/* This file is part of the Linux Trace Toolkit viewer
- * Copyright (C) 2009 Benjamin Poirier <benjamin.poirier@polymtl.ca>
+ * Copyright (C) 2009, 2010 Benjamin Poirier <benjamin.poirier@polymtl.ca>
*
- * This program is free software; you can redistribute it and/or modify
- * it under the terms of the GNU General Public License Version 2 as
- * published by the Free Software Foundation;
+ * This program is free software: you can redistribute it and/or modify it
+ * under the terms of the GNU Lesser General Public License as published by
+ * the Free Software Foundation, either version 2.1 of the License, or (at
+ * your option) any later version.
*
- * This program is distributed in the hope that it will be useful,
- * but WITHOUT ANY WARRANTY; without even the implied warranty of
- * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
- * GNU General Public License for more details.
+ * This program is distributed in the hope that it will be useful, but WITHOUT
+ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
+ * FITNESS FOR A PARTICULAR PURPOSE. See the GNU Lesser General Public
+ * License for more details.
*
- * You should have received a copy of the GNU General Public License
- * along with this program; if not, write to the Free Software
- * Foundation, Inc., 59 Temple Place - Suite 330, Boston,
- * MA 02111-1307, USA.
+ * You should have received a copy of the GNU Lesser General Public License
+ * along with this program. If not, see <http://www.gnu.org/licenses/>.
*/
#define _GNU_SOURCE
+#define _ISOC99_SOURCE
#ifdef HAVE_CONFIG_H
#include <config.h>
#include <arpa/inet.h>
#include <errno.h>
+#include <math.h>
#include <netinet/in.h>
#include <stddef.h>
#include <stdlib.h>
#include <stdio.h>
#include <string.h>
#include <sys/socket.h>
+#include <unistd.h>
#include "lookup3.h"
#include "sync_chain.h"
#include "event_analysis_eval.h"
+struct WriteHistogramInfo
+{
+ GHashTable* rttInfo;
+ FILE* graphsStream;
+};
+
// Functions common to all analysis modules
static void initAnalysisEval(SyncState* const syncState);
static void destroyAnalysisEval(SyncState* const syncState);
exchange);
static void analyzeBroadcastEval(SyncState* const syncState, Broadcast* const
broadcast);
-static GArray* finalizeAnalysisEval(SyncState* const syncState);
+static AllFactors* finalizeAnalysisEval(SyncState* const syncState);
static void printAnalysisStatsEval(SyncState* const syncState);
+static void writeAnalysisTraceTimeBackPlotsEval(SyncState* const syncState,
+ const unsigned int i, const unsigned int j);
+static void writeAnalysisTraceTimeForePlotsEval(SyncState* const syncState,
+ const unsigned int i, const unsigned int j);
// Functions specific to this module
-static void registerAnalysisEval() __attribute__((constructor (102)));
static guint ghfRttKeyHash(gconstpointer key);
static gboolean gefRttKeyEqual(gconstpointer a, gconstpointer b);
static void gdnDestroyRttKey(gpointer data);
static void readRttInfo(GHashTable* rttInfo, FILE* rttFile);
static void positionStream(FILE* stream);
+static void gfSum(gpointer data, gpointer userData);
+static void gfSumSquares(gpointer data, gpointer userData);
+static void ghfPrintExchangeRtt(gpointer key, gpointer value, gpointer
+ user_data);
+
+static void hitBin(struct Bins* const bins, const double value);
+static unsigned int binNum(const double value) __attribute__((pure));
+static double binStart(const unsigned int binNum) __attribute__((pure));
+static double binEnd(const unsigned int binNum) __attribute__((pure));
+static uint32_t normalTotal(struct Bins* const bins) __attribute__((const));
+
+static AnalysisHistogramEval* constructAnalysisHistogramEval(const char* const
+ graphsDir, const struct RttKey* const rttKey);
+static void destroyAnalysisHistogramEval(AnalysisHistogramEval* const
+ histogram);
+static void gdnDestroyAnalysisHistogramEval(gpointer data);
+static void ghfWriteHistogram(gpointer key, gpointer value, gpointer
+ user_data);
+static void dumpBinToFile(const struct Bins* const bins, FILE* const file);
+static void writeHistogram(FILE* graphsStream, const struct RttKey* rttKey,
+ double* minRtt, AnalysisHistogramEval* const histogram);
+
+static void updateBounds(Bounds** const bounds, Event* const e1, Event* const
+ e2);
+
+
+// initialized in registerAnalysisEval()
+double binBase;
static AnalysisModule analysisModuleEval= {
.name= "eval",
.analyzeBroadcast= &analyzeBroadcastEval,
.finalizeAnalysis= &finalizeAnalysisEval,
.printAnalysisStats= &printAnalysisStatsEval,
- .writeAnalysisGraphsPlots= NULL,
- .writeAnalysisGraphsOptions= NULL,
+ .graphFunctions= {
+ .writeTraceTimeBackPlots= &writeAnalysisTraceTimeBackPlotsEval,
+ .writeTraceTimeForePlots= &writeAnalysisTraceTimeForePlotsEval,
+ }
};
static ModuleOption optionEvalRttFile= {
.longName= "eval-rtt-file",
.hasArg= REQUIRED_ARG,
- {.arg= NULL},
- .optionHelp= "specify the file containing rtt information",
+ .optionHelp= "specify the file containing RTT information",
.argHelp= "FILE",
};
/*
* Analysis module registering function
*/
-static void registerAnalysisEval()
+void registerAnalysisEval()
{
+ binBase= exp10(6. / (BIN_NB - 3));
+
g_queue_push_tail(&analysisModules, &analysisModuleEval);
g_queue_push_tail(&moduleOptions, &optionEvalRttFile);
}
static void initAnalysisEval(SyncState* const syncState)
{
AnalysisDataEval* analysisData;
- unsigned int i;
+ unsigned int i, j;
analysisData= malloc(sizeof(AnalysisDataEval));
syncState->analysisData= analysisData;
rttStream= fopen(optionEvalRttFile.arg, "r");
if (rttStream == NULL)
{
- g_error(strerror(errno));
+ g_error("%s", strerror(errno));
}
readRttInfo(analysisData->rttInfo, rttStream);
retval= fclose(rttStream);
if (retval == EOF)
{
- g_error(strerror(errno));
+ g_error("%s", strerror(errno));
}
}
if (syncState->stats)
{
- analysisData->stats= malloc(sizeof(AnalysisStatsEval));
- analysisData->stats->broadcastDiffSum= 0.;
+ analysisData->stats= calloc(1, sizeof(AnalysisStatsEval));
+ analysisData->stats->broadcastRangeMin= INFINITY;
+ analysisData->stats->broadcastRangeMax= -INFINITY;
- analysisData->stats->allStats= malloc(syncState->traceNb *
- sizeof(TracePairStats*));
+ analysisData->stats->messageStats= malloc(syncState->traceNb *
+ sizeof(MessageStats*));
for (i= 0; i < syncState->traceNb; i++)
{
- analysisData->stats->allStats[i]= calloc(syncState->traceNb,
- sizeof(TracePairStats));
+ analysisData->stats->messageStats[i]= calloc(syncState->traceNb,
+ sizeof(MessageStats));
+ }
+
+ analysisData->stats->exchangeRtt=
+ g_hash_table_new_full(&ghfRttKeyHash, &gefRttKeyEqual,
+ &gdnDestroyRttKey, &gdnDestroyDouble);
+ }
+
+ if (syncState->graphsStream)
+ {
+ AnalysisGraphsEval* graphs= malloc(sizeof(AnalysisGraphsEval));
+ GList* result;
+
+ analysisData->graphs= graphs;
+
+ graphs->histograms= g_hash_table_new_full(&ghfRttKeyHash,
+ &gefRttKeyEqual, &gdnDestroyRttKey,
+ &gdnDestroyAnalysisHistogramEval);
+
+ graphs->bounds= malloc(syncState->traceNb * sizeof(Bounds*));
+ for (i= 0; i < syncState->traceNb; i++)
+ {
+ graphs->bounds[i]= malloc(i * sizeof(Bounds));
+ for (j= 0; j < i; j++)
+ {
+ graphs->bounds[i][j].min= UINT64_MAX;
+ graphs->bounds[i][j].max= 0;
+ }
+ }
+
+ graphs->chullSS= (SyncState*) malloc(sizeof(SyncState));
+ memcpy(graphs->chullSS, syncState, sizeof(SyncState));
+ graphs->chullSS->analysisData= NULL;
+ result= g_queue_find_custom(&analysisModules, "chull", &gcfCompareAnalysis);
+ g_assert(result != NULL);
+ graphs->chullSS->analysisModule= (AnalysisModule*) result->data;
+ graphs->chullSS->analysisModule->initAnalysis(graphs->chullSS);
+ }
+}
+
+
+/*
+ * Create and open files used to store histogram points to generate graphs.
+ * Create data structures to store histogram points during analysis.
+ *
+ * Args:
+ * graphsDir: folder where to write files
+ * rttKey: host pair, make sure saddr < daddr
+ */
+static AnalysisHistogramEval* constructAnalysisHistogramEval(const char* const
+ graphsDir, const struct RttKey* const rttKey)
+{
+ int retval;
+ unsigned int i;
+ char* cwd;
+ char name[60], saddr[16], daddr[16];
+ AnalysisHistogramEval* histogram= calloc(1, sizeof(*histogram));
+ const struct {
+ size_t pointsOffset;
+ const char* fileName;
+ const char* host1, *host2;
+ } loopValues[]= {
+ {offsetof(AnalysisHistogramEval, ttSendPoints),
+ "analysis_eval_tt-%s_to_%s.data", saddr, daddr},
+ {offsetof(AnalysisHistogramEval, ttRecvPoints),
+ "analysis_eval_tt-%s_to_%s.data", daddr, saddr},
+ {offsetof(AnalysisHistogramEval, hrttPoints),
+ "analysis_eval_hrtt-%s_and_%s.data", saddr, daddr},
+ };
+
+ histogram->ttSendBins.min= BIN_NB - 1;
+ histogram->ttRecvBins.min= BIN_NB - 1;
+ histogram->hrttBins.min= BIN_NB - 1;
+
+ convertIP(saddr, rttKey->saddr);
+ convertIP(daddr, rttKey->daddr);
+
+ cwd= changeToGraphsDir(graphsDir);
+
+ for (i= 0; i < sizeof(loopValues) / sizeof(*loopValues); i++)
+ {
+ retval= snprintf(name, sizeof(name), loopValues[i].fileName,
+ loopValues[i].host1, loopValues[i].host2);
+ if (retval > sizeof(name) - 1)
+ {
+ name[sizeof(name) - 1]= '\0';
+ }
+ if ((*(FILE**)((void*) histogram + loopValues[i].pointsOffset)=
+ fopen(name, "w")) == NULL)
+ {
+ g_error("%s", strerror(errno));
+ }
+ }
+
+ retval= chdir(cwd);
+ if (retval == -1)
+ {
+ g_error("%s", strerror(errno));
+ }
+ free(cwd);
+
+ return histogram;
+}
+
+
+/*
+ * Close files used to store histogram points to generate graphs.
+ *
+ * Args:
+ * graphsDir: folder where to write files
+ * rttKey: host pair, make sure saddr < daddr
+ */
+static void destroyAnalysisHistogramEval(AnalysisHistogramEval* const
+ histogram)
+{
+ unsigned int i;
+ int retval;
+ const struct {
+ size_t pointsOffset;
+ } loopValues[]= {
+ {offsetof(AnalysisHistogramEval, ttSendPoints)},
+ {offsetof(AnalysisHistogramEval, ttRecvPoints)},
+ {offsetof(AnalysisHistogramEval, hrttPoints)},
+ };
+
+ for (i= 0; i < sizeof(loopValues) / sizeof(*loopValues); i++)
+ {
+ retval= fclose(*(FILE**)((void*) histogram + loopValues[i].pointsOffset));
+ if (retval != 0)
+ {
+ g_error("%s", strerror(errno));
+ }
+ }
+
+ free(histogram);
+}
+
+
+/*
+ * A GDestroyNotify function for g_hash_table_new_full()
+ *
+ * Args:
+ * data: AnalysisHistogramEval*
+ */
+static void gdnDestroyAnalysisHistogramEval(gpointer data)
+{
+ destroyAnalysisHistogramEval(data);
+}
+
+
+/*
+ * A GHFunc for g_hash_table_foreach()
+ *
+ * Args:
+ * key: RttKey* where saddr < daddr
+ * value: AnalysisHistogramEval*
+ * user_data struct WriteHistogramInfo*
+ */
+static void ghfWriteHistogram(gpointer key, gpointer value, gpointer user_data)
+{
+ double* rtt1, * rtt2;
+ struct RttKey* rttKey= key;
+ struct RttKey oppositeRttKey= {.saddr= rttKey->daddr, .daddr=
+ rttKey->saddr};
+ AnalysisHistogramEval* histogram= value;
+ struct WriteHistogramInfo* info= user_data;
+
+ rtt1= g_hash_table_lookup(info->rttInfo, rttKey);
+ rtt2= g_hash_table_lookup(info->rttInfo, &oppositeRttKey);
+
+ if (rtt1 == NULL)
+ {
+ rtt1= rtt2;
+ }
+ else if (rtt2 != NULL)
+ {
+ rtt1= MIN(rtt1, rtt2);
+ }
+
+ dumpBinToFile(&histogram->ttSendBins, histogram->ttSendPoints);
+ dumpBinToFile(&histogram->ttRecvBins, histogram->ttRecvPoints);
+ dumpBinToFile(&histogram->hrttBins, histogram->hrttPoints);
+ writeHistogram(info->graphsStream, rttKey, rtt1, histogram);
+}
+
+
+/*
+ * Write the content of one bin in a histogram point file
+ *
+ * Args:
+ * bin: array of values that make up a histogram
+ * file: FILE*, write to this file
+ */
+static void dumpBinToFile(const struct Bins* const bins, FILE* const file)
+{
+ unsigned int i;
+
+ // The first and last bins are skipped, see struct Bins
+ for (i= 1; i < BIN_NB - 1; i++)
+ {
+ if (bins->bin[i] > 0)
+ {
+ fprintf(file, "%20.9f %20.9f %20.9f\n", (binStart(i) + binEnd(i))
+ / 2., (double) bins->bin[i] / ((binEnd(i) - binStart(i)) *
+ bins->total), binEnd(i) - binStart(i));
+ }
+ }
+}
+
+
+/*
+ * Write the analysis-specific plot in the gnuplot script.
+ *
+ * Args:
+ * graphsStream: write to this file
+ * rttKey: must be sorted such that saddr < daddr
+ * minRtt: if available, else NULL
+ * histogram: struct that contains the bins for the pair of traces
+ * identified by rttKey
+ */
+static void writeHistogram(FILE* graphsStream, const struct RttKey* rttKey,
+ double* minRtt, AnalysisHistogramEval* const histogram)
+{
+ char saddr[16], daddr[16];
+
+ convertIP(saddr, rttKey->saddr);
+ convertIP(daddr, rttKey->daddr);
+
+ fprintf(graphsStream,
+ "\nreset\n"
+ "set output \"histogram-%s-%s.eps\"\n"
+ "set title \"\"\n"
+ "set xlabel \"Message Latency (s)\"\n"
+ "set ylabel \"Proportion of messages per second\"\n", saddr, daddr);
+
+ if (minRtt != NULL)
+ {
+ fprintf(graphsStream,
+ "set arrow from %.9f, 0 rto 0, graph 1 "
+ "nohead linetype 3 linewidth 3 linecolor rgb \"black\"\n", *minRtt
+ / 2);
+ }
+
+ if (normalTotal(&histogram->ttSendBins) ||
+ normalTotal(&histogram->ttRecvBins) ||
+ normalTotal(&histogram->hrttBins))
+ {
+ fprintf(graphsStream, "plot \\\n");
+
+ if (normalTotal(&histogram->hrttBins))
+ {
+ fprintf(graphsStream,
+ "\t\"analysis_eval_hrtt-%s_and_%s.data\" "
+ "title \"RTT/2\" with linespoints linetype 1 linewidth 2 "
+ "linecolor rgb \"black\" pointtype 6 pointsize 1,\\\n",
+ saddr, daddr);
}
+
+ if (normalTotal(&histogram->ttSendBins))
+ {
+ fprintf(graphsStream,
+ "\t\"analysis_eval_tt-%1$s_to_%2$s.data\" "
+ "title \"%1$s to %2$s\" with linespoints linetype 4 linewidth 2 "
+ "linecolor rgb \"gray60\" pointtype 6 pointsize 1,\\\n",
+ saddr, daddr);
+ }
+
+ if (normalTotal(&histogram->ttRecvBins))
+ {
+ fprintf(graphsStream,
+ "\t\"analysis_eval_tt-%1$s_to_%2$s.data\" "
+ "title \"%1$s to %2$s\" with linespoints linetype 4 linewidth 2 "
+ "linecolor rgb \"gray30\" pointtype 6 pointsize 1,\\\n",
+ daddr, saddr);
+ }
+
+ // Remove the ",\\\n" from the last graph plot line
+ if (ftruncate(fileno(graphsStream), ftell(graphsStream) - 3) == -1)
+ {
+ g_error("%s", strerror(errno));
+ }
+ if (fseek(graphsStream, 0, SEEK_END) == -1)
+ {
+ g_error("%s", strerror(errno));
+ }
+ fprintf(graphsStream, "\n");
}
}
analysisData= (AnalysisDataEval*) syncState->analysisData;
- if (analysisData == NULL || analysisData->rttInfo == NULL)
+ if (analysisData == NULL)
{
return;
}
g_hash_table_destroy(analysisData->rttInfo);
- analysisData->rttInfo= NULL;
if (syncState->stats)
{
+ AnalysisStatsEval* stats= analysisData->stats;
+
+ for (i= 0; i < syncState->traceNb; i++)
+ {
+ free(stats->messageStats[i]);
+ }
+ free(stats->messageStats);
+
+ g_hash_table_destroy(stats->exchangeRtt);
+
+ free(stats);
+ }
+
+ if (syncState->graphsStream)
+ {
+ AnalysisGraphsEval* graphs= analysisData->graphs;
+
+ if (graphs->histograms)
+ {
+ g_hash_table_destroy(graphs->histograms);
+ }
+
for (i= 0; i < syncState->traceNb; i++)
{
- free(analysisData->stats->allStats[i]);
+ free(graphs->bounds[i]);
}
- free(analysisData->stats->allStats);
- free(analysisData->stats);
+ free(graphs->bounds);
+
+ graphs->chullSS->analysisModule->destroyAnalysis(graphs->chullSS);
+ free(graphs->chullSS);
+
+ free(graphs);
}
free(syncState->analysisData);
/*
* Perform analysis on an event pair.
*
+ * Check if there is message inversion or messages that are too fast.
+ *
* Args:
* syncState container for synchronization data
* message structure containing the events
*/
-static void analyzeMessageEval(SyncState* const syncState, Message* const message)
+static void analyzeMessageEval(SyncState* const syncState, Message* const
+ message)
{
- AnalysisDataEval* analysisData;
+ AnalysisDataEval* analysisData= syncState->analysisData;
+ MessageStats* messageStats = NULL; /* for gcc */
+ double* rtt;
+ double tt;
+ struct RttKey rttKey;
- analysisData= (AnalysisDataEval*) syncState->analysisData;
+ g_assert(message->inE->type == TCP);
+
+ if (syncState->stats)
+ {
+ messageStats=
+ &analysisData->stats->messageStats[message->outE->traceNum][message->inE->traceNum];
+ messageStats->total++;
+ }
+
+ tt= wallTimeSub(&message->inE->wallTime, &message->outE->wallTime);
+ if (tt <= 0)
+ {
+ if (syncState->stats)
+ {
+ messageStats->inversionNb++;
+ }
+ }
+ else if (syncState->graphsStream)
+ {
+ struct RttKey rttKey= {
+ .saddr=MIN(message->inE->event.tcpEvent->segmentKey->connectionKey.saddr,
+ message->inE->event.tcpEvent->segmentKey->connectionKey.daddr),
+ .daddr=MAX(message->inE->event.tcpEvent->segmentKey->connectionKey.saddr,
+ message->inE->event.tcpEvent->segmentKey->connectionKey.daddr),
+ };
+ AnalysisHistogramEval* histogram=
+ g_hash_table_lookup(analysisData->graphs->histograms, &rttKey);
+
+ if (histogram == NULL)
+ {
+ struct RttKey* tableKey= malloc(sizeof(*tableKey));
+
+ histogram= constructAnalysisHistogramEval(syncState->graphsDir, &rttKey);
+ memcpy(tableKey, &rttKey, sizeof(*tableKey));
+ g_hash_table_insert(analysisData->graphs->histograms, tableKey, histogram);
+ }
+
+ if (message->inE->event.udpEvent->datagramKey->saddr <
+ message->inE->event.udpEvent->datagramKey->daddr)
+ {
+ hitBin(&histogram->ttSendBins, tt);
+ }
+ else
+ {
+ hitBin(&histogram->ttRecvBins, tt);
+ }
+ }
+
+ if (syncState->stats)
+ {
+ rttKey.saddr=
+ message->inE->event.tcpEvent->segmentKey->connectionKey.saddr;
+ rttKey.daddr=
+ message->inE->event.tcpEvent->segmentKey->connectionKey.daddr;
+ rtt= g_hash_table_lookup(analysisData->rttInfo, &rttKey);
+ g_debug("rttInfo, looking up (%u, %u)->(%f)", rttKey.saddr,
+ rttKey.daddr, rtt ? *rtt : NAN);
+
+ if (rtt)
+ {
+ g_debug("rttInfo, tt: %f rtt / 2: %f", tt, *rtt / 2.);
+ if (tt < *rtt / 2.)
+ {
+ messageStats->tooFastNb++;
+ }
+ }
+ else
+ {
+ messageStats->noRTTInfoNb++;
+ }
+ }
+
+ if (syncState->graphsStream)
+ {
+ updateBounds(analysisData->graphs->bounds, message->inE,
+ message->outE);
+
+ analysisData->graphs->chullSS->analysisModule->analyzeMessage(analysisData->graphs->chullSS,
+ message);
+ }
}
/*
* Perform analysis on multiple messages
*
+ * Measure the RTT
+ *
* Args:
* syncState container for synchronization data
* exchange structure containing the messages
*/
-static void analyzeExchangeEval(SyncState* const syncState, Exchange* const exchange)
+static void analyzeExchangeEval(SyncState* const syncState, Exchange* const
+ exchange)
{
- AnalysisDataEval* analysisData;
+ AnalysisDataEval* analysisData= syncState->analysisData;
+ Message* m1= g_queue_peek_tail(exchange->acks);
+ Message* m2= exchange->message;
+ struct RttKey* rttKey;
+ double* rtt, * exchangeRtt;
- analysisData= (AnalysisDataEval*) syncState->analysisData;
+ g_assert(m1->inE->type == TCP);
+
+ // (T2 - T1) - (T3 - T4)
+ rtt= malloc(sizeof(double));
+ *rtt= wallTimeSub(&m1->inE->wallTime, &m1->outE->wallTime) -
+ wallTimeSub(&m2->outE->wallTime, &m2->inE->wallTime);
+
+ rttKey= malloc(sizeof(struct RttKey));
+ rttKey->saddr=
+ MIN(m1->inE->event.tcpEvent->segmentKey->connectionKey.saddr,
+ m1->inE->event.tcpEvent->segmentKey->connectionKey.daddr);
+ rttKey->daddr=
+ MAX(m1->inE->event.tcpEvent->segmentKey->connectionKey.saddr,
+ m1->inE->event.tcpEvent->segmentKey->connectionKey.daddr);
+
+ if (syncState->graphsStream)
+ {
+ AnalysisHistogramEval* histogram=
+ g_hash_table_lookup(analysisData->graphs->histograms, rttKey);
+
+ if (histogram == NULL)
+ {
+ struct RttKey* tableKey= malloc(sizeof(*tableKey));
+
+ histogram= constructAnalysisHistogramEval(syncState->graphsDir,
+ rttKey);
+ memcpy(tableKey, rttKey, sizeof(*tableKey));
+ g_hash_table_insert(analysisData->graphs->histograms, tableKey,
+ histogram);
+ }
+
+ hitBin(&histogram->hrttBins, *rtt / 2);
+ }
+
+ if (syncState->stats)
+ {
+ exchangeRtt= g_hash_table_lookup(analysisData->stats->exchangeRtt,
+ rttKey);
+
+ if (exchangeRtt)
+ {
+ if (*rtt < *exchangeRtt)
+ {
+ g_hash_table_replace(analysisData->stats->exchangeRtt, rttKey, rtt);
+ }
+ else
+ {
+ free(rttKey);
+ free(rtt);
+ }
+ }
+ else
+ {
+ g_hash_table_insert(analysisData->stats->exchangeRtt, rttKey, rtt);
+ }
+ }
+ else
+ {
+ free(rttKey);
+ free(rtt);
+ }
}
/*
* Perform analysis on muliple events
*
+ * Sum the broadcast differential delays
+ *
* Args:
* syncState container for synchronization data
* broadcast structure containing the events
*/
-static void analyzeBroadcastEval(SyncState* const syncState, Broadcast* const broadcast)
+static void analyzeBroadcastEval(SyncState* const syncState, Broadcast* const
+ broadcast)
{
- AnalysisDataEval* analysisData;
+ AnalysisDataEval* analysisData= syncState->analysisData;
- analysisData= (AnalysisDataEval*) syncState->analysisData;
+ if (syncState->stats)
+ {
+ double sum= 0, squaresSum= 0;
+ double y;
+
+ g_queue_foreach(broadcast->events, &gfSum, &sum);
+ g_queue_foreach(broadcast->events, &gfSumSquares, &squaresSum);
+
+ analysisData->stats->broadcastNb++;
+ // Because of numerical errors, this can at times be < 0
+ y= squaresSum / g_queue_get_length(broadcast->events) - pow(sum /
+ g_queue_get_length(broadcast->events), 2.);
+ if (y > 0)
+ {
+ analysisData->stats->broadcastStdevSum+= sqrt(y);
+ }
+
+ if (syncState->traceNb == 2 && g_queue_get_length(broadcast->events)
+ == 2)
+ {
+ Event* e0, * e1;
+ double dd;
+
+ e0= g_queue_peek_head(broadcast->events);
+ e1= g_queue_peek_tail(broadcast->events);
+ if (e0->traceNum > e1->traceNum)
+ {
+ Event* tmp;
+
+ tmp= e0;
+ e0= e1;
+ e1= tmp;
+ }
+
+ dd= wallTimeSub(&e1->wallTime, &e0->wallTime);
+
+ analysisData->stats->broadcastPairNb++;
+ if (dd < analysisData->stats->broadcastRangeMin)
+ {
+ analysisData->stats->broadcastRangeMin= dd;
+ }
+ if (dd > analysisData->stats->broadcastRangeMax)
+ {
+ analysisData->stats->broadcastRangeMax= dd;
+ }
+
+ analysisData->stats->broadcastSum+= dd;
+ analysisData->stats->broadcastSumSquares+= pow(dd, 2);
+ }
+ }
+
+ if (syncState->graphsStream)
+ {
+ unsigned int i, j;
+ GArray* events;
+ unsigned int eventNb= broadcast->events->length;
+
+ events= g_array_sized_new(FALSE, FALSE, sizeof(Event*), eventNb);
+ g_queue_foreach(broadcast->events, &gfAddEventToArray, events);
+
+ for (i= 0; i < eventNb; i++)
+ {
+ for (j= 0; j < eventNb; j++)
+ {
+ Event* eventI= g_array_index(events, Event*, i), * eventJ=
+ g_array_index(events, Event*, j);
+
+ if (eventI->traceNum < eventJ->traceNum)
+ {
+ updateBounds(analysisData->graphs->bounds, eventI, eventJ);
+ }
+ }
+ }
+
+ g_array_free(events, TRUE);
+ }
}
/*
- * Finalize the factor calculations
- *
- * Since this module does not really calculate factors, identity factors are
- * returned.
+ * Finalize the factor calculations. Since this module does not really
+ * calculate factors, absent factors are returned. Instead, histograms are
+ * written out and histogram structures are freed.
*
* Args:
* syncState container for synchronization data.
*
* Returns:
- * Factors[traceNb] synchronization factors for each trace
+ * AllFactors* synchronization factors for each trace pair
*/
-static GArray* finalizeAnalysisEval(SyncState* const syncState)
+static AllFactors* finalizeAnalysisEval(SyncState* const syncState)
{
- GArray* factors;
- unsigned int i;
+ AnalysisDataEval* analysisData= syncState->analysisData;
- factors= g_array_sized_new(FALSE, FALSE, sizeof(Factors),
- syncState->traceNb);
- g_array_set_size(factors, syncState->traceNb);
- for (i= 0; i < syncState->traceNb; i++)
+ /* This function may be run twice because of matching_distributor. This
+ * check is there to make sure the next block is run only once.
+ */
+ if (syncState->graphsStream && analysisData->graphs->histograms)
{
- Factors* e;
+ g_hash_table_foreach(analysisData->graphs->histograms,
+ &ghfWriteHistogram, &(struct WriteHistogramInfo) {.rttInfo=
+ analysisData->rttInfo, .graphsStream= syncState->graphsStream});
+ g_hash_table_destroy(analysisData->graphs->histograms);
+ analysisData->graphs->histograms= NULL;
+
+ if (syncState->graphsStream)
+ {
+ SyncState* chullSS= analysisData->graphs->chullSS;
- e= &g_array_index(factors, Factors, i);
- e->drift= 1.;
- e->offset= 0.;
+ freeAllFactors(chullSS->analysisModule->finalizeAnalysis(chullSS),
+ chullSS->traceNb);
+ }
}
- return factors;
+ return createAllFactors(syncState->traceNb);
}
static void printAnalysisStatsEval(SyncState* const syncState)
{
AnalysisDataEval* analysisData;
- unsigned int i, j;
+ unsigned int i, j, k;
+ unsigned int totInversion= 0, totTooFast= 0, totNoInfo= 0, totTotal= 0;
+ int charNb;
if (!syncState->stats)
{
analysisData= (AnalysisDataEval*) syncState->analysisData;
printf("Synchronization evaluation analysis stats:\n");
- printf("\tsum of broadcast differential delays: %g\n",
- analysisData->stats->broadcastDiffSum);
+ if (analysisData->stats->broadcastNb)
+ {
+ printf("\tBroadcast differential delay:\n");
+ printf("\t\tsum of standard deviations: %g\n",
+ analysisData->stats->broadcastStdevSum);
+ printf("\t\taverage standard deviation: %g\n",
+ analysisData->stats->broadcastStdevSum /
+ analysisData->stats->broadcastNb);
+
+ if (syncState->traceNb == 2)
+ {
+ printf("\t\tdifferential delay range: [ %g .. %g ]\n",
+ analysisData->stats->broadcastRangeMin,
+ analysisData->stats->broadcastRangeMax);
+ printf("\t\tdifferential delay average: %g\n",
+ analysisData->stats->broadcastSum /
+ analysisData->stats->broadcastPairNb);
+ printf("\t\tdifferential delay standard deviation: %g\n",
+ sqrt(analysisData->stats->broadcastSumSquares /
+ analysisData->stats->broadcastPairNb -
+ pow(analysisData->stats->broadcastSum /
+ analysisData->stats->broadcastPairNb, 2)));
+ }
+ }
printf("\tIndividual evaluation:\n"
- "\t\tTrace pair Inversions Too fast (No RTT info)\n");
+ "\t\tTrace pair Inversions Too fast No RTT info Total\n");
for (i= 0; i < syncState->traceNb; i++)
{
for (j= i + 1; j < syncState->traceNb; j++)
{
- TracePairStats* tpStats;
- const char* format= "\t\t%3d - %-3d %-10u %-10u %u\n";
+ MessageStats* messageStats;
+ struct {
+ unsigned int t1, t2;
+ } loopValues[]= {
+ {i, j},
+ {j, i}
+ };
+
+ for (k= 0; k < sizeof(loopValues) / sizeof(*loopValues); k++)
+ {
+ messageStats=
+ &analysisData->stats->messageStats[loopValues[k].t1][loopValues[k].t2];
+
+ printf("\t\t%3d - %-3d ", loopValues[k].t1, loopValues[k].t2);
+ printf("%u (%.2f%%)%n", messageStats->inversionNb, (double)
+ messageStats->inversionNb / messageStats->total * 100,
+ &charNb);
+ printf("%*s", 17 - charNb > 0 ? 17 - charNb + 1: 1, " ");
+ printf("%u (%.2f%%)%n", messageStats->tooFastNb, (double)
+ messageStats->tooFastNb / messageStats->total * 100,
+ &charNb);
+ printf("%*s%-10u %u\n", 17 - charNb > 0 ? 17 - charNb + 1:
+ 1, " ", messageStats->noRTTInfoNb, messageStats->total);
+
+ totInversion+= messageStats->inversionNb;
+ totTooFast+= messageStats->tooFastNb;
+ totNoInfo+= messageStats->noRTTInfoNb;
+ totTotal+= messageStats->total;
+ }
+ }
+ }
+
+ printf("\t\t total ");
+ printf("%u (%.2f%%)%n", totInversion, (double) totInversion / totTotal *
+ 100, &charNb);
+ printf("%*s", 17 - charNb > 0 ? 17 - charNb + 1: 1, " ");
+ printf("%u (%.2f%%)%n", totTooFast, (double) totTooFast / totTotal * 100,
+ &charNb);
+ printf("%*s%-10u %u\n", 17 - charNb > 0 ? 17 - charNb + 1: 1, " ",
+ totNoInfo, totTotal);
+
+ printf("\tRound-trip times:\n"
+ "\t\tHost pair RTT from exchanges RTTs from file (ms)\n");
+ g_hash_table_foreach(analysisData->stats->exchangeRtt,
+ &ghfPrintExchangeRtt, analysisData->rttInfo);
+}
+
+
+/*
+ * A GHFunc for g_hash_table_foreach()
+ *
+ * Args:
+ * key: RttKey* where saddr < daddr
+ * value: double*, RTT estimated from exchanges
+ * user_data GHashTable* rttInfo
+ */
+static void ghfPrintExchangeRtt(gpointer key, gpointer value, gpointer
+ user_data)
+{
+ char addr1[16], addr2[16];
+ struct RttKey* rttKey1= key;
+ struct RttKey rttKey2= {rttKey1->daddr, rttKey1->saddr};
+ double* fileRtt1, *fileRtt2;
+ GHashTable* rttInfo= user_data;
- tpStats= &analysisData->stats->allStats[i][j];
+ convertIP(addr1, rttKey1->saddr);
+ convertIP(addr2, rttKey1->daddr);
- printf(format, i, j, tpStats->inversionNb, tpStats->tooFastNb,
- tpStats->noRTTInfoNb);
+ fileRtt1= g_hash_table_lookup(rttInfo, rttKey1);
+ fileRtt2= g_hash_table_lookup(rttInfo, &rttKey2);
- tpStats= &analysisData->stats->allStats[j][i];
+ printf("\t\t(%15s, %-15s) %-18.3f ", addr1, addr2, *(double*) value * 1e3);
- printf(format, j, i, tpStats->inversionNb, tpStats->tooFastNb,
- tpStats->noRTTInfoNb);
+ if (fileRtt1 || fileRtt2)
+ {
+ if (fileRtt1)
+ {
+ printf("%.3f", *fileRtt1 * 1e3);
+ }
+ if (fileRtt1 && fileRtt2)
+ {
+ printf(", ");
+ }
+ if (fileRtt2)
+ {
+ printf("%.3f", *fileRtt2 * 1e3);
}
}
+ else
+ {
+ printf("-");
+ }
+ printf("\n");
}
if (retval == -1 && !feof(rttStream))
{
- g_error(strerror(errno));
+ g_error("%s", strerror(errno));
}
if (line[retval - 1] == '\n')
&tmp);
if (retval == EOF)
{
- g_error(strerror(errno));
+ g_error("%s", strerror(errno));
}
else if (retval != 3)
{
addr.s_addr;
}
+ *rtt/= 1e3;
+ g_debug("rttInfo, Inserting (%u, %u)->(%f)", rttKey->saddr,
+ rttKey->daddr, *rtt);
g_hash_table_insert(rttInfo, rttKey, rtt);
positionStream(rttStream);
}
else
{
- g_error(strerror(errno));
+ g_error("%s", strerror(errno));
}
}
}
free(line);
}
}
+
+
+/*
+ * A GFunc for g_queue_foreach()
+ *
+ * Args:
+ * data Event*, a UDP broadcast event
+ * user_data double*, the running sum
+ *
+ * Returns:
+ * Adds the time of the event to the sum
+ */
+static void gfSum(gpointer data, gpointer userData)
+{
+ Event* event= (Event*) data;
+
+ *(double*) userData+= event->wallTime.seconds + event->wallTime.nanosec /
+ 1e9;
+}
+
+
+/*
+ * A GFunc for g_queue_foreach()
+ *
+ * Args:
+ * data Event*, a UDP broadcast event
+ * user_data double*, the running sum
+ *
+ * Returns:
+ * Adds the square of the time of the event to the sum
+ */
+static void gfSumSquares(gpointer data, gpointer userData)
+{
+ Event* event= (Event*) data;
+
+ *(double*) userData+= pow(event->wallTime.seconds + event->wallTime.nanosec
+ / 1e9, 2.);
+}
+
+
+/*
+ * Update a struct Bins according to a new value
+ *
+ * Args:
+ * bins: the structure containing bins to build a histrogram
+ * value: the new value
+ */
+static void hitBin(struct Bins* const bins, const double value)
+{
+ unsigned int binN= binNum(value);
+
+ if (binN < bins->min)
+ {
+ bins->min= binN;
+ }
+ else if (binN > bins->max)
+ {
+ bins->max= binN;
+ }
+
+ bins->total++;
+
+ bins->bin[binN]++;
+}
+
+
+/*
+ * Figure out the bin in a histogram to which a value belongs.
+ *
+ * This uses exponentially sized bins that go from 0 to infinity.
+ *
+ * Args:
+ * value: in the range -INFINITY to INFINITY
+ *
+ * Returns:
+ * The number of the bin in a struct Bins.bin
+ */
+static unsigned int binNum(const double value)
+{
+ if (value <= 0)
+ {
+ return 0;
+ }
+ else if (value < binEnd(1))
+ {
+ return 1;
+ }
+ else if (value >= binStart(BIN_NB - 1))
+ {
+ return BIN_NB - 1;
+ }
+ else
+ {
+ return floor(log(value) / log(binBase)) + BIN_NB + 1;
+ }
+}
+
+
+/*
+ * Figure out the start of the interval of a bin in a histogram. See struct
+ * Bins.
+ *
+ * This uses exponentially sized bins that go from 0 to infinity.
+ *
+ * Args:
+ * binNum: bin number
+ *
+ * Return:
+ * The start of the interval, this value is included in the interval (except
+ * for -INFINITY, naturally)
+ */
+static double binStart(const unsigned int binNum)
+{
+ g_assert_cmpuint(binNum, <, BIN_NB);
+
+ if (binNum == 0)
+ {
+ return -INFINITY;
+ }
+ else if (binNum == 1)
+ {
+ return 0.;
+ }
+ else
+ {
+ return pow(binBase, (double) binNum - BIN_NB + 1);
+ }
+}
+
+
+/*
+ * Figure out the end of the interval of a bin in a histogram. See struct
+ * Bins.
+ *
+ * This uses exponentially sized bins that go from 0 to infinity.
+ *
+ * Args:
+ * binNum: bin number
+ *
+ * Return:
+ * The end of the interval, this value is not included in the interval
+ */
+static double binEnd(const unsigned int binNum)
+{
+ g_assert_cmpuint(binNum, <, BIN_NB);
+
+ if (binNum == 0)
+ {
+ return 0.;
+ }
+ else if (binNum < BIN_NB - 1)
+ {
+ return pow(binBase, (double) binNum - BIN_NB + 2);
+ }
+ else
+ {
+ return INFINITY;
+ }
+}
+
+
+/*
+ * Return the total number of elements in the "normal" bins (not underflow or
+ * overflow)
+ *
+ * Args:
+ * bins: the structure containing bins to build a histrogram
+ */
+static uint32_t normalTotal(struct Bins* const bins)
+{
+ return bins->total - bins->bin[0] - bins->bin[BIN_NB - 1];
+}
+
+
+/* Update the bounds between two traces
+ *
+ * Args:
+ * bounds: the array containing all the trace-pair bounds
+ * e1, e2: the two related events
+ */
+static void updateBounds(Bounds** const bounds, Event* const e1, Event* const
+ e2)
+{
+ unsigned int traceI, traceJ;
+ uint64_t messageTime;
+ Bounds* tpBounds;
+
+ if (e1->traceNum < e2->traceNum)
+ {
+ traceI= e2->traceNum;
+ traceJ= e1->traceNum;
+ messageTime= e1->cpuTime;
+ }
+ else
+ {
+ traceI= e1->traceNum;
+ traceJ= e2->traceNum;
+ messageTime= e2->cpuTime;
+ }
+ tpBounds= &bounds[traceI][traceJ];
+
+ if (messageTime < tpBounds->min)
+ {
+ tpBounds->min= messageTime;
+ }
+ if (messageTime > tpBounds->max)
+ {
+ tpBounds->max= messageTime;
+ }
+}
+
+
+/*
+ * Write the analysis-specific graph lines in the gnuplot script.
+ *
+ * Args:
+ * syncState: container for synchronization data
+ * i: first trace number
+ * j: second trace number, garanteed to be larger than i
+ */
+static void writeAnalysisTraceTimeBackPlotsEval(SyncState* const syncState,
+ const unsigned int i, const unsigned int j)
+{
+ SyncState* chullSS= ((AnalysisDataEval*)
+ syncState->analysisData)->graphs->chullSS;
+ const GraphFunctions* graphFunctions=
+ &chullSS->analysisModule->graphFunctions;
+
+ if (graphFunctions->writeTraceTimeBackPlots != NULL)
+ {
+ graphFunctions->writeTraceTimeBackPlots(chullSS, i, j);
+ }
+}
+
+
+/*
+ * Write the analysis-specific graph lines in the gnuplot script.
+ *
+ * Args:
+ * syncState: container for synchronization data
+ * i: first trace number
+ * j: second trace number, garanteed to be larger than i
+ */
+static void writeAnalysisTraceTimeForePlotsEval(SyncState* const syncState,
+ const unsigned int i, const unsigned int j)
+{
+ SyncState* chullSS= ((AnalysisDataEval*)
+ syncState->analysisData)->graphs->chullSS;
+ const GraphFunctions* graphFunctions=
+ &chullSS->analysisModule->graphFunctions;
+
+ if (graphFunctions->writeTraceTimeForePlots != NULL)
+ {
+ graphFunctions->writeTraceTimeForePlots(chullSS, i, j);
+ }
+}