1 /* 2 * Copyright (C) 2008 The Android Open Source Project 3 * 4 * Licensed under the Apache License, Version 2.0 (the "License"); 5 * you may not use this file except in compliance with the License. 6 * You may obtain a copy of the License at 7 * 8 * http://www.apache.org/licenses/LICENSE-2.0 9 * 10 * Unless required by applicable law or agreed to in writing, software 11 * distributed under the License is distributed on an "AS IS" BASIS, 12 * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. 13 * See the License for the specific language governing permissions and 14 * limitations under the License. 15 */ 16 /* 17 * Intercepts log messages intended for the Android log device. 18 * When running in the context of the simulator, the messages are 19 * passed on to the underlying (fake) log device. When not in the 20 * simulator, messages are printed to stderr. 21 */ 22 #include "cutils/logd.h" 23 24 #include <stdlib.h> 25 #include <string.h> 26 #include <ctype.h> 27 #include <errno.h> 28 #include <fcntl.h> 29 30 #ifdef HAVE_PTHREADS 31 #include <pthread.h> 32 #endif 33 34 #define kMaxTagLen 16 /* from the long-dead utils/Log.cpp */ 35 36 #define kTagSetSize 16 /* arbitrary */ 37 38 #if 0 39 #define TRACE(...) printf("fake_log_device: " __VA_ARGS__) 40 #else 41 #define TRACE(...) ((void)0) 42 #endif 43 44 /* from the long-dead utils/Log.cpp */ 45 typedef enum { 46 FORMAT_OFF = 0, 47 FORMAT_BRIEF, 48 FORMAT_PROCESS, 49 FORMAT_TAG, 50 FORMAT_THREAD, 51 FORMAT_RAW, 52 FORMAT_TIME, 53 FORMAT_THREADTIME, 54 FORMAT_LONG 55 } LogFormat; 56 57 58 /* 59 * Log driver state. 60 */ 61 typedef struct LogState { 62 /* the fake fd that's seen by the user */ 63 int fakeFd; 64 65 /* a printable name for this fake device */ 66 char *debugName; 67 68 /* nonzero if this is a binary log */ 69 int isBinary; 70 71 /* global minimum priority */ 72 int globalMinPriority; 73 74 /* output format */ 75 LogFormat outputFormat; 76 77 /* tags and priorities */ 78 struct { 79 char tag[kMaxTagLen]; 80 int minPriority; 81 } tagSet[kTagSetSize]; 82 } LogState; 83 84 85 #ifdef HAVE_PTHREADS 86 /* 87 * Locking. Since we're emulating a device, we need to be prepared 88 * to have multiple callers at the same time. This lock is used 89 * to both protect the fd list and to prevent LogStates from being 90 * freed out from under a user. 91 */ 92 static pthread_mutex_t fakeLogDeviceLock = PTHREAD_MUTEX_INITIALIZER; 93 94 static void lock() 95 { 96 pthread_mutex_lock(&fakeLogDeviceLock); 97 } 98 99 static void unlock() 100 { 101 pthread_mutex_unlock(&fakeLogDeviceLock); 102 } 103 #else // !HAVE_PTHREADS 104 #define lock() ((void)0) 105 #define unlock() ((void)0) 106 #endif // !HAVE_PTHREADS 107 108 109 /* 110 * File descriptor management. 111 */ 112 #define FAKE_FD_BASE 10000 113 #define MAX_OPEN_LOGS 16 114 static LogState *openLogTable[MAX_OPEN_LOGS]; 115 116 /* 117 * Allocate an fd and associate a new LogState with it. 118 * The fd is available via the fakeFd field of the return value. 119 */ 120 static LogState *createLogState() 121 { 122 size_t i; 123 124 for (i = 0; i < sizeof(openLogTable); i++) { 125 if (openLogTable[i] == NULL) { 126 openLogTable[i] = calloc(1, sizeof(LogState)); 127 openLogTable[i]->fakeFd = FAKE_FD_BASE + i; 128 return openLogTable[i]; 129 } 130 } 131 return NULL; 132 } 133 134 /* 135 * Translate an fd to a LogState. 136 */ 137 static LogState *fdToLogState(int fd) 138 { 139 if (fd >= FAKE_FD_BASE && fd < FAKE_FD_BASE + MAX_OPEN_LOGS) { 140 return openLogTable[fd - FAKE_FD_BASE]; 141 } 142 return NULL; 143 } 144 145 /* 146 * Unregister the fake fd and free the memory it pointed to. 147 */ 148 static void deleteFakeFd(int fd) 149 { 150 LogState *ls; 151 152 lock(); 153 154 ls = fdToLogState(fd); 155 if (ls != NULL) { 156 openLogTable[fd - FAKE_FD_BASE] = NULL; 157 free(ls->debugName); 158 free(ls); 159 } 160 161 unlock(); 162 } 163 164 /* 165 * Configure logging based on ANDROID_LOG_TAGS environment variable. We 166 * need to parse a string that looks like 167 * 168 * *:v jdwp:d dalvikvm:d dalvikvm-gc:i dalvikvmi:i 169 * 170 * The tag (or '*' for the global level) comes first, followed by a colon 171 * and a letter indicating the minimum priority level we're expected to log. 172 * This can be used to reveal or conceal logs with specific tags. 173 * 174 * We also want to check ANDROID_PRINTF_LOG to determine how the output 175 * will look. 176 */ 177 static void configureInitialState(const char* pathName, LogState* logState) 178 { 179 static const int kDevLogLen = sizeof("/dev/log/") - 1; 180 181 logState->debugName = strdup(pathName); 182 183 /* identify binary logs */ 184 if (strcmp(pathName + kDevLogLen, "events") == 0) { 185 logState->isBinary = 1; 186 } 187 188 /* global min priority defaults to "info" level */ 189 logState->globalMinPriority = ANDROID_LOG_INFO; 190 191 /* 192 * This is based on the the long-dead utils/Log.cpp code. 193 */ 194 const char* tags = getenv("ANDROID_LOG_TAGS"); 195 TRACE("Found ANDROID_LOG_TAGS='%s'\n", tags); 196 if (tags != NULL) { 197 int entry = 0; 198 199 while (*tags != '\0') { 200 char tagName[kMaxTagLen]; 201 int i, minPrio; 202 203 while (isspace(*tags)) 204 tags++; 205 206 i = 0; 207 while (*tags != '\0' && !isspace(*tags) && *tags != ':' && 208 i < kMaxTagLen) 209 { 210 tagName[i++] = *tags++; 211 } 212 if (i == kMaxTagLen) { 213 TRACE("ERROR: env tag too long (%d chars max)\n", kMaxTagLen-1); 214 return; 215 } 216 tagName[i] = '\0'; 217 218 /* default priority, if there's no ":" part; also zero out '*' */ 219 minPrio = ANDROID_LOG_VERBOSE; 220 if (tagName[0] == '*' && tagName[1] == '\0') { 221 minPrio = ANDROID_LOG_DEBUG; 222 tagName[0] = '\0'; 223 } 224 225 if (*tags == ':') { 226 tags++; 227 if (*tags >= '0' && *tags <= '9') { 228 if (*tags >= ('0' + ANDROID_LOG_SILENT)) 229 minPrio = ANDROID_LOG_VERBOSE; 230 else 231 minPrio = *tags - '\0'; 232 } else { 233 switch (*tags) { 234 case 'v': minPrio = ANDROID_LOG_VERBOSE; break; 235 case 'd': minPrio = ANDROID_LOG_DEBUG; break; 236 case 'i': minPrio = ANDROID_LOG_INFO; break; 237 case 'w': minPrio = ANDROID_LOG_WARN; break; 238 case 'e': minPrio = ANDROID_LOG_ERROR; break; 239 case 'f': minPrio = ANDROID_LOG_FATAL; break; 240 case 's': minPrio = ANDROID_LOG_SILENT; break; 241 default: minPrio = ANDROID_LOG_DEFAULT; break; 242 } 243 } 244 245 tags++; 246 if (*tags != '\0' && !isspace(*tags)) { 247 TRACE("ERROR: garbage in tag env; expected whitespace\n"); 248 TRACE(" env='%s'\n", tags); 249 return; 250 } 251 } 252 253 if (tagName[0] == 0) { 254 logState->globalMinPriority = minPrio; 255 TRACE("+++ global min prio %d\n", logState->globalMinPriority); 256 } else { 257 logState->tagSet[entry].minPriority = minPrio; 258 strcpy(logState->tagSet[entry].tag, tagName); 259 TRACE("+++ entry %d: %s:%d\n", 260 entry, 261 logState->tagSet[entry].tag, 262 logState->tagSet[entry].minPriority); 263 entry++; 264 } 265 } 266 } 267 268 269 /* 270 * Taken from the long-dead utils/Log.cpp 271 */ 272 const char* fstr = getenv("ANDROID_PRINTF_LOG"); 273 LogFormat format; 274 if (fstr == NULL) { 275 format = FORMAT_BRIEF; 276 } else { 277 if (strcmp(fstr, "brief") == 0) 278 format = FORMAT_BRIEF; 279 else if (strcmp(fstr, "process") == 0) 280 format = FORMAT_PROCESS; 281 else if (strcmp(fstr, "tag") == 0) 282 format = FORMAT_PROCESS; 283 else if (strcmp(fstr, "thread") == 0) 284 format = FORMAT_PROCESS; 285 else if (strcmp(fstr, "raw") == 0) 286 format = FORMAT_PROCESS; 287 else if (strcmp(fstr, "time") == 0) 288 format = FORMAT_PROCESS; 289 else if (strcmp(fstr, "long") == 0) 290 format = FORMAT_PROCESS; 291 else 292 format = (LogFormat) atoi(fstr); // really?! 293 } 294 295 logState->outputFormat = format; 296 } 297 298 /* 299 * Return a human-readable string for the priority level. Always returns 300 * a valid string. 301 */ 302 static const char* getPriorityString(int priority) 303 { 304 /* the first character of each string should be unique */ 305 static const char* priorityStrings[] = { 306 "Verbose", "Debug", "Info", "Warn", "Error", "Assert" 307 }; 308 int idx; 309 310 idx = (int) priority - (int) ANDROID_LOG_VERBOSE; 311 if (idx < 0 || 312 idx >= (int) (sizeof(priorityStrings) / sizeof(priorityStrings[0]))) 313 return "?unknown?"; 314 return priorityStrings[idx]; 315 } 316 317 #ifndef HAVE_WRITEV 318 /* 319 * Some platforms like WIN32 do not have writev(). 320 * Make up something to replace it. 321 */ 322 static ssize_t fake_writev(int fd, const struct iovec *iov, int iovcnt) { 323 int result = 0; 324 struct iovec* end = iov + iovcnt; 325 for (; iov < end; iov++) { 326 int w = write(fd, iov->iov_base, iov->iov_len); 327 if (w != iov->iov_len) { 328 if (w < 0) 329 return w; 330 return result + w; 331 } 332 result += w; 333 } 334 return result; 335 } 336 337 #define writev fake_writev 338 #endif 339 340 341 /* 342 * Write a filtered log message to stderr. 343 * 344 * Log format parsing taken from the long-dead utils/Log.cpp. 345 */ 346 static void showLog(LogState *state, 347 int logPrio, const char* tag, const char* msg) 348 { 349 #if defined(HAVE_LOCALTIME_R) 350 struct tm tmBuf; 351 #endif 352 struct tm* ptm; 353 char timeBuf[32]; 354 char prefixBuf[128], suffixBuf[128]; 355 char priChar; 356 time_t when; 357 pid_t pid, tid; 358 359 TRACE("LOG %d: %s %s", logPrio, tag, msg); 360 361 priChar = getPriorityString(logPrio)[0]; 362 when = time(NULL); 363 pid = tid = getpid(); // find gettid()? 364 365 /* 366 * Get the current date/time in pretty form 367 * 368 * It's often useful when examining a log with "less" to jump to 369 * a specific point in the file by searching for the date/time stamp. 370 * For this reason it's very annoying to have regexp meta characters 371 * in the time stamp. Don't use forward slashes, parenthesis, 372 * brackets, asterisks, or other special chars here. 373 */ 374 #if defined(HAVE_LOCALTIME_R) 375 ptm = localtime_r(&when, &tmBuf); 376 #else 377 ptm = localtime(&when); 378 #endif 379 //strftime(timeBuf, sizeof(timeBuf), "%Y-%m-%d %H:%M:%S", ptm); 380 strftime(timeBuf, sizeof(timeBuf), "%m-%d %H:%M:%S", ptm); 381 382 /* 383 * Construct a buffer containing the log header and log message. 384 */ 385 size_t prefixLen, suffixLen; 386 387 switch (state->outputFormat) { 388 case FORMAT_TAG: 389 prefixLen = snprintf(prefixBuf, sizeof(prefixBuf), 390 "%c/%-8s: ", priChar, tag); 391 strcpy(suffixBuf, "\n"); suffixLen = 1; 392 break; 393 case FORMAT_PROCESS: 394 prefixLen = snprintf(prefixBuf, sizeof(prefixBuf), 395 "%c(%5d) ", priChar, pid); 396 suffixLen = snprintf(suffixBuf, sizeof(suffixBuf), 397 " (%s)\n", tag); 398 break; 399 case FORMAT_THREAD: 400 prefixLen = snprintf(prefixBuf, sizeof(prefixBuf), 401 "%c(%5d:%5d) ", priChar, pid, tid); 402 strcpy(suffixBuf, "\n"); suffixLen = 1; 403 break; 404 case FORMAT_RAW: 405 prefixBuf[0] = 0; prefixLen = 0; 406 strcpy(suffixBuf, "\n"); suffixLen = 1; 407 break; 408 case FORMAT_TIME: 409 prefixLen = snprintf(prefixBuf, sizeof(prefixBuf), 410 "%s %-8s\n\t", timeBuf, tag); 411 strcpy(suffixBuf, "\n"); suffixLen = 1; 412 break; 413 case FORMAT_THREADTIME: 414 prefixLen = snprintf(prefixBuf, sizeof(prefixBuf), 415 "%s %5d %5d %c %-8s \n\t", timeBuf, pid, tid, priChar, tag); 416 strcpy(suffixBuf, "\n"); suffixLen = 1; 417 break; 418 case FORMAT_LONG: 419 prefixLen = snprintf(prefixBuf, sizeof(prefixBuf), 420 "[ %s %5d:%5d %c/%-8s ]\n", 421 timeBuf, pid, tid, priChar, tag); 422 strcpy(suffixBuf, "\n\n"); suffixLen = 2; 423 break; 424 default: 425 prefixLen = snprintf(prefixBuf, sizeof(prefixBuf), 426 "%c/%-8s(%5d): ", priChar, tag, pid); 427 strcpy(suffixBuf, "\n"); suffixLen = 1; 428 break; 429 } 430 431 /* 432 * Figure out how many lines there will be. 433 */ 434 const char* end = msg + strlen(msg); 435 size_t numLines = 0; 436 const char* p = msg; 437 while (p < end) { 438 if (*p++ == '\n') numLines++; 439 } 440 if (p > msg && *(p-1) != '\n') numLines++; 441 442 /* 443 * Create an array of iovecs large enough to write all of 444 * the lines with a prefix and a suffix. 445 */ 446 const size_t INLINE_VECS = 6; 447 const size_t MAX_LINES = ((size_t)~0)/(3*sizeof(struct iovec*)); 448 struct iovec stackVec[INLINE_VECS]; 449 struct iovec* vec = stackVec; 450 size_t numVecs; 451 452 if (numLines > MAX_LINES) 453 numLines = MAX_LINES; 454 455 numVecs = numLines*3; // 3 iovecs per line. 456 if (numVecs > INLINE_VECS) { 457 vec = (struct iovec*)malloc(sizeof(struct iovec)*numVecs); 458 if (vec == NULL) { 459 msg = "LOG: write failed, no memory"; 460 numVecs = 3; 461 numLines = 1; 462 vec = stackVec; 463 } 464 } 465 466 /* 467 * Fill in the iovec pointers. 468 */ 469 p = msg; 470 struct iovec* v = vec; 471 int totalLen = 0; 472 while (numLines > 0 && p < end) { 473 if (prefixLen > 0) { 474 v->iov_base = prefixBuf; 475 v->iov_len = prefixLen; 476 totalLen += prefixLen; 477 v++; 478 } 479 const char* start = p; 480 while (p < end && *p != '\n') p++; 481 if ((p-start) > 0) { 482 v->iov_base = (void*)start; 483 v->iov_len = p-start; 484 totalLen += p-start; 485 v++; 486 } 487 if (*p == '\n') p++; 488 if (suffixLen > 0) { 489 v->iov_base = suffixBuf; 490 v->iov_len = suffixLen; 491 totalLen += suffixLen; 492 v++; 493 } 494 numLines -= 1; 495 } 496 497 /* 498 * Write the entire message to the log file with a single writev() call. 499 * We need to use this rather than a collection of printf()s on a FILE* 500 * because of multi-threading and multi-process issues. 501 * 502 * If the file was not opened with O_APPEND, this will produce interleaved 503 * output when called on the same file from multiple processes. 504 * 505 * If the file descriptor is actually a network socket, the writev() 506 * call may return with a partial write. Putting the writev() call in 507 * a loop can result in interleaved data. This can be alleviated 508 * somewhat by wrapping the writev call in the Mutex. 509 */ 510 511 for(;;) { 512 int cc = writev(fileno(stderr), vec, v-vec); 513 514 if (cc == totalLen) break; 515 516 if (cc < 0) { 517 if(errno == EINTR) continue; 518 519 /* can't really log the failure; for now, throw out a stderr */ 520 fprintf(stderr, "+++ LOG: write failed (errno=%d)\n", errno); 521 break; 522 } else { 523 /* shouldn't happen when writing to file or tty */ 524 fprintf(stderr, "+++ LOG: write partial (%d of %d)\n", cc, totalLen); 525 break; 526 } 527 } 528 529 /* if we allocated storage for the iovecs, free it */ 530 if (vec != stackVec) 531 free(vec); 532 } 533 534 535 /* 536 * Receive a log message. We happen to know that "vector" has three parts: 537 * 538 * priority (1 byte) 539 * tag (N bytes -- null-terminated ASCII string) 540 * message (N bytes -- null-terminated ASCII string) 541 */ 542 static ssize_t logWritev(int fd, const struct iovec* vector, int count) 543 { 544 LogState* state; 545 546 /* Make sure that no-one frees the LogState while we're using it. 547 * Also guarantees that only one thread is in showLog() at a given 548 * time (if it matters). 549 */ 550 lock(); 551 552 state = fdToLogState(fd); 553 if (state == NULL) { 554 errno = EBADF; 555 goto error; 556 } 557 558 if (state->isBinary) { 559 TRACE("%s: ignoring binary log\n", state->debugName); 560 goto bail; 561 } 562 563 if (count != 3) { 564 TRACE("%s: writevLog with count=%d not expected\n", 565 state->debugName, count); 566 goto error; 567 } 568 569 /* pull out the three fields */ 570 int logPrio = *(const char*)vector[0].iov_base; 571 const char* tag = (const char*) vector[1].iov_base; 572 const char* msg = (const char*) vector[2].iov_base; 573 574 /* see if this log tag is configured */ 575 int i; 576 int minPrio = state->globalMinPriority; 577 for (i = 0; i < kTagSetSize; i++) { 578 if (state->tagSet[i].minPriority == ANDROID_LOG_UNKNOWN) 579 break; /* reached end of configured values */ 580 581 if (strcmp(state->tagSet[i].tag, tag) == 0) { 582 //TRACE("MATCH tag '%s'\n", tag); 583 minPrio = state->tagSet[i].minPriority; 584 break; 585 } 586 } 587 588 if (logPrio >= minPrio) { 589 showLog(state, logPrio, tag, msg); 590 } else { 591 //TRACE("+++ NOLOG(%d): %s %s", logPrio, tag, msg); 592 } 593 594 bail: 595 unlock(); 596 return vector[0].iov_len + vector[1].iov_len + vector[2].iov_len; 597 error: 598 unlock(); 599 return -1; 600 } 601 602 /* 603 * Free up our state and close the fake descriptor. 604 */ 605 static int logClose(int fd) 606 { 607 deleteFakeFd(fd); 608 return 0; 609 } 610 611 /* 612 * Open a log output device and return a fake fd. 613 */ 614 static int logOpen(const char* pathName, int flags) 615 { 616 LogState *logState; 617 int fd = -1; 618 619 lock(); 620 621 logState = createLogState(); 622 if (logState != NULL) { 623 configureInitialState(pathName, logState); 624 fd = logState->fakeFd; 625 } else { 626 errno = ENFILE; 627 } 628 629 unlock(); 630 631 return fd; 632 } 633 634 635 /* 636 * Runtime redirection. If this binary is running in the simulator, 637 * just pass log messages to the emulated device. If it's running 638 * outside of the simulator, write the log messages to stderr. 639 */ 640 641 static int (*redirectOpen)(const char *pathName, int flags) = NULL; 642 static int (*redirectClose)(int fd) = NULL; 643 static ssize_t (*redirectWritev)(int fd, const struct iovec* vector, int count) 644 = NULL; 645 646 static void setRedirects() 647 { 648 const char *ws; 649 650 /* Wrapsim sets this environment variable on children that it's 651 * created using its LD_PRELOAD wrapper. 652 */ 653 ws = getenv("ANDROID_WRAPSIM"); 654 if (ws != NULL && strcmp(ws, "1") == 0) { 655 /* We're running inside wrapsim, so we can just write to the device. */ 656 redirectOpen = (int (*)(const char *pathName, int flags))open; 657 redirectClose = close; 658 redirectWritev = writev; 659 } else { 660 /* There's no device to delegate to; handle the logging ourselves. */ 661 redirectOpen = logOpen; 662 redirectClose = logClose; 663 redirectWritev = logWritev; 664 } 665 } 666 667 int fakeLogOpen(const char *pathName, int flags) 668 { 669 if (redirectOpen == NULL) { 670 setRedirects(); 671 } 672 return redirectOpen(pathName, flags); 673 } 674 675 int fakeLogClose(int fd) 676 { 677 /* Assume that open() was called first. */ 678 return redirectClose(fd); 679 } 680 681 ssize_t fakeLogWritev(int fd, const struct iovec* vector, int count) 682 { 683 /* Assume that open() was called first. */ 684 return redirectWritev(fd, vector, count); 685 } 686
