xref: /freebsd/contrib/llvm-project/compiler-rt/lib/fuzzer/FuzzerMerge.cpp (revision f126890ac5386406dadf7c4cfa9566cbb56537c5)
1 //===- FuzzerMerge.cpp - merging corpora ----------------------------------===//
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 // Merging corpora.
9 //===----------------------------------------------------------------------===//
10 
11 #include "FuzzerCommand.h"
12 #include "FuzzerMerge.h"
13 #include "FuzzerIO.h"
14 #include "FuzzerInternal.h"
15 #include "FuzzerTracePC.h"
16 #include "FuzzerUtil.h"
17 
18 #include <fstream>
19 #include <iterator>
20 #include <set>
21 #include <sstream>
22 #include <unordered_set>
23 
24 namespace fuzzer {
25 
26 bool Merger::Parse(const std::string &Str, bool ParseCoverage) {
27   std::istringstream SS(Str);
28   return Parse(SS, ParseCoverage);
29 }
30 
31 void Merger::ParseOrExit(std::istream &IS, bool ParseCoverage) {
32   if (!Parse(IS, ParseCoverage)) {
33     Printf("MERGE: failed to parse the control file (unexpected error)\n");
34     exit(1);
35   }
36 }
37 
38 // The control file example:
39 //
40 // 3 # The number of inputs
41 // 1 # The number of inputs in the first corpus, <= the previous number
42 // file0
43 // file1
44 // file2  # One file name per line.
45 // STARTED 0 123  # FileID, file size
46 // FT 0 1 4 6 8  # FileID COV1 COV2 ...
47 // COV 0 7 8 9 # FileID COV1 COV1
48 // STARTED 1 456  # If FT is missing, the input crashed while processing.
49 // STARTED 2 567
50 // FT 2 8 9
51 // COV 2 11 12
52 bool Merger::Parse(std::istream &IS, bool ParseCoverage) {
53   LastFailure.clear();
54   std::string Line;
55 
56   // Parse NumFiles.
57   if (!std::getline(IS, Line, '\n')) return false;
58   std::istringstream L1(Line);
59   size_t NumFiles = 0;
60   L1 >> NumFiles;
61   if (NumFiles == 0 || NumFiles > 10000000) return false;
62 
63   // Parse NumFilesInFirstCorpus.
64   if (!std::getline(IS, Line, '\n')) return false;
65   std::istringstream L2(Line);
66   NumFilesInFirstCorpus = NumFiles + 1;
67   L2 >> NumFilesInFirstCorpus;
68   if (NumFilesInFirstCorpus > NumFiles) return false;
69 
70   // Parse file names.
71   Files.resize(NumFiles);
72   for (size_t i = 0; i < NumFiles; i++)
73     if (!std::getline(IS, Files[i].Name, '\n'))
74       return false;
75 
76   // Parse STARTED, FT, and COV lines.
77   size_t ExpectedStartMarker = 0;
78   const size_t kInvalidStartMarker = -1;
79   size_t LastSeenStartMarker = kInvalidStartMarker;
80   bool HaveFtMarker = true;
81   std::vector<uint32_t> TmpFeatures;
82   std::set<uint32_t> PCs;
83   while (std::getline(IS, Line, '\n')) {
84     std::istringstream ISS1(Line);
85     std::string Marker;
86     uint32_t N;
87     if (!(ISS1 >> Marker) || !(ISS1 >> N))
88       return false;
89     if (Marker == "STARTED") {
90       // STARTED FILE_ID FILE_SIZE
91       if (ExpectedStartMarker != N)
92         return false;
93       ISS1 >> Files[ExpectedStartMarker].Size;
94       LastSeenStartMarker = ExpectedStartMarker;
95       assert(ExpectedStartMarker < Files.size());
96       ExpectedStartMarker++;
97       HaveFtMarker = false;
98     } else if (Marker == "FT") {
99       // FT FILE_ID COV1 COV2 COV3 ...
100       size_t CurrentFileIdx = N;
101       if (CurrentFileIdx != LastSeenStartMarker)
102         return false;
103       HaveFtMarker = true;
104       if (ParseCoverage) {
105         TmpFeatures.clear();  // use a vector from outer scope to avoid resizes.
106         while (ISS1 >> N)
107           TmpFeatures.push_back(N);
108         std::sort(TmpFeatures.begin(), TmpFeatures.end());
109         Files[CurrentFileIdx].Features = TmpFeatures;
110       }
111     } else if (Marker == "COV") {
112       size_t CurrentFileIdx = N;
113       if (CurrentFileIdx != LastSeenStartMarker)
114         return false;
115       if (ParseCoverage)
116         while (ISS1 >> N)
117           if (PCs.insert(N).second)
118             Files[CurrentFileIdx].Cov.push_back(N);
119     } else {
120       return false;
121     }
122   }
123   if (!HaveFtMarker && LastSeenStartMarker != kInvalidStartMarker)
124     LastFailure = Files[LastSeenStartMarker].Name;
125 
126   FirstNotProcessedFile = ExpectedStartMarker;
127   return true;
128 }
129 
130 size_t Merger::ApproximateMemoryConsumption() const  {
131   size_t Res = 0;
132   for (const auto &F: Files)
133     Res += sizeof(F) + F.Features.size() * sizeof(F.Features[0]);
134   return Res;
135 }
136 
137 // Decides which files need to be merged (add those to NewFiles).
138 // Returns the number of new features added.
139 size_t Merger::Merge(const std::set<uint32_t> &InitialFeatures,
140                      std::set<uint32_t> *NewFeatures,
141                      const std::set<uint32_t> &InitialCov,
142                      std::set<uint32_t> *NewCov,
143                      std::vector<std::string> *NewFiles) {
144   NewFiles->clear();
145   NewFeatures->clear();
146   NewCov->clear();
147   assert(NumFilesInFirstCorpus <= Files.size());
148   std::set<uint32_t> AllFeatures = InitialFeatures;
149 
150   // What features are in the initial corpus?
151   for (size_t i = 0; i < NumFilesInFirstCorpus; i++) {
152     auto &Cur = Files[i].Features;
153     AllFeatures.insert(Cur.begin(), Cur.end());
154   }
155   // Remove all features that we already know from all other inputs.
156   for (size_t i = NumFilesInFirstCorpus; i < Files.size(); i++) {
157     auto &Cur = Files[i].Features;
158     std::vector<uint32_t> Tmp;
159     std::set_difference(Cur.begin(), Cur.end(), AllFeatures.begin(),
160                         AllFeatures.end(), std::inserter(Tmp, Tmp.begin()));
161     Cur.swap(Tmp);
162   }
163 
164   // Sort. Give preference to
165   //   * smaller files
166   //   * files with more features.
167   std::sort(Files.begin() + NumFilesInFirstCorpus, Files.end(),
168             [&](const MergeFileInfo &a, const MergeFileInfo &b) -> bool {
169               if (a.Size != b.Size)
170                 return a.Size < b.Size;
171               return a.Features.size() > b.Features.size();
172             });
173 
174   // One greedy pass: add the file's features to AllFeatures.
175   // If new features were added, add this file to NewFiles.
176   for (size_t i = NumFilesInFirstCorpus; i < Files.size(); i++) {
177     auto &Cur = Files[i].Features;
178     // Printf("%s -> sz %zd ft %zd\n", Files[i].Name.c_str(),
179     //       Files[i].Size, Cur.size());
180     bool FoundNewFeatures = false;
181     for (auto Fe: Cur) {
182       if (AllFeatures.insert(Fe).second) {
183         FoundNewFeatures = true;
184         NewFeatures->insert(Fe);
185       }
186     }
187     if (FoundNewFeatures)
188       NewFiles->push_back(Files[i].Name);
189     for (auto Cov : Files[i].Cov)
190       if (InitialCov.find(Cov) == InitialCov.end())
191         NewCov->insert(Cov);
192   }
193   return NewFeatures->size();
194 }
195 
196 std::set<uint32_t> Merger::AllFeatures() const {
197   std::set<uint32_t> S;
198   for (auto &File : Files)
199     S.insert(File.Features.begin(), File.Features.end());
200   return S;
201 }
202 
203 // Inner process. May crash if the target crashes.
204 void Fuzzer::CrashResistantMergeInternalStep(const std::string &CFPath,
205                                              bool IsSetCoverMerge) {
206   Printf("MERGE-INNER: using the control file '%s'\n", CFPath.c_str());
207   Merger M;
208   std::ifstream IF(CFPath);
209   M.ParseOrExit(IF, false);
210   IF.close();
211   if (!M.LastFailure.empty())
212     Printf("MERGE-INNER: '%s' caused a failure at the previous merge step\n",
213            M.LastFailure.c_str());
214 
215   Printf("MERGE-INNER: %zd total files;"
216          " %zd processed earlier; will process %zd files now\n",
217          M.Files.size(), M.FirstNotProcessedFile,
218          M.Files.size() - M.FirstNotProcessedFile);
219 
220   std::ofstream OF(CFPath, std::ofstream::out | std::ofstream::app);
221   std::set<size_t> AllFeatures;
222   auto PrintStatsWrapper = [this, &AllFeatures](const char* Where) {
223     this->PrintStats(Where, "\n", 0, AllFeatures.size());
224   };
225   std::set<const TracePC::PCTableEntry *> AllPCs;
226   for (size_t i = M.FirstNotProcessedFile; i < M.Files.size(); i++) {
227     Fuzzer::MaybeExitGracefully();
228     auto U = FileToVector(M.Files[i].Name);
229     if (U.size() > MaxInputLen) {
230       U.resize(MaxInputLen);
231       U.shrink_to_fit();
232     }
233 
234     // Write the pre-run marker.
235     OF << "STARTED " << i << " " << U.size() << "\n";
236     OF.flush();  // Flush is important since Command::Execute may crash.
237     // Run.
238     TPC.ResetMaps();
239     ExecuteCallback(U.data(), U.size());
240     // Collect coverage. We are iterating over the files in this order:
241     // * First, files in the initial corpus ordered by size, smallest first.
242     // * Then, all other files, smallest first.
243     std::set<size_t> Features;
244     if (IsSetCoverMerge)
245       TPC.CollectFeatures([&](size_t Feature) { Features.insert(Feature); });
246     else
247       TPC.CollectFeatures([&](size_t Feature) {
248         if (AllFeatures.insert(Feature).second)
249           Features.insert(Feature);
250       });
251     TPC.UpdateObservedPCs();
252     // Show stats.
253     if (!(TotalNumberOfRuns & (TotalNumberOfRuns - 1)))
254       PrintStatsWrapper("pulse ");
255     if (TotalNumberOfRuns == M.NumFilesInFirstCorpus)
256       PrintStatsWrapper("LOADED");
257     // Write the post-run marker and the coverage.
258     OF << "FT " << i;
259     for (size_t F : Features)
260       OF << " " << F;
261     OF << "\n";
262     OF << "COV " << i;
263     TPC.ForEachObservedPC([&](const TracePC::PCTableEntry *TE) {
264       if (AllPCs.insert(TE).second)
265         OF << " " << TPC.PCTableEntryIdx(TE);
266     });
267     OF << "\n";
268     OF.flush();
269   }
270   PrintStatsWrapper("DONE  ");
271 }
272 
273 // Merges all corpora into the first corpus. A file is added into
274 // the first corpus only if it adds new features. Unlike `Merger::Merge`,
275 // this implementation calculates an approximation of the minimum set
276 // of corpora files, that cover all known features (set cover problem).
277 // Generally, this means that files with more features are preferred for
278 // merge into the first corpus. When two files have the same number of
279 // features, the smaller one is preferred.
280 size_t Merger::SetCoverMerge(const std::set<uint32_t> &InitialFeatures,
281                              std::set<uint32_t> *NewFeatures,
282                              const std::set<uint32_t> &InitialCov,
283                              std::set<uint32_t> *NewCov,
284                              std::vector<std::string> *NewFiles) {
285   assert(NumFilesInFirstCorpus <= Files.size());
286   NewFiles->clear();
287   NewFeatures->clear();
288   NewCov->clear();
289   std::set<uint32_t> AllFeatures;
290   // 1 << 21 - 1 is the maximum feature index.
291   // See 'kFeatureSetSize' in 'FuzzerCorpus.h'.
292   const uint32_t kFeatureSetSize = 1 << 21;
293   std::vector<bool> Covered(kFeatureSetSize, false);
294   size_t NumCovered = 0;
295 
296   std::set<uint32_t> ExistingFeatures = InitialFeatures;
297   for (size_t i = 0; i < NumFilesInFirstCorpus; ++i)
298     ExistingFeatures.insert(Files[i].Features.begin(), Files[i].Features.end());
299 
300   // Mark the existing features as covered.
301   for (const auto &F : ExistingFeatures) {
302     if (!Covered[F % kFeatureSetSize]) {
303       ++NumCovered;
304       Covered[F % kFeatureSetSize] = true;
305     }
306     // Calculate an underestimation of the set of covered features
307     // since the `Covered` bitvector is smaller than the feature range.
308     AllFeatures.insert(F % kFeatureSetSize);
309   }
310 
311   std::set<size_t> RemainingFiles;
312   for (size_t i = NumFilesInFirstCorpus; i < Files.size(); ++i) {
313     // Construct an incremental sequence which represent the
314     // indices to all files (excluding those in the initial corpus).
315     // RemainingFiles = range(NumFilesInFirstCorpus..Files.size()).
316     RemainingFiles.insert(i);
317     // Insert this file's unique features to all features.
318     for (const auto &F : Files[i].Features)
319       AllFeatures.insert(F % kFeatureSetSize);
320   }
321 
322   // Integrate files into Covered until set is complete.
323   while (NumCovered != AllFeatures.size()) {
324     // Index to file with largest number of unique features.
325     size_t MaxFeaturesIndex = NumFilesInFirstCorpus;
326     // Indices to remove from RemainingFiles.
327     std::set<size_t> RemoveIndices;
328     // Running max unique feature count.
329     // Updated upon finding a file with more features.
330     size_t MaxNumFeatures = 0;
331 
332     // Iterate over all files not yet integrated into Covered,
333     // to find the file which has the largest number of
334     // features that are not already in Covered.
335     for (const auto &i : RemainingFiles) {
336       const auto &File = Files[i];
337       size_t CurrentUnique = 0;
338       // Count number of features in this file
339       // which are not yet in Covered.
340       for (const auto &F : File.Features)
341         if (!Covered[F % kFeatureSetSize])
342           ++CurrentUnique;
343 
344       if (CurrentUnique == 0) {
345         // All features in this file are already in Covered: skip next time.
346         RemoveIndices.insert(i);
347       } else if (CurrentUnique > MaxNumFeatures ||
348                  (CurrentUnique == MaxNumFeatures &&
349                   File.Size < Files[MaxFeaturesIndex].Size)) {
350         // Update the max features file based on unique features
351         // Break ties by selecting smaller files.
352         MaxNumFeatures = CurrentUnique;
353         MaxFeaturesIndex = i;
354       }
355     }
356     // Must be a valid index/
357     assert(MaxFeaturesIndex < Files.size());
358     // Remove any feature-less files found.
359     for (const auto &i : RemoveIndices)
360       RemainingFiles.erase(i);
361     if (MaxNumFeatures == 0) {
362       // Did not find a file that adds unique features.
363       // This means that we should have no remaining files.
364       assert(RemainingFiles.size() == 0);
365       assert(NumCovered == AllFeatures.size());
366       break;
367     }
368 
369     // MaxFeaturesIndex must be an element of Remaining.
370     assert(RemainingFiles.find(MaxFeaturesIndex) != RemainingFiles.end());
371     // Remove the file with the most features from Remaining.
372     RemainingFiles.erase(MaxFeaturesIndex);
373     const auto &MaxFeatureFile = Files[MaxFeaturesIndex];
374     // Add the features of the max feature file to Covered.
375     for (const auto &F : MaxFeatureFile.Features) {
376       if (!Covered[F % kFeatureSetSize]) {
377         ++NumCovered;
378         Covered[F % kFeatureSetSize] = true;
379         NewFeatures->insert(F);
380       }
381     }
382     // Add the index to this file to the result.
383     NewFiles->push_back(MaxFeatureFile.Name);
384     // Update NewCov with the additional coverage
385     // that MaxFeatureFile provides.
386     for (const auto &C : MaxFeatureFile.Cov)
387       if (InitialCov.find(C) == InitialCov.end())
388         NewCov->insert(C);
389   }
390 
391   return NewFeatures->size();
392 }
393 
394 static size_t
395 WriteNewControlFile(const std::string &CFPath,
396                     const std::vector<SizedFile> &OldCorpus,
397                     const std::vector<SizedFile> &NewCorpus,
398                     const std::vector<MergeFileInfo> &KnownFiles) {
399   std::unordered_set<std::string> FilesToSkip;
400   for (auto &SF: KnownFiles)
401     FilesToSkip.insert(SF.Name);
402 
403   std::vector<std::string> FilesToUse;
404   auto MaybeUseFile = [=, &FilesToUse](std::string Name) {
405     if (FilesToSkip.find(Name) == FilesToSkip.end())
406       FilesToUse.push_back(Name);
407   };
408   for (auto &SF: OldCorpus)
409     MaybeUseFile(SF.File);
410   auto FilesToUseFromOldCorpus = FilesToUse.size();
411   for (auto &SF: NewCorpus)
412     MaybeUseFile(SF.File);
413 
414   RemoveFile(CFPath);
415   std::ofstream ControlFile(CFPath);
416   ControlFile << FilesToUse.size() << "\n";
417   ControlFile << FilesToUseFromOldCorpus << "\n";
418   for (auto &FN: FilesToUse)
419     ControlFile << FN << "\n";
420 
421   if (!ControlFile) {
422     Printf("MERGE-OUTER: failed to write to the control file: %s\n",
423            CFPath.c_str());
424     exit(1);
425   }
426 
427   return FilesToUse.size();
428 }
429 
430 // Outer process. Does not call the target code and thus should not fail.
431 void CrashResistantMerge(const std::vector<std::string> &Args,
432                          const std::vector<SizedFile> &OldCorpus,
433                          const std::vector<SizedFile> &NewCorpus,
434                          std::vector<std::string> *NewFiles,
435                          const std::set<uint32_t> &InitialFeatures,
436                          std::set<uint32_t> *NewFeatures,
437                          const std::set<uint32_t> &InitialCov,
438                          std::set<uint32_t> *NewCov, const std::string &CFPath,
439                          bool V, /*Verbose*/
440                          bool IsSetCoverMerge) {
441   if (NewCorpus.empty() && OldCorpus.empty()) return;  // Nothing to merge.
442   size_t NumAttempts = 0;
443   std::vector<MergeFileInfo> KnownFiles;
444   if (FileSize(CFPath)) {
445     VPrintf(V, "MERGE-OUTER: non-empty control file provided: '%s'\n",
446            CFPath.c_str());
447     Merger M;
448     std::ifstream IF(CFPath);
449     if (M.Parse(IF, /*ParseCoverage=*/true)) {
450       VPrintf(V, "MERGE-OUTER: control file ok, %zd files total,"
451              " first not processed file %zd\n",
452              M.Files.size(), M.FirstNotProcessedFile);
453       if (!M.LastFailure.empty())
454         VPrintf(V, "MERGE-OUTER: '%s' will be skipped as unlucky "
455                "(merge has stumbled on it the last time)\n",
456                M.LastFailure.c_str());
457       if (M.FirstNotProcessedFile >= M.Files.size()) {
458         // Merge has already been completed with the given merge control file.
459         if (M.Files.size() == OldCorpus.size() + NewCorpus.size()) {
460           VPrintf(
461               V,
462               "MERGE-OUTER: nothing to do, merge has been completed before\n");
463           exit(0);
464         }
465 
466         // Number of input files likely changed, start merge from scratch, but
467         // reuse coverage information from the given merge control file.
468         VPrintf(
469             V,
470             "MERGE-OUTER: starting merge from scratch, but reusing coverage "
471             "information from the given control file\n");
472         KnownFiles = M.Files;
473       } else {
474         // There is a merge in progress, continue.
475         NumAttempts = M.Files.size() - M.FirstNotProcessedFile;
476       }
477     } else {
478       VPrintf(V, "MERGE-OUTER: bad control file, will overwrite it\n");
479     }
480   }
481 
482   if (!NumAttempts) {
483     // The supplied control file is empty or bad, create a fresh one.
484     VPrintf(V, "MERGE-OUTER: "
485             "%zd files, %zd in the initial corpus, %zd processed earlier\n",
486             OldCorpus.size() + NewCorpus.size(), OldCorpus.size(),
487             KnownFiles.size());
488     NumAttempts = WriteNewControlFile(CFPath, OldCorpus, NewCorpus, KnownFiles);
489   }
490 
491   // Execute the inner process until it passes.
492   // Every inner process should execute at least one input.
493   Command BaseCmd(Args);
494   BaseCmd.removeFlag("merge");
495   BaseCmd.removeFlag("set_cover_merge");
496   BaseCmd.removeFlag("fork");
497   BaseCmd.removeFlag("collect_data_flow");
498   for (size_t Attempt = 1; Attempt <= NumAttempts; Attempt++) {
499     Fuzzer::MaybeExitGracefully();
500     VPrintf(V, "MERGE-OUTER: attempt %zd\n", Attempt);
501     Command Cmd(BaseCmd);
502     Cmd.addFlag("merge_control_file", CFPath);
503     // If we are going to use the set cover implementation for
504     // minimization add the merge_inner=2 internal flag.
505     Cmd.addFlag("merge_inner", IsSetCoverMerge ? "2" : "1");
506     if (!V) {
507       Cmd.setOutputFile(getDevNull());
508       Cmd.combineOutAndErr();
509     }
510     auto ExitCode = ExecuteCommand(Cmd);
511     if (!ExitCode) {
512       VPrintf(V, "MERGE-OUTER: successful in %zd attempt(s)\n", Attempt);
513       break;
514     }
515   }
516   // Read the control file and do the merge.
517   Merger M;
518   std::ifstream IF(CFPath);
519   IF.seekg(0, IF.end);
520   VPrintf(V, "MERGE-OUTER: the control file has %zd bytes\n",
521           (size_t)IF.tellg());
522   IF.seekg(0, IF.beg);
523   M.ParseOrExit(IF, true);
524   IF.close();
525   VPrintf(V,
526           "MERGE-OUTER: consumed %zdMb (%zdMb rss) to parse the control file\n",
527           M.ApproximateMemoryConsumption() >> 20, GetPeakRSSMb());
528 
529   M.Files.insert(M.Files.end(), KnownFiles.begin(), KnownFiles.end());
530   if (IsSetCoverMerge)
531     M.SetCoverMerge(InitialFeatures, NewFeatures, InitialCov, NewCov, NewFiles);
532   else
533     M.Merge(InitialFeatures, NewFeatures, InitialCov, NewCov, NewFiles);
534   VPrintf(V, "MERGE-OUTER: %zd new files with %zd new features added; "
535           "%zd new coverage edges\n",
536          NewFiles->size(), NewFeatures->size(), NewCov->size());
537 }
538 
539 } // namespace fuzzer
540