DataExtractor.h revision 940ca9447d84a08883d2ce77a765475f09243fc5
1//===-- DataExtractor.h -----------------------------------------*- C++ -*-===// 2// 3// The LLVM Compiler Infrastructure 4// 5// This file is distributed under the University of Illinois Open Source 6// License. See LICENSE.TXT for details. 7// 8//===----------------------------------------------------------------------===// 9 10#ifndef liblldb_DataExtractor_h_ 11#define liblldb_DataExtractor_h_ 12#if defined (__cplusplus) 13 14 15#include "lldb/lldb-private.h" 16#include <limits.h> 17#include <stdint.h> 18#include <string.h> 19 20namespace lldb_private { 21 22//---------------------------------------------------------------------- 23/// @class DataExtractor DataExtractor.h "lldb/Core/DataExtractor.h" 24/// @brief An data extractor class. 25/// 26/// DataExtractor is a class that can extract data (swapping if needed) 27/// from a data buffer. The data buffer can be caller owned, or can be 28/// shared data that can be shared between multiple DataExtractor 29/// instances. Multiple DataExtractor objects can share the same data, 30/// yet extract values in different address sizes and byte order modes. 31/// Each object can have a unique position in the shared data and extract 32/// data from different offsets. 33/// 34/// @see DataBuffer 35//---------------------------------------------------------------------- 36class DataExtractor 37{ 38public: 39 //------------------------------------------------------------------ 40 /// @typedef DataExtractor::Type 41 /// @brief Type enumerations used in the dump routines. 42 /// @see DataExtractor::Dump() 43 /// @see DataExtractor::DumpRawHexBytes() 44 //------------------------------------------------------------------ 45 typedef enum 46 { 47 TypeUInt8, ///< Format output as unsigned 8 bit integers 48 TypeChar, ///< Format output as characters 49 TypeUInt16, ///< Format output as unsigned 16 bit integers 50 TypeUInt32, ///< Format output as unsigned 32 bit integers 51 TypeUInt64, ///< Format output as unsigned 64 bit integers 52 TypePointer, ///< Format output as pointers 53 TypeULEB128, ///< Format output as ULEB128 numbers 54 TypeSLEB128 ///< Format output as SLEB128 numbers 55 } Type; 56 57 static void 58 DumpHexBytes (Stream *s, 59 const void *src, 60 size_t src_len, 61 uint32_t bytes_per_line, 62 lldb::addr_t base_addr); // Pass LLDB_INVALID_ADDRESS to not show address at start of line 63 //------------------------------------------------------------------ 64 /// Default constructor. 65 /// 66 /// Initialize all members to a default empty state. 67 //------------------------------------------------------------------ 68 DataExtractor (); 69 70 //------------------------------------------------------------------ 71 /// Construct with a buffer that is owned by the caller. 72 /// 73 /// This constructor allows us to use data that is owned by the 74 /// caller. The data must stay around as long as this object is 75 /// valid. 76 /// 77 /// @param[in] data 78 /// A pointer to caller owned data. 79 /// 80 /// @param[in] data_length 81 /// The length in bytes of \a data. 82 /// 83 /// @param[in] byte_order 84 /// A byte order of the data that we are extracting from. 85 /// 86 /// @param[in] addr_size 87 /// A new address byte size value. 88 //------------------------------------------------------------------ 89 DataExtractor (const void* data, lldb::offset_t data_length, lldb::ByteOrder byte_order, uint32_t addr_size); 90 91 //------------------------------------------------------------------ 92 /// Construct with shared data. 93 /// 94 /// Copies the data shared pointer which adds a reference to the 95 /// contained in \a data_sp. The shared data reference is reference 96 /// counted to ensure the data lives as long as anyone still has a 97 /// valid shared pointer to the data in \a data_sp. 98 /// 99 /// @param[in] data_sp 100 /// A shared pointer to data. 101 /// 102 /// @param[in] byte_order 103 /// A byte order of the data that we are extracting from. 104 /// 105 /// @param[in] addr_size 106 /// A new address byte size value. 107 //------------------------------------------------------------------ 108 DataExtractor (const lldb::DataBufferSP& data_sp, lldb::ByteOrder byte_order, uint32_t addr_size); 109 110 //------------------------------------------------------------------ 111 /// Construct with a subset of \a data. 112 /// 113 /// Initialize this object with a subset of the data bytes in \a 114 /// data. If \a data contains shared data, then a reference to the 115 /// shared data will be added to ensure the shared data stays around 116 /// as long as any objects have references to the shared data. The 117 /// byte order value and the address size settings are copied from \a 118 /// data. If \a offset is not a valid offset in \a data, then no 119 /// reference to the shared data will be added. If there are not 120 /// \a length bytes available in \a data starting at \a offset, 121 /// the length will be truncated to contain as many bytes as 122 /// possible. 123 /// 124 /// @param[in] data 125 /// Another DataExtractor object that contains data. 126 /// 127 /// @param[in] offset 128 /// The offset into \a data at which the subset starts. 129 /// 130 /// @param[in] length 131 /// The length in bytes of the subset of data. 132 //------------------------------------------------------------------ 133 DataExtractor (const DataExtractor& data, lldb::offset_t offset, lldb::offset_t length); 134 135 DataExtractor (const DataExtractor& rhs); 136 //------------------------------------------------------------------ 137 /// Assignment operator. 138 /// 139 /// Copies all data, byte order and address size settings from \a rhs into 140 /// this object. If \a rhs contains shared data, a reference to that 141 /// shared data will be added. 142 /// 143 /// @param[in] rhs 144 /// Another DataExtractor object to copy. 145 /// 146 /// @return 147 /// A const reference to this object. 148 //------------------------------------------------------------------ 149 const DataExtractor& 150 operator= (const DataExtractor& rhs); 151 152 //------------------------------------------------------------------ 153 /// Destructor 154 /// 155 /// If this object contains a valid shared data reference, the 156 /// reference count on the data will be decremented, and if zero, 157 /// the data will be freed. 158 //------------------------------------------------------------------ 159 ~DataExtractor (); 160 161 //------------------------------------------------------------------ 162 /// Clears the object state. 163 /// 164 /// Clears the object contents back to a default invalid state, and 165 /// release any references to shared data that this object may 166 /// contain. 167 //------------------------------------------------------------------ 168 void 169 Clear (); 170 171 //------------------------------------------------------------------ 172 /// Dumps the binary data as \a type objects to stream \a s (or to 173 /// Log() if \a s is NULL) starting \a offset bytes into the data 174 /// and stopping after dumping \a length bytes. The offset into the 175 /// data is displayed at the beginning of each line and can be 176 /// offset by base address \a base_addr. \a num_per_line objects 177 /// will be displayed on each line. 178 /// 179 /// @param[in] s 180 /// The stream to dump the output to. If NULL the output will 181 /// be dumped to Log(). 182 /// 183 /// @param[in] offset 184 /// The offset into the data at which to start dumping. 185 /// 186 /// @param[in] length 187 /// The number of bytes to dump. 188 /// 189 /// @param[in] base_addr 190 /// The base address that gets added to the offset displayed on 191 /// each line. 192 /// 193 /// @param[in] num_per_line 194 /// The number of \a type objects to display on each line. 195 /// 196 /// @param[in] type 197 /// The type of objects to use when dumping data from this 198 /// object. See DataExtractor::Type. 199 /// 200 /// @param[in] type_format 201 /// The optional format to use for the \a type objects. If this 202 /// is NULL, the default format for the \a type will be used. 203 /// 204 /// @return 205 /// The offset at which dumping ended. 206 //------------------------------------------------------------------ 207 lldb::offset_t 208 PutToLog (Log *log, 209 lldb::offset_t offset, 210 lldb::offset_t length, 211 uint64_t base_addr, 212 uint32_t num_per_line, 213 Type type, 214 const char *type_format = NULL) const; 215 216 //------------------------------------------------------------------ 217 /// Dumps \a item_count objects into the stream \a s. 218 /// 219 /// Dumps \a item_count objects using \a item_format, each of which 220 /// are \a item_byte_size bytes long starting at offset \a offset 221 /// bytes into the contained data, into the stream \a s. \a 222 /// num_per_line objects will be dumped on each line before a new 223 /// line will be output. If \a base_addr is a valid address, then 224 /// each new line of output will be prededed by the address value 225 /// plus appropriate offset, and a colon and space. Bitfield values 226 /// can be dumped by calling this function multiple times with the 227 /// same start offset, format and size, yet differing \a 228 /// item_bit_size and \a item_bit_offset values. 229 /// 230 /// @param[in] s 231 /// The stream to dump the output to. This value can not be NULL. 232 /// 233 /// @param[in] offset 234 /// The offset into the data at which to start dumping. 235 /// 236 /// @param[in] item_format 237 /// The format to use when dumping each item. 238 /// 239 /// @param[in] item_byte_size 240 /// The byte size of each item. 241 /// 242 /// @param[in] item_count 243 /// The number of items to dump. 244 /// 245 /// @param[in] num_per_line 246 /// The number of items to display on each line. 247 /// 248 /// @param[in] base_addr 249 /// The base address that gets added to the offset displayed on 250 /// each line if the value is valid. Is \a base_addr is 251 /// LLDB_INVALID_ADDRESS then no address values will be prepended 252 /// to any lines. 253 /// 254 /// @param[in] item_bit_size 255 /// If the value to display is a bitfield, this value should 256 /// be the number of bits that the bitfield item has within the 257 /// item's byte size value. This function will need to be called 258 /// multiple times with identical \a offset and \a item_byte_size 259 /// values in order to display multiple bitfield values that 260 /// exist within the same integer value. If the items being 261 /// displayed are not bitfields, this value should be zero. 262 /// 263 /// @param[in] item_bit_offset 264 /// If the value to display is a bitfield, this value should 265 /// be the offset in bits, or shift right amount, that the 266 /// bitfield item occupies within the item's byte size value. 267 /// This function will need to be called multiple times with 268 /// identical \a offset and \a item_byte_size values in order 269 /// to display multiple bitfield values that exist within the 270 /// same integer value. If the items being displayed are not 271 /// bitfields, this value should be zero. 272 /// 273 /// @return 274 /// The offset at which dumping ended. 275 //------------------------------------------------------------------ 276 lldb::offset_t 277 Dump (Stream *s, 278 lldb::offset_t offset, 279 lldb::Format item_format, 280 size_t item_byte_size, 281 size_t item_count, 282 size_t num_per_line, 283 uint64_t base_addr, 284 uint32_t item_bit_size, 285 uint32_t item_bit_offset, 286 ExecutionContextScope *exe_scope = NULL) const; 287 288 //------------------------------------------------------------------ 289 /// Dump a UUID value at \a offset. 290 /// 291 /// Dump a UUID starting at \a offset bytes into this object's data. 292 /// If the stream \a s is NULL, the output will be sent to Log(). 293 /// 294 /// @param[in] s 295 /// The stream to dump the output to. If NULL the output will 296 /// be dumped to Log(). 297 /// 298 /// @param[in] offset 299 /// The offset into the data at which to extract and dump a 300 /// UUID value. 301 //------------------------------------------------------------------ 302 void 303 DumpUUID (Stream *s, lldb::offset_t offset) const; 304 305 //------------------------------------------------------------------ 306 /// Extract an arbitrary number of bytes in the specified byte 307 /// order. 308 /// 309 /// Attemps to extract \a length bytes starting at \a offset bytes 310 /// into this data in the requested byte order (\a dst_byte_order) 311 /// and place the results in \a dst. \a dst must be at least \a 312 /// length bytes long. 313 /// 314 /// @param[in] offset 315 /// The offset in bytes into the contained data at which to 316 /// start extracting. 317 /// 318 /// @param[in] length 319 /// The number of bytes to extract. 320 /// 321 /// @param[in] dst_byte_order 322 /// A byte order of the data that we want when the value in 323 /// copied to \a dst. 324 /// 325 /// @param[out] dst 326 /// The buffer that will receive the extracted value if there 327 /// are enough bytes available in the current data. 328 /// 329 /// @return 330 /// The number of bytes that were extracted which will be \a 331 /// length when the value is successfully extracted, or zero 332 /// if there aren't enough bytes at the specified offset. 333 //------------------------------------------------------------------ 334 size_t 335 ExtractBytes (lldb::offset_t offset, lldb::offset_t length, lldb::ByteOrder dst_byte_order, void *dst) const; 336 337 //------------------------------------------------------------------ 338 /// Extract an address from \a *offset_ptr. 339 /// 340 /// Extract a single address from the data and update the offset 341 /// pointed to by \a offset_ptr. The size of the extracted address 342 /// comes from the \a m_addr_size member variable and should be 343 /// set correctly prior to extracting any address values. 344 /// 345 /// @param[in,out] offset_ptr 346 /// A pointer to an offset within the data that will be advanced 347 /// by the appropriate number of bytes if the value is extracted 348 /// correctly. If the offset is out of bounds or there are not 349 /// enough bytes to extract this value, the offset will be left 350 /// unmodified. 351 /// 352 /// @return 353 /// The extracted address value. 354 //------------------------------------------------------------------ 355 uint64_t 356 GetAddress (lldb::offset_t *offset_ptr) const; 357 358 uint64_t 359 GetAddress_unchecked (lldb::offset_t *offset_ptr) const; 360 361 //------------------------------------------------------------------ 362 /// Get the current address size. 363 /// 364 /// Return the size in bytes of any address values this object will 365 /// extract. 366 /// 367 /// @return 368 /// The size in bytes of address values that will be extracted. 369 //------------------------------------------------------------------ 370 uint32_t 371 GetAddressByteSize () const 372 { 373 return m_addr_size; 374 } 375 376 //------------------------------------------------------------------ 377 /// Get the number of bytes contained in this object. 378 /// 379 /// @return 380 /// The total number of bytes of data this object refers to. 381 //------------------------------------------------------------------ 382 uint64_t 383 GetByteSize () const 384 { 385 return m_end - m_start; 386 } 387 388 //------------------------------------------------------------------ 389 /// Extract a C string from \a *offset_ptr. 390 /// 391 /// Returns a pointer to a C String from the data at the offset 392 /// pointed to by \a offset_ptr. A variable length NULL terminated C 393 /// string will be extracted and the \a offset_ptr will be 394 /// updated with the offset of the byte that follows the NULL 395 /// terminator byte. 396 /// 397 /// @param[in,out] offset_ptr 398 /// A pointer to an offset within the data that will be advanced 399 /// by the appropriate number of bytes if the value is extracted 400 /// correctly. If the offset is out of bounds or there are not 401 /// enough bytes to extract this value, the offset will be left 402 /// unmodified. 403 /// 404 /// @return 405 /// A pointer to the C string value in the data. If the offset 406 /// pointed to by \a offset_ptr is out of bounds, or if the 407 /// offset plus the length of the C string is out of bounds, 408 /// NULL will be returned. 409 //------------------------------------------------------------------ 410 const char * 411 GetCStr (lldb::offset_t *offset_ptr) const; 412 413 //------------------------------------------------------------------ 414 /// Extract \a length bytes from \a *offset_ptr. 415 /// 416 /// Returns a pointer to a bytes in this object's data at the offset 417 /// pointed to by \a offset_ptr. If \a length is zero or too large, 418 /// then the offset pointed to by \a offset_ptr will not be updated 419 /// and NULL will be returned. 420 /// 421 /// @param[in,out] offset_ptr 422 /// A pointer to an offset within the data that will be advanced 423 /// by the appropriate number of bytes if the value is extracted 424 /// correctly. If the offset is out of bounds or there are not 425 /// enough bytes to extract this value, the offset will be left 426 /// unmodified. 427 /// 428 /// @param[in] length 429 /// The optional length of a string to extract. If the value is 430 /// zero, a NULL terminated C string will be extracted. 431 /// 432 /// @return 433 /// A pointer to the bytes in this object's data if the offset 434 /// and length are valid, or NULL otherwise. 435 //------------------------------------------------------------------ 436 const void* 437 GetData (lldb::offset_t *offset_ptr, lldb::offset_t length) const 438 { 439 const uint8_t *ptr = PeekData (*offset_ptr, length); 440 if (ptr) 441 *offset_ptr += length; 442 return ptr; 443 } 444 445 //------------------------------------------------------------------ 446 /// Copy \a dst_len bytes from \a *offset_ptr and ensure the copied 447 /// data is treated as a value that can be swapped to match the 448 /// specified byte order. 449 /// 450 /// For values that are larger than the supported integer sizes, 451 /// this function can be used to extract data in a specified byte 452 /// order. It can also be used to copy a smaller integer value from 453 /// to a larger value. The extra bytes left over will be padded 454 /// correctly according to the byte order of this object and the 455 /// \a dst_byte_order. This can be very handy when say copying a 456 /// partial data value into a register. 457 /// 458 /// @param[in] src_offset 459 /// The offset into this data from which to start copying an 460 /// endian entity 461 /// 462 /// @param[in] src_len 463 /// The length of the endian data to copy from this object 464 /// into the \a dst object 465 /// 466 /// @param[out] dst 467 /// The buffer where to place the endian data. The data might 468 /// need to be byte swapped (and appropriately padded with 469 /// zeroes if \a src_len != \a dst_len) if \a dst_byte_order 470 /// does not match the byte order in this object. 471 /// 472 /// @param[in] dst_len 473 /// The length number of bytes that the endian value will 474 /// occupy is \a dst. 475 /// 476 /// @param[in] byte_order 477 /// The byte order that the endian value should be in the \a dst 478 /// buffer. 479 /// 480 /// @return 481 /// Returns the number of bytes that were copied, or zero if 482 /// anything goes wrong. 483 //------------------------------------------------------------------ 484 lldb::offset_t 485 CopyByteOrderedData (lldb::offset_t src_offset, 486 lldb::offset_t src_len, 487 void *dst, 488 lldb::offset_t dst_len, 489 lldb::ByteOrder dst_byte_order) const; 490 491 //------------------------------------------------------------------ 492 /// Get the data end pointer. 493 /// 494 /// @return 495 /// Returns a pointer to the next byte contained in this 496 /// object's data, or NULL of there is no data in this object. 497 //------------------------------------------------------------------ 498 const uint8_t * 499 GetDataEnd () const 500 { 501 return m_end; 502 } 503 504 //------------------------------------------------------------------ 505 /// Get the shared data offset. 506 /// 507 /// Get the offset of the first byte of data in the shared data (if 508 /// any). 509 /// 510 /// @return 511 /// If this object contains shared data, this function returns 512 /// the offset in bytes into that shared data, zero otherwise. 513 //------------------------------------------------------------------ 514 size_t 515 GetSharedDataOffset () const; 516 517 //------------------------------------------------------------------ 518 /// Get a the data start pointer. 519 /// 520 /// @return 521 /// Returns a pointer to the first byte contained in this 522 /// object's data, or NULL of there is no data in this object. 523 //------------------------------------------------------------------ 524 const uint8_t * 525 GetDataStart () const 526 { 527 return m_start; 528 } 529 530 531 //------------------------------------------------------------------ 532 /// Extract a float from \a *offset_ptr. 533 /// 534 /// Extract a single float value. 535 /// 536 /// @param[in,out] offset_ptr 537 /// A pointer to an offset within the data that will be advanced 538 /// by the appropriate number of bytes if the value is extracted 539 /// correctly. If the offset is out of bounds or there are not 540 /// enough bytes to extract this value, the offset will be left 541 /// unmodified. 542 /// 543 /// @return 544 /// The floating value that was extracted, or zero on failure. 545 //------------------------------------------------------------------ 546 float 547 GetFloat (lldb::offset_t *offset_ptr) const; 548 549 double 550 GetDouble (lldb::offset_t *offset_ptr) const; 551 552 long double 553 GetLongDouble (lldb::offset_t *offset_ptr) const; 554 555 //------------------------------------------------------------------ 556 /// Extract a GNU encoded pointer value from \a *offset_ptr. 557 /// 558 /// @param[in,out] offset_ptr 559 /// A pointer to an offset within the data that will be advanced 560 /// by the appropriate number of bytes if the value is extracted 561 /// correctly. If the offset is out of bounds or there are not 562 /// enough bytes to extract this value, the offset will be left 563 /// unmodified. 564 /// 565 /// @param[in] eh_ptr_enc 566 /// The GNU pointer encoding type. 567 /// 568 /// @param[in] pc_rel_addr 569 /// The PC relative address to use when the encoding is 570 /// \c DW_GNU_EH_PE_pcrel. 571 /// 572 /// @param[in] text_addr 573 /// The text (code) relative address to use when the encoding is 574 /// \c DW_GNU_EH_PE_textrel. 575 /// 576 /// @param[in] data_addr 577 /// The data relative address to use when the encoding is 578 /// \c DW_GNU_EH_PE_datarel. 579 /// 580 /// @return 581 /// The extracted GNU encoded pointer value. 582 //------------------------------------------------------------------ 583 uint64_t 584 GetGNUEHPointer (lldb::offset_t *offset_ptr, 585 uint32_t eh_ptr_enc, 586 lldb::addr_t pc_rel_addr, 587 lldb::addr_t text_addr, 588 lldb::addr_t data_addr); 589 590 //------------------------------------------------------------------ 591 /// Extract an integer of size \a byte_size from \a *offset_ptr. 592 /// 593 /// Extract a single integer value and update the offset pointed to 594 /// by \a offset_ptr. The size of the extracted integer is specified 595 /// by the \a byte_size argument. \a byte_size should have a value 596 /// >= 1 and <= 4 since the return value is only 32 bits wide. Any 597 /// \a byte_size values less than 1 or greater than 4 will result in 598 /// nothing being extracted, and zero being returned. 599 /// 600 /// @param[in,out] offset_ptr 601 /// A pointer to an offset within the data that will be advanced 602 /// by the appropriate number of bytes if the value is extracted 603 /// correctly. If the offset is out of bounds or there are not 604 /// enough bytes to extract this value, the offset will be left 605 /// unmodified. 606 /// 607 /// @param[in] byte_size 608 /// The size in byte of the integer to extract. 609 /// 610 /// @return 611 /// The integer value that was extracted, or zero on failure. 612 //------------------------------------------------------------------ 613 uint32_t 614 GetMaxU32 (lldb::offset_t *offset_ptr, size_t byte_size) const; 615 616 //------------------------------------------------------------------ 617 /// Extract an unsigned integer of size \a byte_size from \a 618 /// *offset_ptr. 619 /// 620 /// Extract a single unsigned integer value and update the offset 621 /// pointed to by \a offset_ptr. The size of the extracted integer 622 /// is specified by the \a byte_size argument. \a byte_size should 623 /// have a value greater than or equal to one and less than or equal 624 /// to eight since the return value is 64 bits wide. Any 625 /// \a byte_size values less than 1 or greater than 8 will result in 626 /// nothing being extracted, and zero being returned. 627 /// 628 /// @param[in,out] offset_ptr 629 /// A pointer to an offset within the data that will be advanced 630 /// by the appropriate number of bytes if the value is extracted 631 /// correctly. If the offset is out of bounds or there are not 632 /// enough bytes to extract this value, the offset will be left 633 /// unmodified. 634 /// 635 /// @param[in] byte_size 636 /// The size in byte of the integer to extract. 637 /// 638 /// @return 639 /// The unsigned integer value that was extracted, or zero on 640 /// failure. 641 //------------------------------------------------------------------ 642 uint64_t 643 GetMaxU64 (lldb::offset_t *offset_ptr, size_t byte_size) const; 644 645 uint64_t 646 GetMaxU64_unchecked (lldb::offset_t *offset_ptr, size_t byte_size) const; 647 648 //------------------------------------------------------------------ 649 /// Extract an signed integer of size \a byte_size from \a *offset_ptr. 650 /// 651 /// Extract a single signed integer value (sign extending if required) 652 /// and update the offset pointed to by \a offset_ptr. The size of 653 /// the extracted integer is specified by the \a byte_size argument. 654 /// \a byte_size should have a value greater than or equal to one 655 /// and less than or equal to eight since the return value is 64 656 /// bits wide. Any \a byte_size values less than 1 or greater than 657 /// 8 will result in nothing being extracted, and zero being returned. 658 /// 659 /// @param[in,out] offset_ptr 660 /// A pointer to an offset within the data that will be advanced 661 /// by the appropriate number of bytes if the value is extracted 662 /// correctly. If the offset is out of bounds or there are not 663 /// enough bytes to extract this value, the offset will be left 664 /// unmodified. 665 /// 666 /// @param[in] byte_size 667 /// The size in byte of the integer to extract. 668 /// 669 /// @return 670 /// The sign extended signed integer value that was extracted, 671 /// or zero on failure. 672 //------------------------------------------------------------------ 673 int64_t 674 GetMaxS64 (lldb::offset_t *offset_ptr, size_t size) const; 675 676 //------------------------------------------------------------------ 677 /// Extract an unsigned integer of size \a byte_size from \a 678 /// *offset_ptr, then extract the bitfield from this value if 679 /// \a bitfield_bit_size is non-zero. 680 /// 681 /// Extract a single unsigned integer value and update the offset 682 /// pointed to by \a offset_ptr. The size of the extracted integer 683 /// is specified by the \a byte_size argument. \a byte_size should 684 /// have a value greater than or equal to one and less than or equal 685 /// to 8 since the return value is 64 bits wide. Any 686 /// \a byte_size values less than 1 or greater than 8 will result in 687 /// nothing being extracted, and zero being returned. 688 /// 689 /// @param[in,out] offset_ptr 690 /// A pointer to an offset within the data that will be advanced 691 /// by the appropriate number of bytes if the value is extracted 692 /// correctly. If the offset is out of bounds or there are not 693 /// enough bytes to extract this value, the offset will be left 694 /// unmodified. 695 /// 696 /// @param[in] byte_size 697 /// The size in byte of the integer to extract. 698 /// 699 /// @param[in] bitfield_bit_size 700 /// The size in bits of the bitfield value to extract, or zero 701 /// to just extract the entire integer value. 702 /// 703 /// @param[in] bitfield_bit_offset 704 /// The bit offset of the bitfield value in the extracted 705 /// integer (the number of bits to shift the integer to the 706 /// right). 707 /// 708 /// @return 709 /// The unsigned bitfield integer value that was extracted, or 710 /// zero on failure. 711 //------------------------------------------------------------------ 712 uint64_t 713 GetMaxU64Bitfield (lldb::offset_t *offset_ptr, 714 size_t size, 715 uint32_t bitfield_bit_size, 716 uint32_t bitfield_bit_offset) const; 717 718 //------------------------------------------------------------------ 719 /// Extract an signed integer of size \a byte_size from \a 720 /// *offset_ptr, then extract and signe extend the bitfield from 721 /// this value if \a bitfield_bit_size is non-zero. 722 /// 723 /// Extract a single signed integer value (sign extending if required) 724 /// and update the offset pointed to by \a offset_ptr. The size of 725 /// the extracted integer is specified by the \a byte_size argument. 726 /// \a byte_size should have a value greater than or equal to one 727 /// and less than or equal to eight since the return value is 64 728 /// bits wide. Any \a byte_size values less than 1 or greater than 729 /// 8 will result in nothing being extracted, and zero being returned. 730 /// 731 /// @param[in,out] offset_ptr 732 /// A pointer to an offset within the data that will be advanced 733 /// by the appropriate number of bytes if the value is extracted 734 /// correctly. If the offset is out of bounds or there are not 735 /// enough bytes to extract this value, the offset will be left 736 /// unmodified. 737 /// 738 /// @param[in] byte_size 739 /// The size in bytes of the integer to extract. 740 /// 741 /// @param[in] bitfield_bit_size 742 /// The size in bits of the bitfield value to extract, or zero 743 /// to just extract the entire integer value. 744 /// 745 /// @param[in] bitfield_bit_offset 746 /// The bit offset of the bitfield value in the extracted 747 /// integer (the number of bits to shift the integer to the 748 /// right). 749 /// 750 /// @return 751 /// The signed bitfield integer value that was extracted, or 752 /// zero on failure. 753 //------------------------------------------------------------------ 754 int64_t 755 GetMaxS64Bitfield (lldb::offset_t *offset_ptr, 756 size_t size, 757 uint32_t bitfield_bit_size, 758 uint32_t bitfield_bit_offset) const; 759 760 //------------------------------------------------------------------ 761 /// Extract an pointer from \a *offset_ptr. 762 /// 763 /// Extract a single pointer from the data and update the offset 764 /// pointed to by \a offset_ptr. The size of the extracted pointer 765 /// comes from the \a m_addr_size member variable and should be 766 /// set correctly prior to extracting any pointer values. 767 /// 768 /// @param[in,out] offset_ptr 769 /// A pointer to an offset within the data that will be advanced 770 /// by the appropriate number of bytes if the value is extracted 771 /// correctly. If the offset is out of bounds or there are not 772 /// enough bytes to extract this value, the offset will be left 773 /// unmodified. 774 /// 775 /// @return 776 /// The extracted pointer value as a 64 integer. 777 //------------------------------------------------------------------ 778 uint64_t 779 GetPointer (lldb::offset_t *offset_ptr) const; 780 781 //------------------------------------------------------------------ 782 /// Get the current byte order value. 783 /// 784 /// @return 785 /// The current byte order value from this object's internal 786 /// state. 787 //------------------------------------------------------------------ 788 lldb::ByteOrder 789 GetByteOrder() const 790 { 791 return m_byte_order; 792 } 793 794 //------------------------------------------------------------------ 795 /// Extract a uint8_t value from \a *offset_ptr. 796 /// 797 /// Extract a single uint8_t from the binary data at the offset 798 /// pointed to by \a offset_ptr, and advance the offset on success. 799 /// 800 /// @param[in,out] offset_ptr 801 /// A pointer to an offset within the data that will be advanced 802 /// by the appropriate number of bytes if the value is extracted 803 /// correctly. If the offset is out of bounds or there are not 804 /// enough bytes to extract this value, the offset will be left 805 /// unmodified. 806 /// 807 /// @return 808 /// The extracted uint8_t value. 809 //------------------------------------------------------------------ 810 uint8_t 811 GetU8 ( lldb::offset_t *offset_ptr) const; 812 813 uint8_t 814 GetU8_unchecked (lldb::offset_t *offset_ptr) const 815 { 816 uint8_t val = m_start[*offset_ptr]; 817 *offset_ptr += 1; 818 return val; 819 } 820 821 uint16_t 822 GetU16_unchecked (lldb::offset_t *offset_ptr) const; 823 824 uint32_t 825 GetU32_unchecked (lldb::offset_t *offset_ptr) const; 826 827 uint64_t 828 GetU64_unchecked (lldb::offset_t *offset_ptr) const; 829 //------------------------------------------------------------------ 830 /// Extract \a count uint8_t values from \a *offset_ptr. 831 /// 832 /// Extract \a count uint8_t values from the binary data at the 833 /// offset pointed to by \a offset_ptr, and advance the offset on 834 /// success. The extracted values are copied into \a dst. 835 /// 836 /// @param[in,out] offset_ptr 837 /// A pointer to an offset within the data that will be advanced 838 /// by the appropriate number of bytes if the value is extracted 839 /// correctly. If the offset is out of bounds or there are not 840 /// enough bytes to extract this value, the offset will be left 841 /// unmodified. 842 /// 843 /// @param[out] dst 844 /// A buffer to copy \a count uint8_t values into. \a dst must 845 /// be large enough to hold all requested data. 846 /// 847 /// @param[in] count 848 /// The number of uint8_t values to extract. 849 /// 850 /// @return 851 /// \a dst if all values were properly extracted and copied, 852 /// NULL otherise. 853 //------------------------------------------------------------------ 854 void * 855 GetU8 (lldb::offset_t *offset_ptr, void *dst, uint32_t count) const; 856 857 //------------------------------------------------------------------ 858 /// Extract a uint16_t value from \a *offset_ptr. 859 /// 860 /// Extract a single uint16_t from the binary data at the offset 861 /// pointed to by \a offset_ptr, and update the offset on success. 862 /// 863 /// @param[in,out] offset_ptr 864 /// A pointer to an offset within the data that will be advanced 865 /// by the appropriate number of bytes if the value is extracted 866 /// correctly. If the offset is out of bounds or there are not 867 /// enough bytes to extract this value, the offset will be left 868 /// unmodified. 869 /// 870 /// @return 871 /// The extracted uint16_t value. 872 //------------------------------------------------------------------ 873 uint16_t 874 GetU16 (lldb::offset_t *offset_ptr) const; 875 876 //------------------------------------------------------------------ 877 /// Extract \a count uint16_t values from \a *offset_ptr. 878 /// 879 /// Extract \a count uint16_t values from the binary data at the 880 /// offset pointed to by \a offset_ptr, and advance the offset on 881 /// success. The extracted values are copied into \a dst. 882 /// 883 /// @param[in,out] offset_ptr 884 /// A pointer to an offset within the data that will be advanced 885 /// by the appropriate number of bytes if the value is extracted 886 /// correctly. If the offset is out of bounds or there are not 887 /// enough bytes to extract this value, the offset will be left 888 /// unmodified. 889 /// 890 /// @param[out] dst 891 /// A buffer to copy \a count uint16_t values into. \a dst must 892 /// be large enough to hold all requested data. 893 /// 894 /// @param[in] count 895 /// The number of uint16_t values to extract. 896 /// 897 /// @return 898 /// \a dst if all values were properly extracted and copied, 899 /// NULL otherise. 900 //------------------------------------------------------------------ 901 void * 902 GetU16 (lldb::offset_t *offset_ptr, void *dst, uint32_t count) const; 903 904 //------------------------------------------------------------------ 905 /// Extract a uint32_t value from \a *offset_ptr. 906 /// 907 /// Extract a single uint32_t from the binary data at the offset 908 /// pointed to by \a offset_ptr, and update the offset on success. 909 /// 910 /// @param[in,out] offset_ptr 911 /// A pointer to an offset within the data that will be advanced 912 /// by the appropriate number of bytes if the value is extracted 913 /// correctly. If the offset is out of bounds or there are not 914 /// enough bytes to extract this value, the offset will be left 915 /// unmodified. 916 /// 917 /// @return 918 /// The extracted uint32_t value. 919 //------------------------------------------------------------------ 920 uint32_t 921 GetU32 (lldb::offset_t *offset_ptr) const; 922 923 //------------------------------------------------------------------ 924 /// Extract \a count uint32_t values from \a *offset_ptr. 925 /// 926 /// Extract \a count uint32_t values from the binary data at the 927 /// offset pointed to by \a offset_ptr, and advance the offset on 928 /// success. The extracted values are copied into \a dst. 929 /// 930 /// @param[in,out] offset_ptr 931 /// A pointer to an offset within the data that will be advanced 932 /// by the appropriate number of bytes if the value is extracted 933 /// correctly. If the offset is out of bounds or there are not 934 /// enough bytes to extract this value, the offset will be left 935 /// unmodified. 936 /// 937 /// @param[out] dst 938 /// A buffer to copy \a count uint32_t values into. \a dst must 939 /// be large enough to hold all requested data. 940 /// 941 /// @param[in] count 942 /// The number of uint32_t values to extract. 943 /// 944 /// @return 945 /// \a dst if all values were properly extracted and copied, 946 /// NULL otherise. 947 //------------------------------------------------------------------ 948 void * 949 GetU32 (lldb::offset_t *offset_ptr, void *dst, uint32_t count) const; 950 951 //------------------------------------------------------------------ 952 /// Extract a uint64_t value from \a *offset_ptr. 953 /// 954 /// Extract a single uint64_t from the binary data at the offset 955 /// pointed to by \a offset_ptr, and update the offset on success. 956 /// 957 /// @param[in,out] offset_ptr 958 /// A pointer to an offset within the data that will be advanced 959 /// by the appropriate number of bytes if the value is extracted 960 /// correctly. If the offset is out of bounds or there are not 961 /// enough bytes to extract this value, the offset will be left 962 /// unmodified. 963 /// 964 /// @return 965 /// The extracted uint64_t value. 966 //------------------------------------------------------------------ 967 uint64_t 968 GetU64 (lldb::offset_t *offset_ptr) const; 969 970 //------------------------------------------------------------------ 971 /// Extract \a count uint64_t values from \a *offset_ptr. 972 /// 973 /// Extract \a count uint64_t values from the binary data at the 974 /// offset pointed to by \a offset_ptr, and advance the offset on 975 /// success. The extracted values are copied into \a dst. 976 /// 977 /// @param[in,out] offset_ptr 978 /// A pointer to an offset within the data that will be advanced 979 /// by the appropriate number of bytes if the value is extracted 980 /// correctly. If the offset is out of bounds or there are not 981 /// enough bytes to extract this value, the offset will be left 982 /// unmodified. 983 /// 984 /// @param[out] dst 985 /// A buffer to copy \a count uint64_t values into. \a dst must 986 /// be large enough to hold all requested data. 987 /// 988 /// @param[in] count 989 /// The number of uint64_t values to extract. 990 /// 991 /// @return 992 /// \a dst if all values were properly extracted and copied, 993 /// NULL otherise. 994 //------------------------------------------------------------------ 995 void * 996 GetU64 ( lldb::offset_t *offset_ptr, void *dst, uint32_t count) const; 997 998 //------------------------------------------------------------------ 999 /// Extract a signed LEB128 value from \a *offset_ptr. 1000 /// 1001 /// Extracts an signed LEB128 number from this object's data 1002 /// starting at the offset pointed to by \a offset_ptr. The offset 1003 /// pointed to by \a offset_ptr will be updated with the offset of 1004 /// the byte following the last extracted byte. 1005 /// 1006 /// @param[in,out] offset_ptr 1007 /// A pointer to an offset within the data that will be advanced 1008 /// by the appropriate number of bytes if the value is extracted 1009 /// correctly. If the offset is out of bounds or there are not 1010 /// enough bytes to extract this value, the offset will be left 1011 /// unmodified. 1012 /// 1013 /// @return 1014 /// The extracted signed integer value. 1015 //------------------------------------------------------------------ 1016 int64_t 1017 GetSLEB128 (lldb::offset_t *offset_ptr) const; 1018 1019 //------------------------------------------------------------------ 1020 /// Extract a unsigned LEB128 value from \a *offset_ptr. 1021 /// 1022 /// Extracts an unsigned LEB128 number from this object's data 1023 /// starting at the offset pointed to by \a offset_ptr. The offset 1024 /// pointed to by \a offset_ptr will be updated with the offset of 1025 /// the byte following the last extracted byte. 1026 /// 1027 /// @param[in,out] offset_ptr 1028 /// A pointer to an offset within the data that will be advanced 1029 /// by the appropriate number of bytes if the value is extracted 1030 /// correctly. If the offset is out of bounds or there are not 1031 /// enough bytes to extract this value, the offset will be left 1032 /// unmodified. 1033 /// 1034 /// @return 1035 /// The extracted unsigned integer value. 1036 //------------------------------------------------------------------ 1037 uint64_t 1038 GetULEB128 (lldb::offset_t *offset_ptr) const; 1039 1040 lldb::DataBufferSP & 1041 GetSharedDataBuffer () 1042 { 1043 return m_data_sp; 1044 } 1045 1046 //------------------------------------------------------------------ 1047 /// Peek at a C string at \a offset. 1048 /// 1049 /// Peeks at a string in the contained data. No verification is done 1050 /// to make sure the entire string lies within the bounds of this 1051 /// object's data, only \a offset is verified to be a valid offset. 1052 /// 1053 /// @param[in] offset 1054 /// An offset into the data. 1055 /// 1056 /// @return 1057 /// A non-NULL C string pointer if \a offset is a valid offset, 1058 /// NULL otherwise. 1059 //------------------------------------------------------------------ 1060 const char * 1061 PeekCStr (lldb::offset_t offset) const; 1062 1063 //------------------------------------------------------------------ 1064 /// Peek at a bytes at \a offset. 1065 /// 1066 /// Returns a pointer to \a length bytes at \a offset as long as 1067 /// there are \a length bytes available starting at \a offset. 1068 /// 1069 /// @return 1070 /// A non-NULL data pointer if \a offset is a valid offset and 1071 /// there are \a length bytes available at that offset, NULL 1072 /// otherwise. 1073 //------------------------------------------------------------------ 1074 const uint8_t* 1075 PeekData (lldb::offset_t offset, lldb::offset_t length) const 1076 { 1077 if (length > 0 && ValidOffsetForDataOfSize(offset, length)) 1078 return m_start + offset; 1079 return NULL; 1080 } 1081 1082 //------------------------------------------------------------------ 1083 /// Set the address byte size. 1084 /// 1085 /// Set the size in bytes that will be used when extracting any 1086 /// address and pointer values from data contained in this object. 1087 /// 1088 /// @param[in] addr_size 1089 /// The size in bytes to use when extracting addresses. 1090 //------------------------------------------------------------------ 1091 void 1092 SetAddressByteSize (uint32_t addr_size) 1093 { 1094 m_addr_size = addr_size; 1095 } 1096 1097 //------------------------------------------------------------------ 1098 /// Set data with a buffer that is caller owned. 1099 /// 1100 /// Use data that is owned by the caller when extracting values. 1101 /// The data must stay around as long as this object, or any object 1102 /// that copies a subset of this object's data, is valid. If \a 1103 /// bytes is NULL, or \a length is zero, this object will contain 1104 /// no data. 1105 /// 1106 /// @param[in] bytes 1107 /// A pointer to caller owned data. 1108 /// 1109 /// @param[in] length 1110 /// The length in bytes of \a bytes. 1111 /// 1112 /// @param[in] byte_order 1113 /// A byte order of the data that we are extracting from. 1114 /// 1115 /// @return 1116 /// The number of bytes that this object now contains. 1117 //------------------------------------------------------------------ 1118 lldb::offset_t 1119 SetData (const void *bytes, lldb::offset_t length, lldb::ByteOrder byte_order); 1120 1121 //------------------------------------------------------------------ 1122 /// Adopt a subset of \a data. 1123 /// 1124 /// Set this object's data to be a subset of the data bytes in \a 1125 /// data. If \a data contains shared data, then a reference to the 1126 /// shared data will be added to ensure the shared data stays around 1127 /// as long as any objects have references to the shared data. The 1128 /// byte order and the address size settings are copied from \a 1129 /// data. If \a offset is not a valid offset in \a data, then no 1130 /// reference to the shared data will be added. If there are not 1131 /// \a length bytes available in \a data starting at \a offset, 1132 /// the length will be truncated to contains as many bytes as 1133 /// possible. 1134 /// 1135 /// @param[in] data 1136 /// Another DataExtractor object that contains data. 1137 /// 1138 /// @param[in] offset 1139 /// The offset into \a data at which the subset starts. 1140 /// 1141 /// @param[in] length 1142 /// The length in bytes of the subset of \a data. 1143 /// 1144 /// @return 1145 /// The number of bytes that this object now contains. 1146 //------------------------------------------------------------------ 1147 lldb::offset_t 1148 SetData (const DataExtractor& data, lldb::offset_t offset, lldb::offset_t length); 1149 1150 //------------------------------------------------------------------ 1151 /// Adopt a subset of shared data in \a data_sp. 1152 /// 1153 /// Copies the data shared pointer which adds a reference to the 1154 /// contained in \a data_sp. The shared data reference is reference 1155 /// counted to ensure the data lives as long as anyone still has a 1156 /// valid shared pointer to the data in \a data_sp. The byte order 1157 /// and address byte size settings remain the same. If 1158 /// \a offset is not a valid offset in \a data_sp, then no reference 1159 /// to the shared data will be added. If there are not \a length 1160 /// bytes available in \a data starting at \a offset, the length 1161 /// will be truncated to contains as many bytes as possible. 1162 /// 1163 /// @param[in] data_sp 1164 /// A shared pointer to data. 1165 /// 1166 /// @param[in] offset 1167 /// The offset into \a data_sp at which the subset starts. 1168 /// 1169 /// @param[in] length 1170 /// The length in bytes of the subset of \a data_sp. 1171 /// 1172 /// @return 1173 /// The number of bytes that this object now contains. 1174 //------------------------------------------------------------------ 1175 lldb::offset_t 1176 SetData (const lldb::DataBufferSP& data_sp, lldb::offset_t offset = 0, lldb::offset_t length = LLDB_INVALID_OFFSET); 1177 1178 //------------------------------------------------------------------ 1179 /// Set the byte_order value. 1180 /// 1181 /// Sets the byte order of the data to extract. Extracted values 1182 /// will be swapped if necessary when decoding. 1183 /// 1184 /// @param[in] byte_order 1185 /// The byte order value to use when extracting data. 1186 //------------------------------------------------------------------ 1187 void 1188 SetByteOrder (lldb::ByteOrder byte_order) 1189 { 1190 m_byte_order = byte_order; 1191 } 1192 1193 //------------------------------------------------------------------ 1194 /// Skip an LEB128 number at \a *offset_ptr. 1195 /// 1196 /// Skips a LEB128 number (signed or unsigned) from this object's 1197 /// data starting at the offset pointed to by \a offset_ptr. The 1198 /// offset pointed to by \a offset_ptr will be updated with the 1199 /// offset of the byte following the last extracted byte. 1200 /// 1201 /// @param[in,out] offset_ptr 1202 /// A pointer to an offset within the data that will be advanced 1203 /// by the appropriate number of bytes if the value is extracted 1204 /// correctly. If the offset is out of bounds or there are not 1205 /// enough bytes to extract this value, the offset will be left 1206 /// unmodified. 1207 /// 1208 /// @return 1209 // The number of bytes consumed during the extraction. 1210 //------------------------------------------------------------------ 1211 uint32_t 1212 Skip_LEB128 (lldb::offset_t *offset_ptr) const; 1213 1214 //------------------------------------------------------------------ 1215 /// Test the validity of \a offset. 1216 /// 1217 /// @return 1218 /// \b true if \a offset is a valid offset into the data in this 1219 /// object, \b false otherwise. 1220 //------------------------------------------------------------------ 1221 bool 1222 ValidOffset (lldb::offset_t offset) const 1223 { 1224 return offset < GetByteSize(); 1225 } 1226 1227 //------------------------------------------------------------------ 1228 /// Test the availability of \a length bytes of data from \a offset. 1229 /// 1230 /// @return 1231 /// \b true if \a offset is a valid offset and there are \a 1232 /// length bytes available at that offset, \b false otherwise. 1233 //------------------------------------------------------------------ 1234 bool 1235 ValidOffsetForDataOfSize (lldb::offset_t offset, lldb::offset_t length) const 1236 { 1237 lldb::offset_t bytes_left = BytesLeft (offset); 1238 return length <= bytes_left; 1239 } 1240 1241 size_t 1242 Copy (DataExtractor& dest_data) const; 1243 1244 bool 1245 Append (DataExtractor& rhs); 1246 1247 bool 1248 Append (void* bytes, lldb::offset_t length); 1249 1250protected: 1251 1252 lldb::offset_t 1253 BytesLeft (lldb::offset_t offset) const 1254 { 1255 const lldb::offset_t size = GetByteSize(); 1256 if (offset >= size) 1257 return 0; 1258 return offset - size; 1259 } 1260 1261 //------------------------------------------------------------------ 1262 // Member variables 1263 //------------------------------------------------------------------ 1264 const uint8_t * m_start; ///< A pointer to the first byte of data. 1265 const uint8_t * m_end; ///< A pointer to the byte that is past the end of the data. 1266 lldb::ByteOrder m_byte_order; ///< The byte order of the data we are extracting from. 1267 uint32_t m_addr_size; ///< The address size to use when extracting pointers or addresses 1268 mutable lldb::DataBufferSP m_data_sp; ///< The shared pointer to data that can be shared among multilple instances 1269}; 1270 1271} // namespace lldb_private 1272 1273#endif // #if defined (__cplusplus) 1274#endif // #ifndef liblldb_DataExtractor_h_ 1275