshot stores std::weak_ptrs which it lazily dereferences, skipping on the fly any that have expired. Dereferencing instance_snapshot::iterator gets you a reference rather than a pointer. Because some use cases want to delete all existing instances, add an instance_snapshot::deleteAll() method that extracts the pointer. Those cases used to require explicitly copying instance pointers into a separate container; instance_snapshot() now takes care of that. It remains the caller's responsibility to ensure that all instances of that LLInstanceTracker subclass were allocated on the heap. Replace unkeyed static LLInstanceTracker::getInstance(T*) -- which returned nullptr if that instance had been destroyed -- with new getWeak() method returning std::weak_ptr<T>. Caller must detect expiration of that weak_ptr. Adjust tests accordingly. Use of std::weak_ptr to detect expired instances requires engaging std::shared_ptr in the constructor. We now store shared_ptrs in the static containers (std::map for keyed, std::set for unkeyed). Make LLInstanceTrackerBase a template parameterized on the type of the static data it manages. For that reason, hoist static data class declarations out of the class definitions to an LLInstanceTrackerStuff namespace. Remove the static atomic sIterationNestDepth and its methods incrementDepth(), decrementDepth() and getDepth(), since they were used only to forbid creation and destruction during traversal. Add a std::mutex to static data. Introduce an internal LockStatic class that locks the mutex while providing a pointer to static data, making that the only way to access the static data. The LLINSTANCETRACKER_DTOR_NOEXCEPT macro goes away because we no longer expect ~LLInstanceTracker() to throw an exception in test programs. That affects LLTrace::StatBase as well as LLInstanceTracker itself. Adapt consumers to the new LLInstanceTracker API.
2019-09-10Merged in lindenlab/viewer-releaseandreykproductengine
2019-08-13DRTVWR-493 Test fix for W64andreykproductengine
2019-08-12DRTVWR-493: Permit LLParamSingleton::initSingleton() circularity.Nat Goodspeed
This was forbidden, but AndreyK points out cases in which LLParamSingleton:: initSingleton() should in fact be allowed to circle back to its own instance() method. Use a recursive_mutex instead of plain mutex to permit that; remove LL_ERRS preventing it. Add LLParamSingleton::instance() method that calls LLParamSingleton::getInstance(). Inheriting LLSingleton::instance() called LLSingleton::getInstance() -- not at all what we want. Add LLParamSingleton unit tests.
2019-08-12DRTVWR-493: Make catch_llerrs() a member of WrapLLErrs.Nat Goodspeed
2019-08-10DRTVWR-493: Introduce test catch_what(), catch_llerrs() functions.Nat Goodspeed
Use them in place of awkward try/catch test boilerplate.
2018-12-14SL-10153: Review and rationalize fetching paths from environment.Nat Goodspeed
Use LLStringUtil::getenv() or getoptenv() whenever we fetch a string that will be used as a pathname. Use LLFile::tmpdir() instead of getenv("TEMP"). As an added extra-special bonus, finally clean up $TMP/llcontrol-test-zzzzzz directories that have been accumulating every time we run a local build!
2018-10-17DRTVWR-447: Move test<5> and writeMsgNeedsEscaping() into sequence.Nat Goodspeed
2018-10-16renumber the new test to replace the one that was removedOz Linden
2018-10-11Modify logging so that the in-viewer console and stderr do not escape line ↵Oz Linden
breaks Improve the implementation so that escaping is computed only once
2018-09-26Automated merge with ssh://bitbucket.org/lindenlab/viewer-releaseNat Goodspeed
2018-08-29SL-967 simplify viewer log file field syntaxOz Linden
MAINT-8991: only escape log message characters once, add unit test remove extra log line created by LL_ERRS document that tags may not contain spaces
2019-05-07SL-10954 Unit test escapePathAndDataandreykproductengine
2018-06-21DRTVWR-447: Merge up to latest viewer-releaseNat Goodspeed
2018-05-22MAINT-2338 Unit testsAndrey Kleshchev
2018-05-17SL-821: Add WSTRINGIZE() and DEWSTRINGIZE() macros for wide strings.Nat Goodspeed
Streamline convenience overload stringize(std::wstring); make convenience overload wstringize(std::string) symmetrically convert from UTF-8 string. Also eliminate STRINGIZE() et al. dependency on Boost.Phoenix: use lambdas instead. Using lambdas instead of template expansion necessitates reordering some code in wrapllerrs.h.