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reactos / sdk / lib / 3rdparty / libxml2 / buf.c
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Timo Kreuzer [LIBXML2] Update to release 2.12.8 (from Wine-10.0)
8b7ade14
1/* 2 * buf.c: memory buffers for libxml2 3 * 4 * new buffer structures and entry points to simplify the maintenance 5 * of libxml2 and ensure we keep good control over memory allocations 6 * and stay 64 bits clean. 7 * The new entry point use the xmlBufPtr opaque structure and 8 * xmlBuf...() counterparts to the old xmlBuf...() functions 9 * 10 * See Copyright for the status of this software. 11 * 12 * daniel@veillard.com 13 */ 14 15#define IN_LIBXML 16#include "libxml.h" 17 18#include <string.h> /* for memset() only ! */ 19#include <limits.h> 20#include <ctype.h> 21#include <stdlib.h> 22 23#include <libxml/tree.h> 24#include <libxml/parserInternals.h> /* for XML_MAX_TEXT_LENGTH */ 25 26#include "private/buf.h" 27#include "private/error.h" 28 29#ifndef SIZE_MAX 30#define SIZE_MAX ((size_t) -1) 31#endif 32 33#define WITH_BUFFER_COMPAT 34 35/** 36 * xmlBuf: 37 * 38 * A buffer structure. The base of the structure is somehow compatible 39 * with struct _xmlBuffer to limit risks on application which accessed 40 * directly the input->buf->buffer structures. 41 */ 42 43struct _xmlBuf { 44 xmlChar *content; /* The buffer content UTF8 */ 45 unsigned int compat_use; /* for binary compatibility */ 46 unsigned int compat_size; /* for binary compatibility */ 47 xmlBufferAllocationScheme alloc; /* The realloc method */ 48 xmlChar *contentIO; /* in IO mode we may have a different base */ 49 size_t use; /* The buffer size used */ 50 size_t size; /* The buffer size */ 51 xmlBufferPtr buffer; /* wrapper for an old buffer */ 52 int error; /* an error code if a failure occurred */ 53}; 54 55#ifdef WITH_BUFFER_COMPAT 56/* 57 * Macro for compatibility with xmlBuffer to be used after an xmlBuf 58 * is updated. This makes sure the compat fields are updated too. 59 */ 60#define UPDATE_COMPAT(buf) \ 61 if (buf->size < INT_MAX) buf->compat_size = buf->size; \ 62 else buf->compat_size = INT_MAX; \ 63 if (buf->use < INT_MAX) buf->compat_use = buf->use; \ 64 else buf->compat_use = INT_MAX; 65 66/* 67 * Macro for compatibility with xmlBuffer to be used in all the xmlBuf 68 * entry points, it checks that the compat fields have not been modified 69 * by direct call to xmlBuffer function from code compiled before 2.9.0 . 70 */ 71#define CHECK_COMPAT(buf) \ 72 if (buf->size != (size_t) buf->compat_size) \ 73 if (buf->compat_size < INT_MAX) \ 74 buf->size = buf->compat_size; \ 75 if (buf->use != (size_t) buf->compat_use) \ 76 if (buf->compat_use < INT_MAX) \ 77 buf->use = buf->compat_use; 78 79#else /* ! WITH_BUFFER_COMPAT */ 80#define UPDATE_COMPAT(buf) 81#define CHECK_COMPAT(buf) 82#endif /* WITH_BUFFER_COMPAT */ 83 84/** 85 * xmlBufMemoryError: 86 * @extra: extra information 87 * 88 * Handle an out of memory condition 89 * To be improved... 90 */ 91static void 92xmlBufMemoryError(xmlBufPtr buf, const char *extra) 93{ 94 __xmlSimpleError(XML_FROM_BUFFER, XML_ERR_NO_MEMORY, NULL, NULL, extra); 95 if ((buf) && (buf->error == 0)) 96 buf->error = XML_ERR_NO_MEMORY; 97} 98 99/** 100 * xmlBufOverflowError: 101 * @extra: extra information 102 * 103 * Handle a buffer overflow error 104 * To be improved... 105 */ 106static void 107xmlBufOverflowError(xmlBufPtr buf, const char *extra) 108{ 109 __xmlSimpleError(XML_FROM_BUFFER, XML_BUF_OVERFLOW, NULL, NULL, extra); 110 if ((buf) && (buf->error == 0)) 111 buf->error = XML_BUF_OVERFLOW; 112} 113 114 115/** 116 * xmlBufCreate: 117 * 118 * routine to create an XML buffer. 119 * returns the new structure. 120 */ 121xmlBufPtr 122xmlBufCreate(void) { 123 xmlBufPtr ret; 124 125 ret = (xmlBufPtr) xmlMalloc(sizeof(xmlBuf)); 126 if (ret == NULL) { 127 xmlBufMemoryError(NULL, "creating buffer"); 128 return(NULL); 129 } 130 ret->use = 0; 131 ret->error = 0; 132 ret->buffer = NULL; 133 ret->size = xmlDefaultBufferSize; 134 UPDATE_COMPAT(ret); 135 ret->alloc = xmlBufferAllocScheme; 136 ret->content = (xmlChar *) xmlMallocAtomic(ret->size); 137 if (ret->content == NULL) { 138 xmlBufMemoryError(ret, "creating buffer"); 139 xmlFree(ret); 140 return(NULL); 141 } 142 ret->content[0] = 0; 143 ret->contentIO = NULL; 144 return(ret); 145} 146 147/** 148 * xmlBufCreateSize: 149 * @size: initial size of buffer 150 * 151 * routine to create an XML buffer. 152 * returns the new structure. 153 */ 154xmlBufPtr 155xmlBufCreateSize(size_t size) { 156 xmlBufPtr ret; 157 158 if (size == SIZE_MAX) 159 return(NULL); 160 ret = (xmlBufPtr) xmlMalloc(sizeof(xmlBuf)); 161 if (ret == NULL) { 162 xmlBufMemoryError(NULL, "creating buffer"); 163 return(NULL); 164 } 165 ret->use = 0; 166 ret->error = 0; 167 ret->buffer = NULL; 168 ret->alloc = xmlBufferAllocScheme; 169 ret->size = (size ? size + 1 : 0); /* +1 for ending null */ 170 UPDATE_COMPAT(ret); 171 if (ret->size){ 172 ret->content = (xmlChar *) xmlMallocAtomic(ret->size); 173 if (ret->content == NULL) { 174 xmlBufMemoryError(ret, "creating buffer"); 175 xmlFree(ret); 176 return(NULL); 177 } 178 ret->content[0] = 0; 179 } else 180 ret->content = NULL; 181 ret->contentIO = NULL; 182 return(ret); 183} 184 185/** 186 * xmlBufDetach: 187 * @buf: the buffer 188 * 189 * Remove the string contained in a buffer and give it back to the 190 * caller. The buffer is reset to an empty content. 191 * This doesn't work with immutable buffers as they can't be reset. 192 * 193 * Returns the previous string contained by the buffer. 194 */ 195xmlChar * 196xmlBufDetach(xmlBufPtr buf) { 197 xmlChar *ret; 198 199 if (buf == NULL) 200 return(NULL); 201 if (buf->buffer != NULL) 202 return(NULL); 203 if (buf->error) 204 return(NULL); 205 206 ret = buf->content; 207 buf->content = NULL; 208 buf->size = 0; 209 buf->use = 0; 210 UPDATE_COMPAT(buf); 211 212 return ret; 213} 214 215/** 216 * xmlBufGetAllocationScheme: 217 * @buf: the buffer 218 * 219 * Get the buffer allocation scheme 220 * 221 * Returns the scheme or -1 in case of error 222 */ 223int 224xmlBufGetAllocationScheme(xmlBufPtr buf) { 225 if (buf == NULL) { 226 return(-1); 227 } 228 return(buf->alloc); 229} 230 231/** 232 * xmlBufSetAllocationScheme: 233 * @buf: the buffer to tune 234 * @scheme: allocation scheme to use 235 * 236 * Sets the allocation scheme for this buffer 237 * 238 * returns 0 in case of success and -1 in case of failure 239 */ 240int 241xmlBufSetAllocationScheme(xmlBufPtr buf, 242 xmlBufferAllocationScheme scheme) { 243 if ((buf == NULL) || (buf->error != 0)) { 244 return(-1); 245 } 246 if (buf->alloc == XML_BUFFER_ALLOC_IO) 247 return(-1); 248 if ((scheme == XML_BUFFER_ALLOC_DOUBLEIT) || 249 (scheme == XML_BUFFER_ALLOC_EXACT) || 250 (scheme == XML_BUFFER_ALLOC_HYBRID) || 251 (scheme == XML_BUFFER_ALLOC_BOUNDED)) { 252 buf->alloc = scheme; 253 if (buf->buffer) 254 buf->buffer->alloc = scheme; 255 return(0); 256 } 257 /* 258 * Switching a buffer ALLOC_IO has the side effect of initializing 259 * the contentIO field with the current content 260 */ 261 if (scheme == XML_BUFFER_ALLOC_IO) { 262 buf->alloc = XML_BUFFER_ALLOC_IO; 263 buf->contentIO = buf->content; 264 } 265 return(-1); 266} 267 268/** 269 * xmlBufFree: 270 * @buf: the buffer to free 271 * 272 * Frees an XML buffer. It frees both the content and the structure which 273 * encapsulate it. 274 */ 275void 276xmlBufFree(xmlBufPtr buf) { 277 if (buf == NULL) { 278 return; 279 } 280 281 if ((buf->alloc == XML_BUFFER_ALLOC_IO) && 282 (buf->contentIO != NULL)) { 283 xmlFree(buf->contentIO); 284 } else if (buf->content != NULL) { 285 xmlFree(buf->content); 286 } 287 xmlFree(buf); 288} 289 290/** 291 * xmlBufEmpty: 292 * @buf: the buffer 293 * 294 * empty a buffer. 295 */ 296void 297xmlBufEmpty(xmlBufPtr buf) { 298 if ((buf == NULL) || (buf->error != 0)) return; 299 if (buf->content == NULL) return; 300 CHECK_COMPAT(buf) 301 buf->use = 0; 302 if ((buf->alloc == XML_BUFFER_ALLOC_IO) && 303 (buf->contentIO != NULL)) { 304 size_t start_buf = buf->content - buf->contentIO; 305 306 buf->size += start_buf; 307 buf->content = buf->contentIO; 308 buf->content[0] = 0; 309 } else { 310 buf->content[0] = 0; 311 } 312 UPDATE_COMPAT(buf) 313} 314 315/** 316 * xmlBufShrink: 317 * @buf: the buffer to dump 318 * @len: the number of xmlChar to remove 319 * 320 * Remove the beginning of an XML buffer. 321 * NOTE that this routine behaviour differs from xmlBufferShrink() 322 * as it will return 0 on error instead of -1 due to size_t being 323 * used as the return type. 324 * 325 * Returns the number of byte removed or 0 in case of failure 326 */ 327size_t 328xmlBufShrink(xmlBufPtr buf, size_t len) { 329 if ((buf == NULL) || (buf->error != 0)) return(0); 330 CHECK_COMPAT(buf) 331 if (len == 0) return(0); 332 if (len > buf->use) return(0); 333 334 buf->use -= len; 335 if ((buf->alloc == XML_BUFFER_ALLOC_IO) && (buf->contentIO != NULL)) { 336 /* 337 * we just move the content pointer, but also make sure 338 * the perceived buffer size has shrunk accordingly 339 */ 340 buf->content += len; 341 buf->size -= len; 342 343 /* 344 * sometimes though it maybe be better to really shrink 345 * on IO buffers 346 */ 347 if ((buf->alloc == XML_BUFFER_ALLOC_IO) && (buf->contentIO != NULL)) { 348 size_t start_buf = buf->content - buf->contentIO; 349 if (start_buf >= buf->size) { 350 memmove(buf->contentIO, &buf->content[0], buf->use); 351 buf->content = buf->contentIO; 352 buf->content[buf->use] = 0; 353 buf->size += start_buf; 354 } 355 } 356 } else { 357 memmove(buf->content, &buf->content[len], buf->use); 358 buf->content[buf->use] = 0; 359 } 360 UPDATE_COMPAT(buf) 361 return(len); 362} 363 364/** 365 * xmlBufGrowInternal: 366 * @buf: the buffer 367 * @len: the minimum free size to allocate 368 * 369 * Grow the available space of an XML buffer, @len is the target value 370 * Error checking should be done on buf->error since using the return 371 * value doesn't work that well 372 * 373 * Returns 0 in case of error or the length made available otherwise 374 */ 375static size_t 376xmlBufGrowInternal(xmlBufPtr buf, size_t len) { 377 size_t size; 378 xmlChar *newbuf; 379 380 if ((buf == NULL) || (buf->error != 0)) return(0); 381 CHECK_COMPAT(buf) 382 383 if (len < buf->size - buf->use) 384 return(buf->size - buf->use - 1); 385 if (len >= SIZE_MAX - buf->use) { 386 xmlBufMemoryError(buf, "growing buffer past SIZE_MAX"); 387 return(0); 388 } 389 390 if (buf->size > (size_t) len) { 391 size = buf->size > SIZE_MAX / 2 ? SIZE_MAX : buf->size * 2; 392 } else { 393 size = buf->use + len; 394 size = size > SIZE_MAX - 100 ? SIZE_MAX : size + 100; 395 } 396 397 if (buf->alloc == XML_BUFFER_ALLOC_BOUNDED) { 398 /* 399 * Used to provide parsing limits 400 */ 401 if ((buf->use + len + 1 >= XML_MAX_TEXT_LENGTH) || 402 (buf->size >= XML_MAX_TEXT_LENGTH)) { 403 xmlBufMemoryError(buf, "buffer error: text too long\n"); 404 return(0); 405 } 406 if (size >= XML_MAX_TEXT_LENGTH) 407 size = XML_MAX_TEXT_LENGTH; 408 } 409 if ((buf->alloc == XML_BUFFER_ALLOC_IO) && (buf->contentIO != NULL)) { 410 size_t start_buf = buf->content - buf->contentIO; 411 412 newbuf = (xmlChar *) xmlRealloc(buf->contentIO, start_buf + size); 413 if (newbuf == NULL) { 414 xmlBufMemoryError(buf, "growing buffer"); 415 return(0); 416 } 417 buf->contentIO = newbuf; 418 buf->content = newbuf + start_buf; 419 } else { 420 newbuf = (xmlChar *) xmlRealloc(buf->content, size); 421 if (newbuf == NULL) { 422 xmlBufMemoryError(buf, "growing buffer"); 423 return(0); 424 } 425 buf->content = newbuf; 426 } 427 buf->size = size; 428 UPDATE_COMPAT(buf) 429 return(buf->size - buf->use - 1); 430} 431 432/** 433 * xmlBufGrow: 434 * @buf: the buffer 435 * @len: the minimum free size to allocate 436 * 437 * Grow the available space of an XML buffer, @len is the target value 438 * This is been kept compatible with xmlBufferGrow() as much as possible 439 * 440 * Returns -1 in case of error or the length made available otherwise 441 */ 442int 443xmlBufGrow(xmlBufPtr buf, int len) { 444 size_t ret; 445 446 if ((buf == NULL) || (len < 0)) return(-1); 447 if (len == 0) 448 return(0); 449 ret = xmlBufGrowInternal(buf, len); 450 if (buf->error != 0) 451 return(-1); 452 return(ret > INT_MAX ? INT_MAX : ret); 453} 454 455/** 456 * xmlBufDump: 457 * @file: the file output 458 * @buf: the buffer to dump 459 * 460 * Dumps an XML buffer to a FILE *. 461 * Returns the number of #xmlChar written 462 */ 463size_t 464xmlBufDump(FILE *file, xmlBufPtr buf) { 465 size_t ret; 466 467 if ((buf == NULL) || (buf->error != 0)) { 468 return(0); 469 } 470 if (buf->content == NULL) { 471 return(0); 472 } 473 CHECK_COMPAT(buf) 474 if (file == NULL) 475 file = stdout; 476 ret = fwrite(buf->content, 1, buf->use, file); 477 return(ret); 478} 479 480/** 481 * xmlBufContent: 482 * @buf: the buffer 483 * 484 * Function to extract the content of a buffer 485 * 486 * Returns the internal content 487 */ 488 489xmlChar * 490xmlBufContent(const xmlBuf *buf) 491{ 492 if ((!buf) || (buf->error)) 493 return NULL; 494 495 return(buf->content); 496} 497 498/** 499 * xmlBufEnd: 500 * @buf: the buffer 501 * 502 * Function to extract the end of the content of a buffer 503 * 504 * Returns the end of the internal content or NULL in case of error 505 */ 506 507xmlChar * 508xmlBufEnd(xmlBufPtr buf) 509{ 510 if ((!buf) || (buf->error)) 511 return NULL; 512 CHECK_COMPAT(buf) 513 514 return(&buf->content[buf->use]); 515} 516 517/** 518 * xmlBufAddLen: 519 * @buf: the buffer 520 * @len: the size which were added at the end 521 * 522 * Sometime data may be added at the end of the buffer without 523 * using the xmlBuf APIs that is used to expand the used space 524 * and set the zero terminating at the end of the buffer 525 * 526 * Returns -1 in case of error and 0 otherwise 527 */ 528int 529xmlBufAddLen(xmlBufPtr buf, size_t len) { 530 if ((buf == NULL) || (buf->error)) 531 return(-1); 532 CHECK_COMPAT(buf) 533 if (len >= (buf->size - buf->use)) 534 return(-1); 535 buf->use += len; 536 buf->content[buf->use] = 0; 537 UPDATE_COMPAT(buf) 538 return(0); 539} 540 541/** 542 * xmlBufLength: 543 * @buf: the buffer 544 * 545 * Function to get the length of a buffer 546 * 547 * Returns the length of data in the internal content 548 */ 549 550size_t 551xmlBufLength(const xmlBufPtr buf) 552{ 553 if ((!buf) || (buf->error)) 554 return 0; 555 CHECK_COMPAT(buf) 556 557 return(buf->use); 558} 559 560/** 561 * xmlBufUse: 562 * @buf: the buffer 563 * 564 * Function to get the length of a buffer 565 * 566 * Returns the length of data in the internal content 567 */ 568 569size_t 570xmlBufUse(const xmlBufPtr buf) 571{ 572 if ((!buf) || (buf->error)) 573 return 0; 574 CHECK_COMPAT(buf) 575 576 return(buf->use); 577} 578 579/** 580 * xmlBufAvail: 581 * @buf: the buffer 582 * 583 * Function to find how much free space is allocated but not 584 * used in the buffer. It reserves one byte for the NUL 585 * terminator character that is usually needed, so there is 586 * no need to subtract 1 from the result anymore. 587 * 588 * Returns the amount, or 0 if none or if an error occurred. 589 */ 590 591size_t 592xmlBufAvail(const xmlBufPtr buf) 593{ 594 if ((!buf) || (buf->error)) 595 return 0; 596 CHECK_COMPAT(buf) 597 598 return((buf->size > buf->use) ? (buf->size - buf->use - 1) : 0); 599} 600 601/** 602 * xmlBufIsEmpty: 603 * @buf: the buffer 604 * 605 * Tell if a buffer is empty 606 * 607 * Returns 0 if no, 1 if yes and -1 in case of error 608 */ 609int 610xmlBufIsEmpty(const xmlBufPtr buf) 611{ 612 if ((!buf) || (buf->error)) 613 return(-1); 614 CHECK_COMPAT(buf) 615 616 return(buf->use == 0); 617} 618 619/** 620 * xmlBufResize: 621 * @buf: the buffer to resize 622 * @size: the desired size 623 * 624 * Resize a buffer to accommodate minimum size of @size. 625 * 626 * Returns 0 in case of problems, 1 otherwise 627 */ 628int 629xmlBufResize(xmlBufPtr buf, size_t size) 630{ 631 size_t newSize; 632 xmlChar* rebuf = NULL; 633 size_t start_buf; 634 635 if ((buf == NULL) || (buf->error)) 636 return(0); 637 CHECK_COMPAT(buf) 638 639 if (buf->alloc == XML_BUFFER_ALLOC_BOUNDED) { 640 /* 641 * Used to provide parsing limits 642 */ 643 if (size >= XML_MAX_TEXT_LENGTH) { 644 xmlBufMemoryError(buf, "buffer error: text too long\n"); 645 return(0); 646 } 647 } 648 649 /* Don't resize if we don't have to */ 650 if (size < buf->size) 651 return 1; 652 653 /* figure out new size */ 654 switch (buf->alloc){ 655 case XML_BUFFER_ALLOC_IO: 656 case XML_BUFFER_ALLOC_DOUBLEIT: 657 /*take care of empty case*/ 658 if (buf->size == 0) { 659 newSize = (size > SIZE_MAX - 10 ? SIZE_MAX : size + 10); 660 } else { 661 newSize = buf->size; 662 } 663 while (size > newSize) { 664 if (newSize > SIZE_MAX / 2) { 665 xmlBufMemoryError(buf, "growing buffer"); 666 return 0; 667 } 668 newSize *= 2; 669 } 670 break; 671 case XML_BUFFER_ALLOC_EXACT: 672 newSize = (size > SIZE_MAX - 10 ? SIZE_MAX : size + 10); 673 break; 674 case XML_BUFFER_ALLOC_HYBRID: 675 if (buf->use < BASE_BUFFER_SIZE) 676 newSize = size; 677 else { 678 newSize = buf->size; 679 while (size > newSize) { 680 if (newSize > SIZE_MAX / 2) { 681 xmlBufMemoryError(buf, "growing buffer"); 682 return 0; 683 } 684 newSize *= 2; 685 } 686 } 687 break; 688 689 default: 690 newSize = (size > SIZE_MAX - 10 ? SIZE_MAX : size + 10); 691 break; 692 } 693 694 if ((buf->alloc == XML_BUFFER_ALLOC_IO) && (buf->contentIO != NULL)) { 695 start_buf = buf->content - buf->contentIO; 696 697 if (start_buf > newSize) { 698 /* move data back to start */ 699 memmove(buf->contentIO, buf->content, buf->use); 700 buf->content = buf->contentIO; 701 buf->content[buf->use] = 0; 702 buf->size += start_buf; 703 } else { 704 rebuf = (xmlChar *) xmlRealloc(buf->contentIO, start_buf + newSize); 705 if (rebuf == NULL) { 706 xmlBufMemoryError(buf, "growing buffer"); 707 return 0; 708 } 709 buf->contentIO = rebuf; 710 buf->content = rebuf + start_buf; 711 } 712 } else { 713 if (buf->content == NULL) { 714 rebuf = (xmlChar *) xmlMallocAtomic(newSize); 715 buf->use = 0; 716 if (rebuf != NULL) 717 rebuf[buf->use] = 0; 718 } else if (buf->size - buf->use < 100) { 719 rebuf = (xmlChar *) xmlRealloc(buf->content, newSize); 720 } else { 721 /* 722 * if we are reallocating a buffer far from being full, it's 723 * better to make a new allocation and copy only the used range 724 * and free the old one. 725 */ 726 rebuf = (xmlChar *) xmlMallocAtomic(newSize); 727 if (rebuf != NULL) { 728 memcpy(rebuf, buf->content, buf->use); 729 xmlFree(buf->content); 730 rebuf[buf->use] = 0; 731 } 732 } 733 if (rebuf == NULL) { 734 xmlBufMemoryError(buf, "growing buffer"); 735 return 0; 736 } 737 buf->content = rebuf; 738 } 739 buf->size = newSize; 740 UPDATE_COMPAT(buf) 741 742 return 1; 743} 744 745/** 746 * xmlBufAdd: 747 * @buf: the buffer to dump 748 * @str: the #xmlChar string 749 * @len: the number of #xmlChar to add 750 * 751 * Add a string range to an XML buffer. if len == -1, the length of 752 * str is recomputed. 753 * 754 * Returns 0 successful, a positive error code number otherwise 755 * and -1 in case of internal or API error. 756 */ 757int 758xmlBufAdd(xmlBufPtr buf, const xmlChar *str, int len) { 759 size_t needSize; 760 761 if ((str == NULL) || (buf == NULL) || (buf->error)) 762 return -1; 763 CHECK_COMPAT(buf) 764 765 if (len < -1) { 766 return -1; 767 } 768 if (len == 0) return 0; 769 770 if (len < 0) 771 len = xmlStrlen(str); 772 773 if (len < 0) return -1; 774 if (len == 0) return 0; 775 776 /* Note that both buf->size and buf->use can be zero here. */ 777 if ((size_t) len >= buf->size - buf->use) { 778 if ((size_t) len >= SIZE_MAX - buf->use) { 779 xmlBufMemoryError(buf, "growing buffer past SIZE_MAX"); 780 return(-1); 781 } 782 needSize = buf->use + len + 1; 783 if (buf->alloc == XML_BUFFER_ALLOC_BOUNDED) { 784 /* 785 * Used to provide parsing limits 786 */ 787 if (needSize >= XML_MAX_TEXT_LENGTH) { 788 xmlBufMemoryError(buf, "buffer error: text too long\n"); 789 return(-1); 790 } 791 } 792 if (!xmlBufResize(buf, needSize)){ 793 xmlBufMemoryError(buf, "growing buffer"); 794 return XML_ERR_NO_MEMORY; 795 } 796 } 797 798 memmove(&buf->content[buf->use], str, len); 799 buf->use += len; 800 buf->content[buf->use] = 0; 801 UPDATE_COMPAT(buf) 802 return 0; 803} 804 805/** 806 * xmlBufCat: 807 * @buf: the buffer to add to 808 * @str: the #xmlChar string 809 * 810 * Append a zero terminated string to an XML buffer. 811 * 812 * Returns 0 successful, a positive error code number otherwise 813 * and -1 in case of internal or API error. 814 */ 815int 816xmlBufCat(xmlBufPtr buf, const xmlChar *str) { 817 if ((buf == NULL) || (buf->error)) 818 return(-1); 819 CHECK_COMPAT(buf) 820 if (str == NULL) return -1; 821 return xmlBufAdd(buf, str, -1); 822} 823 824/** 825 * xmlBufCCat: 826 * @buf: the buffer to dump 827 * @str: the C char string 828 * 829 * Append a zero terminated C string to an XML buffer. 830 * 831 * Returns 0 successful, a positive error code number otherwise 832 * and -1 in case of internal or API error. 833 */ 834int 835xmlBufCCat(xmlBufPtr buf, const char *str) { 836 return xmlBufCat(buf, (const xmlChar *) str); 837} 838 839/** 840 * xmlBufWriteQuotedString: 841 * @buf: the XML buffer output 842 * @string: the string to add 843 * 844 * routine which manage and grows an output buffer. This one writes 845 * a quoted or double quoted #xmlChar string, checking first if it holds 846 * quote or double-quotes internally 847 * 848 * Returns 0 if successful, a positive error code number otherwise 849 * and -1 in case of internal or API error. 850 */ 851int 852xmlBufWriteQuotedString(xmlBufPtr buf, const xmlChar *string) { 853 const xmlChar *cur, *base; 854 if ((buf == NULL) || (buf->error)) 855 return(-1); 856 CHECK_COMPAT(buf) 857 if (xmlStrchr(string, '\"')) { 858 if (xmlStrchr(string, '\'')) { 859 xmlBufCCat(buf, "\""); 860 base = cur = string; 861 while(*cur != 0){ 862 if(*cur == '"'){ 863 if (base != cur) 864 xmlBufAdd(buf, base, cur - base); 865 xmlBufAdd(buf, BAD_CAST "&quot;", 6); 866 cur++; 867 base = cur; 868 } 869 else { 870 cur++; 871 } 872 } 873 if (base != cur) 874 xmlBufAdd(buf, base, cur - base); 875 xmlBufCCat(buf, "\""); 876 } 877 else{ 878 xmlBufCCat(buf, "\'"); 879 xmlBufCat(buf, string); 880 xmlBufCCat(buf, "\'"); 881 } 882 } else { 883 xmlBufCCat(buf, "\""); 884 xmlBufCat(buf, string); 885 xmlBufCCat(buf, "\""); 886 } 887 return(0); 888} 889 890/** 891 * xmlBufFromBuffer: 892 * @buffer: incoming old buffer to convert to a new one 893 * 894 * Helper routine to switch from the old buffer structures in use 895 * in various APIs. It creates a wrapper xmlBufPtr which will be 896 * used for internal processing until the xmlBufBackToBuffer() is 897 * issued. 898 * 899 * Returns a new xmlBufPtr unless the call failed and NULL is returned 900 */ 901xmlBufPtr 902xmlBufFromBuffer(xmlBufferPtr buffer) { 903 xmlBufPtr ret; 904 905 if (buffer == NULL) 906 return(NULL); 907 908 ret = (xmlBufPtr) xmlMalloc(sizeof(xmlBuf)); 909 if (ret == NULL) { 910 xmlBufMemoryError(NULL, "creating buffer"); 911 return(NULL); 912 } 913 ret->use = buffer->use; 914 ret->size = buffer->size; 915 UPDATE_COMPAT(ret); 916 ret->error = 0; 917 ret->buffer = buffer; 918 ret->alloc = buffer->alloc; 919 ret->content = buffer->content; 920 ret->contentIO = buffer->contentIO; 921 922 return(ret); 923} 924 925/** 926 * xmlBufBackToBuffer: 927 * @buf: new buffer wrapping the old one 928 * 929 * Function to be called once internal processing had been done to 930 * update back the buffer provided by the user. This can lead to 931 * a failure in case the size accumulated in the xmlBuf is larger 932 * than what an xmlBuffer can support on 64 bits (INT_MAX) 933 * The xmlBufPtr @buf wrapper is deallocated by this call in any case. 934 * 935 * Returns the old xmlBufferPtr unless the call failed and NULL is returned 936 */ 937xmlBufferPtr 938xmlBufBackToBuffer(xmlBufPtr buf) { 939 xmlBufferPtr ret; 940 941 if (buf == NULL) 942 return(NULL); 943 CHECK_COMPAT(buf) 944 if ((buf->error) || (buf->buffer == NULL)) { 945 xmlBufFree(buf); 946 return(NULL); 947 } 948 949 ret = buf->buffer; 950 /* 951 * What to do in case of error in the buffer ??? 952 */ 953 if (buf->use > INT_MAX) { 954 /* 955 * Worse case, we really allocated and used more than the 956 * maximum allowed memory for an xmlBuffer on this architecture. 957 * Keep the buffer but provide a truncated size value. 958 */ 959 xmlBufOverflowError(buf, "Used size too big for xmlBuffer"); 960 ret->use = INT_MAX; 961 ret->size = INT_MAX; 962 } else if (buf->size > INT_MAX) { 963 /* 964 * milder case, we allocated more than the maximum allowed memory 965 * for an xmlBuffer on this architecture, but used less than the 966 * limit. 967 * Keep the buffer but provide a truncated size value. 968 */ 969 xmlBufOverflowError(buf, "Allocated size too big for xmlBuffer"); 970 ret->use = buf->use; 971 ret->size = INT_MAX; 972 } else { 973 ret->use = buf->use; 974 ret->size = buf->size; 975 } 976 ret->alloc = buf->alloc; 977 ret->content = buf->content; 978 ret->contentIO = buf->contentIO; 979 xmlFree(buf); 980 return(ret); 981} 982 983/** 984 * xmlBufMergeBuffer: 985 * @buf: an xmlBufPtr 986 * @buffer: the buffer to consume into @buf 987 * 988 * The content of @buffer is appended to @buf and @buffer is freed 989 * 990 * Returns -1 in case of error, 0 otherwise, in any case @buffer is freed 991 */ 992int 993xmlBufMergeBuffer(xmlBufPtr buf, xmlBufferPtr buffer) { 994 int ret = 0; 995 996 if ((buf == NULL) || (buf->error)) { 997 xmlBufferFree(buffer); 998 return(-1); 999 } 1000 CHECK_COMPAT(buf) 1001 if ((buffer != NULL) && (buffer->content != NULL) && 1002 (buffer->use > 0)) { 1003 ret = xmlBufAdd(buf, buffer->content, buffer->use); 1004 } 1005 xmlBufferFree(buffer); 1006 return(ret); 1007} 1008 1009/** 1010 * xmlBufResetInput: 1011 * @buf: an xmlBufPtr 1012 * @input: an xmlParserInputPtr 1013 * 1014 * Update the input to use the current set of pointers from the buffer. 1015 * 1016 * Returns -1 in case of error, 0 otherwise 1017 */ 1018int 1019xmlBufResetInput(xmlBufPtr buf, xmlParserInputPtr input) { 1020 if (input == NULL) 1021 return(-1); 1022 if ((buf == NULL) || (buf->error)) { 1023 input->base = input->cur = input->end = BAD_CAST ""; 1024 return(-1); 1025 } 1026 CHECK_COMPAT(buf) 1027 input->base = input->cur = buf->content; 1028 input->end = &buf->content[buf->use]; 1029 return(0); 1030} 1031 1032/** 1033 * xmlBufUpdateInput: 1034 * @buf: an xmlBufPtr 1035 * @input: an xmlParserInputPtr 1036 * @pos: the cur value relative to the beginning of the buffer 1037 * 1038 * Update the input to use the base and cur relative to the buffer 1039 * after a possible reallocation of its content 1040 * 1041 * Returns -1 in case of error, 0 otherwise 1042 */ 1043int 1044xmlBufUpdateInput(xmlBufPtr buf, xmlParserInputPtr input, size_t pos) { 1045 if (input == NULL) 1046 return(-1); 1047 /* 1048 * TODO: It might be safer to keep using the buffer content if there 1049 * was an error. 1050 */ 1051 if ((buf == NULL) || (buf->error)) { 1052 input->base = input->cur = input->end = BAD_CAST ""; 1053 return(-1); 1054 } 1055 CHECK_COMPAT(buf) 1056 input->base = buf->content; 1057 input->cur = input->base + pos; 1058 input->end = &buf->content[buf->use]; 1059 return(0); 1060}