xref: /freebsd/contrib/llvm-project/lldb/source/Symbol/LineTable.cpp (revision 0fca6ea1d4eea4c934cfff25ac9ee8ad6fe95583)
1 //===-- LineTable.cpp -----------------------------------------------------===//
2 //
3 // Part of the LLVM Project, under the Apache License v2.0 with LLVM Exceptions.
4 // See https://llvm.org/LICENSE.txt for license information.
5 // SPDX-License-Identifier: Apache-2.0 WITH LLVM-exception
6 //
7 //===----------------------------------------------------------------------===//
8 
9 #include "lldb/Symbol/LineTable.h"
10 #include "lldb/Core/Address.h"
11 #include "lldb/Core/Module.h"
12 #include "lldb/Core/Section.h"
13 #include "lldb/Symbol/CompileUnit.h"
14 #include "lldb/Utility/Stream.h"
15 #include <algorithm>
16 
17 using namespace lldb;
18 using namespace lldb_private;
19 
20 // LineTable constructor
LineTable(CompileUnit * comp_unit)21 LineTable::LineTable(CompileUnit *comp_unit)
22     : m_comp_unit(comp_unit), m_entries() {}
23 
LineTable(CompileUnit * comp_unit,std::vector<std::unique_ptr<LineSequence>> && sequences)24 LineTable::LineTable(CompileUnit *comp_unit,
25                      std::vector<std::unique_ptr<LineSequence>> &&sequences)
26     : m_comp_unit(comp_unit), m_entries() {
27   LineTable::Entry::LessThanBinaryPredicate less_than_bp(this);
28   llvm::stable_sort(sequences, less_than_bp);
29   for (const auto &sequence : sequences) {
30     LineSequenceImpl *seq = static_cast<LineSequenceImpl *>(sequence.get());
31     m_entries.insert(m_entries.end(), seq->m_entries.begin(),
32                      seq->m_entries.end());
33   }
34 }
35 
36 // Destructor
37 LineTable::~LineTable() = default;
38 
InsertLineEntry(lldb::addr_t file_addr,uint32_t line,uint16_t column,uint16_t file_idx,bool is_start_of_statement,bool is_start_of_basic_block,bool is_prologue_end,bool is_epilogue_begin,bool is_terminal_entry)39 void LineTable::InsertLineEntry(lldb::addr_t file_addr, uint32_t line,
40                                 uint16_t column, uint16_t file_idx,
41                                 bool is_start_of_statement,
42                                 bool is_start_of_basic_block,
43                                 bool is_prologue_end, bool is_epilogue_begin,
44                                 bool is_terminal_entry) {
45   Entry entry(file_addr, line, column, file_idx, is_start_of_statement,
46               is_start_of_basic_block, is_prologue_end, is_epilogue_begin,
47               is_terminal_entry);
48 
49   LineTable::Entry::LessThanBinaryPredicate less_than_bp(this);
50   entry_collection::iterator pos =
51       llvm::upper_bound(m_entries, entry, less_than_bp);
52 
53   //  Stream s(stdout);
54   //  s << "\n\nBefore:\n";
55   //  Dump (&s, Address::DumpStyleFileAddress);
56   m_entries.insert(pos, entry);
57   //  s << "After:\n";
58   //  Dump (&s, Address::DumpStyleFileAddress);
59 }
60 
61 LineSequence::LineSequence() = default;
62 
Clear()63 void LineTable::LineSequenceImpl::Clear() { m_entries.clear(); }
64 
CreateLineSequenceContainer()65 std::unique_ptr<LineSequence> LineTable::CreateLineSequenceContainer() {
66   return std::make_unique<LineTable::LineSequenceImpl>();
67 }
68 
AppendLineEntryToSequence(LineSequence * sequence,lldb::addr_t file_addr,uint32_t line,uint16_t column,uint16_t file_idx,bool is_start_of_statement,bool is_start_of_basic_block,bool is_prologue_end,bool is_epilogue_begin,bool is_terminal_entry)69 void LineTable::AppendLineEntryToSequence(
70     LineSequence *sequence, lldb::addr_t file_addr, uint32_t line,
71     uint16_t column, uint16_t file_idx, bool is_start_of_statement,
72     bool is_start_of_basic_block, bool is_prologue_end, bool is_epilogue_begin,
73     bool is_terminal_entry) {
74   assert(sequence != nullptr);
75   LineSequenceImpl *seq = reinterpret_cast<LineSequenceImpl *>(sequence);
76   Entry entry(file_addr, line, column, file_idx, is_start_of_statement,
77               is_start_of_basic_block, is_prologue_end, is_epilogue_begin,
78               is_terminal_entry);
79   entry_collection &entries = seq->m_entries;
80   // Replace the last entry if the address is the same, otherwise append it. If
81   // we have multiple line entries at the same address, this indicates illegal
82   // DWARF so this "fixes" the line table to be correct. If not fixed this can
83   // cause a line entry's address that when resolved back to a symbol context,
84   // could resolve to a different line entry. We really want a
85   // 1 to 1 mapping
86   // here to avoid these kinds of inconsistencies. We will need tor revisit
87   // this if the DWARF line tables are updated to allow multiple entries at the
88   // same address legally.
89   if (!entries.empty() && entries.back().file_addr == file_addr) {
90     // GCC don't use the is_prologue_end flag to mark the first instruction
91     // after the prologue.
92     // Instead of it is issuing a line table entry for the first instruction
93     // of the prologue and one for the first instruction after the prologue. If
94     // the size of the prologue is 0 instruction then the 2 line entry will
95     // have the same file address. Removing it will remove our ability to
96     // properly detect the location of the end of prologe so we set the
97     // prologue_end flag to preserve this information (setting the prologue_end
98     // flag for an entry what is after the prologue end don't have any effect)
99     entry.is_prologue_end = entry.file_idx == entries.back().file_idx;
100     entries.back() = entry;
101   } else
102     entries.push_back(entry);
103 }
104 
InsertSequence(LineSequence * sequence)105 void LineTable::InsertSequence(LineSequence *sequence) {
106   assert(sequence != nullptr);
107   LineSequenceImpl *seq = reinterpret_cast<LineSequenceImpl *>(sequence);
108   if (seq->m_entries.empty())
109     return;
110   Entry &entry = seq->m_entries.front();
111 
112   // If the first entry address in this sequence is greater than or equal to
113   // the address of the last item in our entry collection, just append.
114   if (m_entries.empty() ||
115       !Entry::EntryAddressLessThan(entry, m_entries.back())) {
116     m_entries.insert(m_entries.end(), seq->m_entries.begin(),
117                      seq->m_entries.end());
118     return;
119   }
120 
121   // Otherwise, find where this belongs in the collection
122   entry_collection::iterator begin_pos = m_entries.begin();
123   entry_collection::iterator end_pos = m_entries.end();
124   LineTable::Entry::LessThanBinaryPredicate less_than_bp(this);
125   entry_collection::iterator pos =
126       upper_bound(begin_pos, end_pos, entry, less_than_bp);
127 
128   // We should never insert a sequence in the middle of another sequence
129   if (pos != begin_pos) {
130     while (pos < end_pos && !((pos - 1)->is_terminal_entry))
131       pos++;
132   }
133 
134 #ifndef NDEBUG
135   // If we aren't inserting at the beginning, the previous entry should
136   // terminate a sequence.
137   if (pos != begin_pos) {
138     entry_collection::iterator prev_pos = pos - 1;
139     assert(prev_pos->is_terminal_entry);
140   }
141 #endif
142   m_entries.insert(pos, seq->m_entries.begin(), seq->m_entries.end());
143 }
144 
LessThanBinaryPredicate(LineTable * line_table)145 LineTable::Entry::LessThanBinaryPredicate::LessThanBinaryPredicate(
146     LineTable *line_table)
147     : m_line_table(line_table) {}
148 
149 bool LineTable::Entry::LessThanBinaryPredicate::
operator ()(const LineTable::Entry & a,const LineTable::Entry & b) const150 operator()(const LineTable::Entry &a, const LineTable::Entry &b) const {
151 #define LT_COMPARE(a, b)                                                       \
152   if (a != b)                                                                  \
153   return a < b
154   LT_COMPARE(a.file_addr, b.file_addr);
155   // b and a reversed on purpose below.
156   LT_COMPARE(b.is_terminal_entry, a.is_terminal_entry);
157   LT_COMPARE(a.line, b.line);
158   LT_COMPARE(a.column, b.column);
159   LT_COMPARE(a.is_start_of_statement, b.is_start_of_statement);
160   LT_COMPARE(a.is_start_of_basic_block, b.is_start_of_basic_block);
161   // b and a reversed on purpose below.
162   LT_COMPARE(b.is_prologue_end, a.is_prologue_end);
163   LT_COMPARE(a.is_epilogue_begin, b.is_epilogue_begin);
164   LT_COMPARE(a.file_idx, b.file_idx);
165   return false;
166 #undef LT_COMPARE
167 }
168 
169 bool LineTable::Entry::LessThanBinaryPredicate::
operator ()(const std::unique_ptr<LineSequence> & sequence_a,const std::unique_ptr<LineSequence> & sequence_b) const170 operator()(const std::unique_ptr<LineSequence> &sequence_a,
171            const std::unique_ptr<LineSequence> &sequence_b) const {
172   auto *seq_a = static_cast<const LineSequenceImpl *>(sequence_a.get());
173   auto *seq_b = static_cast<const LineSequenceImpl *>(sequence_b.get());
174   return (*this)(seq_a->m_entries.front(), seq_b->m_entries.front());
175 }
176 
GetSize() const177 uint32_t LineTable::GetSize() const { return m_entries.size(); }
178 
GetLineEntryAtIndex(uint32_t idx,LineEntry & line_entry)179 bool LineTable::GetLineEntryAtIndex(uint32_t idx, LineEntry &line_entry) {
180   if (idx < m_entries.size()) {
181     ConvertEntryAtIndexToLineEntry(idx, line_entry);
182     return true;
183   }
184   line_entry.Clear();
185   return false;
186 }
187 
FindLineEntryByAddress(const Address & so_addr,LineEntry & line_entry,uint32_t * index_ptr)188 bool LineTable::FindLineEntryByAddress(const Address &so_addr,
189                                        LineEntry &line_entry,
190                                        uint32_t *index_ptr) {
191   if (index_ptr != nullptr)
192     *index_ptr = UINT32_MAX;
193 
194   bool success = false;
195 
196   if (so_addr.GetModule().get() == m_comp_unit->GetModule().get()) {
197     Entry search_entry;
198     search_entry.file_addr = so_addr.GetFileAddress();
199     if (search_entry.file_addr != LLDB_INVALID_ADDRESS) {
200       entry_collection::const_iterator begin_pos = m_entries.begin();
201       entry_collection::const_iterator end_pos = m_entries.end();
202       entry_collection::const_iterator pos = lower_bound(
203           begin_pos, end_pos, search_entry, Entry::EntryAddressLessThan);
204       if (pos != end_pos) {
205         if (pos != begin_pos) {
206           if (pos->file_addr != search_entry.file_addr)
207             --pos;
208           else if (pos->file_addr == search_entry.file_addr) {
209             // If this is a termination entry, it shouldn't match since entries
210             // with the "is_terminal_entry" member set to true are termination
211             // entries that define the range for the previous entry.
212             if (pos->is_terminal_entry) {
213               // The matching entry is a terminal entry, so we skip ahead to
214               // the next entry to see if there is another entry following this
215               // one whose section/offset matches.
216               ++pos;
217               if (pos != end_pos) {
218                 if (pos->file_addr != search_entry.file_addr)
219                   pos = end_pos;
220               }
221             }
222 
223             if (pos != end_pos) {
224               // While in the same section/offset backup to find the first line
225               // entry that matches the address in case there are multiple
226               while (pos != begin_pos) {
227                 entry_collection::const_iterator prev_pos = pos - 1;
228                 if (prev_pos->file_addr == search_entry.file_addr &&
229                     prev_pos->is_terminal_entry == false)
230                   --pos;
231                 else
232                   break;
233               }
234             }
235           }
236         }
237         else
238         {
239           // There might be code in the containing objfile before the first
240           // line table entry.  Make sure that does not get considered part of
241           // the first line table entry.
242           if (pos->file_addr > so_addr.GetFileAddress())
243             return false;
244         }
245 
246         // Make sure we have a valid match and that the match isn't a
247         // terminating entry for a previous line...
248         if (pos != end_pos && pos->is_terminal_entry == false) {
249           uint32_t match_idx = std::distance(begin_pos, pos);
250           success = ConvertEntryAtIndexToLineEntry(match_idx, line_entry);
251           if (index_ptr != nullptr && success)
252             *index_ptr = match_idx;
253         }
254       }
255     }
256   }
257   return success;
258 }
259 
ConvertEntryAtIndexToLineEntry(uint32_t idx,LineEntry & line_entry)260 bool LineTable::ConvertEntryAtIndexToLineEntry(uint32_t idx,
261                                                LineEntry &line_entry) {
262   if (idx >= m_entries.size())
263     return false;
264 
265   const Entry &entry = m_entries[idx];
266   ModuleSP module_sp(m_comp_unit->GetModule());
267   if (!module_sp)
268     return false;
269 
270   addr_t file_addr = entry.file_addr;
271 
272   // A terminal entry can point outside of a module or a section. Decrement the
273   // address to ensure it resolves correctly.
274   if (entry.is_terminal_entry)
275     --file_addr;
276 
277   if (!module_sp->ResolveFileAddress(file_addr,
278                                      line_entry.range.GetBaseAddress()))
279     return false;
280 
281   // Now undo the decrement above.
282   if (entry.is_terminal_entry)
283     line_entry.range.GetBaseAddress().Slide(1);
284 
285   if (!entry.is_terminal_entry && idx + 1 < m_entries.size())
286     line_entry.range.SetByteSize(m_entries[idx + 1].file_addr -
287                                  entry.file_addr);
288   else
289     line_entry.range.SetByteSize(0);
290 
291   line_entry.file_sp = std::make_shared<SupportFile>(
292       m_comp_unit->GetSupportFiles().GetFileSpecAtIndex(entry.file_idx));
293   line_entry.original_file_sp =
294       m_comp_unit->GetSupportFiles().GetSupportFileAtIndex(entry.file_idx);
295   line_entry.line = entry.line;
296   line_entry.column = entry.column;
297   line_entry.is_start_of_statement = entry.is_start_of_statement;
298   line_entry.is_start_of_basic_block = entry.is_start_of_basic_block;
299   line_entry.is_prologue_end = entry.is_prologue_end;
300   line_entry.is_epilogue_begin = entry.is_epilogue_begin;
301   line_entry.is_terminal_entry = entry.is_terminal_entry;
302   return true;
303 }
304 
FindLineEntryIndexByFileIndex(uint32_t start_idx,uint32_t file_idx,const SourceLocationSpec & src_location_spec,LineEntry * line_entry_ptr)305 uint32_t LineTable::FindLineEntryIndexByFileIndex(
306     uint32_t start_idx, uint32_t file_idx,
307     const SourceLocationSpec &src_location_spec, LineEntry *line_entry_ptr) {
308   auto file_idx_matcher = [](uint32_t file_index, uint16_t entry_file_idx) {
309     return file_index == entry_file_idx;
310   };
311   return FindLineEntryIndexByFileIndexImpl<uint32_t>(
312 
313       start_idx, file_idx, src_location_spec, line_entry_ptr, file_idx_matcher);
314 }
315 
FindLineEntryIndexByFileIndex(uint32_t start_idx,const std::vector<uint32_t> & file_idx,const SourceLocationSpec & src_location_spec,LineEntry * line_entry_ptr)316 uint32_t LineTable::FindLineEntryIndexByFileIndex(
317     uint32_t start_idx, const std::vector<uint32_t> &file_idx,
318     const SourceLocationSpec &src_location_spec, LineEntry *line_entry_ptr) {
319   auto file_idx_matcher = [](const std::vector<uint32_t> &file_indexes,
320                              uint16_t entry_file_idx) {
321     return llvm::is_contained(file_indexes, entry_file_idx);
322   };
323 
324   return FindLineEntryIndexByFileIndexImpl<std::vector<uint32_t>>(
325       start_idx, file_idx, src_location_spec, line_entry_ptr, file_idx_matcher);
326 }
327 
FindLineEntriesForFileIndex(uint32_t file_idx,bool append,SymbolContextList & sc_list)328 size_t LineTable::FindLineEntriesForFileIndex(uint32_t file_idx, bool append,
329                                               SymbolContextList &sc_list) {
330 
331   if (!append)
332     sc_list.Clear();
333 
334   size_t num_added = 0;
335   const size_t count = m_entries.size();
336   if (count > 0) {
337     SymbolContext sc(m_comp_unit);
338 
339     for (size_t idx = 0; idx < count; ++idx) {
340       // Skip line table rows that terminate the previous row
341       // (is_terminal_entry is non-zero)
342       if (m_entries[idx].is_terminal_entry)
343         continue;
344 
345       if (m_entries[idx].file_idx == file_idx) {
346         if (ConvertEntryAtIndexToLineEntry(idx, sc.line_entry)) {
347           ++num_added;
348           sc_list.Append(sc);
349         }
350       }
351     }
352   }
353   return num_added;
354 }
355 
Dump(Stream * s,Target * target,Address::DumpStyle style,Address::DumpStyle fallback_style,bool show_line_ranges)356 void LineTable::Dump(Stream *s, Target *target, Address::DumpStyle style,
357                      Address::DumpStyle fallback_style, bool show_line_ranges) {
358   const size_t count = m_entries.size();
359   LineEntry line_entry;
360   SupportFileSP prev_file;
361   for (size_t idx = 0; idx < count; ++idx) {
362     ConvertEntryAtIndexToLineEntry(idx, line_entry);
363     line_entry.Dump(s, target, !prev_file->Equal(*line_entry.original_file_sp),
364                     style, fallback_style, show_line_ranges);
365     s->EOL();
366     prev_file = line_entry.original_file_sp;
367   }
368 }
369 
GetDescription(Stream * s,Target * target,DescriptionLevel level)370 void LineTable::GetDescription(Stream *s, Target *target,
371                                DescriptionLevel level) {
372   const size_t count = m_entries.size();
373   LineEntry line_entry;
374   for (size_t idx = 0; idx < count; ++idx) {
375     ConvertEntryAtIndexToLineEntry(idx, line_entry);
376     line_entry.GetDescription(s, level, m_comp_unit, target, true);
377     s->EOL();
378   }
379 }
380 
GetContiguousFileAddressRanges(FileAddressRanges & file_ranges,bool append)381 size_t LineTable::GetContiguousFileAddressRanges(FileAddressRanges &file_ranges,
382                                                  bool append) {
383   if (!append)
384     file_ranges.Clear();
385   const size_t initial_count = file_ranges.GetSize();
386 
387   const size_t count = m_entries.size();
388   LineEntry line_entry;
389   FileAddressRanges::Entry range(LLDB_INVALID_ADDRESS, 0);
390   for (size_t idx = 0; idx < count; ++idx) {
391     const Entry &entry = m_entries[idx];
392 
393     if (entry.is_terminal_entry) {
394       if (range.GetRangeBase() != LLDB_INVALID_ADDRESS) {
395         range.SetRangeEnd(entry.file_addr);
396         file_ranges.Append(range);
397         range.Clear(LLDB_INVALID_ADDRESS);
398       }
399     } else if (range.GetRangeBase() == LLDB_INVALID_ADDRESS) {
400       range.SetRangeBase(entry.file_addr);
401     }
402   }
403   return file_ranges.GetSize() - initial_count;
404 }
405 
LinkLineTable(const FileRangeMap & file_range_map)406 LineTable *LineTable::LinkLineTable(const FileRangeMap &file_range_map) {
407   std::unique_ptr<LineTable> line_table_up(new LineTable(m_comp_unit));
408   LineSequenceImpl sequence;
409   const size_t count = m_entries.size();
410   LineEntry line_entry;
411   const FileRangeMap::Entry *file_range_entry = nullptr;
412   const FileRangeMap::Entry *prev_file_range_entry = nullptr;
413   lldb::addr_t prev_file_addr = LLDB_INVALID_ADDRESS;
414   bool prev_entry_was_linked = false;
415   bool range_changed = false;
416   for (size_t idx = 0; idx < count; ++idx) {
417     const Entry &entry = m_entries[idx];
418 
419     const bool end_sequence = entry.is_terminal_entry;
420     const lldb::addr_t lookup_file_addr =
421         entry.file_addr - (end_sequence ? 1 : 0);
422     if (file_range_entry == nullptr ||
423         !file_range_entry->Contains(lookup_file_addr)) {
424       prev_file_range_entry = file_range_entry;
425       file_range_entry = file_range_map.FindEntryThatContains(lookup_file_addr);
426       range_changed = true;
427     }
428 
429     lldb::addr_t prev_end_entry_linked_file_addr = LLDB_INVALID_ADDRESS;
430     lldb::addr_t entry_linked_file_addr = LLDB_INVALID_ADDRESS;
431 
432     bool terminate_previous_entry = false;
433     if (file_range_entry) {
434       entry_linked_file_addr = entry.file_addr -
435                                file_range_entry->GetRangeBase() +
436                                file_range_entry->data;
437       // Determine if we need to terminate the previous entry when the previous
438       // entry was not contiguous with this one after being linked.
439       if (range_changed && prev_file_range_entry) {
440         prev_end_entry_linked_file_addr =
441             std::min<lldb::addr_t>(entry.file_addr,
442                                    prev_file_range_entry->GetRangeEnd()) -
443             prev_file_range_entry->GetRangeBase() + prev_file_range_entry->data;
444         if (prev_end_entry_linked_file_addr != entry_linked_file_addr)
445           terminate_previous_entry = prev_entry_was_linked;
446       }
447     } else if (prev_entry_was_linked) {
448       // This entry doesn't have a remapping and it needs to be removed. Watch
449       // out in case we need to terminate a previous entry needs to be
450       // terminated now that one line entry in a sequence is not longer valid.
451       if (!sequence.m_entries.empty() &&
452           !sequence.m_entries.back().is_terminal_entry) {
453         terminate_previous_entry = true;
454       }
455     }
456 
457     if (terminate_previous_entry && !sequence.m_entries.empty()) {
458       assert(prev_file_addr != LLDB_INVALID_ADDRESS);
459       UNUSED_IF_ASSERT_DISABLED(prev_file_addr);
460       sequence.m_entries.push_back(sequence.m_entries.back());
461       if (prev_end_entry_linked_file_addr == LLDB_INVALID_ADDRESS)
462         prev_end_entry_linked_file_addr =
463             std::min<lldb::addr_t>(entry.file_addr,
464                                    prev_file_range_entry->GetRangeEnd()) -
465             prev_file_range_entry->GetRangeBase() + prev_file_range_entry->data;
466       sequence.m_entries.back().file_addr = prev_end_entry_linked_file_addr;
467       sequence.m_entries.back().is_terminal_entry = true;
468 
469       // Append the sequence since we just terminated the previous one
470       line_table_up->InsertSequence(&sequence);
471       sequence.Clear();
472     }
473 
474     // Now link the current entry
475     if (file_range_entry) {
476       // This entry has an address remapping and it needs to have its address
477       // relinked
478       sequence.m_entries.push_back(entry);
479       sequence.m_entries.back().file_addr = entry_linked_file_addr;
480     }
481 
482     // If we have items in the sequence and the last entry is a terminal entry,
483     // insert this sequence into our new line table.
484     if (!sequence.m_entries.empty() &&
485         sequence.m_entries.back().is_terminal_entry) {
486       line_table_up->InsertSequence(&sequence);
487       sequence.Clear();
488       prev_entry_was_linked = false;
489     } else {
490       prev_entry_was_linked = file_range_entry != nullptr;
491     }
492     prev_file_addr = entry.file_addr;
493     range_changed = false;
494   }
495   if (line_table_up->m_entries.empty())
496     return nullptr;
497   return line_table_up.release();
498 }
499