Measure actual echo timeout instead of network timeout to first hop
This commit is contained in:
Keith Winstein
@@ -77,8 +77,6 @@ namespace Network {
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int fd( void ) { return connection.fd(); }
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void set_verbose( void ) { sender.set_verbose(); verbose = true; }
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uint64_t timeout( void ) { return connection.timeout(); }
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};
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}
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+1
-2
@@ -164,8 +164,7 @@ bool STMClient::process_user_input( int fd )
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for ( int i = 0; i < bytes_read; i++ ) {
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char the_byte = buf[ i ];
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overlays.get_prediction_engine().new_user_byte( the_byte, *local_framebuffer,
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network->timeout() );
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overlays.get_prediction_engine().new_user_byte( the_byte, *local_framebuffer );
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if ( quit_sequence_started ) {
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if ( the_byte == '.' ) { /* Quit sequence is Ctrl-^ . */
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+37
-5
@@ -92,10 +92,29 @@ void OverlayEngine::apply( Framebuffer &fb ) const
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[&fb]( OverlayElement *x ) { x->apply( fb ); } );
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}
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void OverlayEngine::cull( const Framebuffer &fb )
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void PredictionEngine::cull( const Framebuffer &fb )
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{
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uint64_t now = timestamp();
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auto i = elements.begin();
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while ( i != elements.end() ) {
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/* update echo timeout state */
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if ( (*i)->get_validity( fb ) == Correct ) {
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double R = now - (*i)->prediction_time;
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if ( !RTT_hit ) { /* first measurement */
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SRTT = R;
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RTTVAR = R / 2;
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RTT_hit = true;
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} else {
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const double alpha = 1.0 / 8.0;
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const double beta = 1.0 / 4.0;
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RTTVAR = (1 - beta) * RTTVAR + ( beta * fabs( SRTT - R ) );
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SRTT = (1 - alpha) * SRTT + ( alpha * R );
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}
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}
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/* eliminate predictions proven correct or incorrect */
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if ( (*i)->get_validity( fb ) != Pending ) {
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delete (*i);
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i = elements.erase( i );
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@@ -263,6 +282,8 @@ void NotificationEngine::apply( Framebuffer &fb ) const
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void OverlayManager::apply( Framebuffer &fb )
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{
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predictions.calculate_score( fb );
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/* eliminate predictions proven correct or incorrect and update echo timers */
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predictions.cull( fb );
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if ( predictions.get_score() > 3 ) {
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@@ -289,14 +310,14 @@ void PredictionEngine::calculate_score( const Framebuffer &fb )
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}
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}
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void PredictionEngine::new_user_byte( char the_byte, const Framebuffer &fb, int prediction_len )
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void PredictionEngine::new_user_byte( char the_byte, const Framebuffer &fb )
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{
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uint64_t now = timestamp();
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if ( elements.empty() ) {
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/* starting from scratch */
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elements.push_front( new ConditionalCursorMove( now + prediction_len,
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elements.push_front( new ConditionalCursorMove( now + prediction_len(),
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fb.ds.get_cursor_row(),
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fb.ds.get_cursor_col() ) );
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}
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@@ -313,7 +334,7 @@ void PredictionEngine::new_user_byte( char the_byte, const Framebuffer &fb, int
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const Cell *existing_cell = fb.get_cell( ccm->new_row, ccm->new_col );
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ConditionalOverlayCell *coc = new ConditionalOverlayCell( now + prediction_len,
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ConditionalOverlayCell *coc = new ConditionalOverlayCell( now + prediction_len(),
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ccm->new_row, ccm->new_col,
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existing_cell->renditions.background_color,
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*existing_cell );
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@@ -323,7 +344,7 @@ void PredictionEngine::new_user_byte( char the_byte, const Framebuffer &fb, int
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coc->replacement.contents.push_back( the_byte );
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ccm->new_col++;
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ccm->expiration_time = now + prediction_len;
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ccm->expiration_time = now + prediction_len();
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elements.push_back( coc );
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} else {
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@@ -357,3 +378,14 @@ int OverlayManager::wait_time( void )
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return ret;
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}
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}
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int PredictionEngine::prediction_len( void )
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{
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uint64_t RTO = lrint( ceil( SRTT + 4 * RTTVAR ) );
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if ( RTO < 20 ) {
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RTO = 20;
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} else if ( RTO > 2000 ) {
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RTO = 2000;
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}
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return RTO;
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}
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+12
-5
@@ -20,12 +20,13 @@ namespace Overlay {
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/* The individual elements of an overlay -- cursor movements and replaced cells */
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class OverlayElement {
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public:
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uint64_t expiration_time;
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uint64_t prediction_time, expiration_time;
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virtual void apply( Framebuffer &fb ) const = 0;
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virtual Validity get_validity( const Framebuffer & ) const;
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OverlayElement( uint64_t s_expiration_time ) : expiration_time( s_expiration_time ) {}
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OverlayElement( uint64_t s_expiration_time ) : prediction_time( timestamp() ),
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expiration_time( s_expiration_time ) {}
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virtual ~OverlayElement() {}
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};
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@@ -75,7 +76,6 @@ namespace Overlay {
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list<OverlayElement *> elements;
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public:
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void cull( const Framebuffer &fb );
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virtual void apply( Framebuffer &fb ) const;
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void clear( void );
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@@ -109,11 +109,18 @@ namespace Overlay {
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private:
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int score;
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/* use the TCP timeout algorithm to measure appropriate echo prediction timeout */
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bool RTT_hit;
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double SRTT, RTTVAR;
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int prediction_len( void );
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public:
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void new_user_byte( char the_byte, const Framebuffer &fb, int prediction_len );
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void cull( const Framebuffer &fb );
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void new_user_byte( char the_byte, const Framebuffer &fb );
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void calculate_score( const Framebuffer &fb );
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PredictionEngine() : score( 0 ) {}
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PredictionEngine() : score( 0 ), RTT_hit( false ), SRTT( 1000 ), RTTVAR( 500 ) {}
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int get_score( void ) { return score; }
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};
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