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cdce23b3 BP |
1 | /* This file is part of the Linux Trace Toolkit viewer |
2 | * Copyright (C) 2009 Benjamin Poirier <benjamin.poirier@polymtl.ca> | |
3 | * | |
4 | * This program is free software; you can redistribute it and/or modify | |
5 | * it under the terms of the GNU General Public License Version 2 as | |
6 | * published by the Free Software Foundation; | |
7 | * | |
8 | * This program is distributed in the hope that it will be useful, | |
9 | * but WITHOUT ANY WARRANTY; without even the implied warranty of | |
10 | * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the | |
11 | * GNU General Public License for more details. | |
12 | * | |
13 | * You should have received a copy of the GNU General Public License | |
14 | * along with this program; if not, write to the Free Software | |
15 | * Foundation, Inc., 59 Temple Place - Suite 330, Boston, | |
16 | * MA 02111-1307, USA. | |
17 | */ | |
18 | ||
2bd4b3e4 | 19 | #define _GNU_SOURCE |
d4721e1a | 20 | #define _ISOC99_SOURCE |
2bd4b3e4 | 21 | |
cdce23b3 BP |
22 | #ifdef HAVE_CONFIG_H |
23 | #include <config.h> | |
24 | #endif | |
25 | ||
2bd4b3e4 BP |
26 | #include <arpa/inet.h> |
27 | #include <errno.h> | |
76be6fc2 | 28 | #include <math.h> |
2bd4b3e4 BP |
29 | #include <netinet/in.h> |
30 | #include <stddef.h> | |
cdce23b3 | 31 | #include <stdlib.h> |
2bd4b3e4 BP |
32 | #include <stdio.h> |
33 | #include <string.h> | |
34 | #include <sys/socket.h> | |
4ee223e5 | 35 | #include <unistd.h> |
cdce23b3 | 36 | |
2bd4b3e4 BP |
37 | #include "lookup3.h" |
38 | #include "sync_chain.h" | |
66eaf2eb | 39 | #include "event_analysis_chull.h" |
cdce23b3 BP |
40 | |
41 | #include "event_analysis_eval.h" | |
42 | ||
43 | ||
66eaf2eb | 44 | struct WriteHistogramInfo |
e072e1ab BP |
45 | { |
46 | GHashTable* rttInfo; | |
47 | FILE* graphsStream; | |
48 | }; | |
49 | ||
66eaf2eb BP |
50 | #ifdef HAVE_LIBGLPK |
51 | struct LPAddRowInfo | |
52 | { | |
53 | glp_prob* lp; | |
54 | int boundType; | |
55 | GArray* iArray, * jArray, * aArray; | |
56 | }; | |
57 | #endif | |
e072e1ab | 58 | |
cdce23b3 BP |
59 | // Functions common to all analysis modules |
60 | static void initAnalysisEval(SyncState* const syncState); | |
61 | static void destroyAnalysisEval(SyncState* const syncState); | |
62 | ||
63 | static void analyzeMessageEval(SyncState* const syncState, Message* const | |
64 | message); | |
65 | static void analyzeExchangeEval(SyncState* const syncState, Exchange* const | |
66 | exchange); | |
67 | static void analyzeBroadcastEval(SyncState* const syncState, Broadcast* const | |
68 | broadcast); | |
69 | static GArray* finalizeAnalysisEval(SyncState* const syncState); | |
70 | static void printAnalysisStatsEval(SyncState* const syncState); | |
c5571851 BP |
71 | static void writeAnalysisTraceTimeBackPlotsEval(SyncState* const syncState, |
72 | const unsigned int i, const unsigned int j); | |
73 | static void writeAnalysisTraceTimeForePlotsEval(SyncState* const syncState, | |
74 | const unsigned int i, const unsigned int j); | |
c6356aa7 BP |
75 | static void writeAnalysisTraceTraceBackPlotsEval(SyncState* const syncState, |
76 | const unsigned int i, const unsigned int j); | |
77 | static void writeAnalysisTraceTraceForePlotsEval(SyncState* const syncState, | |
78 | const unsigned int i, const unsigned int j); | |
cdce23b3 BP |
79 | |
80 | // Functions specific to this module | |
2bd4b3e4 BP |
81 | static guint ghfRttKeyHash(gconstpointer key); |
82 | static gboolean gefRttKeyEqual(gconstpointer a, gconstpointer b); | |
83 | static void gdnDestroyRttKey(gpointer data); | |
84 | static void gdnDestroyDouble(gpointer data); | |
85 | static void readRttInfo(GHashTable* rttInfo, FILE* rttFile); | |
86 | static void positionStream(FILE* stream); | |
cdce23b3 | 87 | |
76be6fc2 BP |
88 | static void gfSum(gpointer data, gpointer userData); |
89 | static void gfSumSquares(gpointer data, gpointer userData); | |
66eaf2eb BP |
90 | static void ghfPrintExchangeRtt(gpointer key, gpointer value, gpointer |
91 | user_data); | |
76be6fc2 | 92 | |
e072e1ab | 93 | static void hitBin(struct Bins* const bins, const double value); |
4ee223e5 BP |
94 | static unsigned int binNum(const double value) __attribute__((pure)); |
95 | static double binStart(const unsigned int binNum) __attribute__((pure)); | |
96 | static double binEnd(const unsigned int binNum) __attribute__((pure)); | |
467066ee | 97 | static uint32_t normalTotal(struct Bins* const bins) __attribute__((const)); |
4ee223e5 | 98 | |
66eaf2eb | 99 | static AnalysisHistogramEval* constructAnalysisHistogramEval(const char* const |
e072e1ab | 100 | graphsDir, const struct RttKey* const rttKey); |
66eaf2eb BP |
101 | static void destroyAnalysisHistogramEval(AnalysisHistogramEval* const |
102 | histogram); | |
103 | static void gdnDestroyAnalysisHistogramEval(gpointer data); | |
104 | static void ghfWriteHistogram(gpointer key, gpointer value, gpointer | |
105 | user_data); | |
e072e1ab BP |
106 | static void dumpBinToFile(const struct Bins* const bins, FILE* const file); |
107 | static void writeHistogram(FILE* graphsStream, const struct RttKey* rttKey, | |
66eaf2eb BP |
108 | double* minRtt, AnalysisHistogramEval* const histogram); |
109 | ||
c6356aa7 BP |
110 | static void updateBounds(Bounds** const bounds, Event* const e1, Event* const |
111 | e2); | |
66eaf2eb | 112 | |
05a840df | 113 | static void finalizeAnalysisEvalLP(SyncState* const syncState); |
66eaf2eb BP |
114 | // The next group of functions is only needed when computing synchronization |
115 | // accuracy. | |
116 | #ifdef HAVE_LIBGLPK | |
c6356aa7 BP |
117 | static glp_prob* lpCreateProblem(GQueue* const lowerHull, GQueue* const |
118 | upperHull); | |
66eaf2eb BP |
119 | static void gfLPAddRow(gpointer data, gpointer user_data); |
120 | static Factors* calculateFactors(glp_prob* const lp, const int direction); | |
c6356aa7 BP |
121 | static void calculateCompleteFactors(glp_prob* const lp, FactorsCHull* |
122 | factors); | |
66eaf2eb | 123 | static FactorsCHull** createAllFactors(const unsigned int traceNb); |
66eaf2eb | 124 | #endif |
e072e1ab | 125 | |
4ee223e5 | 126 | |
66eaf2eb | 127 | // initialized in registerAnalysisEval() |
4ee223e5 | 128 | double binBase; |
cdce23b3 BP |
129 | |
130 | static AnalysisModule analysisModuleEval= { | |
131 | .name= "eval", | |
132 | .initAnalysis= &initAnalysisEval, | |
133 | .destroyAnalysis= &destroyAnalysisEval, | |
134 | .analyzeMessage= &analyzeMessageEval, | |
135 | .analyzeExchange= &analyzeExchangeEval, | |
136 | .analyzeBroadcast= &analyzeBroadcastEval, | |
137 | .finalizeAnalysis= &finalizeAnalysisEval, | |
138 | .printAnalysisStats= &printAnalysisStatsEval, | |
66eaf2eb | 139 | .graphFunctions= { |
c5571851 BP |
140 | .writeTraceTimeBackPlots= &writeAnalysisTraceTimeBackPlotsEval, |
141 | .writeTraceTimeForePlots= &writeAnalysisTraceTimeForePlotsEval, | |
c6356aa7 BP |
142 | .writeTraceTraceBackPlots= &writeAnalysisTraceTraceBackPlotsEval, |
143 | .writeTraceTraceForePlots= &writeAnalysisTraceTraceForePlotsEval, | |
66eaf2eb | 144 | } |
cdce23b3 BP |
145 | }; |
146 | ||
2bd4b3e4 BP |
147 | static ModuleOption optionEvalRttFile= { |
148 | .longName= "eval-rtt-file", | |
149 | .hasArg= REQUIRED_ARG, | |
4ee223e5 | 150 | .optionHelp= "specify the file containing RTT information", |
2bd4b3e4 BP |
151 | .argHelp= "FILE", |
152 | }; | |
153 | ||
cdce23b3 BP |
154 | |
155 | /* | |
156 | * Analysis module registering function | |
157 | */ | |
2f961b65 | 158 | void registerAnalysisEval() |
cdce23b3 | 159 | { |
66eaf2eb BP |
160 | binBase= exp10(6. / (BIN_NB - 3)); |
161 | ||
cdce23b3 | 162 | g_queue_push_tail(&analysisModules, &analysisModuleEval); |
2bd4b3e4 | 163 | g_queue_push_tail(&moduleOptions, &optionEvalRttFile); |
cdce23b3 BP |
164 | } |
165 | ||
166 | ||
167 | /* | |
168 | * Analysis init function | |
169 | * | |
170 | * This function is called at the beginning of a synchronization run for a set | |
171 | * of traces. | |
172 | * | |
173 | * Args: | |
174 | * syncState container for synchronization data. | |
175 | */ | |
176 | static void initAnalysisEval(SyncState* const syncState) | |
177 | { | |
178 | AnalysisDataEval* analysisData; | |
66eaf2eb | 179 | unsigned int i, j; |
cdce23b3 BP |
180 | |
181 | analysisData= malloc(sizeof(AnalysisDataEval)); | |
182 | syncState->analysisData= analysisData; | |
183 | ||
2bd4b3e4 BP |
184 | analysisData->rttInfo= g_hash_table_new_full(&ghfRttKeyHash, |
185 | &gefRttKeyEqual, &gdnDestroyRttKey, &gdnDestroyDouble); | |
186 | if (optionEvalRttFile.arg) | |
187 | { | |
188 | FILE* rttStream; | |
189 | int retval; | |
190 | ||
191 | rttStream= fopen(optionEvalRttFile.arg, "r"); | |
192 | if (rttStream == NULL) | |
193 | { | |
194 | g_error(strerror(errno)); | |
195 | } | |
196 | ||
197 | readRttInfo(analysisData->rttInfo, rttStream); | |
198 | ||
199 | retval= fclose(rttStream); | |
200 | if (retval == EOF) | |
201 | { | |
202 | g_error(strerror(errno)); | |
203 | } | |
204 | } | |
cdce23b3 BP |
205 | |
206 | if (syncState->stats) | |
207 | { | |
76be6fc2 | 208 | analysisData->stats= calloc(1, sizeof(AnalysisStatsEval)); |
cdce23b3 BP |
209 | analysisData->stats->broadcastDiffSum= 0.; |
210 | ||
76be6fc2 BP |
211 | analysisData->stats->messageStats= malloc(syncState->traceNb * |
212 | sizeof(MessageStats*)); | |
cdce23b3 BP |
213 | for (i= 0; i < syncState->traceNb; i++) |
214 | { | |
76be6fc2 BP |
215 | analysisData->stats->messageStats[i]= calloc(syncState->traceNb, |
216 | sizeof(MessageStats)); | |
cdce23b3 | 217 | } |
d4721e1a BP |
218 | |
219 | analysisData->stats->exchangeRtt= | |
220 | g_hash_table_new_full(&ghfRttKeyHash, &gefRttKeyEqual, | |
221 | &gdnDestroyRttKey, &gdnDestroyDouble); | |
66eaf2eb BP |
222 | |
223 | #ifdef HAVE_LIBGLPK | |
224 | analysisData->stats->chFactorsArray= NULL; | |
225 | analysisData->stats->lpFactorsArray= NULL; | |
226 | #endif | |
cdce23b3 | 227 | } |
4ee223e5 | 228 | |
8d7d16dd | 229 | if (syncState->graphsStream) |
4ee223e5 | 230 | { |
66eaf2eb BP |
231 | AnalysisGraphsEval* graphs= malloc(sizeof(AnalysisGraphsEval)); |
232 | ||
233 | analysisData->graphs= graphs; | |
234 | ||
235 | graphs->histograms= g_hash_table_new_full(&ghfRttKeyHash, | |
236 | &gefRttKeyEqual, &gdnDestroyRttKey, | |
237 | &gdnDestroyAnalysisHistogramEval); | |
238 | ||
239 | graphs->bounds= malloc(syncState->traceNb * sizeof(Bounds*)); | |
240 | for (i= 0; i < syncState->traceNb; i++) | |
241 | { | |
242 | graphs->bounds[i]= malloc(i * sizeof(Bounds)); | |
243 | for (j= 0; j < i; j++) | |
244 | { | |
245 | graphs->bounds[i][j].min= UINT64_MAX; | |
246 | graphs->bounds[i][j].max= 0; | |
247 | } | |
248 | } | |
249 | ||
250 | #ifdef HAVE_LIBGLPK | |
251 | graphs->lps= NULL; | |
252 | graphs->lpFactorsArray= NULL; | |
253 | #endif | |
254 | } | |
255 | ||
256 | if (syncState->stats || syncState->graphsStream) | |
257 | { | |
258 | GList* result; | |
259 | ||
260 | analysisData->chullSS= malloc(sizeof(SyncState)); | |
261 | memcpy(analysisData->chullSS, syncState, sizeof(SyncState)); | |
262 | analysisData->chullSS->stats= false; | |
263 | analysisData->chullSS->analysisData= NULL; | |
264 | result= g_queue_find_custom(&analysisModules, "chull", | |
265 | &gcfCompareAnalysis); | |
266 | analysisData->chullSS->analysisModule= (AnalysisModule*) result->data; | |
267 | analysisData->chullSS->analysisModule->initAnalysis(analysisData->chullSS); | |
4ee223e5 BP |
268 | } |
269 | } | |
270 | ||
271 | ||
272 | /* | |
e072e1ab BP |
273 | * Create and open files used to store histogram points to generate graphs. |
274 | * Create data structures to store histogram points during analysis. | |
4ee223e5 BP |
275 | * |
276 | * Args: | |
e072e1ab BP |
277 | * graphsDir: folder where to write files |
278 | * rttKey: host pair, make sure saddr < daddr | |
4ee223e5 | 279 | */ |
66eaf2eb | 280 | static AnalysisHistogramEval* constructAnalysisHistogramEval(const char* const |
e072e1ab | 281 | graphsDir, const struct RttKey* const rttKey) |
4ee223e5 | 282 | { |
4ee223e5 | 283 | int retval; |
e072e1ab | 284 | unsigned int i; |
4ee223e5 | 285 | char* cwd; |
e072e1ab | 286 | char name[60], saddr[16], daddr[16]; |
66eaf2eb | 287 | AnalysisHistogramEval* histogram= calloc(1, sizeof(*histogram)); |
e072e1ab BP |
288 | const struct { |
289 | size_t pointsOffset; | |
290 | const char* fileName; | |
291 | const char* host1, *host2; | |
292 | } loopValues[]= { | |
66eaf2eb BP |
293 | {offsetof(AnalysisHistogramEval, ttSendPoints), |
294 | "analysis_eval_tt-%s_to_%s.data", saddr, daddr}, | |
295 | {offsetof(AnalysisHistogramEval, ttRecvPoints), | |
296 | "analysis_eval_tt-%s_to_%s.data", daddr, saddr}, | |
297 | {offsetof(AnalysisHistogramEval, hrttPoints), | |
298 | "analysis_eval_hrtt-%s_and_%s.data", saddr, daddr}, | |
e072e1ab BP |
299 | }; |
300 | ||
66eaf2eb BP |
301 | histogram->ttSendBins.min= BIN_NB - 1; |
302 | histogram->ttRecvBins.min= BIN_NB - 1; | |
303 | histogram->hrttBins.min= BIN_NB - 1; | |
e072e1ab BP |
304 | |
305 | convertIP(saddr, rttKey->saddr); | |
306 | convertIP(daddr, rttKey->daddr); | |
307 | ||
1d597550 | 308 | cwd= changeToGraphsDir(graphsDir); |
e072e1ab BP |
309 | |
310 | for (i= 0; i < sizeof(loopValues) / sizeof(*loopValues); i++) | |
4ee223e5 | 311 | { |
e072e1ab BP |
312 | retval= snprintf(name, sizeof(name), loopValues[i].fileName, |
313 | loopValues[i].host1, loopValues[i].host2); | |
314 | if (retval > sizeof(name) - 1) | |
4ee223e5 | 315 | { |
e072e1ab | 316 | name[sizeof(name) - 1]= '\0'; |
4ee223e5 | 317 | } |
66eaf2eb | 318 | if ((*(FILE**)((void*) histogram + loopValues[i].pointsOffset)= |
e072e1ab | 319 | fopen(name, "w")) == NULL) |
4ee223e5 | 320 | { |
e072e1ab | 321 | g_error(strerror(errno)); |
4ee223e5 BP |
322 | } |
323 | } | |
324 | ||
325 | retval= chdir(cwd); | |
326 | if (retval == -1) | |
327 | { | |
328 | g_error(strerror(errno)); | |
329 | } | |
330 | free(cwd); | |
e072e1ab | 331 | |
66eaf2eb | 332 | return histogram; |
4ee223e5 BP |
333 | } |
334 | ||
335 | ||
336 | /* | |
e072e1ab | 337 | * Close files used to store histogram points to generate graphs. |
4ee223e5 BP |
338 | * |
339 | * Args: | |
e072e1ab BP |
340 | * graphsDir: folder where to write files |
341 | * rttKey: host pair, make sure saddr < daddr | |
4ee223e5 | 342 | */ |
66eaf2eb BP |
343 | static void destroyAnalysisHistogramEval(AnalysisHistogramEval* const |
344 | histogram) | |
4ee223e5 | 345 | { |
e072e1ab BP |
346 | unsigned int i; |
347 | int retval; | |
348 | const struct { | |
349 | size_t pointsOffset; | |
350 | } loopValues[]= { | |
66eaf2eb BP |
351 | {offsetof(AnalysisHistogramEval, ttSendPoints)}, |
352 | {offsetof(AnalysisHistogramEval, ttRecvPoints)}, | |
353 | {offsetof(AnalysisHistogramEval, hrttPoints)}, | |
e072e1ab BP |
354 | }; |
355 | ||
356 | for (i= 0; i < sizeof(loopValues) / sizeof(*loopValues); i++) | |
4ee223e5 | 357 | { |
66eaf2eb | 358 | retval= fclose(*(FILE**)((void*) histogram + loopValues[i].pointsOffset)); |
e072e1ab | 359 | if (retval != 0) |
4ee223e5 | 360 | { |
e072e1ab | 361 | g_error(strerror(errno)); |
4ee223e5 BP |
362 | } |
363 | } | |
66eaf2eb BP |
364 | |
365 | free(histogram); | |
4ee223e5 BP |
366 | } |
367 | ||
368 | ||
e072e1ab BP |
369 | /* |
370 | * A GDestroyNotify function for g_hash_table_new_full() | |
371 | * | |
372 | * Args: | |
66eaf2eb | 373 | * data: AnalysisHistogramEval* |
e072e1ab | 374 | */ |
66eaf2eb | 375 | static void gdnDestroyAnalysisHistogramEval(gpointer data) |
e072e1ab | 376 | { |
66eaf2eb | 377 | destroyAnalysisHistogramEval(data); |
e072e1ab BP |
378 | } |
379 | ||
380 | ||
381 | /* | |
382 | * A GHFunc for g_hash_table_foreach() | |
383 | * | |
384 | * Args: | |
385 | * key: RttKey* where saddr < daddr | |
66eaf2eb BP |
386 | * value: AnalysisHistogramEval* |
387 | * user_data struct WriteHistogramInfo* | |
e072e1ab | 388 | */ |
66eaf2eb | 389 | static void ghfWriteHistogram(gpointer key, gpointer value, gpointer user_data) |
e072e1ab BP |
390 | { |
391 | double* rtt1, * rtt2; | |
392 | struct RttKey* rttKey= key; | |
393 | struct RttKey oppositeRttKey= {.saddr= rttKey->daddr, .daddr= | |
394 | rttKey->saddr}; | |
66eaf2eb BP |
395 | AnalysisHistogramEval* histogram= value; |
396 | struct WriteHistogramInfo* info= user_data; | |
e072e1ab BP |
397 | |
398 | rtt1= g_hash_table_lookup(info->rttInfo, rttKey); | |
399 | rtt2= g_hash_table_lookup(info->rttInfo, &oppositeRttKey); | |
400 | ||
401 | if (rtt1 == NULL) | |
402 | { | |
403 | rtt1= rtt2; | |
404 | } | |
405 | else if (rtt2 != NULL) | |
406 | { | |
407 | rtt1= MIN(rtt1, rtt2); | |
408 | } | |
409 | ||
66eaf2eb BP |
410 | dumpBinToFile(&histogram->ttSendBins, histogram->ttSendPoints); |
411 | dumpBinToFile(&histogram->ttRecvBins, histogram->ttRecvPoints); | |
412 | dumpBinToFile(&histogram->hrttBins, histogram->hrttPoints); | |
413 | writeHistogram(info->graphsStream, rttKey, rtt1, histogram); | |
e072e1ab BP |
414 | } |
415 | ||
416 | ||
4ee223e5 BP |
417 | /* |
418 | * Write the content of one bin in a histogram point file | |
419 | * | |
420 | * Args: | |
421 | * bin: array of values that make up a histogram | |
e072e1ab | 422 | * file: FILE*, write to this file |
4ee223e5 | 423 | */ |
e072e1ab | 424 | static void dumpBinToFile(const struct Bins* const bins, FILE* const file) |
4ee223e5 BP |
425 | { |
426 | unsigned int i; | |
427 | ||
e072e1ab BP |
428 | // The first and last bins are skipped, see struct Bins |
429 | for (i= 1; i < BIN_NB - 1; i++) | |
4ee223e5 | 430 | { |
e072e1ab | 431 | if (bins->bin[i] > 0) |
4ee223e5 | 432 | { |
e072e1ab BP |
433 | fprintf(file, "%20.9f %20.9f %20.9f\n", (binStart(i) + binEnd(i)) |
434 | / 2., (double) bins->bin[i] / ((binEnd(i) - binStart(i)) * | |
435 | bins->total), binEnd(i) - binStart(i)); | |
4ee223e5 BP |
436 | } |
437 | } | |
438 | } | |
439 | ||
440 | ||
441 | /* | |
e072e1ab | 442 | * Write the analysis-specific plot in the gnuplot script. |
4ee223e5 BP |
443 | * |
444 | * Args: | |
e072e1ab BP |
445 | * graphsStream: write to this file |
446 | * rttKey: must be sorted such that saddr < daddr | |
447 | * minRtt: if available, else NULL | |
66eaf2eb | 448 | * histogram: struct that contains the bins for the pair of traces |
467066ee | 449 | * identified by rttKey |
4ee223e5 | 450 | */ |
e072e1ab | 451 | static void writeHistogram(FILE* graphsStream, const struct RttKey* rttKey, |
66eaf2eb | 452 | double* minRtt, AnalysisHistogramEval* const histogram) |
4ee223e5 | 453 | { |
e072e1ab | 454 | char saddr[16], daddr[16]; |
4ee223e5 | 455 | |
e072e1ab BP |
456 | convertIP(saddr, rttKey->saddr); |
457 | convertIP(daddr, rttKey->daddr); | |
4ee223e5 | 458 | |
e072e1ab | 459 | fprintf(graphsStream, |
66eaf2eb | 460 | "\nreset\n" |
e072e1ab BP |
461 | "set output \"histogram-%s-%s.eps\"\n" |
462 | "set title \"\"\n" | |
463 | "set xlabel \"Message Latency (s)\"\n" | |
464 | "set ylabel \"Proportion of messages per second\"\n", saddr, daddr); | |
4ee223e5 | 465 | |
e072e1ab | 466 | if (minRtt != NULL) |
4ee223e5 | 467 | { |
e072e1ab BP |
468 | fprintf(graphsStream, |
469 | "set arrow from %.9f, 0 rto 0, graph 1 " | |
467066ee BP |
470 | "nohead linetype 3 linewidth 3 linecolor rgb \"black\"\n", *minRtt |
471 | / 2); | |
4ee223e5 | 472 | } |
4ee223e5 | 473 | |
66eaf2eb BP |
474 | if (normalTotal(&histogram->ttSendBins) || |
475 | normalTotal(&histogram->ttRecvBins) || | |
476 | normalTotal(&histogram->hrttBins)) | |
467066ee BP |
477 | { |
478 | fprintf(graphsStream, "plot \\\n"); | |
479 | ||
66eaf2eb | 480 | if (normalTotal(&histogram->hrttBins)) |
467066ee BP |
481 | { |
482 | fprintf(graphsStream, | |
483 | "\t\"analysis_eval_hrtt-%s_and_%s.data\" " | |
484 | "title \"RTT/2\" with linespoints linetype 1 linewidth 2 " | |
485 | "linecolor rgb \"black\" pointtype 6 pointsize 1,\\\n", | |
486 | saddr, daddr); | |
487 | } | |
488 | ||
66eaf2eb | 489 | if (normalTotal(&histogram->ttSendBins)) |
467066ee BP |
490 | { |
491 | fprintf(graphsStream, | |
492 | "\t\"analysis_eval_tt-%1$s_to_%2$s.data\" " | |
493 | "title \"%1$s to %2$s\" with linespoints linetype 4 linewidth 2 " | |
494 | "linecolor rgb \"gray60\" pointtype 6 pointsize 1,\\\n", | |
495 | saddr, daddr); | |
496 | } | |
497 | ||
66eaf2eb | 498 | if (normalTotal(&histogram->ttRecvBins)) |
467066ee BP |
499 | { |
500 | fprintf(graphsStream, | |
501 | "\t\"analysis_eval_tt-%1$s_to_%2$s.data\" " | |
502 | "title \"%1$s to %2$s\" with linespoints linetype 4 linewidth 2 " | |
503 | "linecolor rgb \"gray30\" pointtype 6 pointsize 1,\\\n", | |
504 | daddr, saddr); | |
505 | } | |
506 | ||
507 | // Remove the ",\\\n" from the last graph plot line | |
508 | if (ftruncate(fileno(graphsStream), ftell(graphsStream) - 3) == -1) | |
509 | { | |
510 | g_error(strerror(errno)); | |
511 | } | |
512 | if (fseek(graphsStream, 0, SEEK_END) == -1) | |
513 | { | |
514 | g_error(strerror(errno)); | |
515 | } | |
516 | fprintf(graphsStream, "\n"); | |
517 | } | |
cdce23b3 BP |
518 | } |
519 | ||
520 | ||
521 | /* | |
522 | * Analysis destroy function | |
523 | * | |
524 | * Free the analysis specific data structures | |
525 | * | |
526 | * Args: | |
527 | * syncState container for synchronization data. | |
528 | */ | |
529 | static void destroyAnalysisEval(SyncState* const syncState) | |
530 | { | |
05a840df | 531 | unsigned int i; |
cdce23b3 BP |
532 | AnalysisDataEval* analysisData; |
533 | ||
534 | analysisData= (AnalysisDataEval*) syncState->analysisData; | |
535 | ||
66eaf2eb | 536 | if (analysisData == NULL) |
cdce23b3 BP |
537 | { |
538 | return; | |
539 | } | |
540 | ||
2bd4b3e4 | 541 | g_hash_table_destroy(analysisData->rttInfo); |
cdce23b3 BP |
542 | |
543 | if (syncState->stats) | |
544 | { | |
66eaf2eb BP |
545 | AnalysisStatsEval* stats= analysisData->stats; |
546 | ||
547 | for (i= 0; i < syncState->traceNb; i++) | |
548 | { | |
549 | free(stats->messageStats[i]); | |
550 | } | |
551 | free(stats->messageStats); | |
552 | ||
553 | g_hash_table_destroy(stats->exchangeRtt); | |
554 | ||
555 | #ifdef HAVE_LIBGLPK | |
556 | freeAllFactors(syncState->traceNb, stats->chFactorsArray); | |
557 | freeAllFactors(syncState->traceNb, stats->lpFactorsArray); | |
558 | #endif | |
559 | ||
560 | free(stats); | |
561 | } | |
562 | ||
563 | if (syncState->graphsStream) | |
564 | { | |
565 | AnalysisGraphsEval* graphs= analysisData->graphs; | |
566 | ||
567 | if (graphs->histograms) | |
568 | { | |
569 | g_hash_table_destroy(graphs->histograms); | |
570 | } | |
571 | ||
cdce23b3 BP |
572 | for (i= 0; i < syncState->traceNb; i++) |
573 | { | |
66eaf2eb BP |
574 | free(graphs->bounds[i]); |
575 | } | |
576 | free(graphs->bounds); | |
577 | ||
578 | #ifdef HAVE_LIBGLPK | |
579 | for (i= 0; i < syncState->traceNb; i++) | |
580 | { | |
05a840df BP |
581 | unsigned int j; |
582 | ||
66eaf2eb BP |
583 | for (j= 0; j < i; j++) |
584 | { | |
585 | // There seems to be a memory leak in glpk, valgrind reports a | |
6ce8ceac | 586 | // loss (reachable) even if the problem is deleted |
66eaf2eb BP |
587 | glp_delete_prob(graphs->lps[i][j]); |
588 | } | |
589 | free(graphs->lps[i]); | |
cdce23b3 | 590 | } |
66eaf2eb | 591 | free(graphs->lps); |
d4721e1a | 592 | |
66eaf2eb BP |
593 | if (!syncState->stats) |
594 | { | |
595 | freeAllFactors(syncState->traceNb, graphs->lpFactorsArray); | |
596 | } | |
597 | #endif | |
d4721e1a | 598 | |
66eaf2eb | 599 | free(graphs); |
cdce23b3 BP |
600 | } |
601 | ||
66eaf2eb | 602 | if (syncState->stats || syncState->graphsStream) |
4ee223e5 | 603 | { |
66eaf2eb BP |
604 | analysisData->chullSS->analysisModule->destroyAnalysis(analysisData->chullSS); |
605 | free(analysisData->chullSS); | |
4ee223e5 BP |
606 | } |
607 | ||
cdce23b3 BP |
608 | free(syncState->analysisData); |
609 | syncState->analysisData= NULL; | |
610 | } | |
611 | ||
612 | ||
613 | /* | |
614 | * Perform analysis on an event pair. | |
615 | * | |
76be6fc2 BP |
616 | * Check if there is message inversion or messages that are too fast. |
617 | * | |
cdce23b3 BP |
618 | * Args: |
619 | * syncState container for synchronization data | |
620 | * message structure containing the events | |
621 | */ | |
66eaf2eb BP |
622 | static void analyzeMessageEval(SyncState* const syncState, Message* const |
623 | message) | |
cdce23b3 | 624 | { |
e072e1ab | 625 | AnalysisDataEval* analysisData= syncState->analysisData; |
7e39acc6 | 626 | MessageStats* messageStats; |
d4721e1a | 627 | double* rtt; |
76be6fc2 BP |
628 | double tt; |
629 | struct RttKey rttKey; | |
630 | ||
e072e1ab | 631 | g_assert(message->inE->type == TCP); |
76be6fc2 | 632 | |
66eaf2eb BP |
633 | if (syncState->stats) |
634 | { | |
7e39acc6 BP |
635 | messageStats= |
636 | &analysisData->stats->messageStats[message->outE->traceNum][message->inE->traceNum]; | |
66eaf2eb BP |
637 | messageStats->total++; |
638 | } | |
76be6fc2 BP |
639 | |
640 | tt= wallTimeSub(&message->inE->wallTime, &message->outE->wallTime); | |
641 | if (tt <= 0) | |
642 | { | |
66eaf2eb BP |
643 | if (syncState->stats) |
644 | { | |
645 | messageStats->inversionNb++; | |
646 | } | |
76be6fc2 | 647 | } |
8d7d16dd | 648 | else if (syncState->graphsStream) |
4ee223e5 | 649 | { |
e072e1ab BP |
650 | struct RttKey rttKey= { |
651 | .saddr=MIN(message->inE->event.tcpEvent->segmentKey->connectionKey.saddr, | |
652 | message->inE->event.tcpEvent->segmentKey->connectionKey.daddr), | |
653 | .daddr=MAX(message->inE->event.tcpEvent->segmentKey->connectionKey.saddr, | |
654 | message->inE->event.tcpEvent->segmentKey->connectionKey.daddr), | |
655 | }; | |
66eaf2eb BP |
656 | AnalysisHistogramEval* histogram= |
657 | g_hash_table_lookup(analysisData->graphs->histograms, &rttKey); | |
e072e1ab | 658 | |
66eaf2eb | 659 | if (histogram == NULL) |
e072e1ab BP |
660 | { |
661 | struct RttKey* tableKey= malloc(sizeof(*tableKey)); | |
662 | ||
66eaf2eb | 663 | histogram= constructAnalysisHistogramEval(syncState->graphsDir, &rttKey); |
e072e1ab | 664 | memcpy(tableKey, &rttKey, sizeof(*tableKey)); |
66eaf2eb | 665 | g_hash_table_insert(analysisData->graphs->histograms, tableKey, histogram); |
e072e1ab BP |
666 | } |
667 | ||
668 | if (message->inE->event.udpEvent->datagramKey->saddr < | |
669 | message->inE->event.udpEvent->datagramKey->daddr) | |
670 | { | |
66eaf2eb | 671 | hitBin(&histogram->ttSendBins, tt); |
e072e1ab BP |
672 | } |
673 | else | |
674 | { | |
66eaf2eb | 675 | hitBin(&histogram->ttRecvBins, tt); |
e072e1ab | 676 | } |
4ee223e5 | 677 | } |
76be6fc2 | 678 | |
66eaf2eb | 679 | if (syncState->stats) |
76be6fc2 | 680 | { |
66eaf2eb BP |
681 | rttKey.saddr= |
682 | message->inE->event.tcpEvent->segmentKey->connectionKey.saddr; | |
683 | rttKey.daddr= | |
684 | message->inE->event.tcpEvent->segmentKey->connectionKey.daddr; | |
685 | rtt= g_hash_table_lookup(analysisData->rttInfo, &rttKey); | |
686 | g_debug("rttInfo, looking up (%u, %u)->(%f)", rttKey.saddr, | |
687 | rttKey.daddr, rtt ? *rtt : NAN); | |
688 | ||
689 | if (rtt) | |
76be6fc2 | 690 | { |
66eaf2eb BP |
691 | g_debug("rttInfo, tt: %f rtt / 2: %f", tt, *rtt / 2.); |
692 | if (tt < *rtt / 2.) | |
693 | { | |
694 | messageStats->tooFastNb++; | |
695 | } | |
696 | } | |
697 | else | |
698 | { | |
699 | messageStats->noRTTInfoNb++; | |
76be6fc2 BP |
700 | } |
701 | } | |
66eaf2eb BP |
702 | |
703 | if (syncState->graphsStream) | |
704 | { | |
705 | updateBounds(analysisData->graphs->bounds, message->inE, | |
706 | message->outE); | |
707 | } | |
708 | ||
709 | if (syncState->stats || syncState->graphsStream) | |
76be6fc2 | 710 | { |
66eaf2eb BP |
711 | analysisData->chullSS->analysisModule->analyzeMessage(analysisData->chullSS, |
712 | message); | |
76be6fc2 | 713 | } |
cdce23b3 BP |
714 | } |
715 | ||
716 | ||
717 | /* | |
718 | * Perform analysis on multiple messages | |
719 | * | |
76be6fc2 BP |
720 | * Measure the RTT |
721 | * | |
cdce23b3 BP |
722 | * Args: |
723 | * syncState container for synchronization data | |
724 | * exchange structure containing the messages | |
725 | */ | |
66eaf2eb BP |
726 | static void analyzeExchangeEval(SyncState* const syncState, Exchange* const |
727 | exchange) | |
cdce23b3 | 728 | { |
d4721e1a BP |
729 | AnalysisDataEval* analysisData= syncState->analysisData; |
730 | Message* m1= g_queue_peek_tail(exchange->acks); | |
731 | Message* m2= exchange->message; | |
732 | struct RttKey* rttKey; | |
733 | double* rtt, * exchangeRtt; | |
cdce23b3 | 734 | |
e072e1ab BP |
735 | g_assert(m1->inE->type == TCP); |
736 | ||
d4721e1a BP |
737 | // (T2 - T1) - (T3 - T4) |
738 | rtt= malloc(sizeof(double)); | |
739 | *rtt= wallTimeSub(&m1->inE->wallTime, &m1->outE->wallTime) - | |
740 | wallTimeSub(&m2->outE->wallTime, &m2->inE->wallTime); | |
741 | ||
d4721e1a BP |
742 | rttKey= malloc(sizeof(struct RttKey)); |
743 | rttKey->saddr= | |
744 | MIN(m1->inE->event.tcpEvent->segmentKey->connectionKey.saddr, | |
745 | m1->inE->event.tcpEvent->segmentKey->connectionKey.daddr); | |
746 | rttKey->daddr= | |
747 | MAX(m1->inE->event.tcpEvent->segmentKey->connectionKey.saddr, | |
748 | m1->inE->event.tcpEvent->segmentKey->connectionKey.daddr); | |
e072e1ab BP |
749 | |
750 | if (syncState->graphsStream) | |
751 | { | |
66eaf2eb BP |
752 | AnalysisHistogramEval* histogram= |
753 | g_hash_table_lookup(analysisData->graphs->histograms, rttKey); | |
e072e1ab | 754 | |
66eaf2eb | 755 | if (histogram == NULL) |
e072e1ab BP |
756 | { |
757 | struct RttKey* tableKey= malloc(sizeof(*tableKey)); | |
758 | ||
66eaf2eb BP |
759 | histogram= constructAnalysisHistogramEval(syncState->graphsDir, |
760 | rttKey); | |
e072e1ab | 761 | memcpy(tableKey, rttKey, sizeof(*tableKey)); |
66eaf2eb BP |
762 | g_hash_table_insert(analysisData->graphs->histograms, tableKey, |
763 | histogram); | |
e072e1ab BP |
764 | } |
765 | ||
66eaf2eb | 766 | hitBin(&histogram->hrttBins, *rtt / 2); |
e072e1ab BP |
767 | } |
768 | ||
66eaf2eb | 769 | if (syncState->stats) |
d4721e1a | 770 | { |
66eaf2eb BP |
771 | exchangeRtt= g_hash_table_lookup(analysisData->stats->exchangeRtt, |
772 | rttKey); | |
773 | ||
774 | if (exchangeRtt) | |
d4721e1a | 775 | { |
66eaf2eb BP |
776 | if (*rtt < *exchangeRtt) |
777 | { | |
778 | g_hash_table_replace(analysisData->stats->exchangeRtt, rttKey, rtt); | |
779 | } | |
780 | else | |
781 | { | |
782 | free(rttKey); | |
783 | free(rtt); | |
784 | } | |
785 | } | |
786 | else | |
787 | { | |
788 | g_hash_table_insert(analysisData->stats->exchangeRtt, rttKey, rtt); | |
d4721e1a BP |
789 | } |
790 | } | |
791 | else | |
792 | { | |
66eaf2eb BP |
793 | free(rttKey); |
794 | free(rtt); | |
d4721e1a | 795 | } |
cdce23b3 BP |
796 | } |
797 | ||
798 | ||
799 | /* | |
800 | * Perform analysis on muliple events | |
801 | * | |
76be6fc2 BP |
802 | * Sum the broadcast differential delays |
803 | * | |
cdce23b3 BP |
804 | * Args: |
805 | * syncState container for synchronization data | |
806 | * broadcast structure containing the events | |
807 | */ | |
66eaf2eb BP |
808 | static void analyzeBroadcastEval(SyncState* const syncState, Broadcast* const |
809 | broadcast) | |
cdce23b3 | 810 | { |
66eaf2eb | 811 | AnalysisDataEval* analysisData= syncState->analysisData; |
76be6fc2 | 812 | |
66eaf2eb | 813 | if (syncState->stats) |
76be6fc2 | 814 | { |
66eaf2eb BP |
815 | double sum= 0, squaresSum= 0; |
816 | double y; | |
cdce23b3 | 817 | |
66eaf2eb BP |
818 | g_queue_foreach(broadcast->events, &gfSum, &sum); |
819 | g_queue_foreach(broadcast->events, &gfSumSquares, &squaresSum); | |
76be6fc2 | 820 | |
66eaf2eb BP |
821 | analysisData->stats->broadcastNb++; |
822 | // Because of numerical errors, this can at times be < 0 | |
823 | y= squaresSum / g_queue_get_length(broadcast->events) - pow(sum / | |
824 | g_queue_get_length(broadcast->events), 2.); | |
825 | if (y > 0) | |
826 | { | |
827 | analysisData->stats->broadcastDiffSum+= sqrt(y); | |
828 | } | |
829 | } | |
76be6fc2 | 830 | |
66eaf2eb | 831 | if (syncState->graphsStream) |
76be6fc2 | 832 | { |
66eaf2eb BP |
833 | unsigned int i, j; |
834 | GArray* events; | |
835 | unsigned int eventNb= broadcast->events->length; | |
836 | ||
837 | events= g_array_sized_new(FALSE, FALSE, sizeof(Event*), eventNb); | |
838 | g_queue_foreach(broadcast->events, &gfAddEventToArray, events); | |
839 | ||
840 | for (i= 0; i < eventNb; i++) | |
841 | { | |
842 | for (j= 0; j < eventNb; j++) | |
843 | { | |
844 | Event* eventI= g_array_index(events, Event*, i), * eventJ= | |
845 | g_array_index(events, Event*, j); | |
846 | ||
847 | if (eventI->traceNum < eventJ->traceNum) | |
848 | { | |
849 | updateBounds(analysisData->graphs->bounds, eventI, eventJ); | |
850 | } | |
851 | } | |
852 | } | |
853 | ||
854 | g_array_free(events, TRUE); | |
76be6fc2 | 855 | } |
cdce23b3 BP |
856 | } |
857 | ||
858 | ||
859 | /* | |
66eaf2eb BP |
860 | * Finalize the factor calculations. Since this module does not really |
861 | * calculate factors, identity factors are returned. Instead, histograms are | |
862 | * written out and histogram structures are freed. | |
cdce23b3 BP |
863 | * |
864 | * Args: | |
865 | * syncState container for synchronization data. | |
866 | * | |
867 | * Returns: | |
d4721e1a | 868 | * Factors[traceNb] identity factors for each trace |
cdce23b3 BP |
869 | */ |
870 | static GArray* finalizeAnalysisEval(SyncState* const syncState) | |
871 | { | |
872 | GArray* factors; | |
873 | unsigned int i; | |
4ee223e5 BP |
874 | AnalysisDataEval* analysisData= syncState->analysisData; |
875 | ||
66eaf2eb | 876 | if (syncState->graphsStream && analysisData->graphs->histograms) |
4ee223e5 | 877 | { |
66eaf2eb BP |
878 | g_hash_table_foreach(analysisData->graphs->histograms, |
879 | &ghfWriteHistogram, &(struct WriteHistogramInfo) {.rttInfo= | |
880 | analysisData->rttInfo, .graphsStream= syncState->graphsStream}); | |
881 | g_hash_table_destroy(analysisData->graphs->histograms); | |
882 | analysisData->graphs->histograms= NULL; | |
4ee223e5 | 883 | } |
cdce23b3 | 884 | |
66eaf2eb BP |
885 | finalizeAnalysisEvalLP(syncState); |
886 | ||
cdce23b3 BP |
887 | factors= g_array_sized_new(FALSE, FALSE, sizeof(Factors), |
888 | syncState->traceNb); | |
889 | g_array_set_size(factors, syncState->traceNb); | |
890 | for (i= 0; i < syncState->traceNb; i++) | |
891 | { | |
892 | Factors* e; | |
893 | ||
894 | e= &g_array_index(factors, Factors, i); | |
895 | e->drift= 1.; | |
896 | e->offset= 0.; | |
897 | } | |
898 | ||
899 | return factors; | |
900 | } | |
901 | ||
902 | ||
903 | /* | |
904 | * Print statistics related to analysis. Must be called after | |
905 | * finalizeAnalysis. | |
906 | * | |
907 | * Args: | |
908 | * syncState container for synchronization data. | |
909 | */ | |
910 | static void printAnalysisStatsEval(SyncState* const syncState) | |
911 | { | |
912 | AnalysisDataEval* analysisData; | |
f109919b BP |
913 | unsigned int i, j, k; |
914 | unsigned int totInversion= 0, totTooFast= 0, totNoInfo= 0, totTotal= 0; | |
915 | int charNb; | |
cdce23b3 BP |
916 | |
917 | if (!syncState->stats) | |
918 | { | |
919 | return; | |
920 | } | |
921 | ||
922 | analysisData= (AnalysisDataEval*) syncState->analysisData; | |
923 | ||
924 | printf("Synchronization evaluation analysis stats:\n"); | |
ffa21cfd BP |
925 | if (analysisData->stats->broadcastNb) |
926 | { | |
927 | printf("\tsum of broadcast differential delays: %g\n", | |
928 | analysisData->stats->broadcastDiffSum); | |
467066ee | 929 | printf("\taverage broadcast differential delay: %g\n", |
ffa21cfd BP |
930 | analysisData->stats->broadcastDiffSum / |
931 | analysisData->stats->broadcastNb); | |
932 | } | |
cdce23b3 BP |
933 | |
934 | printf("\tIndividual evaluation:\n" | |
f109919b | 935 | "\t\tTrace pair Inversions Too fast No RTT info Total\n"); |
cdce23b3 BP |
936 | |
937 | for (i= 0; i < syncState->traceNb; i++) | |
938 | { | |
939 | for (j= i + 1; j < syncState->traceNb; j++) | |
940 | { | |
76be6fc2 | 941 | MessageStats* messageStats; |
f109919b BP |
942 | struct { |
943 | unsigned int t1, t2; | |
944 | } loopValues[]= { | |
945 | {i, j}, | |
946 | {j, i} | |
947 | }; | |
948 | ||
949 | for (k= 0; k < sizeof(loopValues) / sizeof(*loopValues); k++) | |
950 | { | |
951 | messageStats= | |
952 | &analysisData->stats->messageStats[loopValues[k].t1][loopValues[k].t2]; | |
953 | ||
954 | printf("\t\t%3d - %-3d ", loopValues[k].t1, loopValues[k].t2); | |
955 | printf("%u (%u%%)%n", messageStats->inversionNb, (unsigned | |
956 | int) ceil((double) messageStats->inversionNb / | |
957 | messageStats->total * 100), &charNb); | |
958 | printf("%*s", 17 - charNb > 0 ? 17 - charNb + 1: 1, " "); | |
959 | printf("%u (%u%%)%n", messageStats->tooFastNb, (unsigned int) | |
960 | ceil((double) messageStats->tooFastNb / | |
961 | messageStats->total * 100), &charNb); | |
962 | printf("%*s%-10u %u\n", 17 - charNb > 0 ? 17 - charNb + 1: | |
963 | 1, " ", messageStats->noRTTInfoNb, messageStats->total); | |
964 | ||
965 | totInversion+= messageStats->inversionNb; | |
966 | totTooFast+= messageStats->tooFastNb; | |
967 | totNoInfo+= messageStats->noRTTInfoNb; | |
968 | totTotal+= messageStats->total; | |
969 | } | |
cdce23b3 BP |
970 | } |
971 | } | |
d4721e1a | 972 | |
f109919b BP |
973 | printf("\t\t total "); |
974 | printf("%u (%u%%)%n", totInversion, (unsigned int) ceil((double) | |
975 | totInversion / totTotal * 100), &charNb); | |
976 | printf("%*s", 17 - charNb > 0 ? 17 - charNb + 1: 1, " "); | |
977 | printf("%u (%u%%)%n", totTooFast, (unsigned int) ceil((double) totTooFast | |
978 | / totTotal * 100), &charNb); | |
979 | printf("%*s%-10u %u\n", 17 - charNb > 0 ? 17 - charNb + 1: 1, " ", | |
980 | totNoInfo, totTotal); | |
981 | ||
d4721e1a BP |
982 | printf("\tRound-trip times:\n" |
983 | "\t\tHost pair RTT from exchanges RTTs from file (ms)\n"); | |
984 | g_hash_table_foreach(analysisData->stats->exchangeRtt, | |
985 | &ghfPrintExchangeRtt, analysisData->rttInfo); | |
66eaf2eb | 986 | |
05a840df | 987 | #ifdef HAVE_LIBGLPK |
66eaf2eb BP |
988 | printf("\tConvex hull factors comparisons:\n" |
989 | "\t\tTrace pair Factors type Differences (lp - chull)\n" | |
990 | "\t\t a0 a1\n" | |
991 | "\t\t Min Max Min Max\n"); | |
992 | ||
993 | for (i= 0; i < syncState->traceNb; i++) | |
994 | { | |
995 | for (j= 0; j < i; j++) | |
996 | { | |
997 | FactorsCHull* chFactors= &analysisData->stats->chFactorsArray[i][j]; | |
998 | FactorsCHull* lpFactors= &analysisData->stats->lpFactorsArray[i][j]; | |
999 | ||
1000 | printf("\t\t%3d - %-3d ", i, j); | |
1001 | if (lpFactors->type == chFactors->type) | |
1002 | { | |
1003 | if (lpFactors->type == MIDDLE) | |
1004 | { | |
1005 | printf("%-13s %-10.4g %-10.4g %-10.4g %.4g\n", | |
1006 | approxNames[lpFactors->type], | |
1007 | lpFactors->min->offset - chFactors->min->offset, | |
1008 | lpFactors->max->offset - chFactors->max->offset, | |
1009 | lpFactors->min->drift - chFactors->min->drift, | |
1010 | lpFactors->max->drift - chFactors->max->drift); | |
1011 | } | |
1012 | else if (lpFactors->type == ABSENT) | |
1013 | { | |
1014 | printf("%s\n", approxNames[lpFactors->type]); | |
1015 | } | |
1016 | } | |
1017 | else | |
1018 | { | |
1019 | printf("Different! %s and %s\n", approxNames[lpFactors->type], | |
1020 | approxNames[chFactors->type]); | |
1021 | } | |
1022 | } | |
1023 | } | |
05a840df | 1024 | #endif |
d4721e1a BP |
1025 | } |
1026 | ||
1027 | ||
1028 | /* | |
1029 | * A GHFunc for g_hash_table_foreach() | |
1030 | * | |
1031 | * Args: | |
1032 | * key: RttKey* where saddr < daddr | |
1033 | * value: double*, RTT estimated from exchanges | |
1034 | * user_data GHashTable* rttInfo | |
1035 | */ | |
66eaf2eb BP |
1036 | static void ghfPrintExchangeRtt(gpointer key, gpointer value, gpointer |
1037 | user_data) | |
d4721e1a BP |
1038 | { |
1039 | char addr1[16], addr2[16]; | |
1040 | struct RttKey* rttKey1= key; | |
1041 | struct RttKey rttKey2= {rttKey1->daddr, rttKey1->saddr}; | |
1042 | double* fileRtt1, *fileRtt2; | |
1043 | GHashTable* rttInfo= user_data; | |
1044 | ||
1045 | convertIP(addr1, rttKey1->saddr); | |
1046 | convertIP(addr2, rttKey1->daddr); | |
1047 | ||
1048 | fileRtt1= g_hash_table_lookup(rttInfo, rttKey1); | |
1049 | fileRtt2= g_hash_table_lookup(rttInfo, &rttKey2); | |
1050 | ||
1051 | printf("\t\t(%15s, %-15s) %-18.3f ", addr1, addr2, *(double*) value * 1e3); | |
1052 | ||
1053 | if (fileRtt1 || fileRtt2) | |
1054 | { | |
1055 | if (fileRtt1) | |
1056 | { | |
1057 | printf("%.3f", *fileRtt1 * 1e3); | |
1058 | } | |
1059 | if (fileRtt1 && fileRtt2) | |
1060 | { | |
1061 | printf(", "); | |
1062 | } | |
1063 | if (fileRtt2) | |
1064 | { | |
1065 | printf("%.3f", *fileRtt2 * 1e3); | |
1066 | } | |
1067 | } | |
1068 | else | |
1069 | { | |
1070 | printf("-"); | |
1071 | } | |
1072 | printf("\n"); | |
cdce23b3 | 1073 | } |
2bd4b3e4 BP |
1074 | |
1075 | ||
1076 | /* | |
1077 | * A GHashFunc for g_hash_table_new() | |
1078 | * | |
1079 | * Args: | |
1080 | * key struct RttKey* | |
1081 | */ | |
1082 | static guint ghfRttKeyHash(gconstpointer key) | |
1083 | { | |
1084 | struct RttKey* rttKey; | |
1085 | uint32_t a, b, c; | |
1086 | ||
1087 | rttKey= (struct RttKey*) key; | |
1088 | ||
1089 | a= rttKey->saddr; | |
1090 | b= rttKey->daddr; | |
1091 | c= 0; | |
1092 | final(a, b, c); | |
1093 | ||
1094 | return c; | |
1095 | } | |
1096 | ||
1097 | ||
1098 | /* | |
1099 | * A GDestroyNotify function for g_hash_table_new_full() | |
1100 | * | |
1101 | * Args: | |
1102 | * data: struct RttKey* | |
1103 | */ | |
1104 | static void gdnDestroyRttKey(gpointer data) | |
1105 | { | |
1106 | free(data); | |
1107 | } | |
1108 | ||
1109 | ||
1110 | /* | |
1111 | * A GDestroyNotify function for g_hash_table_new_full() | |
1112 | * | |
1113 | * Args: | |
1114 | * data: double* | |
1115 | */ | |
1116 | static void gdnDestroyDouble(gpointer data) | |
1117 | { | |
1118 | free(data); | |
1119 | } | |
1120 | ||
1121 | ||
1122 | /* | |
1123 | * A GEqualFunc for g_hash_table_new() | |
1124 | * | |
1125 | * Args: | |
1126 | * a, b RttKey* | |
1127 | * | |
1128 | * Returns: | |
1129 | * TRUE if both values are equal | |
1130 | */ | |
1131 | static gboolean gefRttKeyEqual(gconstpointer a, gconstpointer b) | |
1132 | { | |
1133 | const struct RttKey* rkA, * rkB; | |
1134 | ||
1135 | rkA= (struct RttKey*) a; | |
1136 | rkB= (struct RttKey*) b; | |
1137 | ||
1138 | if (rkA->saddr == rkB->saddr && rkA->daddr == rkB->daddr) | |
1139 | { | |
1140 | return TRUE; | |
1141 | } | |
1142 | else | |
1143 | { | |
1144 | return FALSE; | |
1145 | } | |
1146 | } | |
1147 | ||
1148 | ||
1149 | /* | |
1150 | * Read a file contain minimum round trip time values and fill an array with | |
1151 | * them. The file is formatted as such: | |
1152 | * <host1 IP> <host2 IP> <RTT in milliseconds> | |
1153 | * ip's should be in dotted quad format | |
1154 | * | |
1155 | * Args: | |
1156 | * rttInfo: double* rttInfo[RttKey], empty table, will be filled | |
1157 | * rttStream: stream from which to read | |
1158 | */ | |
1159 | static void readRttInfo(GHashTable* rttInfo, FILE* rttStream) | |
1160 | { | |
1161 | char* line= NULL; | |
1162 | size_t len; | |
1163 | int retval; | |
1164 | ||
1165 | positionStream(rttStream); | |
1166 | retval= getline(&line, &len, rttStream); | |
1167 | while(!feof(rttStream)) | |
1168 | { | |
1169 | struct RttKey* rttKey; | |
1170 | char saddrDQ[20], daddrDQ[20]; | |
1171 | double* rtt; | |
1172 | char tmp; | |
1173 | struct in_addr addr; | |
1174 | unsigned int i; | |
1175 | struct { | |
1176 | char* dq; | |
1177 | size_t offset; | |
1178 | } loopValues[] = { | |
1179 | {saddrDQ, offsetof(struct RttKey, saddr)}, | |
1180 | {daddrDQ, offsetof(struct RttKey, daddr)} | |
1181 | }; | |
1182 | ||
1183 | if (retval == -1 && !feof(rttStream)) | |
1184 | { | |
1185 | g_error(strerror(errno)); | |
1186 | } | |
1187 | ||
1188 | if (line[retval - 1] == '\n') | |
1189 | { | |
1190 | line[retval - 1]= '\0'; | |
1191 | } | |
1192 | ||
1193 | rtt= malloc(sizeof(double)); | |
1194 | retval= sscanf(line, " %19s %19s %lf %c", saddrDQ, daddrDQ, rtt, | |
1195 | &tmp); | |
1196 | if (retval == EOF) | |
1197 | { | |
1198 | g_error(strerror(errno)); | |
1199 | } | |
1200 | else if (retval != 3) | |
1201 | { | |
1202 | g_error("Error parsing RTT file, line was '%s'", line); | |
1203 | } | |
1204 | ||
1205 | rttKey= malloc(sizeof(struct RttKey)); | |
1206 | for (i= 0; i < sizeof(loopValues) / sizeof(*loopValues); i++) | |
1207 | { | |
1208 | retval= inet_aton(loopValues[i].dq, &addr); | |
1209 | if (retval == 0) | |
1210 | { | |
1211 | g_error("Error converting address '%s'", loopValues[i].dq); | |
1212 | } | |
1213 | *(uint32_t*) ((void*) rttKey + loopValues[i].offset)= | |
1214 | addr.s_addr; | |
1215 | } | |
1216 | ||
76be6fc2 | 1217 | *rtt/= 1e3; |
d4721e1a BP |
1218 | g_debug("rttInfo, Inserting (%u, %u)->(%f)", rttKey->saddr, |
1219 | rttKey->daddr, *rtt); | |
2bd4b3e4 BP |
1220 | g_hash_table_insert(rttInfo, rttKey, rtt); |
1221 | ||
1222 | positionStream(rttStream); | |
1223 | retval= getline(&line, &len, rttStream); | |
1224 | } | |
1225 | ||
1226 | if (line) | |
1227 | { | |
1228 | free(line); | |
1229 | } | |
1230 | } | |
1231 | ||
1232 | ||
1233 | /* | |
1234 | * Advance stream over empty space, empty lines and lines that begin with '#' | |
1235 | * | |
1236 | * Args: | |
1237 | * stream: stream, at exit, will be over the first non-empty character | |
1238 | * of a line of be at EOF | |
1239 | */ | |
1240 | static void positionStream(FILE* stream) | |
1241 | { | |
1242 | int firstChar; | |
1243 | ssize_t retval; | |
1244 | char* line= NULL; | |
1245 | size_t len; | |
1246 | ||
1247 | do | |
1248 | { | |
1249 | firstChar= fgetc(stream); | |
1250 | if (firstChar == (int) '#') | |
1251 | { | |
1252 | retval= getline(&line, &len, stream); | |
1253 | if (retval == -1) | |
1254 | { | |
1255 | if (feof(stream)) | |
1256 | { | |
1257 | goto outEof; | |
1258 | } | |
1259 | else | |
1260 | { | |
1261 | g_error(strerror(errno)); | |
1262 | } | |
1263 | } | |
1264 | } | |
1265 | else if (firstChar == (int) '\n' || firstChar == (int) ' ' || | |
1266 | firstChar == (int) '\t') | |
1267 | {} | |
1268 | else if (firstChar == EOF) | |
1269 | { | |
1270 | goto outEof; | |
1271 | } | |
1272 | else | |
1273 | { | |
1274 | break; | |
1275 | } | |
1276 | } while (true); | |
1277 | retval= ungetc(firstChar, stream); | |
1278 | if (retval == EOF) | |
1279 | { | |
1280 | g_error("Error: ungetc()"); | |
1281 | } | |
1282 | ||
1283 | outEof: | |
1284 | if (line) | |
1285 | { | |
1286 | free(line); | |
1287 | } | |
1288 | } | |
76be6fc2 BP |
1289 | |
1290 | ||
1291 | /* | |
1292 | * A GFunc for g_queue_foreach() | |
1293 | * | |
1294 | * Args: | |
1295 | * data Event*, a UDP broadcast event | |
1296 | * user_data double*, the running sum | |
1297 | * | |
1298 | * Returns: | |
1299 | * Adds the time of the event to the sum | |
1300 | */ | |
1301 | static void gfSum(gpointer data, gpointer userData) | |
1302 | { | |
1303 | Event* event= (Event*) data; | |
1304 | ||
1305 | *(double*) userData+= event->wallTime.seconds + event->wallTime.nanosec / | |
1306 | 1e9; | |
1307 | } | |
1308 | ||
1309 | ||
1310 | /* | |
1311 | * A GFunc for g_queue_foreach() | |
1312 | * | |
1313 | * Args: | |
1314 | * data Event*, a UDP broadcast event | |
1315 | * user_data double*, the running sum | |
1316 | * | |
1317 | * Returns: | |
1318 | * Adds the square of the time of the event to the sum | |
1319 | */ | |
1320 | static void gfSumSquares(gpointer data, gpointer userData) | |
1321 | { | |
1322 | Event* event= (Event*) data; | |
1323 | ||
1324 | *(double*) userData+= pow(event->wallTime.seconds + event->wallTime.nanosec | |
1325 | / 1e9, 2.); | |
1326 | } | |
4ee223e5 BP |
1327 | |
1328 | ||
e072e1ab BP |
1329 | /* |
1330 | * Update a struct Bins according to a new value | |
1331 | * | |
1332 | * Args: | |
1333 | * bins: the structure containing bins to build a histrogram | |
1334 | * value: the new value | |
1335 | */ | |
1336 | static void hitBin(struct Bins* const bins, const double value) | |
1337 | { | |
1338 | unsigned int binN= binNum(value); | |
1339 | ||
1340 | if (binN < bins->min) | |
1341 | { | |
1342 | bins->min= binN; | |
1343 | } | |
1344 | else if (binN > bins->max) | |
1345 | { | |
1346 | bins->max= binN; | |
1347 | } | |
1348 | ||
1349 | bins->total++; | |
1350 | ||
1351 | bins->bin[binN]++; | |
1352 | } | |
1353 | ||
1354 | ||
4ee223e5 BP |
1355 | /* |
1356 | * Figure out the bin in a histogram to which a value belongs. | |
1357 | * | |
1358 | * This uses exponentially sized bins that go from 0 to infinity. | |
1359 | * | |
1360 | * Args: | |
e072e1ab BP |
1361 | * value: in the range -INFINITY to INFINITY |
1362 | * | |
1363 | * Returns: | |
1364 | * The number of the bin in a struct Bins.bin | |
4ee223e5 BP |
1365 | */ |
1366 | static unsigned int binNum(const double value) | |
1367 | { | |
e072e1ab | 1368 | if (value <= 0) |
4ee223e5 BP |
1369 | { |
1370 | return 0; | |
1371 | } | |
e072e1ab BP |
1372 | else if (value < binEnd(1)) |
1373 | { | |
1374 | return 1; | |
1375 | } | |
1376 | else if (value >= binStart(BIN_NB - 1)) | |
1377 | { | |
1378 | return BIN_NB - 1; | |
1379 | } | |
4ee223e5 BP |
1380 | else |
1381 | { | |
e072e1ab | 1382 | return floor(log(value) / log(binBase)) + BIN_NB + 1; |
4ee223e5 BP |
1383 | } |
1384 | } | |
1385 | ||
1386 | ||
1387 | /* | |
e072e1ab BP |
1388 | * Figure out the start of the interval of a bin in a histogram. See struct |
1389 | * Bins. | |
4ee223e5 BP |
1390 | * |
1391 | * This uses exponentially sized bins that go from 0 to infinity. | |
1392 | * | |
1393 | * Args: | |
1394 | * binNum: bin number | |
e072e1ab BP |
1395 | * |
1396 | * Return: | |
1397 | * The start of the interval, this value is included in the interval (except | |
1398 | * for -INFINITY, naturally) | |
4ee223e5 BP |
1399 | */ |
1400 | static double binStart(const unsigned int binNum) | |
1401 | { | |
e072e1ab | 1402 | g_assert_cmpuint(binNum, <, BIN_NB); |
4ee223e5 BP |
1403 | |
1404 | if (binNum == 0) | |
1405 | { | |
e072e1ab BP |
1406 | return -INFINITY; |
1407 | } | |
1408 | else if (binNum == 1) | |
1409 | { | |
1410 | return 0.; | |
4ee223e5 BP |
1411 | } |
1412 | else | |
1413 | { | |
e072e1ab | 1414 | return pow(binBase, (double) binNum - BIN_NB + 1); |
4ee223e5 BP |
1415 | } |
1416 | } | |
1417 | ||
1418 | ||
1419 | /* | |
e072e1ab BP |
1420 | * Figure out the end of the interval of a bin in a histogram. See struct |
1421 | * Bins. | |
4ee223e5 BP |
1422 | * |
1423 | * This uses exponentially sized bins that go from 0 to infinity. | |
1424 | * | |
1425 | * Args: | |
1426 | * binNum: bin number | |
e072e1ab BP |
1427 | * |
1428 | * Return: | |
1429 | * The end of the interval, this value is not included in the interval | |
4ee223e5 BP |
1430 | */ |
1431 | static double binEnd(const unsigned int binNum) | |
1432 | { | |
e072e1ab | 1433 | g_assert_cmpuint(binNum, <, BIN_NB); |
4ee223e5 | 1434 | |
e072e1ab | 1435 | if (binNum == 0) |
4ee223e5 | 1436 | { |
e072e1ab BP |
1437 | return 0.; |
1438 | } | |
1439 | else if (binNum < BIN_NB - 1) | |
1440 | { | |
1441 | return pow(binBase, (double) binNum - BIN_NB + 2); | |
4ee223e5 BP |
1442 | } |
1443 | else | |
1444 | { | |
1445 | return INFINITY; | |
1446 | } | |
1447 | } | |
467066ee BP |
1448 | |
1449 | ||
1450 | /* | |
1451 | * Return the total number of elements in the "normal" bins (not underflow or | |
1452 | * overflow) | |
1453 | * | |
1454 | * Args: | |
1455 | * bins: the structure containing bins to build a histrogram | |
1456 | */ | |
1457 | static uint32_t normalTotal(struct Bins* const bins) | |
1458 | { | |
1459 | return bins->total - bins->bin[0] - bins->bin[BIN_NB - 1]; | |
1460 | } | |
66eaf2eb BP |
1461 | |
1462 | ||
1463 | /* Update the bounds between two traces | |
1464 | * | |
1465 | * Args: | |
1466 | * bounds: the array containing all the trace-pair bounds | |
1467 | * e1, e2: the two related events | |
1468 | */ | |
c6356aa7 BP |
1469 | static void updateBounds(Bounds** const bounds, Event* const e1, Event* const |
1470 | e2) | |
66eaf2eb BP |
1471 | { |
1472 | unsigned int traceI, traceJ; | |
1473 | uint64_t messageTime; | |
1474 | Bounds* tpBounds; | |
1475 | ||
1476 | if (e1->traceNum < e2->traceNum) | |
1477 | { | |
1478 | traceI= e2->traceNum; | |
1479 | traceJ= e1->traceNum; | |
1480 | messageTime= e1->cpuTime; | |
1481 | } | |
1482 | else | |
1483 | { | |
1484 | traceI= e1->traceNum; | |
1485 | traceJ= e2->traceNum; | |
1486 | messageTime= e2->cpuTime; | |
1487 | } | |
1488 | tpBounds= &bounds[traceI][traceJ]; | |
1489 | ||
1490 | if (messageTime < tpBounds->min) | |
1491 | { | |
1492 | tpBounds->min= messageTime; | |
1493 | } | |
1494 | if (messageTime > tpBounds->max) | |
1495 | { | |
1496 | tpBounds->max= messageTime; | |
1497 | } | |
1498 | } | |
1499 | ||
1500 | ||
1501 | #ifdef HAVE_LIBGLPK | |
1502 | /* | |
1503 | * Create the linear programming problem containing the constraints defined by | |
1504 | * two half-hulls. The objective function and optimization directions are not | |
1505 | * written. | |
1506 | * | |
1507 | * Args: | |
1508 | * syncState: container for synchronization data | |
1509 | * i: first trace number | |
1510 | * j: second trace number, garanteed to be larger than i | |
1511 | * Returns: | |
1512 | * A new glp_prob*, this problem must be freed by the caller with | |
1513 | * glp_delete_prob() | |
1514 | */ | |
c6356aa7 BP |
1515 | static glp_prob* lpCreateProblem(GQueue* const lowerHull, GQueue* const |
1516 | upperHull) | |
66eaf2eb BP |
1517 | { |
1518 | unsigned int it; | |
1519 | const int zero= 0; | |
1520 | const double zeroD= 0.; | |
1521 | glp_prob* lp= glp_create_prob(); | |
1522 | unsigned int hullPointNb= g_queue_get_length(lowerHull) + | |
1523 | g_queue_get_length(upperHull); | |
1524 | GArray* iArray= g_array_sized_new(FALSE, FALSE, sizeof(int), hullPointNb + | |
1525 | 1); | |
1526 | GArray* jArray= g_array_sized_new(FALSE, FALSE, sizeof(int), hullPointNb + | |
1527 | 1); | |
1528 | GArray* aArray= g_array_sized_new(FALSE, FALSE, sizeof(double), | |
1529 | hullPointNb + 1); | |
1530 | struct { | |
1531 | GQueue* hull; | |
1532 | struct LPAddRowInfo rowInfo; | |
1533 | } loopValues[2]= { | |
1534 | {lowerHull, {lp, GLP_UP, iArray, jArray, aArray}}, | |
1535 | {upperHull, {lp, GLP_LO, iArray, jArray, aArray}}, | |
1536 | }; | |
1537 | ||
1538 | // Create the LP problem | |
1539 | glp_term_out(GLP_OFF); | |
1540 | glp_add_rows(lp, hullPointNb); | |
1541 | glp_add_cols(lp, 2); | |
1542 | ||
1543 | glp_set_col_name(lp, 1, "a0"); | |
1544 | glp_set_col_bnds(lp, 1, GLP_FR, 0., 0.); | |
1545 | glp_set_col_name(lp, 2, "a1"); | |
1546 | glp_set_col_bnds(lp, 2, GLP_LO, 0., 0.); | |
1547 | ||
1548 | // Add row constraints | |
1549 | g_array_append_val(iArray, zero); | |
1550 | g_array_append_val(jArray, zero); | |
1551 | g_array_append_val(aArray, zeroD); | |
1552 | ||
1553 | for (it= 0; it < sizeof(loopValues) / sizeof(*loopValues); it++) | |
1554 | { | |
1555 | g_queue_foreach(loopValues[it].hull, &gfLPAddRow, | |
1556 | &loopValues[it].rowInfo); | |
1557 | } | |
1558 | ||
1559 | g_assert_cmpuint(iArray->len, ==, jArray->len); | |
1560 | g_assert_cmpuint(jArray->len, ==, aArray->len); | |
1561 | g_assert_cmpuint(aArray->len - 1, ==, hullPointNb * 2); | |
1562 | ||
1563 | glp_load_matrix(lp, aArray->len - 1, &g_array_index(iArray, int, 0), | |
1564 | &g_array_index(jArray, int, 0), &g_array_index(aArray, double, 0)); | |
1565 | ||
1566 | glp_scale_prob(lp, GLP_SF_AUTO); | |
1567 | ||
1568 | g_array_free(iArray, TRUE); | |
1569 | g_array_free(jArray, TRUE); | |
1570 | g_array_free(aArray, TRUE); | |
1571 | ||
1572 | return lp; | |
1573 | } | |
1574 | ||
1575 | ||
1576 | /* | |
1577 | * A GFunc for g_queue_foreach(). Add constraints and bounds for one row. | |
1578 | * | |
1579 | * Args: | |
1580 | * data Point*, synchronization point for which to add an LP row | |
1581 | * (a constraint) | |
1582 | * user_data LPAddRowInfo* | |
1583 | */ | |
1584 | static void gfLPAddRow(gpointer data, gpointer user_data) | |
1585 | { | |
1586 | Point* p= data; | |
1587 | struct LPAddRowInfo* rowInfo= user_data; | |
1588 | int indexes[2]; | |
1589 | double constraints[2]; | |
1590 | ||
1591 | indexes[0]= g_array_index(rowInfo->iArray, int, rowInfo->iArray->len - 1) + 1; | |
1592 | indexes[1]= indexes[0]; | |
1593 | ||
1594 | if (rowInfo->boundType == GLP_UP) | |
1595 | { | |
1596 | glp_set_row_bnds(rowInfo->lp, indexes[0], GLP_UP, 0., p->y); | |
1597 | } | |
1598 | else if (rowInfo->boundType == GLP_LO) | |
1599 | { | |
1600 | glp_set_row_bnds(rowInfo->lp, indexes[0], GLP_LO, p->y, 0.); | |
1601 | } | |
1602 | else | |
1603 | { | |
1604 | g_assert_not_reached(); | |
1605 | } | |
1606 | ||
1607 | g_array_append_vals(rowInfo->iArray, indexes, 2); | |
1608 | indexes[0]= 1; | |
1609 | indexes[1]= 2; | |
1610 | g_array_append_vals(rowInfo->jArray, indexes, 2); | |
1611 | constraints[0]= 1.; | |
1612 | constraints[1]= p->x; | |
1613 | g_array_append_vals(rowInfo->aArray, constraints, 2); | |
1614 | } | |
1615 | ||
1616 | ||
1617 | /* | |
1618 | * Calculate min or max correction factors (as possible) using an LP problem. | |
1619 | * | |
1620 | * Args: | |
1621 | * lp: A linear programming problem with constraints and bounds | |
1622 | * initialized. | |
1623 | * direction: The type of factors desired. Use GLP_MAX for max | |
1624 | * approximation factors (a1, the drift or slope is the | |
1625 | * largest) and GLP_MIN in the other case. | |
1626 | * | |
1627 | * Returns: | |
1628 | * If the calculation was successful, a new Factors struct. Otherwise, NULL. | |
1629 | * The calculation will fail if the hull assumptions are not respected. | |
1630 | */ | |
1631 | static Factors* calculateFactors(glp_prob* const lp, const int direction) | |
1632 | { | |
1633 | int retval, status; | |
1634 | Factors* factors; | |
1635 | ||
1636 | glp_set_obj_coef(lp, 1, 0.); | |
1637 | glp_set_obj_coef(lp, 2, 1.); | |
1638 | ||
1639 | glp_set_obj_dir(lp, direction); | |
1640 | retval= glp_simplex(lp, NULL); | |
1641 | status= glp_get_status(lp); | |
1642 | ||
1643 | if (retval == 0 && status == GLP_OPT) | |
1644 | { | |
1645 | factors= malloc(sizeof(Factors)); | |
1646 | factors->offset= glp_get_col_prim(lp, 1); | |
1647 | factors->drift= glp_get_col_prim(lp, 2); | |
1648 | } | |
1649 | else | |
1650 | { | |
1651 | factors= NULL; | |
1652 | } | |
1653 | ||
1654 | return factors; | |
1655 | } | |
1656 | ||
1657 | ||
1658 | /* | |
1659 | * Calculate min, max and approx correction factors (as possible) using an LP | |
1660 | * problem. | |
1661 | * | |
1662 | * Args: | |
1663 | * lp: A linear programming problem with constraints and bounds | |
1664 | * initialized. | |
1665 | * | |
1666 | * Returns: | |
1667 | * Please note that the approximation type may be MIDDLE, INCOMPLETE or | |
1668 | * ABSENT. Unlike in analysis_chull, ABSENT is also used when the hulls do | |
1669 | * not respect assumptions. | |
1670 | */ | |
1671 | static void calculateCompleteFactors(glp_prob* const lp, FactorsCHull* factors) | |
1672 | { | |
1673 | factors->min= calculateFactors(lp, GLP_MIN); | |
1674 | factors->max= calculateFactors(lp, GLP_MAX); | |
1675 | ||
1676 | if (factors->min && factors->max) | |
1677 | { | |
1678 | factors->type= MIDDLE; | |
1679 | calculateFactorsMiddle(factors); | |
1680 | } | |
1681 | else if (factors->min || factors->max) | |
1682 | { | |
1683 | factors->type= INCOMPLETE; | |
1684 | factors->approx= NULL; | |
1685 | } | |
1686 | else | |
1687 | { | |
1688 | factors->type= ABSENT; | |
1689 | factors->approx= NULL; | |
1690 | } | |
1691 | } | |
1692 | ||
1693 | ||
1694 | /* | |
1695 | * Create and initialize an array like AnalysisStatsCHull.allFactors | |
1696 | * | |
1697 | * Args: | |
1698 | * traceNb: number of traces | |
1699 | * | |
1700 | * Returns: | |
1701 | * A new array, which can be freed with freeAllFactors() | |
1702 | */ | |
1703 | static FactorsCHull** createAllFactors(const unsigned int traceNb) | |
1704 | { | |
1705 | FactorsCHull** factorsArray; | |
1706 | unsigned int i; | |
1707 | ||
1708 | factorsArray= malloc(traceNb * sizeof(FactorsCHull*)); | |
1709 | for (i= 0; i < traceNb; i++) | |
1710 | { | |
1711 | factorsArray[i]= calloc((i + 1), sizeof(FactorsCHull)); | |
1712 | ||
1713 | factorsArray[i][i].type= EXACT; | |
1714 | factorsArray[i][i].approx= malloc(sizeof(Factors)); | |
1715 | factorsArray[i][i].approx->drift= 1.; | |
1716 | factorsArray[i][i].approx->offset= 0.; | |
1717 | } | |
1718 | ||
1719 | return factorsArray; | |
1720 | } | |
1721 | #endif | |
1722 | ||
1723 | ||
1724 | /* | |
1725 | * Compute synchronization factors using a linear programming approach. | |
1726 | * Compute the factors using analysis_chull. Compare the two. | |
1727 | * | |
05a840df BP |
1728 | * When the solver library, glpk, is not available at build time, only compute |
1729 | * the factors using analysis_chull. This is to make sure that module runs its | |
1730 | * finalize function so that its graph functions can be called later. | |
66eaf2eb BP |
1731 | * |
1732 | * Args: | |
1733 | * syncState: container for synchronization data | |
1734 | */ | |
66eaf2eb BP |
1735 | static void finalizeAnalysisEvalLP(SyncState* const syncState) |
1736 | { | |
66eaf2eb | 1737 | AnalysisDataEval* analysisData= syncState->analysisData; |
05a840df BP |
1738 | #ifdef HAVE_LIBGLPK |
1739 | unsigned int i, j; | |
66eaf2eb | 1740 | AnalysisDataCHull* chAnalysisData= analysisData->chullSS->analysisData; |
6ce8ceac | 1741 | FactorsCHull** lpFactorsArray; |
66eaf2eb BP |
1742 | |
1743 | if (!syncState->stats && !syncState->graphsStream) | |
1744 | { | |
1745 | return; | |
1746 | } | |
1747 | ||
6ce8ceac BP |
1748 | /* Because of matching_distributor, this analysis may be called twice. |
1749 | * Only run it once */ | |
66eaf2eb BP |
1750 | if ((syncState->graphsStream && analysisData->graphs->lps != NULL) || |
1751 | (syncState->stats && analysisData->stats->chFactorsArray != NULL)) | |
1752 | { | |
1753 | return; | |
1754 | } | |
1755 | ||
6ce8ceac BP |
1756 | lpFactorsArray= createAllFactors(syncState->traceNb); |
1757 | ||
66eaf2eb BP |
1758 | if (syncState->stats) |
1759 | { | |
1760 | analysisData->stats->chFactorsArray= | |
1761 | calculateAllFactors(analysisData->chullSS); | |
1762 | analysisData->stats->lpFactorsArray= lpFactorsArray; | |
1763 | } | |
1764 | ||
1765 | if (syncState->graphsStream) | |
1766 | { | |
1767 | analysisData->graphs->lps= malloc(syncState->traceNb * | |
1768 | sizeof(glp_prob**)); | |
1769 | for (i= 0; i < syncState->traceNb; i++) | |
1770 | { | |
1771 | analysisData->graphs->lps[i]= malloc(i * sizeof(glp_prob*)); | |
1772 | } | |
1773 | analysisData->graphs->lpFactorsArray= lpFactorsArray; | |
1774 | } | |
1775 | ||
1776 | for (i= 0; i < syncState->traceNb; i++) | |
1777 | { | |
1778 | for (j= 0; j < i; j++) | |
1779 | { | |
1780 | glp_prob* lp; | |
1781 | ||
1782 | // Create the LP problem | |
1783 | lp= lpCreateProblem(chAnalysisData->hullArray[i][j], | |
1784 | chAnalysisData->hullArray[j][i]); | |
1785 | ||
1786 | // Use the LP problem to find the correction factors for this pair of | |
1787 | // traces | |
1788 | calculateCompleteFactors(lp, &lpFactorsArray[i][j]); | |
1789 | ||
1790 | if (syncState->graphsStream) | |
1791 | { | |
1792 | analysisData->graphs->lps[i][j]= lp; | |
1793 | } | |
1794 | else | |
1795 | { | |
1796 | glp_delete_prob(lp); | |
66eaf2eb BP |
1797 | } |
1798 | } | |
1799 | } | |
05a840df | 1800 | #endif |
66eaf2eb BP |
1801 | |
1802 | g_array_free(analysisData->chullSS->analysisModule->finalizeAnalysis(analysisData->chullSS), | |
1803 | TRUE); | |
1804 | } | |
66eaf2eb BP |
1805 | |
1806 | ||
1807 | /* | |
1808 | * Compute synchronization accuracy information using a linear programming | |
1809 | * approach. Write the neccessary data files and plot lines in the gnuplot | |
1810 | * script. | |
1811 | * | |
c5571851 BP |
1812 | * When the solver library, glpk, is not available at build time nothing is |
1813 | * actually produced. | |
66eaf2eb BP |
1814 | * |
1815 | * Args: | |
1816 | * syncState: container for synchronization data | |
1817 | * i: first trace number | |
1818 | * j: second trace number, garanteed to be larger than i | |
1819 | */ | |
c5571851 BP |
1820 | static void writeAnalysisTraceTimeBackPlotsEval(SyncState* const syncState, |
1821 | const unsigned int i, const unsigned int j) | |
66eaf2eb | 1822 | { |
c5571851 | 1823 | #ifdef HAVE_LIBGLPK |
66eaf2eb BP |
1824 | unsigned int it; |
1825 | AnalysisDataEval* analysisData= syncState->analysisData; | |
1826 | AnalysisGraphsEval* graphs= analysisData->graphs; | |
1827 | GQueue*** hullArray= ((AnalysisDataCHull*) | |
1828 | analysisData->chullSS->analysisData)->hullArray; | |
1829 | FactorsCHull* lpFactors= &graphs->lpFactorsArray[j][i]; | |
1830 | glp_prob* lp= graphs->lps[j][i]; | |
1831 | ||
1832 | if (lpFactors->type == MIDDLE) | |
1833 | { | |
1834 | int retval; | |
1835 | char* cwd; | |
1836 | char fileName[40]; | |
1837 | FILE* fp; | |
1838 | double* xValues; | |
1839 | unsigned int xBegin, xEnd; | |
1840 | double interval; | |
1841 | const unsigned int graphPointNb= 1000; | |
1842 | ||
1843 | // Open the data file | |
1844 | snprintf(fileName, 40, "analysis_eval_accuracy-%03u_and_%03u.data", i, j); | |
1845 | fileName[sizeof(fileName) - 1]= '\0'; | |
1846 | ||
1d597550 | 1847 | cwd= changeToGraphsDir(syncState->graphsDir); |
66eaf2eb BP |
1848 | |
1849 | if ((fp= fopen(fileName, "w")) == NULL) | |
1850 | { | |
1851 | g_error(strerror(errno)); | |
1852 | } | |
1853 | fprintf(fp, "#%-24s %-25s %-25s %-25s\n", "x", "middle", "min", "max"); | |
1854 | ||
1855 | retval= chdir(cwd); | |
1856 | if (retval == -1) | |
1857 | { | |
1858 | g_error(strerror(errno)); | |
1859 | } | |
1860 | free(cwd); | |
1861 | ||
1862 | // Build the list of absisca values for the points in the accuracy graph | |
1863 | g_assert_cmpuint(graphPointNb, >=, 4); | |
1864 | xValues= malloc(graphPointNb * sizeof(double)); | |
1865 | xValues[0]= graphs->bounds[j][i].min; | |
1866 | xValues[graphPointNb - 1]= graphs->bounds[j][i].max; | |
1867 | xValues[1]= MIN(((Point*) g_queue_peek_head(hullArray[i][j]))->x, | |
1868 | ((Point*) g_queue_peek_head(hullArray[j][i]))->x); | |
1869 | xValues[graphPointNb - 2]= MAX(((Point*) | |
1870 | g_queue_peek_tail(hullArray[i][j]))->x, ((Point*) | |
1871 | g_queue_peek_tail(hullArray[j][i]))->x); | |
1872 | ||
1873 | if (xValues[0] == xValues[1]) | |
1874 | { | |
1875 | xBegin= 0; | |
1876 | } | |
1877 | else | |
1878 | { | |
1879 | xBegin= 1; | |
1880 | } | |
1881 | if (xValues[graphPointNb - 2] == xValues[graphPointNb - 1]) | |
1882 | { | |
1883 | xEnd= graphPointNb - 1; | |
1884 | } | |
1885 | else | |
1886 | { | |
1887 | xEnd= graphPointNb - 2; | |
1888 | } | |
1889 | interval= (xValues[xEnd] - xValues[xBegin]) / (graphPointNb - 1); | |
1890 | ||
1891 | for (it= xBegin; it <= xEnd; it++) | |
1892 | { | |
1893 | xValues[it]= xValues[xBegin] + interval * (it - xBegin); | |
1894 | } | |
1895 | ||
1896 | /* For each absisca value and each optimisation direction, solve the LP | |
1897 | * and write a line in the data file */ | |
1898 | for (it= 0; it < graphPointNb; it++) | |
1899 | { | |
1900 | unsigned int it2; | |
1901 | int directions[]= {GLP_MIN, GLP_MAX}; | |
1902 | ||
1903 | glp_set_obj_coef(lp, 1, 1.); | |
1904 | glp_set_obj_coef(lp, 2, xValues[it]); | |
1905 | ||
1906 | fprintf(fp, "%25.9f %25.9f", xValues[it], lpFactors->approx->offset | |
1907 | + lpFactors->approx->drift * xValues[it]); | |
1908 | for (it2= 0; it2 < sizeof(directions) / sizeof(*directions); it2++) | |
1909 | { | |
1910 | int status; | |
1911 | ||
1912 | glp_set_obj_dir(lp, directions[it2]); | |
1913 | retval= glp_simplex(lp, NULL); | |
1914 | status= glp_get_status(lp); | |
1915 | ||
1916 | g_assert(retval == 0 && status == GLP_OPT); | |
1917 | fprintf(fp, " %25.9f", glp_get_obj_val(lp)); | |
1918 | } | |
1919 | fprintf(fp, "\n"); | |
1920 | } | |
1921 | ||
1922 | free(xValues); | |
1923 | fclose(fp); | |
1924 | ||
1925 | fprintf(syncState->graphsStream, | |
1926 | "\t\"analysis_eval_accuracy-%1$03u_and_%2$03u.data\" " | |
1927 | "using 1:(($3 - $2) / clock_freq_%2$u):(($4 - $2) / clock_freq_%2$u) " | |
1928 | "title \"Synchronization accuracy\" " | |
1929 | "with filledcurves linewidth 2 linetype 1 " | |
1930 | "linecolor rgb \"black\" fill solid 0.25 noborder, \\\n", i, | |
1931 | j); | |
1932 | } | |
66eaf2eb | 1933 | #endif |
c5571851 | 1934 | } |
66eaf2eb BP |
1935 | |
1936 | ||
1937 | /* | |
1938 | * Write the analysis-specific graph lines in the gnuplot script. | |
1939 | * | |
c5571851 BP |
1940 | * When the solver library, glpk, is not available at build time nothing is |
1941 | * actually produced. | |
1942 | * | |
66eaf2eb BP |
1943 | * Args: |
1944 | * syncState: container for synchronization data | |
1945 | * i: first trace number | |
1946 | * j: second trace number, garanteed to be larger than i | |
1947 | */ | |
c5571851 BP |
1948 | static void writeAnalysisTraceTimeForePlotsEval(SyncState* const syncState, |
1949 | const unsigned int i, const unsigned int j) | |
66eaf2eb | 1950 | { |
c5571851 BP |
1951 | #ifdef HAVE_LIBGLPK |
1952 | if (((AnalysisDataEval*) | |
1953 | syncState->analysisData)->graphs->lpFactorsArray[j][i].type == | |
1954 | MIDDLE) | |
1955 | { | |
1956 | fprintf(syncState->graphsStream, | |
1957 | "\t\"analysis_eval_accuracy-%1$03u_and_%2$03u.data\" " | |
1958 | "using 1:(($3 - $2) / clock_freq_%2$u) notitle " | |
1959 | "with lines linewidth 2 linetype 1 " | |
1960 | "linecolor rgb \"gray60\", \\\n" | |
1961 | "\t\"analysis_eval_accuracy-%1$03u_and_%2$03u.data\" " | |
1962 | "using 1:(($4 - $2) / clock_freq_%2$u) notitle " | |
1963 | "with lines linewidth 2 linetype 1 " | |
1964 | "linecolor rgb \"gray60\", \\\n", i, j); | |
1965 | } | |
1966 | #endif | |
66eaf2eb BP |
1967 | } |
1968 | ||
1969 | ||
c6356aa7 BP |
1970 | /* |
1971 | * Write the analysis-specific graph lines in the gnuplot script. | |
1972 | * | |
1973 | * Args: | |
1974 | * syncState: container for synchronization data | |
1975 | * i: first trace number | |
1976 | * j: second trace number, garanteed to be larger than i | |
1977 | */ | |
1978 | static void writeAnalysisTraceTraceBackPlotsEval(SyncState* const syncState, | |
1979 | const unsigned int i, const unsigned int j) | |
66eaf2eb | 1980 | { |
66eaf2eb BP |
1981 | #ifdef HAVE_LIBGLPK |
1982 | fprintf(syncState->graphsStream, | |
1983 | "\t\"analysis_eval_accuracy-%1$03u_and_%2$03u.data\" " | |
1984 | "using 1:3:4 " | |
1985 | "title \"Synchronization accuracy\" " | |
1986 | "with filledcurves linewidth 2 linetype 1 " | |
1987 | "linecolor rgb \"black\" fill solid 0.25 noborder, \\\n", i, j); | |
1988 | #endif | |
c6356aa7 BP |
1989 | } |
1990 | ||
1991 | ||
1992 | /* | |
1993 | * Write the analysis-specific graph lines in the gnuplot script. | |
1994 | * | |
1995 | * Args: | |
1996 | * syncState: container for synchronization data | |
1997 | * i: first trace number | |
1998 | * j: second trace number, garanteed to be larger than i | |
1999 | */ | |
2000 | static void writeAnalysisTraceTraceForePlotsEval(SyncState* const syncState, | |
2001 | const unsigned int i, const unsigned int j) | |
2002 | { | |
2003 | AnalysisDataEval* analysisData= syncState->analysisData; | |
66eaf2eb | 2004 | |
c6356aa7 | 2005 | analysisData->chullSS->analysisModule->graphFunctions.writeTraceTraceForePlots(analysisData->chullSS, |
66eaf2eb BP |
2006 | i, j); |
2007 | } |