1 //===-- LineTable.cpp -------------------------------------------*- 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 #include "lldb/Symbol/LineTable.h" 11 #include "lldb/Core/Address.h" 12 #include "lldb/Core/Module.h" 13 #include "lldb/Core/Section.h" 14 #include "lldb/Core/Stream.h" 15 #include "lldb/Symbol/CompileUnit.h" 16 #include <algorithm> 17 18 using namespace lldb; 19 using namespace lldb_private; 20 21 //---------------------------------------------------------------------- 22 // LineTable constructor 23 //---------------------------------------------------------------------- 24 LineTable::LineTable(CompileUnit *comp_unit) 25 : m_comp_unit(comp_unit), m_entries() {} 26 27 //---------------------------------------------------------------------- 28 // Destructor 29 //---------------------------------------------------------------------- 30 LineTable::~LineTable() {} 31 32 void LineTable::InsertLineEntry(lldb::addr_t file_addr, uint32_t line, 33 uint16_t column, uint16_t file_idx, 34 bool is_start_of_statement, 35 bool is_start_of_basic_block, 36 bool is_prologue_end, bool is_epilogue_begin, 37 bool is_terminal_entry) { 38 Entry entry(file_addr, line, column, file_idx, is_start_of_statement, 39 is_start_of_basic_block, is_prologue_end, is_epilogue_begin, 40 is_terminal_entry); 41 42 entry_collection::iterator begin_pos = m_entries.begin(); 43 entry_collection::iterator end_pos = m_entries.end(); 44 LineTable::Entry::LessThanBinaryPredicate less_than_bp(this); 45 entry_collection::iterator pos = 46 upper_bound(begin_pos, end_pos, entry, less_than_bp); 47 48 // Stream s(stdout); 49 // s << "\n\nBefore:\n"; 50 // Dump (&s, Address::DumpStyleFileAddress); 51 m_entries.insert(pos, entry); 52 // s << "After:\n"; 53 // Dump (&s, Address::DumpStyleFileAddress); 54 } 55 56 LineSequence::LineSequence() {} 57 58 void LineTable::LineSequenceImpl::Clear() { m_entries.clear(); } 59 60 LineSequence *LineTable::CreateLineSequenceContainer() { 61 return new LineTable::LineSequenceImpl(); 62 } 63 64 void LineTable::AppendLineEntryToSequence( 65 LineSequence *sequence, lldb::addr_t file_addr, uint32_t line, 66 uint16_t column, uint16_t file_idx, bool is_start_of_statement, 67 bool is_start_of_basic_block, bool is_prologue_end, bool is_epilogue_begin, 68 bool is_terminal_entry) { 69 assert(sequence != nullptr); 70 LineSequenceImpl *seq = reinterpret_cast<LineSequenceImpl *>(sequence); 71 Entry entry(file_addr, line, column, file_idx, is_start_of_statement, 72 is_start_of_basic_block, is_prologue_end, is_epilogue_begin, 73 is_terminal_entry); 74 entry_collection &entries = seq->m_entries; 75 // Replace the last entry if the address is the same, otherwise append it. If 76 // we have multiple 77 // line entries at the same address, this indicates illegal DWARF so this 78 // "fixes" the line table 79 // to be correct. If not fixed this can cause a line entry's address that when 80 // resolved back to 81 // a symbol context, could resolve to a different line entry. We really want a 82 // 1 to 1 mapping 83 // here to avoid these kinds of inconsistencies. We will need tor revisit this 84 // if the DWARF line 85 // tables are updated to allow multiple entries at the same address legally. 86 if (!entries.empty() && entries.back().file_addr == file_addr) { 87 // GCC don't use the is_prologue_end flag to mark the first instruction 88 // after the prologue. 89 // Instead of it it is issuing a line table entry for the first instruction 90 // of the prologue 91 // and one for the first instruction after the prologue. If the size of the 92 // prologue is 0 93 // instruction then the 2 line entry will have the same file address. 94 // Removing it will remove 95 // our ability to properly detect the location of the end of prologe so we 96 // set the prologue_end 97 // flag to preserve this information (setting the prologue_end flag for an 98 // entry what is after 99 // the prologue end don't have any effect) 100 entry.is_prologue_end = entry.file_idx == entries.back().file_idx; 101 entries.back() = entry; 102 } else 103 entries.push_back(entry); 104 } 105 106 void LineTable::InsertSequence(LineSequence *sequence) { 107 assert(sequence != nullptr); 108 LineSequenceImpl *seq = reinterpret_cast<LineSequenceImpl *>(sequence); 109 if (seq->m_entries.empty()) 110 return; 111 Entry &entry = seq->m_entries.front(); 112 113 // If the first entry address in this sequence is greater than or equal to 114 // the address of the last item in our entry collection, just append. 115 if (m_entries.empty() || 116 !Entry::EntryAddressLessThan(entry, m_entries.back())) { 117 m_entries.insert(m_entries.end(), seq->m_entries.begin(), 118 seq->m_entries.end()); 119 return; 120 } 121 122 // Otherwise, find where this belongs in the collection 123 entry_collection::iterator begin_pos = m_entries.begin(); 124 entry_collection::iterator end_pos = m_entries.end(); 125 LineTable::Entry::LessThanBinaryPredicate less_than_bp(this); 126 entry_collection::iterator pos = 127 upper_bound(begin_pos, end_pos, entry, less_than_bp); 128 129 // We should never insert a sequence in the middle of another sequence 130 if (pos != begin_pos) { 131 while (pos < end_pos && !((pos - 1)->is_terminal_entry)) 132 pos++; 133 } 134 135 #ifdef LLDB_CONFIGURATION_DEBUG 136 // If we aren't inserting at the beginning, the previous entry should 137 // terminate a sequence. 138 if (pos != begin_pos) { 139 entry_collection::iterator prev_pos = pos - 1; 140 assert(prev_pos->is_terminal_entry); 141 } 142 #endif 143 m_entries.insert(pos, seq->m_entries.begin(), seq->m_entries.end()); 144 } 145 146 //---------------------------------------------------------------------- 147 LineTable::Entry::LessThanBinaryPredicate::LessThanBinaryPredicate( 148 LineTable *line_table) 149 : m_line_table(line_table) {} 150 151 bool LineTable::Entry::LessThanBinaryPredicate:: 152 operator()(const LineTable::Entry &a, const LineTable::Entry &b) const { 153 #define LT_COMPARE(a, b) \ 154 if (a != b) \ 155 return a < b 156 LT_COMPARE(a.file_addr, b.file_addr); 157 // b and a reversed on purpose below. 158 LT_COMPARE(b.is_terminal_entry, a.is_terminal_entry); 159 LT_COMPARE(a.line, b.line); 160 LT_COMPARE(a.column, b.column); 161 LT_COMPARE(a.is_start_of_statement, b.is_start_of_statement); 162 LT_COMPARE(a.is_start_of_basic_block, b.is_start_of_basic_block); 163 // b and a reversed on purpose below. 164 LT_COMPARE(b.is_prologue_end, a.is_prologue_end); 165 LT_COMPARE(a.is_epilogue_begin, b.is_epilogue_begin); 166 LT_COMPARE(a.file_idx, b.file_idx); 167 return false; 168 #undef LT_COMPARE 169 } 170 171 uint32_t LineTable::GetSize() const { return m_entries.size(); } 172 173 bool LineTable::GetLineEntryAtIndex(uint32_t idx, LineEntry &line_entry) { 174 if (idx < m_entries.size()) { 175 ConvertEntryAtIndexToLineEntry(idx, line_entry); 176 return true; 177 } 178 line_entry.Clear(); 179 return false; 180 } 181 182 bool LineTable::FindLineEntryByAddress(const Address &so_addr, 183 LineEntry &line_entry, 184 uint32_t *index_ptr) { 185 if (index_ptr != nullptr) 186 *index_ptr = UINT32_MAX; 187 188 bool success = false; 189 190 if (so_addr.GetModule().get() == m_comp_unit->GetModule().get()) { 191 Entry search_entry; 192 search_entry.file_addr = so_addr.GetFileAddress(); 193 if (search_entry.file_addr != LLDB_INVALID_ADDRESS) { 194 entry_collection::const_iterator begin_pos = m_entries.begin(); 195 entry_collection::const_iterator end_pos = m_entries.end(); 196 entry_collection::const_iterator pos = lower_bound( 197 begin_pos, end_pos, search_entry, Entry::EntryAddressLessThan); 198 if (pos != end_pos) { 199 if (pos != begin_pos) { 200 if (pos->file_addr != search_entry.file_addr) 201 --pos; 202 else if (pos->file_addr == search_entry.file_addr) { 203 // If this is a termination entry, it shouldn't match since 204 // entries with the "is_terminal_entry" member set to true 205 // are termination entries that define the range for the 206 // previous entry. 207 if (pos->is_terminal_entry) { 208 // The matching entry is a terminal entry, so we skip 209 // ahead to the next entry to see if there is another 210 // entry following this one whose section/offset matches. 211 ++pos; 212 if (pos != end_pos) { 213 if (pos->file_addr != search_entry.file_addr) 214 pos = end_pos; 215 } 216 } 217 218 if (pos != end_pos) { 219 // While in the same section/offset backup to find the first 220 // line entry that matches the address in case there are 221 // multiple 222 while (pos != begin_pos) { 223 entry_collection::const_iterator prev_pos = pos - 1; 224 if (prev_pos->file_addr == search_entry.file_addr && 225 prev_pos->is_terminal_entry == false) 226 --pos; 227 else 228 break; 229 } 230 } 231 } 232 } 233 234 // Make sure we have a valid match and that the match isn't a 235 // terminating 236 // entry for a previous line... 237 if (pos != end_pos && pos->is_terminal_entry == false) { 238 uint32_t match_idx = std::distance(begin_pos, pos); 239 success = ConvertEntryAtIndexToLineEntry(match_idx, line_entry); 240 if (index_ptr != nullptr && success) 241 *index_ptr = match_idx; 242 } 243 } 244 } 245 } 246 return success; 247 } 248 249 bool LineTable::ConvertEntryAtIndexToLineEntry(uint32_t idx, 250 LineEntry &line_entry) { 251 if (idx < m_entries.size()) { 252 const Entry &entry = m_entries[idx]; 253 ModuleSP module_sp(m_comp_unit->GetModule()); 254 if (module_sp && 255 module_sp->ResolveFileAddress(entry.file_addr, 256 line_entry.range.GetBaseAddress())) { 257 if (!entry.is_terminal_entry && idx + 1 < m_entries.size()) 258 line_entry.range.SetByteSize(m_entries[idx + 1].file_addr - 259 entry.file_addr); 260 else 261 line_entry.range.SetByteSize(0); 262 263 line_entry.file = 264 m_comp_unit->GetSupportFiles().GetFileSpecAtIndex(entry.file_idx); 265 line_entry.original_file = 266 m_comp_unit->GetSupportFiles().GetFileSpecAtIndex(entry.file_idx); 267 line_entry.line = entry.line; 268 line_entry.column = entry.column; 269 line_entry.is_start_of_statement = entry.is_start_of_statement; 270 line_entry.is_start_of_basic_block = entry.is_start_of_basic_block; 271 line_entry.is_prologue_end = entry.is_prologue_end; 272 line_entry.is_epilogue_begin = entry.is_epilogue_begin; 273 line_entry.is_terminal_entry = entry.is_terminal_entry; 274 return true; 275 } 276 } 277 return false; 278 } 279 280 uint32_t LineTable::FindLineEntryIndexByFileIndex( 281 uint32_t start_idx, const std::vector<uint32_t> &file_indexes, 282 uint32_t line, bool exact, LineEntry *line_entry_ptr) { 283 284 const size_t count = m_entries.size(); 285 std::vector<uint32_t>::const_iterator begin_pos = file_indexes.begin(); 286 std::vector<uint32_t>::const_iterator end_pos = file_indexes.end(); 287 size_t best_match = UINT32_MAX; 288 289 for (size_t idx = start_idx; idx < count; ++idx) { 290 // Skip line table rows that terminate the previous row (is_terminal_entry 291 // is non-zero) 292 if (m_entries[idx].is_terminal_entry) 293 continue; 294 295 if (find(begin_pos, end_pos, m_entries[idx].file_idx) == end_pos) 296 continue; 297 298 // Exact match always wins. Otherwise try to find the closest line > the 299 // desired 300 // line. 301 // FIXME: Maybe want to find the line closest before and the line closest 302 // after and 303 // if they're not in the same function, don't return a match. 304 305 if (m_entries[idx].line < line) { 306 continue; 307 } else if (m_entries[idx].line == line) { 308 if (line_entry_ptr) 309 ConvertEntryAtIndexToLineEntry(idx, *line_entry_ptr); 310 return idx; 311 } else if (!exact) { 312 if (best_match == UINT32_MAX) 313 best_match = idx; 314 else if (m_entries[idx].line < m_entries[best_match].line) 315 best_match = idx; 316 } 317 } 318 319 if (best_match != UINT32_MAX) { 320 if (line_entry_ptr) 321 ConvertEntryAtIndexToLineEntry(best_match, *line_entry_ptr); 322 return best_match; 323 } 324 return UINT32_MAX; 325 } 326 327 uint32_t LineTable::FindLineEntryIndexByFileIndex(uint32_t start_idx, 328 uint32_t file_idx, 329 uint32_t line, bool exact, 330 LineEntry *line_entry_ptr) { 331 const size_t count = m_entries.size(); 332 size_t best_match = UINT32_MAX; 333 334 for (size_t idx = start_idx; idx < count; ++idx) { 335 // Skip line table rows that terminate the previous row (is_terminal_entry 336 // is non-zero) 337 if (m_entries[idx].is_terminal_entry) 338 continue; 339 340 if (m_entries[idx].file_idx != file_idx) 341 continue; 342 343 // Exact match always wins. Otherwise try to find the closest line > the 344 // desired 345 // line. 346 // FIXME: Maybe want to find the line closest before and the line closest 347 // after and 348 // if they're not in the same function, don't return a match. 349 350 if (m_entries[idx].line < line) { 351 continue; 352 } else if (m_entries[idx].line == line) { 353 if (line_entry_ptr) 354 ConvertEntryAtIndexToLineEntry(idx, *line_entry_ptr); 355 return idx; 356 } else if (!exact) { 357 if (best_match == UINT32_MAX) 358 best_match = idx; 359 else if (m_entries[idx].line < m_entries[best_match].line) 360 best_match = idx; 361 } 362 } 363 364 if (best_match != UINT32_MAX) { 365 if (line_entry_ptr) 366 ConvertEntryAtIndexToLineEntry(best_match, *line_entry_ptr); 367 return best_match; 368 } 369 return UINT32_MAX; 370 } 371 372 size_t LineTable::FineLineEntriesForFileIndex(uint32_t file_idx, bool append, 373 SymbolContextList &sc_list) { 374 375 if (!append) 376 sc_list.Clear(); 377 378 size_t num_added = 0; 379 const size_t count = m_entries.size(); 380 if (count > 0) { 381 SymbolContext sc(m_comp_unit); 382 383 for (size_t idx = 0; idx < count; ++idx) { 384 // Skip line table rows that terminate the previous row (is_terminal_entry 385 // is non-zero) 386 if (m_entries[idx].is_terminal_entry) 387 continue; 388 389 if (m_entries[idx].file_idx == file_idx) { 390 if (ConvertEntryAtIndexToLineEntry(idx, sc.line_entry)) { 391 ++num_added; 392 sc_list.Append(sc); 393 } 394 } 395 } 396 } 397 return num_added; 398 } 399 400 void LineTable::Dump(Stream *s, Target *target, Address::DumpStyle style, 401 Address::DumpStyle fallback_style, bool show_line_ranges) { 402 const size_t count = m_entries.size(); 403 LineEntry line_entry; 404 FileSpec prev_file; 405 for (size_t idx = 0; idx < count; ++idx) { 406 ConvertEntryAtIndexToLineEntry(idx, line_entry); 407 line_entry.Dump(s, target, prev_file != line_entry.original_file, style, 408 fallback_style, show_line_ranges); 409 s->EOL(); 410 prev_file = line_entry.original_file; 411 } 412 } 413 414 void LineTable::GetDescription(Stream *s, Target *target, 415 DescriptionLevel level) { 416 const size_t count = m_entries.size(); 417 LineEntry line_entry; 418 for (size_t idx = 0; idx < count; ++idx) { 419 ConvertEntryAtIndexToLineEntry(idx, line_entry); 420 line_entry.GetDescription(s, level, m_comp_unit, target, true); 421 s->EOL(); 422 } 423 } 424 425 size_t LineTable::GetContiguousFileAddressRanges(FileAddressRanges &file_ranges, 426 bool append) { 427 if (!append) 428 file_ranges.Clear(); 429 const size_t initial_count = file_ranges.GetSize(); 430 431 const size_t count = m_entries.size(); 432 LineEntry line_entry; 433 FileAddressRanges::Entry range(LLDB_INVALID_ADDRESS, 0); 434 for (size_t idx = 0; idx < count; ++idx) { 435 const Entry &entry = m_entries[idx]; 436 437 if (entry.is_terminal_entry) { 438 if (range.GetRangeBase() != LLDB_INVALID_ADDRESS) { 439 range.SetRangeEnd(entry.file_addr); 440 file_ranges.Append(range); 441 range.Clear(LLDB_INVALID_ADDRESS); 442 } 443 } else if (range.GetRangeBase() == LLDB_INVALID_ADDRESS) { 444 range.SetRangeBase(entry.file_addr); 445 } 446 } 447 return file_ranges.GetSize() - initial_count; 448 } 449 450 LineTable *LineTable::LinkLineTable(const FileRangeMap &file_range_map) { 451 std::unique_ptr<LineTable> line_table_ap(new LineTable(m_comp_unit)); 452 LineSequenceImpl sequence; 453 const size_t count = m_entries.size(); 454 LineEntry line_entry; 455 const FileRangeMap::Entry *file_range_entry = nullptr; 456 const FileRangeMap::Entry *prev_file_range_entry = nullptr; 457 lldb::addr_t prev_file_addr = LLDB_INVALID_ADDRESS; 458 bool prev_entry_was_linked = false; 459 bool range_changed = false; 460 for (size_t idx = 0; idx < count; ++idx) { 461 const Entry &entry = m_entries[idx]; 462 463 const bool end_sequence = entry.is_terminal_entry; 464 const lldb::addr_t lookup_file_addr = 465 entry.file_addr - (end_sequence ? 1 : 0); 466 if (file_range_entry == nullptr || 467 !file_range_entry->Contains(lookup_file_addr)) { 468 prev_file_range_entry = file_range_entry; 469 file_range_entry = file_range_map.FindEntryThatContains(lookup_file_addr); 470 range_changed = true; 471 } 472 473 lldb::addr_t prev_end_entry_linked_file_addr = LLDB_INVALID_ADDRESS; 474 lldb::addr_t entry_linked_file_addr = LLDB_INVALID_ADDRESS; 475 476 bool terminate_previous_entry = false; 477 if (file_range_entry) { 478 entry_linked_file_addr = entry.file_addr - 479 file_range_entry->GetRangeBase() + 480 file_range_entry->data; 481 // Determine if we need to terminate the previous entry when the previous 482 // entry was not contiguous with this one after being linked. 483 if (range_changed && prev_file_range_entry) { 484 prev_end_entry_linked_file_addr = 485 std::min<lldb::addr_t>(entry.file_addr, 486 prev_file_range_entry->GetRangeEnd()) - 487 prev_file_range_entry->GetRangeBase() + prev_file_range_entry->data; 488 if (prev_end_entry_linked_file_addr != entry_linked_file_addr) 489 terminate_previous_entry = prev_entry_was_linked; 490 } 491 } else if (prev_entry_was_linked) { 492 // This entry doesn't have a remapping and it needs to be removed. 493 // Watch out in case we need to terminate a previous entry needs to 494 // be terminated now that one line entry in a sequence is not longer 495 // valid. 496 if (!sequence.m_entries.empty() && 497 !sequence.m_entries.back().is_terminal_entry) { 498 terminate_previous_entry = true; 499 } 500 } 501 502 if (terminate_previous_entry && !sequence.m_entries.empty()) { 503 assert(prev_file_addr != LLDB_INVALID_ADDRESS); 504 sequence.m_entries.push_back(sequence.m_entries.back()); 505 if (prev_end_entry_linked_file_addr == LLDB_INVALID_ADDRESS) 506 prev_end_entry_linked_file_addr = 507 std::min<lldb::addr_t>(entry.file_addr, 508 prev_file_range_entry->GetRangeEnd()) - 509 prev_file_range_entry->GetRangeBase() + prev_file_range_entry->data; 510 sequence.m_entries.back().file_addr = prev_end_entry_linked_file_addr; 511 sequence.m_entries.back().is_terminal_entry = true; 512 513 // Append the sequence since we just terminated the previous one 514 line_table_ap->InsertSequence(&sequence); 515 sequence.Clear(); 516 } 517 518 // Now link the current entry 519 if (file_range_entry) { 520 // This entry has an address remapping and it needs to have its address 521 // relinked 522 sequence.m_entries.push_back(entry); 523 sequence.m_entries.back().file_addr = entry_linked_file_addr; 524 } 525 526 // If we have items in the sequence and the last entry is a terminal entry, 527 // insert this sequence into our new line table. 528 if (!sequence.m_entries.empty() && 529 sequence.m_entries.back().is_terminal_entry) { 530 line_table_ap->InsertSequence(&sequence); 531 sequence.Clear(); 532 prev_entry_was_linked = false; 533 } else { 534 prev_entry_was_linked = file_range_entry != nullptr; 535 } 536 prev_file_addr = entry.file_addr; 537 range_changed = false; 538 } 539 if (line_table_ap->m_entries.empty()) 540 return nullptr; 541 return line_table_ap.release(); 542 } 543