5 files changed, 174 insertions, 104 deletions

diff --git a/indra/llcommon/lldeadmantimer.cpp b/indra/llcommon/lldeadmantimer.cpp
index 3d3f738c06..2a356d857a 100644
--- a/indra/llcommon/lldeadmantimer.cpp
+++ b/indra/llcommon/lldeadmantimer.cpp
@@ -43,7 +43,7 @@
 //    true    true   Not allowed
 //
 LLDeadmanTimer::LLDeadmanTimer(F64 horizon)
-	: mHorizon(U64(llmax(horizon, F64(0.0)) * gClockFrequency)),
+	: mHorizon(time_type(llmax(horizon, F64(0.0)) * gClockFrequency)),
 	  mActive(false),			// If true, a timer is running.
 	  mDone(false),				// If true, timer has completed and can be read (once)
 	  mStarted(U64L(0)),
@@ -53,7 +53,14 @@ LLDeadmanTimer::LLDeadmanTimer(F64 horizon)
 {}
 
 
-void LLDeadmanTimer::start(U64 now)
+// static
+LLDeadmanTimer::time_type LLDeadmanTimer::getNow()
+{
+	return LLTimer::getCurrentClockCount();
+}
+
+
+void LLDeadmanTimer::start(time_type now)
 {
 	// *TODO:  If active, let's complete an existing timer and save
 	// the result to the side.  I think this will be useful later.
@@ -72,7 +79,7 @@ void LLDeadmanTimer::start(U64 now)
 }
 
 
-void LLDeadmanTimer::stop(U64 now)
+void LLDeadmanTimer::stop(time_type now)
 {
 	if (! mActive)
 	{
@@ -81,7 +88,7 @@ void LLDeadmanTimer::stop(U64 now)
 
 	if (! now)
 	{
-		now = LLTimer::getCurrentClockCount();
+		now = getNow();
 	}
 	mStopped = now;
 	mActive = false;
@@ -89,13 +96,13 @@ void LLDeadmanTimer::stop(U64 now)
 }
 
 
-bool LLDeadmanTimer::isExpired(F64 & started, F64 & stopped, U64 & count, U64 now)
+bool LLDeadmanTimer::isExpired(time_type now, F64 & started, F64 & stopped, U64 & count)
 {
 	if (mActive && ! mDone)
 	{
 		if (! now)
 		{
-			now = LLTimer::getCurrentClockCount();
+			now = getNow();
 		}
 
 		if (now >= mExpires)
@@ -120,7 +127,7 @@ bool LLDeadmanTimer::isExpired(F64 & started, F64 & stopped, U64 & count, U64 no
 }
 
 	
-void LLDeadmanTimer::ringBell(U64 now)
+void LLDeadmanTimer::ringBell(time_type now, unsigned int count)
 {
 	if (! mActive)
 	{
@@ -129,7 +136,7 @@ void LLDeadmanTimer::ringBell(U64 now)
 	
 	if (! now)
 	{
-		now = LLTimer::getCurrentClockCount();
+		now = getNow();
 	}
 
 	if (now >= mExpires)
@@ -141,7 +148,7 @@ void LLDeadmanTimer::ringBell(U64 now)
 	{
 		mStopped = now;
 		mExpires = now + mHorizon;
-		++mCount;
+		mCount += count;
 	}
 	
 	return;
diff --git a/indra/llcommon/lldeadmantimer.h b/indra/llcommon/lldeadmantimer.h
index 84023723ab..8643b8cad8 100644
--- a/indra/llcommon/lldeadmantimer.h
+++ b/indra/llcommon/lldeadmantimer.h
@@ -77,6 +77,16 @@
 class LL_COMMON_API LLDeadmanTimer
 {
 public:
+	/// Public types
+
+	/// Low-level time type chosen for compatibility with
+	/// LLTimer::getCurrentClockCount() which is the basis
+	/// of time operations in this class.  This is likely
+	/// to change in a future version in a move to TSC-based
+	/// timing.
+	typedef U64 time_type;
+	
+public:
 	/// Construct and initialize an LLDeadmanTimer
 	///
 	/// @param horizon	Time, in seconds, after the last @see ringBell()
@@ -93,6 +103,18 @@ private:
 	void operator=(const LLDeadmanTimer &);				// Not defined
 
 public:
+	/// Get the current time.  Zero-basis for this time
+	/// representation is not defined and is different on
+	/// different platforms.  Do not attempt to compute
+	/// negative times relative to the first value returned,
+	/// there may not be enough 'front porch' on the range
+	/// to prevent wraparound.
+	///
+	/// Note:  Implementation is expected to change in a
+	/// future release as well.
+	///
+	static time_type getNow();
+
 	/// Begin timing.  If the timer is already active, it is reset
 	///	and timing begins now.
 	///
@@ -100,8 +122,7 @@ public:
 	///					LLTimer::getCurrentClockCount().  If zero,
 	///					method will lookup current time.
 	///
-	void start(U64 now = U64L(0));
-
+	void start(time_type now);
 
 	/// End timing.  Actively declare the end of the event independent
 	/// of the deadman's switch operation.  @see isExpired() will return
@@ -111,28 +132,34 @@ public:
 	///					LLTimer::getCurrentClockCount().  If zero,
 	///					method will lookup current time.
 	///
-	void stop(U64 now = U64L(0));
-
+	void stop(time_type now);
 
 	/// Declare that something interesting happened.  This has two
 	/// effects on an unexpired-timer.  1)  The expiration time
 	/// is extended for 'horizon' seconds after the 'now' value.
-	/// 2)  An internal counter associated with the event is incremented.
-	/// This count is returned via the @see isExpired() method.
+	/// 2)  An internal counter associated with the event is incremented
+	/// by the @ref count parameter.  This count is returned via the
+	/// @see isExpired() method.
 	///
 	/// @param now		Current time as returned by @see
 	///					LLTimer::getCurrentClockCount().  If zero,
 	///					method will lookup current time.
 	///
-	void ringBell(U64 now = U64L(0));
+	/// @param count	Count of events to be associated with
+	///					this bell ringing.
+	///
+	void ringBell(time_type now, unsigned int count);
 	
-
 	/// Checks on the status of the timer Declare that something interesting happened.  This has two
 	/// effects on an unexpired-timer.  1)  The expiration time
 	/// is extended for 'horizon' seconds after the 'now' value.
 	/// 2)  An internal counter associated with the event is incremented.
 	/// This count is returned via the @see isExpired() method.
 	///
+	/// @param now		Current time as returned by @see
+	///					LLTimer::getCurrentClockCount().  If zero,
+	///					method will lookup current time.
+	///
 	/// @param started	If expired, the starting time of the event is
 	///					returned to the caller via this reference.
 	///
@@ -146,25 +173,21 @@ public:
 	/// @param count	If expired, the number of ringBell() calls
 	///					made prior to expiration.
 	///
-	/// @param now		Current time as returned by @see
-	///					LLTimer::getCurrentClockCount().  If zero,
-	///					method will lookup current time.
-	///
 	/// @return			true if the timer has expired, false otherwise.
 	///					If true, it also returns the started,
 	///					stopped and count values otherwise these are
 	///					left unchanged.
 	///
-	bool isExpired(F64 & started, F64 & stopped, U64 & count, U64 now = U64L(0));
+	bool isExpired(time_type now, F64 & started, F64 & stopped, U64 & count);
 
 protected:
-	U64			mHorizon;
+	time_type	mHorizon;
 	bool		mActive;
 	bool		mDone;
-	U64			mStarted;
-	U64			mExpires;
-	U64			mStopped;
-	U64			mCount;
+	time_type	mStarted;
+	time_type	mExpires;
+	time_type	mStopped;
+	time_type	mCount;
 };
 	
 
diff --git a/indra/llcommon/tests/lldeadmantimer_test.cpp b/indra/llcommon/tests/lldeadmantimer_test.cpp
index 40e354115b..63cab29e04 100644
--- a/indra/llcommon/tests/lldeadmantimer_test.cpp
+++ b/indra/llcommon/tests/lldeadmantimer_test.cpp
@@ -34,12 +34,12 @@
 // Convert between floating point time deltas and U64 time deltas.
 // Reflects an implementation detail inside lldeadmantimer.cpp
 
-static U64 float_time_to_u64(F64 delta)
+static LLDeadmanTimer::time_type float_time_to_u64(F64 delta)
 {
-	return U64(delta * gClockFrequency);
+	return LLDeadmanTimer::time_type(delta * gClockFrequency);
 }
 
-static F64 u64_time_to_float(U64 delta)
+static F64 u64_time_to_float(LLDeadmanTimer::time_type delta)
 {
 	return delta * gClockFrequencyInv;
 }
@@ -69,7 +69,7 @@ void deadmantimer_object_t::test<1>()
 	U64 count(U64L(8));
 	LLDeadmanTimer timer(10.0);
 
-	ensure_equals("isExpired() returns false after ctor()", timer.isExpired(started, stopped, count), false);
+	ensure_equals("isExpired() returns false after ctor()", timer.isExpired(0, started, stopped, count), false);
 	ensure_approximately_equals("t1 - isExpired() does not modify started", started, F64(42.0), 2);
 	ensure_approximately_equals("t1 - isExpired() does not modify stopped", stopped, F64(97.0), 2);
 	ensure_equals("t1 - isExpired() does not modify count", count, U64L(8));
@@ -84,7 +84,8 @@ void deadmantimer_object_t::test<2>()
 	U64 count(U64L(8));
 	LLDeadmanTimer timer(0.0);			// Zero is pre-expired
 
-	ensure_equals("isExpired() still returns false with 0.0 time ctor()", timer.isExpired(started, stopped, count), false);
+	ensure_equals("isExpired() still returns false with 0.0 time ctor()",
+				  timer.isExpired(0, started, stopped, count), false);
 }
 
 
@@ -97,8 +98,9 @@ void deadmantimer_object_t::test<3>()
 	U64 count(U64L(8));
 	LLDeadmanTimer timer(0.0);
 
-	timer.start();
-	ensure_equals("isExpired() returns true with 0.0 horizon time", timer.isExpired(started, stopped, count), true);
+	timer.start(0);
+	ensure_equals("isExpired() returns true with 0.0 horizon time",
+				  timer.isExpired(0, started, stopped, count), true);
 	ensure_approximately_equals("expired timer with no bell ringing has stopped == started", started, stopped, 8);
 }
 
@@ -111,14 +113,15 @@ void deadmantimer_object_t::test<4>()
 	U64 count(U64L(8));
 	LLDeadmanTimer timer(0.0);
 	
-	timer.start();
-	timer.ringBell(LLTimer::getCurrentClockCount() + float_time_to_u64(1000.0));
-	ensure_equals("isExpired() returns true with 0.0 horizon time after bell ring", timer.isExpired(started, stopped, count), true);
+	timer.start(0);
+	timer.ringBell(LLDeadmanTimer::getNow() + float_time_to_u64(1000.0), 1);
+	ensure_equals("isExpired() returns true with 0.0 horizon time after bell ring",
+				  timer.isExpired(0, started, stopped, count), true);
 	ensure_approximately_equals("ringBell has no impact on expired timer leaving stopped == started", started, stopped, 8);
 }
 
 
-// start() test - unexpired timer reports unexpired
+// start(0) test - unexpired timer reports unexpired
 template<> template<>
 void deadmantimer_object_t::test<5>()
 {
@@ -126,8 +129,9 @@ void deadmantimer_object_t::test<5>()
 	U64 count(U64L(8));
 	LLDeadmanTimer timer(10.0);
 	
-	timer.start();
-	ensure_equals("isExpired() returns false after starting with 10.0 horizon time", timer.isExpired(started, stopped, count), false);
+	timer.start(0);
+	ensure_equals("isExpired() returns false after starting with 10.0 horizon time",
+				  timer.isExpired(0, started, stopped, count), false);
 	ensure_approximately_equals("t5 - isExpired() does not modify started", started, F64(42.0), 2);
 	ensure_approximately_equals("t5 - isExpired() does not modify stopped", stopped, F64(97.0), 2);
 	ensure_equals("t5 - isExpired() does not modify count", count, U64L(8));
@@ -146,10 +150,11 @@ void deadmantimer_object_t::test<6>()
 	// the implementation on Windows is zero-based.  We wrap around
 	// the backside resulting in a large U64 number.
 	
-	U64 the_past(LLTimer::getCurrentClockCount());
-	U64 now(the_past + float_time_to_u64(5.0));
+	LLDeadmanTimer::time_type the_past(LLDeadmanTimer::getNow());
+	LLDeadmanTimer::time_type now(the_past + float_time_to_u64(5.0));
 	timer.start(the_past);
-	ensure_equals("isExpired() returns false with 10.0 horizon time starting 5.0 in past", timer.isExpired(started, stopped, count, now), false);
+	ensure_equals("isExpired() returns false with 10.0 horizon time starting 5.0 in past",
+				  timer.isExpired(now, started, stopped, count), false);
 	ensure_approximately_equals("t6 - isExpired() does not modify started", started, F64(42.0), 2);
 	ensure_approximately_equals("t6 - isExpired() does not modify stopped", stopped, F64(97.0), 2);
 	ensure_equals("t6 - isExpired() does not modify count", count, U64L(8));
@@ -168,10 +173,11 @@ void deadmantimer_object_t::test<7>()
 	// the implementation on Windows is zero-based.  We wrap around
 	// the backside resulting in a large U64 number.
 	
-	U64 the_past(LLTimer::getCurrentClockCount());
-	U64 now(the_past + float_time_to_u64(20.0));
+	LLDeadmanTimer::time_type the_past(LLDeadmanTimer::getNow());
+	LLDeadmanTimer::time_type now(the_past + float_time_to_u64(20.0));
 	timer.start(the_past);
-	ensure_equals("isExpired() returns true with 10.0 horizon time starting 20.0 in past", timer.isExpired(started, stopped, count, now), true);
+	ensure_equals("isExpired() returns true with 10.0 horizon time starting 20.0 in past",
+				  timer.isExpired(now,started, stopped, count), true);
 	ensure_approximately_equals("starting before horizon still gives equal started / stopped", started, stopped, 8);
 }
 
@@ -188,15 +194,17 @@ void deadmantimer_object_t::test<8>()
 	// the implementation on Windows is zero-based.  We wrap around
 	// the backside resulting in a large U64 number.
 	
-	U64 the_past(LLTimer::getCurrentClockCount());
-	U64 now(the_past + float_time_to_u64(20.0));
+	LLDeadmanTimer::time_type the_past(LLDeadmanTimer::getNow());
+	LLDeadmanTimer::time_type now(the_past + float_time_to_u64(20.0));
 	timer.start(the_past);
-	ensure_equals("t8 - isExpired() returns true with 10.0 horizon time starting 20.0 in past", timer.isExpired(started, stopped, count, now), true);
+	ensure_equals("t8 - isExpired() returns true with 10.0 horizon time starting 20.0 in past",
+				  timer.isExpired(now, started, stopped, count), true);
 
 	started = 42.0;
 	stopped = 97.0;
 	count = U64L(8);
-	ensure_equals("t8 - second isExpired() returns false after true", timer.isExpired(started, stopped, count, now), false);
+	ensure_equals("t8 - second isExpired() returns false after true",
+				  timer.isExpired(now, started, stopped, count), false);
 	ensure_approximately_equals("t8 - 2nd isExpired() does not modify started", started, F64(42.0), 2);
 	ensure_approximately_equals("t8 - 2nd isExpired() does not modify stopped", stopped, F64(97.0), 2);
 	ensure_equals("t8 - 2nd isExpired() does not modify count", count, U64L(8));
@@ -211,40 +219,42 @@ void deadmantimer_object_t::test<9>()
 	U64 count(U64L(8));
 	LLDeadmanTimer timer(5.0);
 
-	U64 now(LLTimer::getCurrentClockCount());
+	LLDeadmanTimer::time_type now(LLDeadmanTimer::getNow());
 	F64 real_start(u64_time_to_float(now));
-	timer.start();
+	timer.start(0);
 
 	now += float_time_to_u64(1.0);
-	timer.ringBell(now);
+	timer.ringBell(now, 1);
 	now += float_time_to_u64(1.0);
-	timer.ringBell(now);
+	timer.ringBell(now, 1);
 	now += float_time_to_u64(1.0);
-	timer.ringBell(now);
+	timer.ringBell(now, 1);
 	now += float_time_to_u64(1.0);
-	timer.ringBell(now);
+	timer.ringBell(now, 1);
 	now += float_time_to_u64(1.0);
-	timer.ringBell(now);
+	timer.ringBell(now, 1);
 	now += float_time_to_u64(1.0);
-	timer.ringBell(now);
+	timer.ringBell(now, 1);
 	now += float_time_to_u64(1.0);
-	timer.ringBell(now);
+	timer.ringBell(now, 1);
 	now += float_time_to_u64(1.0);
-	timer.ringBell(now);
+	timer.ringBell(now, 1);
 	now += float_time_to_u64(1.0);
-	timer.ringBell(now);
+	timer.ringBell(now, 1);
 	now += float_time_to_u64(1.0);
-	timer.ringBell(now);
-	ensure_equals("t9 - 5.0 horizon timer has not timed out after 10 1-second bell rings", timer.isExpired(started, stopped, count, now), false);
+	timer.ringBell(now, 1);
+	ensure_equals("t9 - 5.0 horizon timer has not timed out after 10 1-second bell rings",
+				  timer.isExpired(now, started, stopped, count), false);
 	F64 last_good_ring(u64_time_to_float(now));
 
 	// Jump forward and expire
 	now += float_time_to_u64(10.0);
-	ensure_equals("t9 - 5.0 horizon timer expires on 10-second jump", timer.isExpired(started, stopped, count, now), true);
+	ensure_equals("t9 - 5.0 horizon timer expires on 10-second jump",
+				  timer.isExpired(now, started, stopped, count), true);
 	ensure_approximately_equals("t9 - started matches start() time", started, real_start, 4);
 	ensure_approximately_equals("t9 - stopped matches last ringBell() time", stopped, last_good_ring, 4);
 	ensure_equals("t9 - 10 good ringBell()s", count, U64L(10));
-	ensure_equals("t9 - single read only", timer.isExpired(started, stopped, count, now), false);
+	ensure_equals("t9 - single read only", timer.isExpired(now, started, stopped, count), false);
 }
 
 
@@ -256,40 +266,42 @@ void deadmantimer_object_t::test<10>()
 	U64 count(U64L(8));
 	LLDeadmanTimer timer(5.0);
 
-	U64 now(LLTimer::getCurrentClockCount());
+	LLDeadmanTimer::time_type now(LLDeadmanTimer::getNow());
 	F64 real_start(u64_time_to_float(now));
-	timer.start();
+	timer.start(0);
 
 	now += float_time_to_u64(1.0);
-	timer.ringBell(now);
+	timer.ringBell(now, 1);
 	now += float_time_to_u64(1.0);
-	timer.ringBell(now);
+	timer.ringBell(now, 1);
 	now += float_time_to_u64(1.0);
-	timer.ringBell(now);
+	timer.ringBell(now, 1);
 	now += float_time_to_u64(1.0);
-	timer.ringBell(now);
+	timer.ringBell(now, 1);
 	now += float_time_to_u64(1.0);
-	timer.ringBell(now);
+	timer.ringBell(now, 1);
 	now += float_time_to_u64(1.0);
-	timer.ringBell(now);
+	timer.ringBell(now, 1);
 	now += float_time_to_u64(1.0);
-	timer.ringBell(now);
+	timer.ringBell(now, 1);
 	now += float_time_to_u64(1.0);
-	timer.ringBell(now);
+	timer.ringBell(now, 1);
 	now += float_time_to_u64(1.0);
-	timer.ringBell(now);
+	timer.ringBell(now, 1);
 	now += float_time_to_u64(1.0);
-	timer.ringBell(now);
-	ensure_equals("t10 - 5.0 horizon timer has not timed out after 10 1-second bell rings", timer.isExpired(started, stopped, count, now), false);
+	timer.ringBell(now, 1);
+	ensure_equals("t10 - 5.0 horizon timer has not timed out after 10 1-second bell rings",
+				  timer.isExpired(now, started, stopped, count), false);
 	F64 last_good_ring(u64_time_to_float(now));
 
 	// Jump forward and expire
 	now += float_time_to_u64(10.0);
-	ensure_equals("t10 - 5.0 horizon timer expires on 10-second jump", timer.isExpired(started, stopped, count, now), true);
+	ensure_equals("t10 - 5.0 horizon timer expires on 10-second jump",
+				  timer.isExpired(now, started, stopped, count), true);
 	ensure_approximately_equals("t10 - started matches start() time", started, real_start, 4);
 	ensure_approximately_equals("t10 - stopped matches last ringBell() time", stopped, last_good_ring, 4);
 	ensure_equals("t10 - 10 good ringBell()s", count, U64L(10));
-	ensure_equals("t10 - single read only", timer.isExpired(started, stopped, count, now), false);
+	ensure_equals("t10 - single read only", timer.isExpired(now, started, stopped, count), false);
 
 	// Jump forward and restart
 	now += float_time_to_u64(1.0);
@@ -298,31 +310,34 @@ void deadmantimer_object_t::test<10>()
 
 	// Run a modified bell ring sequence
 	now += float_time_to_u64(1.0);
-	timer.ringBell(now);
+	timer.ringBell(now, 1);
 	now += float_time_to_u64(1.0);
-	timer.ringBell(now);
+	timer.ringBell(now, 1);
 	now += float_time_to_u64(1.0);
-	timer.ringBell(now);
+	timer.ringBell(now, 1);
 	now += float_time_to_u64(1.0);
-	timer.ringBell(now);
+	timer.ringBell(now, 1);
 	now += float_time_to_u64(1.0);
-	timer.ringBell(now);
+	timer.ringBell(now, 1);
 	now += float_time_to_u64(1.0);
-	timer.ringBell(now);
+	timer.ringBell(now, 1);
 	now += float_time_to_u64(1.0);
-	timer.ringBell(now);
+	timer.ringBell(now, 1);
 	now += float_time_to_u64(1.0);
-	timer.ringBell(now);
-	ensure_equals("t10 - 5.0 horizon timer has not timed out after 8 1-second bell rings", timer.isExpired(started, stopped, count, now), false);
+	timer.ringBell(now, 1);
+	ensure_equals("t10 - 5.0 horizon timer has not timed out after 8 1-second bell rings",
+				  timer.isExpired(now, started, stopped, count), false);
 	last_good_ring = u64_time_to_float(now);
 
 	// Jump forward and expire
 	now += float_time_to_u64(10.0);
-	ensure_equals("t10 - 5.0 horizon timer expires on 8-second jump", timer.isExpired(started, stopped, count, now), true);
+	ensure_equals("t10 - 5.0 horizon timer expires on 8-second jump",
+				  timer.isExpired(now, started, stopped, count), true);
 	ensure_approximately_equals("t10 - 2nd started matches start() time", started, real_start, 4);
 	ensure_approximately_equals("t10 - 2nd stopped matches last ringBell() time", stopped, last_good_ring, 4);
 	ensure_equals("t10 - 8 good ringBell()s", count, U64L(8));
-	ensure_equals("t10 - single read only - 2nd start", timer.isExpired(started, stopped, count, now), false);
+	ensure_equals("t10 - single read only - 2nd start",
+				  timer.isExpired(now, started, stopped, count), false);
 }
 
 
diff --git a/indra/newview/llmeshrepository.cpp b/indra/newview/llmeshrepository.cpp
index 11c5780a30..8f97f3e71a 100755
--- a/indra/newview/llmeshrepository.cpp
+++ b/indra/newview/llmeshrepository.cpp
@@ -2168,6 +2168,9 @@ void LLMeshHeaderResponder::completedRaw(U32 status, const std::string& reason,
 
 	if (status < 200 || status > 400)
 	{
+		// Manage time-to-load metrics for mesh download operations.
+		LLMeshRepository::metricsProgress(0);
+
 		//llwarns
 		//	<< "Header responder failed with status: "
 		//	<< status << ": " << reason << llendl;
@@ -2358,6 +2361,9 @@ void LLMeshRepository::shutdown()
 //called in the main thread.
 S32 LLMeshRepository::update()
 {
+	// Conditionally log a mesh metrics event
+	metricsUpdate();
+	
 	if(mUploadWaitList.empty())
 	{
 		return 0 ;
@@ -2377,6 +2383,9 @@ S32 LLMeshRepository::update()
 
 S32 LLMeshRepository::loadMesh(LLVOVolume* vobj, const LLVolumeParams& mesh_params, S32 detail, S32 last_lod)
 {
+	// Manage time-to-load metrics for mesh download operations.
+	metricsProgress(1);
+
 	if (detail < 0 || detail > 4)
 	{
 		return detail;
@@ -2680,7 +2689,7 @@ void LLMeshRepository::notifyDecompositionReceived(LLModel::Decomposition* decom
 void LLMeshRepository::notifyMeshLoaded(const LLVolumeParams& mesh_params, LLVolume* volume)
 { //called from main thread
 	// Manage time-to-load metrics for mesh download operations.
-	metricsCheck();
+	metricsProgress(0);
 	
 	S32 detail = LLVolumeLODGroup::getVolumeDetailFromScale(volume->getDetail());
 
@@ -2725,6 +2734,9 @@ void LLMeshRepository::notifyMeshLoaded(const LLVolumeParams& mesh_params, LLVol
 
 void LLMeshRepository::notifyMeshUnavailable(const LLVolumeParams& mesh_params, S32 lod)
 { //called from main thread
+	// Manage time-to-load metrics for mesh download operations.
+	metricsProgress(0);
+	
 	//get list of objects waiting to be notified this mesh is loaded
 	mesh_load_map::iterator obj_iter = mLoadingMeshes[lod].find(mesh_params);
 
@@ -3704,39 +3716,51 @@ bool LLMeshRepository::meshRezEnabled()
 	return false;
 }
 
+// Threading:  main thread only
+// static
 void LLMeshRepository::metricsStart()
 {
-	sQuiescentTimer.start();
+	sQuiescentTimer.start(0);
 }
 
+// Threading:  main thread only
+// static
 void LLMeshRepository::metricsStop()
 {
-	sQuiescentTimer.stop();
+	sQuiescentTimer.stop(0);
 }
 
-void LLMeshRepository::metricsCheck()
+// Threading:  main thread only
+// static
+void LLMeshRepository::metricsProgress(unsigned int this_count)
 {
 	static bool first_start(true);
-	F64 started, stopped;
-	U64 count;
-
 	if (first_start)
 	{
 		// Let the first request start the timing cycle for login.
 		metricsStart();
 		first_start = false;
 	}
-	sQuiescentTimer.ringBell();
-	if (sQuiescentTimer.isExpired(started, stopped, count))
+	sQuiescentTimer.ringBell(0, this_count);
+}
+
+// Threading:  main thread only
+// static
+void LLMeshRepository::metricsUpdate()
+{
+	F64 started, stopped;
+	U64 total_count;
+
+	if (sQuiescentTimer.isExpired(0, started, stopped, total_count))
 	{
 		LLSD metrics;
 
-		metrics["reason"] = "Mesh download quiescent";
+		metrics["reason"] = "Mesh Download Quiescent";
 		metrics["scope"] = "Login";
 		metrics["start"] = started;
 		metrics["stop"] = stopped;
-		metrics["downloads"] = LLSD::Integer(count);
-		llinfos << "MetricsMarker" << metrics << llendl;
+		metrics["downloads"] = LLSD::Integer(total_count);
+		llinfos << "EventMarker " << metrics << llendl;
 	}
 }
 	
diff --git a/indra/newview/llmeshrepository.h b/indra/newview/llmeshrepository.h
index f08feedf81..3cdc66e1f0 100644
--- a/indra/newview/llmeshrepository.h
+++ b/indra/newview/llmeshrepository.h
@@ -500,7 +500,8 @@ public:
 	// Quiescent timer management, main thread only.
 	static void metricsStart();
 	static void metricsStop();
-	static void metricsCheck();
+	static void metricsProgress(unsigned int count);
+	static void metricsUpdate();
 	
 	typedef std::map<LLVolumeParams, std::set<LLUUID> > mesh_load_map;
 	mesh_load_map mLoadingMeshes[4];