#include <netinet/in.h>
#include <stdint.h>
#include <stdlib.h>
+#include <string.h>
-#include "sync_chain_lttv.h"
+#include "sync_chain.h"
#include "event_processing_lttng_common.h"
#include "event_processing_lttng_standard.h"
static void finalizeProcessingLTTVStandard(SyncState* const syncState);
static void printProcessingStatsLTTVStandard(SyncState* const syncState);
-static void writeProcessingGraphsPlotsLTTVStandard(FILE* stream, SyncState*
- const syncState, const unsigned int i, const unsigned int j);
-static void writeProcessingGraphsOptionsLTTVStandard(FILE* stream, SyncState*
- const syncState, const unsigned int i, const unsigned int j);
+static void writeProcessingGraphsOptionsLTTVStandard(SyncState* const
+ syncState, const unsigned int i, const unsigned int j);
// Functions specific to this module
static void registerProcessingLTTVStandard() __attribute__((constructor (102)));
.destroyProcessing= &destroyProcessingLTTVStandard,
.finalizeProcessing= &finalizeProcessingLTTVStandard,
.printProcessingStats= &printProcessingStatsLTTVStandard,
- .writeProcessingGraphsPlots= &writeProcessingGraphsPlotsLTTVStandard,
+ .writeProcessingGraphsPlots= NULL,
.writeProcessingGraphsOptions= &writeProcessingGraphsOptionsLTTVStandard,
};
processingData->traceSetContext->traces[i]->t, (gpointer) i);
}
+ if (syncState->graphsStream)
+ {
+ processingData->graphs= malloc(syncState->traceNb *
+ sizeof(ProcessingGraphsLTTVStandard));
+
+ for(i= 0; i < syncState->traceNb; i++)
+ {
+ LttTrace* traceI= traceSetContext->traces[i]->t;
+
+ processingData->graphs[i].startFreq= traceI->start_freq;
+ processingData->graphs[i].freqScale= traceI->freq_scale;
+ }
+ }
+ else
+ {
+ processingData->graphs= NULL;
+ }
+
for(i= 0; i < syncState->traceNb; i++)
{
processingData->pendingRecv[i]= g_hash_table_new_full(&g_direct_hash,
}
registerHooks(processingData->hookListList, traceSetContext,
- &processEventLTTVStandard, syncState);
+ &processEventLTTVStandard, syncState,
+ syncState->matchingModule->canMatch);
}
/*
- * Print statistics related to processing and downstream modules. Must be
- * called after finalizeProcessing.
+ * Print statistics related to processing Must be called after
+ * finalizeProcessing.
*
* Args:
* syncState container for synchronization data.
*/
static void printProcessingStatsLTTVStandard(SyncState* const syncState)
{
- unsigned int i;
ProcessingDataLTTVStandard* processingData;
if (!syncState->stats)
printf("\treceived frames: %d\n", processingData->stats->totRecv);
printf("\treceived frames that are IP: %d\n",
processingData->stats->totRecvIp);
- printf("\treceived and processed packets that are TCP: %d\n",
- processingData->stats->totInE);
- printf("\tsent packets that are TCP: %d\n",
- processingData->stats->totOutE);
-
- if (syncState->matchingModule->printMatchingStats != NULL)
+ if (syncState->matchingModule->canMatch[TCP])
{
- syncState->matchingModule->printMatchingStats(syncState);
+ printf("\treceived and processed packets that are TCP: %d\n",
+ processingData->stats->totRecvTCP);
}
-
- printf("Resulting synchronization factors:\n");
- for (i= 0; i < syncState->traceNb; i++)
+ if (syncState->matchingModule->canMatch[UDP])
{
- LttTrace* t;
-
- t= processingData->traceSetContext->traces[i]->t;
-
- printf("\ttrace %u drift= %g offset= %g (%f) start time= %ld.%09ld\n",
- i, t->drift, t->offset, (double) tsc_to_uint64(t->freq_scale,
- t->start_freq, t->offset) / NANOSECONDS_PER_SECOND,
- t->start_time_from_tsc.tv_sec, t->start_time_from_tsc.tv_nsec);
+ printf("\treceived and processed packets that are UDP: %d\n",
+ processingData->stats->totRecvUDP);
+ }
+ if (syncState->matchingModule->canMatch[TCP])
+ {
+ printf("\tsent packets that are TCP: %d\n",
+ processingData->stats->totOutE);
}
}
free(processingData->stats);
}
+ if (syncState->graphsStream)
+ {
+ free(processingData->graphs);
+ }
+
free(syncState->processingData);
syncState->processingData= NULL;
}
LttvTraceHook* traceHook;
LttvTracefileContext* tfc;
LttEvent* event;
- LttTime time;
LttCycleCount tsc;
+ LttTime time;
+ WallTime wTime;
LttTrace* trace;
unsigned long traceNum;
struct marker_info* info;
traceHook= (LttvTraceHook*) hookData;
tfc= (LttvTracefileContext*) callData;
+ trace= tfc->t_context->t;
syncState= (SyncState*) traceHook->hook_data;
processingData= (ProcessingDataLTTVStandard*) syncState->processingData;
event= ltt_tracefile_get_event(tfc->tf);
- time= ltt_event_time(event);
- tsc= ltt_event_cycle_count(event);
- trace= tfc->t_context->t;
info= marker_get_info_from_id(tfc->tf->mdata, event->event_id);
+ tsc= ltt_event_cycle_count(event);
+ time= ltt_event_time(event);
+ wTime.seconds= time.tv_sec;
+ wTime.nanosec= time.tv_nsec;
g_assert(g_hash_table_lookup_extended(processingData->traceNumTable,
trace, NULL, (gpointer*) &traceNum));
g_debug("XXXX process event: time: %ld.%09ld trace: %ld (%p) name: %s ",
- (long) time.tv_sec, time.tv_nsec, traceNum, trace,
+ time.tv_sec, time.tv_nsec, traceNum, trace,
g_quark_to_string(info->name));
- if (info->name == LTT_EVENT_DEV_XMIT)
+ if (info->name == LTT_EVENT_DEV_XMIT_EXTENDED)
{
Event* outE;
return FALSE;
}
+ if (!syncState->matchingModule->canMatch[TCP])
+ {
+ return FALSE;
+ }
+
if (syncState->stats)
{
processingData->stats->totOutE++;
outE= malloc(sizeof(Event));
outE->traceNum= traceNum;
- outE->time= tsc;
+ outE->cpuTime= tsc;
+ outE->wallTime= wTime;
outE->type= TCP;
+ outE->copy= ©TCPEvent;
outE->destroy= &destroyTCPEvent;
outE->event.tcpEvent= malloc(sizeof(TCPEvent));
outE->event.tcpEvent->direction= OUT;
outE->event.tcpEvent->segmentKey= malloc(sizeof(SegmentKey));
outE->event.tcpEvent->segmentKey->connectionKey.saddr=
- ltt_event_get_unsigned(event, lttv_trace_get_hook_field(traceHook,
- 3));
+ htonl(ltt_event_get_unsigned(event,
+ lttv_trace_get_hook_field(traceHook, 3)));
outE->event.tcpEvent->segmentKey->connectionKey.daddr=
- ltt_event_get_unsigned(event, lttv_trace_get_hook_field(traceHook,
- 4));
+ htonl(ltt_event_get_unsigned(event,
+ lttv_trace_get_hook_field(traceHook, 4)));
outE->event.tcpEvent->segmentKey->tot_len=
ltt_event_get_unsigned(event, lttv_trace_get_hook_field(traceHook,
5));
inE= malloc(sizeof(Event));
inE->traceNum= traceNum;
- inE->time= tsc;
+ inE->cpuTime= tsc;
+ inE->wallTime= wTime;
inE->event.tcpEvent= NULL;
+ inE->copy= ©Event;
inE->destroy= &destroyEvent;
skb= (void*) (long) ltt_event_get_long_unsigned(event,
g_debug("\n");
}
}
- else if (info->name == LTT_EVENT_TCPV4_RCV)
+ else if (info->name == LTT_EVENT_TCPV4_RCV_EXTENDED)
{
Event* inE;
void* skb;
if (inE == NULL)
{
// This should only happen in case of lost events
- g_debug("No matching pending receive event found\n");
+ g_warning("No matching pending receive event found");
}
else
{
if (syncState->stats)
{
- processingData->stats->totInE++;
+ processingData->stats->totRecvTCP++;
}
// If it's there, remove it and proceed with a receive event
inE->type= TCP;
inE->event.tcpEvent= malloc(sizeof(TCPEvent));
+ inE->copy= ©TCPEvent;
inE->destroy= &destroyTCPEvent;
inE->event.tcpEvent->direction= IN;
inE->event.tcpEvent->segmentKey= malloc(sizeof(SegmentKey));
inE->event.tcpEvent->segmentKey->connectionKey.saddr=
- ltt_event_get_unsigned(event,
- lttv_trace_get_hook_field(traceHook, 1));
+ htonl(ltt_event_get_unsigned(event,
+ lttv_trace_get_hook_field(traceHook, 1)));
inE->event.tcpEvent->segmentKey->connectionKey.daddr=
- ltt_event_get_unsigned(event,
- lttv_trace_get_hook_field(traceHook, 2));
+ htonl(ltt_event_get_unsigned(event,
+ lttv_trace_get_hook_field(traceHook, 2)));
inE->event.tcpEvent->segmentKey->tot_len=
ltt_event_get_unsigned(event,
lttv_trace_get_hook_field(traceHook, 3));
syncState->matchingModule->matchEvent(syncState, inE);
- g_debug("Input event %p for skb %p done\n", inE, skb);
+ g_debug("TCP input event %p for skb %p done\n", inE, skb);
}
}
- else if (info->name == LTT_EVENT_NETWORK_IPV4_INTERFACE)
+ else if (info->name == LTT_EVENT_UDPV4_RCV_EXTENDED)
{
- char* name;
- guint64 address;
- gint64 up;
- char addressString[17];
+ Event* inE;
+ void* skb;
- address= ltt_event_get_long_unsigned(event,
- lttv_trace_get_hook_field(traceHook, 1));
- up= ltt_event_get_long_int(event, lttv_trace_get_hook_field(traceHook,
- 2));
- /* name must be the last field to get or else copy the string, see the
- * doc for ltt_event_get_string()
- */
- name= ltt_event_get_string(event, lttv_trace_get_hook_field(traceHook,
- 0));
+ // Search pendingRecv for an event with the same skb
+ skb= (void*) (long) ltt_event_get_long_unsigned(event,
+ lttv_trace_get_hook_field(traceHook, 0));
- convertIP(addressString, address);
+ inE= (Event*)
+ g_hash_table_lookup(processingData->pendingRecv[traceNum], skb);
+ if (inE == NULL)
+ {
+ // This should only happen in case of lost events
+ g_warning("No matching pending receive event found");
+ }
+ else
+ {
+ guint64 dataStart;
+
+ if (syncState->stats)
+ {
+ processingData->stats->totRecvUDP++;
+ }
- g_debug("name \"%s\" address %s up %lld\n", name, addressString, up);
+ // If it's there, remove it and proceed with a receive event
+ g_hash_table_steal(processingData->pendingRecv[traceNum], skb);
+
+ inE->type= UDP;
+ inE->event.udpEvent= malloc(sizeof(UDPEvent));
+ inE->copy= ©UDPEvent;
+ inE->destroy= &destroyUDPEvent;
+ inE->event.udpEvent->direction= IN;
+ inE->event.udpEvent->datagramKey= malloc(sizeof(DatagramKey));
+ inE->event.udpEvent->datagramKey->saddr=
+ htonl(ltt_event_get_unsigned(event,
+ lttv_trace_get_hook_field(traceHook, 1)));
+ inE->event.udpEvent->datagramKey->daddr=
+ htonl(ltt_event_get_unsigned(event,
+ lttv_trace_get_hook_field(traceHook, 2)));
+ inE->event.udpEvent->unicast= ltt_event_get_unsigned(event,
+ lttv_trace_get_hook_field(traceHook, 3)) == 0 ? false : true;
+ inE->event.udpEvent->datagramKey->ulen=
+ ltt_event_get_unsigned(event,
+ lttv_trace_get_hook_field(traceHook, 4));
+ inE->event.udpEvent->datagramKey->source=
+ ltt_event_get_unsigned(event,
+ lttv_trace_get_hook_field(traceHook, 5));
+ inE->event.udpEvent->datagramKey->dest=
+ ltt_event_get_unsigned(event,
+ lttv_trace_get_hook_field(traceHook, 6));
+ dataStart= ltt_event_get_long_unsigned(event,
+ lttv_trace_get_hook_field(traceHook, 7));
+ g_assert_cmpuint(sizeof(inE->event.udpEvent->datagramKey->dataKey),
+ ==, sizeof(guint64));
+ if (inE->event.udpEvent->datagramKey->ulen - 8 >=
+ sizeof(inE->event.udpEvent->datagramKey->dataKey))
+ {
+ memcpy(inE->event.udpEvent->datagramKey->dataKey, &dataStart,
+ sizeof(inE->event.udpEvent->datagramKey->dataKey));
+ }
+ else
+ {
+ memset(inE->event.udpEvent->datagramKey->dataKey, 0,
+ sizeof(inE->event.udpEvent->datagramKey->dataKey));
+ memcpy(inE->event.udpEvent->datagramKey->dataKey, &dataStart,
+ inE->event.udpEvent->datagramKey->ulen - 8);
+ }
+
+ syncState->matchingModule->matchEvent(syncState, inE);
+
+ g_debug("UDP input event %p for skb %p done\n", inE, skb);
+ }
}
else
{
/*
- * Write the processing-specific graph lines in the gnuplot script (none at
- * the moment). Call the downstream module's graph function.
- *
- * Args:
- * stream: stream where to write the data
- * syncState: container for synchronization data
- * i: first trace number
- * j: second trace number, garanteed to be larger than i
- */
-static void writeProcessingGraphsPlotsLTTVStandard(FILE* stream, SyncState*
- const syncState, const unsigned int i, const unsigned int j)
-{
- if (syncState->matchingModule->writeMatchingGraphsPlots != NULL)
- {
- syncState->matchingModule->writeMatchingGraphsPlots(stream, syncState,
- i, j);
- }
-}
-
-
-/*
- * Write the processing-specific options in the gnuplot script. Call the
- * downstream module's options function.
+ * Write the processing-specific options in the gnuplot script.
*
* Args:
- * stream: stream where to write the data
* syncState: container for synchronization data
* i: first trace number
* j: second trace number, garanteed to be larger than i
*/
-static void writeProcessingGraphsOptionsLTTVStandard(FILE* stream, SyncState*
- const syncState, const unsigned int i, const unsigned int j)
+static void writeProcessingGraphsOptionsLTTVStandard(SyncState* const
+ syncState, const unsigned int i, const unsigned int j)
{
ProcessingDataLTTVStandard* processingData;
- LttTrace* traceI, * traceJ;
+ ProcessingGraphsLTTVStandard* traceI, * traceJ;
processingData= (ProcessingDataLTTVStandard*) syncState->processingData;
- traceI= processingData->traceSetContext->traces[i]->t;
- traceJ= processingData->traceSetContext->traces[j]->t;
+ traceI= &processingData->graphs[i];
+ traceJ= &processingData->graphs[j];
- fprintf(stream,
+ fprintf(syncState->graphsStream,
+ "set key inside right bottom\n"
+ "set xlabel \"Clock %1$u\"\n"
+ "set xtics nomirror\n"
+ "set ylabel \"Clock %3$u\"\n"
+ "set ytics nomirror\n"
"set x2label \"Clock %1$d (s)\"\n"
"set x2range [GPVAL_X_MIN / %2$.1f : GPVAL_X_MAX / %2$.1f]\n"
"set x2tics\n"
"set y2label \"Clock %3$d (s)\"\n"
"set y2range [GPVAL_Y_MIN / %4$.1f : GPVAL_Y_MAX / %4$.1f]\n"
- "set y2tics\n", i, (double) traceI->start_freq / traceI->freq_scale,
- j, (double) traceJ->start_freq / traceJ->freq_scale);
-
- if (syncState->matchingModule->writeMatchingGraphsOptions != NULL)
- {
- syncState->matchingModule->writeMatchingGraphsOptions(stream,
- syncState, i, j);
- }
+ "set y2tics\n", i, (double) traceI->startFreq / traceI->freqScale, j,
+ (double) traceJ->startFreq / traceJ->freqScale);
}