xref: /freebsd/contrib/llvm-project/llvm/lib/ProfileData/SampleProfReader.cpp (revision 62cfcf62f627e5093fb37026a6d8c98e4d2ef04c)
1 //===- SampleProfReader.cpp - Read LLVM sample profile data ---------------===//
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 // This file implements the class that reads LLVM sample profiles. It
10 // supports three file formats: text, binary and gcov.
11 //
12 // The textual representation is useful for debugging and testing purposes. The
13 // binary representation is more compact, resulting in smaller file sizes.
14 //
15 // The gcov encoding is the one generated by GCC's AutoFDO profile creation
16 // tool (https://github.com/google/autofdo)
17 //
18 // All three encodings can be used interchangeably as an input sample profile.
19 //
20 //===----------------------------------------------------------------------===//
21 
22 #include "llvm/ProfileData/SampleProfReader.h"
23 #include "llvm/ADT/DenseMap.h"
24 #include "llvm/ADT/STLExtras.h"
25 #include "llvm/ADT/StringRef.h"
26 #include "llvm/IR/ProfileSummary.h"
27 #include "llvm/ProfileData/ProfileCommon.h"
28 #include "llvm/ProfileData/SampleProf.h"
29 #include "llvm/Support/Compression.h"
30 #include "llvm/Support/ErrorOr.h"
31 #include "llvm/Support/LEB128.h"
32 #include "llvm/Support/LineIterator.h"
33 #include "llvm/Support/MD5.h"
34 #include "llvm/Support/MemoryBuffer.h"
35 #include "llvm/Support/raw_ostream.h"
36 #include <algorithm>
37 #include <cstddef>
38 #include <cstdint>
39 #include <limits>
40 #include <memory>
41 #include <system_error>
42 #include <vector>
43 
44 using namespace llvm;
45 using namespace sampleprof;
46 
47 /// Dump the function profile for \p FName.
48 ///
49 /// \param FName Name of the function to print.
50 /// \param OS Stream to emit the output to.
51 void SampleProfileReader::dumpFunctionProfile(StringRef FName,
52                                               raw_ostream &OS) {
53   OS << "Function: " << FName << ": " << Profiles[FName];
54 }
55 
56 /// Dump all the function profiles found on stream \p OS.
57 void SampleProfileReader::dump(raw_ostream &OS) {
58   for (const auto &I : Profiles)
59     dumpFunctionProfile(I.getKey(), OS);
60 }
61 
62 /// Parse \p Input as function head.
63 ///
64 /// Parse one line of \p Input, and update function name in \p FName,
65 /// function's total sample count in \p NumSamples, function's entry
66 /// count in \p NumHeadSamples.
67 ///
68 /// \returns true if parsing is successful.
69 static bool ParseHead(const StringRef &Input, StringRef &FName,
70                       uint64_t &NumSamples, uint64_t &NumHeadSamples) {
71   if (Input[0] == ' ')
72     return false;
73   size_t n2 = Input.rfind(':');
74   size_t n1 = Input.rfind(':', n2 - 1);
75   FName = Input.substr(0, n1);
76   if (Input.substr(n1 + 1, n2 - n1 - 1).getAsInteger(10, NumSamples))
77     return false;
78   if (Input.substr(n2 + 1).getAsInteger(10, NumHeadSamples))
79     return false;
80   return true;
81 }
82 
83 /// Returns true if line offset \p L is legal (only has 16 bits).
84 static bool isOffsetLegal(unsigned L) { return (L & 0xffff) == L; }
85 
86 /// Parse \p Input as line sample.
87 ///
88 /// \param Input input line.
89 /// \param IsCallsite true if the line represents an inlined callsite.
90 /// \param Depth the depth of the inline stack.
91 /// \param NumSamples total samples of the line/inlined callsite.
92 /// \param LineOffset line offset to the start of the function.
93 /// \param Discriminator discriminator of the line.
94 /// \param TargetCountMap map from indirect call target to count.
95 ///
96 /// returns true if parsing is successful.
97 static bool ParseLine(const StringRef &Input, bool &IsCallsite, uint32_t &Depth,
98                       uint64_t &NumSamples, uint32_t &LineOffset,
99                       uint32_t &Discriminator, StringRef &CalleeName,
100                       DenseMap<StringRef, uint64_t> &TargetCountMap) {
101   for (Depth = 0; Input[Depth] == ' '; Depth++)
102     ;
103   if (Depth == 0)
104     return false;
105 
106   size_t n1 = Input.find(':');
107   StringRef Loc = Input.substr(Depth, n1 - Depth);
108   size_t n2 = Loc.find('.');
109   if (n2 == StringRef::npos) {
110     if (Loc.getAsInteger(10, LineOffset) || !isOffsetLegal(LineOffset))
111       return false;
112     Discriminator = 0;
113   } else {
114     if (Loc.substr(0, n2).getAsInteger(10, LineOffset))
115       return false;
116     if (Loc.substr(n2 + 1).getAsInteger(10, Discriminator))
117       return false;
118   }
119 
120   StringRef Rest = Input.substr(n1 + 2);
121   if (Rest[0] >= '0' && Rest[0] <= '9') {
122     IsCallsite = false;
123     size_t n3 = Rest.find(' ');
124     if (n3 == StringRef::npos) {
125       if (Rest.getAsInteger(10, NumSamples))
126         return false;
127     } else {
128       if (Rest.substr(0, n3).getAsInteger(10, NumSamples))
129         return false;
130     }
131     // Find call targets and their sample counts.
132     // Note: In some cases, there are symbols in the profile which are not
133     // mangled. To accommodate such cases, use colon + integer pairs as the
134     // anchor points.
135     // An example:
136     // _M_construct<char *>:1000 string_view<std::allocator<char> >:437
137     // ":1000" and ":437" are used as anchor points so the string above will
138     // be interpreted as
139     // target: _M_construct<char *>
140     // count: 1000
141     // target: string_view<std::allocator<char> >
142     // count: 437
143     while (n3 != StringRef::npos) {
144       n3 += Rest.substr(n3).find_first_not_of(' ');
145       Rest = Rest.substr(n3);
146       n3 = Rest.find_first_of(':');
147       if (n3 == StringRef::npos || n3 == 0)
148         return false;
149 
150       StringRef Target;
151       uint64_t count, n4;
152       while (true) {
153         // Get the segment after the current colon.
154         StringRef AfterColon = Rest.substr(n3 + 1);
155         // Get the target symbol before the current colon.
156         Target = Rest.substr(0, n3);
157         // Check if the word after the current colon is an integer.
158         n4 = AfterColon.find_first_of(' ');
159         n4 = (n4 != StringRef::npos) ? n3 + n4 + 1 : Rest.size();
160         StringRef WordAfterColon = Rest.substr(n3 + 1, n4 - n3 - 1);
161         if (!WordAfterColon.getAsInteger(10, count))
162           break;
163 
164         // Try to find the next colon.
165         uint64_t n5 = AfterColon.find_first_of(':');
166         if (n5 == StringRef::npos)
167           return false;
168         n3 += n5 + 1;
169       }
170 
171       // An anchor point is found. Save the {target, count} pair
172       TargetCountMap[Target] = count;
173       if (n4 == Rest.size())
174         break;
175       // Change n3 to the next blank space after colon + integer pair.
176       n3 = n4;
177     }
178   } else {
179     IsCallsite = true;
180     size_t n3 = Rest.find_last_of(':');
181     CalleeName = Rest.substr(0, n3);
182     if (Rest.substr(n3 + 1).getAsInteger(10, NumSamples))
183       return false;
184   }
185   return true;
186 }
187 
188 /// Load samples from a text file.
189 ///
190 /// See the documentation at the top of the file for an explanation of
191 /// the expected format.
192 ///
193 /// \returns true if the file was loaded successfully, false otherwise.
194 std::error_code SampleProfileReaderText::readImpl() {
195   line_iterator LineIt(*Buffer, /*SkipBlanks=*/true, '#');
196   sampleprof_error Result = sampleprof_error::success;
197 
198   InlineCallStack InlineStack;
199 
200   for (; !LineIt.is_at_eof(); ++LineIt) {
201     if ((*LineIt)[(*LineIt).find_first_not_of(' ')] == '#')
202       continue;
203     // Read the header of each function.
204     //
205     // Note that for function identifiers we are actually expecting
206     // mangled names, but we may not always get them. This happens when
207     // the compiler decides not to emit the function (e.g., it was inlined
208     // and removed). In this case, the binary will not have the linkage
209     // name for the function, so the profiler will emit the function's
210     // unmangled name, which may contain characters like ':' and '>' in its
211     // name (member functions, templates, etc).
212     //
213     // The only requirement we place on the identifier, then, is that it
214     // should not begin with a number.
215     if ((*LineIt)[0] != ' ') {
216       uint64_t NumSamples, NumHeadSamples;
217       StringRef FName;
218       if (!ParseHead(*LineIt, FName, NumSamples, NumHeadSamples)) {
219         reportError(LineIt.line_number(),
220                     "Expected 'mangled_name:NUM:NUM', found " + *LineIt);
221         return sampleprof_error::malformed;
222       }
223       Profiles[FName] = FunctionSamples();
224       FunctionSamples &FProfile = Profiles[FName];
225       FProfile.setName(FName);
226       MergeResult(Result, FProfile.addTotalSamples(NumSamples));
227       MergeResult(Result, FProfile.addHeadSamples(NumHeadSamples));
228       InlineStack.clear();
229       InlineStack.push_back(&FProfile);
230     } else {
231       uint64_t NumSamples;
232       StringRef FName;
233       DenseMap<StringRef, uint64_t> TargetCountMap;
234       bool IsCallsite;
235       uint32_t Depth, LineOffset, Discriminator;
236       if (!ParseLine(*LineIt, IsCallsite, Depth, NumSamples, LineOffset,
237                      Discriminator, FName, TargetCountMap)) {
238         reportError(LineIt.line_number(),
239                     "Expected 'NUM[.NUM]: NUM[ mangled_name:NUM]*', found " +
240                         *LineIt);
241         return sampleprof_error::malformed;
242       }
243       if (IsCallsite) {
244         while (InlineStack.size() > Depth) {
245           InlineStack.pop_back();
246         }
247         FunctionSamples &FSamples = InlineStack.back()->functionSamplesAt(
248             LineLocation(LineOffset, Discriminator))[FName];
249         FSamples.setName(FName);
250         MergeResult(Result, FSamples.addTotalSamples(NumSamples));
251         InlineStack.push_back(&FSamples);
252       } else {
253         while (InlineStack.size() > Depth) {
254           InlineStack.pop_back();
255         }
256         FunctionSamples &FProfile = *InlineStack.back();
257         for (const auto &name_count : TargetCountMap) {
258           MergeResult(Result, FProfile.addCalledTargetSamples(
259                                   LineOffset, Discriminator, name_count.first,
260                                   name_count.second));
261         }
262         MergeResult(Result, FProfile.addBodySamples(LineOffset, Discriminator,
263                                                     NumSamples));
264       }
265     }
266   }
267   if (Result == sampleprof_error::success)
268     computeSummary();
269 
270   return Result;
271 }
272 
273 bool SampleProfileReaderText::hasFormat(const MemoryBuffer &Buffer) {
274   bool result = false;
275 
276   // Check that the first non-comment line is a valid function header.
277   line_iterator LineIt(Buffer, /*SkipBlanks=*/true, '#');
278   if (!LineIt.is_at_eof()) {
279     if ((*LineIt)[0] != ' ') {
280       uint64_t NumSamples, NumHeadSamples;
281       StringRef FName;
282       result = ParseHead(*LineIt, FName, NumSamples, NumHeadSamples);
283     }
284   }
285 
286   return result;
287 }
288 
289 template <typename T> ErrorOr<T> SampleProfileReaderBinary::readNumber() {
290   unsigned NumBytesRead = 0;
291   std::error_code EC;
292   uint64_t Val = decodeULEB128(Data, &NumBytesRead);
293 
294   if (Val > std::numeric_limits<T>::max())
295     EC = sampleprof_error::malformed;
296   else if (Data + NumBytesRead > End)
297     EC = sampleprof_error::truncated;
298   else
299     EC = sampleprof_error::success;
300 
301   if (EC) {
302     reportError(0, EC.message());
303     return EC;
304   }
305 
306   Data += NumBytesRead;
307   return static_cast<T>(Val);
308 }
309 
310 ErrorOr<StringRef> SampleProfileReaderBinary::readString() {
311   std::error_code EC;
312   StringRef Str(reinterpret_cast<const char *>(Data));
313   if (Data + Str.size() + 1 > End) {
314     EC = sampleprof_error::truncated;
315     reportError(0, EC.message());
316     return EC;
317   }
318 
319   Data += Str.size() + 1;
320   return Str;
321 }
322 
323 template <typename T>
324 ErrorOr<T> SampleProfileReaderBinary::readUnencodedNumber() {
325   std::error_code EC;
326 
327   if (Data + sizeof(T) > End) {
328     EC = sampleprof_error::truncated;
329     reportError(0, EC.message());
330     return EC;
331   }
332 
333   using namespace support;
334   T Val = endian::readNext<T, little, unaligned>(Data);
335   return Val;
336 }
337 
338 template <typename T>
339 inline ErrorOr<uint32_t> SampleProfileReaderBinary::readStringIndex(T &Table) {
340   std::error_code EC;
341   auto Idx = readNumber<uint32_t>();
342   if (std::error_code EC = Idx.getError())
343     return EC;
344   if (*Idx >= Table.size())
345     return sampleprof_error::truncated_name_table;
346   return *Idx;
347 }
348 
349 ErrorOr<StringRef> SampleProfileReaderBinary::readStringFromTable() {
350   auto Idx = readStringIndex(NameTable);
351   if (std::error_code EC = Idx.getError())
352     return EC;
353 
354   return NameTable[*Idx];
355 }
356 
357 ErrorOr<StringRef> SampleProfileReaderCompactBinary::readStringFromTable() {
358   auto Idx = readStringIndex(NameTable);
359   if (std::error_code EC = Idx.getError())
360     return EC;
361 
362   return StringRef(NameTable[*Idx]);
363 }
364 
365 std::error_code
366 SampleProfileReaderBinary::readProfile(FunctionSamples &FProfile) {
367   auto NumSamples = readNumber<uint64_t>();
368   if (std::error_code EC = NumSamples.getError())
369     return EC;
370   FProfile.addTotalSamples(*NumSamples);
371 
372   // Read the samples in the body.
373   auto NumRecords = readNumber<uint32_t>();
374   if (std::error_code EC = NumRecords.getError())
375     return EC;
376 
377   for (uint32_t I = 0; I < *NumRecords; ++I) {
378     auto LineOffset = readNumber<uint64_t>();
379     if (std::error_code EC = LineOffset.getError())
380       return EC;
381 
382     if (!isOffsetLegal(*LineOffset)) {
383       return std::error_code();
384     }
385 
386     auto Discriminator = readNumber<uint64_t>();
387     if (std::error_code EC = Discriminator.getError())
388       return EC;
389 
390     auto NumSamples = readNumber<uint64_t>();
391     if (std::error_code EC = NumSamples.getError())
392       return EC;
393 
394     auto NumCalls = readNumber<uint32_t>();
395     if (std::error_code EC = NumCalls.getError())
396       return EC;
397 
398     for (uint32_t J = 0; J < *NumCalls; ++J) {
399       auto CalledFunction(readStringFromTable());
400       if (std::error_code EC = CalledFunction.getError())
401         return EC;
402 
403       auto CalledFunctionSamples = readNumber<uint64_t>();
404       if (std::error_code EC = CalledFunctionSamples.getError())
405         return EC;
406 
407       FProfile.addCalledTargetSamples(*LineOffset, *Discriminator,
408                                       *CalledFunction, *CalledFunctionSamples);
409     }
410 
411     FProfile.addBodySamples(*LineOffset, *Discriminator, *NumSamples);
412   }
413 
414   // Read all the samples for inlined function calls.
415   auto NumCallsites = readNumber<uint32_t>();
416   if (std::error_code EC = NumCallsites.getError())
417     return EC;
418 
419   for (uint32_t J = 0; J < *NumCallsites; ++J) {
420     auto LineOffset = readNumber<uint64_t>();
421     if (std::error_code EC = LineOffset.getError())
422       return EC;
423 
424     auto Discriminator = readNumber<uint64_t>();
425     if (std::error_code EC = Discriminator.getError())
426       return EC;
427 
428     auto FName(readStringFromTable());
429     if (std::error_code EC = FName.getError())
430       return EC;
431 
432     FunctionSamples &CalleeProfile = FProfile.functionSamplesAt(
433         LineLocation(*LineOffset, *Discriminator))[*FName];
434     CalleeProfile.setName(*FName);
435     if (std::error_code EC = readProfile(CalleeProfile))
436       return EC;
437   }
438 
439   return sampleprof_error::success;
440 }
441 
442 std::error_code
443 SampleProfileReaderBinary::readFuncProfile(const uint8_t *Start) {
444   Data = Start;
445   auto NumHeadSamples = readNumber<uint64_t>();
446   if (std::error_code EC = NumHeadSamples.getError())
447     return EC;
448 
449   auto FName(readStringFromTable());
450   if (std::error_code EC = FName.getError())
451     return EC;
452 
453   Profiles[*FName] = FunctionSamples();
454   FunctionSamples &FProfile = Profiles[*FName];
455   FProfile.setName(*FName);
456 
457   FProfile.addHeadSamples(*NumHeadSamples);
458 
459   if (std::error_code EC = readProfile(FProfile))
460     return EC;
461   return sampleprof_error::success;
462 }
463 
464 std::error_code SampleProfileReaderBinary::readImpl() {
465   while (!at_eof()) {
466     if (std::error_code EC = readFuncProfile(Data))
467       return EC;
468   }
469 
470   return sampleprof_error::success;
471 }
472 
473 std::error_code
474 SampleProfileReaderExtBinary::readOneSection(const uint8_t *Start,
475                                              uint64_t Size, SecType Type) {
476   Data = Start;
477   End = Start + Size;
478   switch (Type) {
479   case SecProfSummary:
480     if (std::error_code EC = readSummary())
481       return EC;
482     break;
483   case SecNameTable:
484     if (std::error_code EC = readNameTable())
485       return EC;
486     break;
487   case SecLBRProfile:
488     if (std::error_code EC = readFuncProfiles())
489       return EC;
490     break;
491   case SecProfileSymbolList:
492     if (std::error_code EC = readProfileSymbolList())
493       return EC;
494     break;
495   case SecFuncOffsetTable:
496     if (std::error_code EC = readFuncOffsetTable())
497       return EC;
498     break;
499   default:
500     break;
501   }
502   return sampleprof_error::success;
503 }
504 
505 void SampleProfileReaderExtBinary::collectFuncsFrom(const Module &M) {
506   UseAllFuncs = false;
507   FuncsToUse.clear();
508   for (auto &F : M)
509     FuncsToUse.insert(FunctionSamples::getCanonicalFnName(F));
510 }
511 
512 std::error_code SampleProfileReaderExtBinary::readFuncOffsetTable() {
513   auto Size = readNumber<uint64_t>();
514   if (std::error_code EC = Size.getError())
515     return EC;
516 
517   FuncOffsetTable.reserve(*Size);
518   for (uint32_t I = 0; I < *Size; ++I) {
519     auto FName(readStringFromTable());
520     if (std::error_code EC = FName.getError())
521       return EC;
522 
523     auto Offset = readNumber<uint64_t>();
524     if (std::error_code EC = Offset.getError())
525       return EC;
526 
527     FuncOffsetTable[*FName] = *Offset;
528   }
529   return sampleprof_error::success;
530 }
531 
532 std::error_code SampleProfileReaderExtBinary::readFuncProfiles() {
533   const uint8_t *Start = Data;
534   if (UseAllFuncs) {
535     while (Data < End) {
536       if (std::error_code EC = readFuncProfile(Data))
537         return EC;
538     }
539     assert(Data == End && "More data is read than expected");
540     return sampleprof_error::success;
541   }
542 
543   if (Remapper) {
544     for (auto Name : FuncsToUse) {
545       Remapper->insert(Name);
546     }
547   }
548 
549   for (auto NameOffset : FuncOffsetTable) {
550     auto FuncName = NameOffset.first;
551     if (!FuncsToUse.count(FuncName) &&
552         (!Remapper || !Remapper->exist(FuncName)))
553       continue;
554     const uint8_t *FuncProfileAddr = Start + NameOffset.second;
555     assert(FuncProfileAddr < End && "out of LBRProfile section");
556     if (std::error_code EC = readFuncProfile(FuncProfileAddr))
557       return EC;
558   }
559 
560   Data = End;
561   return sampleprof_error::success;
562 }
563 
564 std::error_code SampleProfileReaderExtBinary::readProfileSymbolList() {
565   if (!ProfSymList)
566     ProfSymList = std::make_unique<ProfileSymbolList>();
567 
568   if (std::error_code EC = ProfSymList->read(Data, End - Data))
569     return EC;
570 
571   Data = End;
572   return sampleprof_error::success;
573 }
574 
575 std::error_code SampleProfileReaderExtBinaryBase::decompressSection(
576     const uint8_t *SecStart, const uint64_t SecSize,
577     const uint8_t *&DecompressBuf, uint64_t &DecompressBufSize) {
578   Data = SecStart;
579   End = SecStart + SecSize;
580   auto DecompressSize = readNumber<uint64_t>();
581   if (std::error_code EC = DecompressSize.getError())
582     return EC;
583   DecompressBufSize = *DecompressSize;
584 
585   auto CompressSize = readNumber<uint64_t>();
586   if (std::error_code EC = CompressSize.getError())
587     return EC;
588 
589   if (!llvm::zlib::isAvailable())
590     return sampleprof_error::zlib_unavailable;
591 
592   StringRef CompressedStrings(reinterpret_cast<const char *>(Data),
593                               *CompressSize);
594   char *Buffer = Allocator.Allocate<char>(DecompressBufSize);
595   size_t UCSize = DecompressBufSize;
596   llvm::Error E =
597       zlib::uncompress(CompressedStrings, Buffer, UCSize);
598   if (E)
599     return sampleprof_error::uncompress_failed;
600   DecompressBuf = reinterpret_cast<const uint8_t *>(Buffer);
601   return sampleprof_error::success;
602 }
603 
604 std::error_code SampleProfileReaderExtBinaryBase::readImpl() {
605   const uint8_t *BufStart =
606       reinterpret_cast<const uint8_t *>(Buffer->getBufferStart());
607 
608   for (auto &Entry : SecHdrTable) {
609     // Skip empty section.
610     if (!Entry.Size)
611       continue;
612 
613     const uint8_t *SecStart = BufStart + Entry.Offset;
614     uint64_t SecSize = Entry.Size;
615 
616     // If the section is compressed, decompress it into a buffer
617     // DecompressBuf before reading the actual data. The pointee of
618     // 'Data' will be changed to buffer hold by DecompressBuf
619     // temporarily when reading the actual data.
620     bool isCompressed = hasSecFlag(Entry, SecFlagCompress);
621     if (isCompressed) {
622       const uint8_t *DecompressBuf;
623       uint64_t DecompressBufSize;
624       if (std::error_code EC = decompressSection(
625               SecStart, SecSize, DecompressBuf, DecompressBufSize))
626         return EC;
627       SecStart = DecompressBuf;
628       SecSize = DecompressBufSize;
629     }
630 
631     if (std::error_code EC = readOneSection(SecStart, SecSize, Entry.Type))
632       return EC;
633     if (Data != SecStart + SecSize)
634       return sampleprof_error::malformed;
635 
636     // Change the pointee of 'Data' from DecompressBuf to original Buffer.
637     if (isCompressed) {
638       Data = BufStart + Entry.Offset;
639       End = BufStart + Buffer->getBufferSize();
640     }
641   }
642 
643   return sampleprof_error::success;
644 }
645 
646 std::error_code SampleProfileReaderCompactBinary::readImpl() {
647   std::vector<uint64_t> OffsetsToUse;
648   if (UseAllFuncs) {
649     for (auto FuncEntry : FuncOffsetTable) {
650       OffsetsToUse.push_back(FuncEntry.second);
651     }
652   }
653   else {
654     for (auto Name : FuncsToUse) {
655       auto GUID = std::to_string(MD5Hash(Name));
656       auto iter = FuncOffsetTable.find(StringRef(GUID));
657       if (iter == FuncOffsetTable.end())
658         continue;
659       OffsetsToUse.push_back(iter->second);
660     }
661   }
662 
663   for (auto Offset : OffsetsToUse) {
664     const uint8_t *SavedData = Data;
665     if (std::error_code EC = readFuncProfile(
666             reinterpret_cast<const uint8_t *>(Buffer->getBufferStart()) +
667             Offset))
668       return EC;
669     Data = SavedData;
670   }
671   return sampleprof_error::success;
672 }
673 
674 std::error_code SampleProfileReaderRawBinary::verifySPMagic(uint64_t Magic) {
675   if (Magic == SPMagic())
676     return sampleprof_error::success;
677   return sampleprof_error::bad_magic;
678 }
679 
680 std::error_code SampleProfileReaderExtBinary::verifySPMagic(uint64_t Magic) {
681   if (Magic == SPMagic(SPF_Ext_Binary))
682     return sampleprof_error::success;
683   return sampleprof_error::bad_magic;
684 }
685 
686 std::error_code
687 SampleProfileReaderCompactBinary::verifySPMagic(uint64_t Magic) {
688   if (Magic == SPMagic(SPF_Compact_Binary))
689     return sampleprof_error::success;
690   return sampleprof_error::bad_magic;
691 }
692 
693 std::error_code SampleProfileReaderBinary::readNameTable() {
694   auto Size = readNumber<uint32_t>();
695   if (std::error_code EC = Size.getError())
696     return EC;
697   NameTable.reserve(*Size);
698   for (uint32_t I = 0; I < *Size; ++I) {
699     auto Name(readString());
700     if (std::error_code EC = Name.getError())
701       return EC;
702     NameTable.push_back(*Name);
703   }
704 
705   return sampleprof_error::success;
706 }
707 
708 std::error_code SampleProfileReaderCompactBinary::readNameTable() {
709   auto Size = readNumber<uint64_t>();
710   if (std::error_code EC = Size.getError())
711     return EC;
712   NameTable.reserve(*Size);
713   for (uint32_t I = 0; I < *Size; ++I) {
714     auto FID = readNumber<uint64_t>();
715     if (std::error_code EC = FID.getError())
716       return EC;
717     NameTable.push_back(std::to_string(*FID));
718   }
719   return sampleprof_error::success;
720 }
721 
722 std::error_code SampleProfileReaderExtBinaryBase::readSecHdrTableEntry() {
723   SecHdrTableEntry Entry;
724   auto Type = readUnencodedNumber<uint64_t>();
725   if (std::error_code EC = Type.getError())
726     return EC;
727   Entry.Type = static_cast<SecType>(*Type);
728 
729   auto Flags = readUnencodedNumber<uint64_t>();
730   if (std::error_code EC = Flags.getError())
731     return EC;
732   Entry.Flags = *Flags;
733 
734   auto Offset = readUnencodedNumber<uint64_t>();
735   if (std::error_code EC = Offset.getError())
736     return EC;
737   Entry.Offset = *Offset;
738 
739   auto Size = readUnencodedNumber<uint64_t>();
740   if (std::error_code EC = Size.getError())
741     return EC;
742   Entry.Size = *Size;
743 
744   SecHdrTable.push_back(std::move(Entry));
745   return sampleprof_error::success;
746 }
747 
748 std::error_code SampleProfileReaderExtBinaryBase::readSecHdrTable() {
749   auto EntryNum = readUnencodedNumber<uint64_t>();
750   if (std::error_code EC = EntryNum.getError())
751     return EC;
752 
753   for (uint32_t i = 0; i < (*EntryNum); i++)
754     if (std::error_code EC = readSecHdrTableEntry())
755       return EC;
756 
757   return sampleprof_error::success;
758 }
759 
760 std::error_code SampleProfileReaderExtBinaryBase::readHeader() {
761   const uint8_t *BufStart =
762       reinterpret_cast<const uint8_t *>(Buffer->getBufferStart());
763   Data = BufStart;
764   End = BufStart + Buffer->getBufferSize();
765 
766   if (std::error_code EC = readMagicIdent())
767     return EC;
768 
769   if (std::error_code EC = readSecHdrTable())
770     return EC;
771 
772   return sampleprof_error::success;
773 }
774 
775 uint64_t SampleProfileReaderExtBinaryBase::getSectionSize(SecType Type) {
776   for (auto &Entry : SecHdrTable) {
777     if (Entry.Type == Type)
778       return Entry.Size;
779   }
780   return 0;
781 }
782 
783 uint64_t SampleProfileReaderExtBinaryBase::getFileSize() {
784   // Sections in SecHdrTable is not necessarily in the same order as
785   // sections in the profile because section like FuncOffsetTable needs
786   // to be written after section LBRProfile but needs to be read before
787   // section LBRProfile, so we cannot simply use the last entry in
788   // SecHdrTable to calculate the file size.
789   uint64_t FileSize = 0;
790   for (auto &Entry : SecHdrTable) {
791     FileSize = std::max(Entry.Offset + Entry.Size, FileSize);
792   }
793   return FileSize;
794 }
795 
796 bool SampleProfileReaderExtBinaryBase::dumpSectionInfo(raw_ostream &OS) {
797   uint64_t TotalSecsSize = 0;
798   for (auto &Entry : SecHdrTable) {
799     OS << getSecName(Entry.Type) << " - Offset: " << Entry.Offset
800        << ", Size: " << Entry.Size << "\n";
801     TotalSecsSize += getSectionSize(Entry.Type);
802   }
803   uint64_t HeaderSize = SecHdrTable.front().Offset;
804   assert(HeaderSize + TotalSecsSize == getFileSize() &&
805          "Size of 'header + sections' doesn't match the total size of profile");
806 
807   OS << "Header Size: " << HeaderSize << "\n";
808   OS << "Total Sections Size: " << TotalSecsSize << "\n";
809   OS << "File Size: " << getFileSize() << "\n";
810   return true;
811 }
812 
813 std::error_code SampleProfileReaderBinary::readMagicIdent() {
814   // Read and check the magic identifier.
815   auto Magic = readNumber<uint64_t>();
816   if (std::error_code EC = Magic.getError())
817     return EC;
818   else if (std::error_code EC = verifySPMagic(*Magic))
819     return EC;
820 
821   // Read the version number.
822   auto Version = readNumber<uint64_t>();
823   if (std::error_code EC = Version.getError())
824     return EC;
825   else if (*Version != SPVersion())
826     return sampleprof_error::unsupported_version;
827 
828   return sampleprof_error::success;
829 }
830 
831 std::error_code SampleProfileReaderBinary::readHeader() {
832   Data = reinterpret_cast<const uint8_t *>(Buffer->getBufferStart());
833   End = Data + Buffer->getBufferSize();
834 
835   if (std::error_code EC = readMagicIdent())
836     return EC;
837 
838   if (std::error_code EC = readSummary())
839     return EC;
840 
841   if (std::error_code EC = readNameTable())
842     return EC;
843   return sampleprof_error::success;
844 }
845 
846 std::error_code SampleProfileReaderCompactBinary::readHeader() {
847   SampleProfileReaderBinary::readHeader();
848   if (std::error_code EC = readFuncOffsetTable())
849     return EC;
850   return sampleprof_error::success;
851 }
852 
853 std::error_code SampleProfileReaderCompactBinary::readFuncOffsetTable() {
854   auto TableOffset = readUnencodedNumber<uint64_t>();
855   if (std::error_code EC = TableOffset.getError())
856     return EC;
857 
858   const uint8_t *SavedData = Data;
859   const uint8_t *TableStart =
860       reinterpret_cast<const uint8_t *>(Buffer->getBufferStart()) +
861       *TableOffset;
862   Data = TableStart;
863 
864   auto Size = readNumber<uint64_t>();
865   if (std::error_code EC = Size.getError())
866     return EC;
867 
868   FuncOffsetTable.reserve(*Size);
869   for (uint32_t I = 0; I < *Size; ++I) {
870     auto FName(readStringFromTable());
871     if (std::error_code EC = FName.getError())
872       return EC;
873 
874     auto Offset = readNumber<uint64_t>();
875     if (std::error_code EC = Offset.getError())
876       return EC;
877 
878     FuncOffsetTable[*FName] = *Offset;
879   }
880   End = TableStart;
881   Data = SavedData;
882   return sampleprof_error::success;
883 }
884 
885 void SampleProfileReaderCompactBinary::collectFuncsFrom(const Module &M) {
886   UseAllFuncs = false;
887   FuncsToUse.clear();
888   for (auto &F : M)
889     FuncsToUse.insert(FunctionSamples::getCanonicalFnName(F));
890 }
891 
892 std::error_code SampleProfileReaderBinary::readSummaryEntry(
893     std::vector<ProfileSummaryEntry> &Entries) {
894   auto Cutoff = readNumber<uint64_t>();
895   if (std::error_code EC = Cutoff.getError())
896     return EC;
897 
898   auto MinBlockCount = readNumber<uint64_t>();
899   if (std::error_code EC = MinBlockCount.getError())
900     return EC;
901 
902   auto NumBlocks = readNumber<uint64_t>();
903   if (std::error_code EC = NumBlocks.getError())
904     return EC;
905 
906   Entries.emplace_back(*Cutoff, *MinBlockCount, *NumBlocks);
907   return sampleprof_error::success;
908 }
909 
910 std::error_code SampleProfileReaderBinary::readSummary() {
911   auto TotalCount = readNumber<uint64_t>();
912   if (std::error_code EC = TotalCount.getError())
913     return EC;
914 
915   auto MaxBlockCount = readNumber<uint64_t>();
916   if (std::error_code EC = MaxBlockCount.getError())
917     return EC;
918 
919   auto MaxFunctionCount = readNumber<uint64_t>();
920   if (std::error_code EC = MaxFunctionCount.getError())
921     return EC;
922 
923   auto NumBlocks = readNumber<uint64_t>();
924   if (std::error_code EC = NumBlocks.getError())
925     return EC;
926 
927   auto NumFunctions = readNumber<uint64_t>();
928   if (std::error_code EC = NumFunctions.getError())
929     return EC;
930 
931   auto NumSummaryEntries = readNumber<uint64_t>();
932   if (std::error_code EC = NumSummaryEntries.getError())
933     return EC;
934 
935   std::vector<ProfileSummaryEntry> Entries;
936   for (unsigned i = 0; i < *NumSummaryEntries; i++) {
937     std::error_code EC = readSummaryEntry(Entries);
938     if (EC != sampleprof_error::success)
939       return EC;
940   }
941   Summary = std::make_unique<ProfileSummary>(
942       ProfileSummary::PSK_Sample, Entries, *TotalCount, *MaxBlockCount, 0,
943       *MaxFunctionCount, *NumBlocks, *NumFunctions);
944 
945   return sampleprof_error::success;
946 }
947 
948 bool SampleProfileReaderRawBinary::hasFormat(const MemoryBuffer &Buffer) {
949   const uint8_t *Data =
950       reinterpret_cast<const uint8_t *>(Buffer.getBufferStart());
951   uint64_t Magic = decodeULEB128(Data);
952   return Magic == SPMagic();
953 }
954 
955 bool SampleProfileReaderExtBinary::hasFormat(const MemoryBuffer &Buffer) {
956   const uint8_t *Data =
957       reinterpret_cast<const uint8_t *>(Buffer.getBufferStart());
958   uint64_t Magic = decodeULEB128(Data);
959   return Magic == SPMagic(SPF_Ext_Binary);
960 }
961 
962 bool SampleProfileReaderCompactBinary::hasFormat(const MemoryBuffer &Buffer) {
963   const uint8_t *Data =
964       reinterpret_cast<const uint8_t *>(Buffer.getBufferStart());
965   uint64_t Magic = decodeULEB128(Data);
966   return Magic == SPMagic(SPF_Compact_Binary);
967 }
968 
969 std::error_code SampleProfileReaderGCC::skipNextWord() {
970   uint32_t dummy;
971   if (!GcovBuffer.readInt(dummy))
972     return sampleprof_error::truncated;
973   return sampleprof_error::success;
974 }
975 
976 template <typename T> ErrorOr<T> SampleProfileReaderGCC::readNumber() {
977   if (sizeof(T) <= sizeof(uint32_t)) {
978     uint32_t Val;
979     if (GcovBuffer.readInt(Val) && Val <= std::numeric_limits<T>::max())
980       return static_cast<T>(Val);
981   } else if (sizeof(T) <= sizeof(uint64_t)) {
982     uint64_t Val;
983     if (GcovBuffer.readInt64(Val) && Val <= std::numeric_limits<T>::max())
984       return static_cast<T>(Val);
985   }
986 
987   std::error_code EC = sampleprof_error::malformed;
988   reportError(0, EC.message());
989   return EC;
990 }
991 
992 ErrorOr<StringRef> SampleProfileReaderGCC::readString() {
993   StringRef Str;
994   if (!GcovBuffer.readString(Str))
995     return sampleprof_error::truncated;
996   return Str;
997 }
998 
999 std::error_code SampleProfileReaderGCC::readHeader() {
1000   // Read the magic identifier.
1001   if (!GcovBuffer.readGCDAFormat())
1002     return sampleprof_error::unrecognized_format;
1003 
1004   // Read the version number. Note - the GCC reader does not validate this
1005   // version, but the profile creator generates v704.
1006   GCOV::GCOVVersion version;
1007   if (!GcovBuffer.readGCOVVersion(version))
1008     return sampleprof_error::unrecognized_format;
1009 
1010   if (version != GCOV::V704)
1011     return sampleprof_error::unsupported_version;
1012 
1013   // Skip the empty integer.
1014   if (std::error_code EC = skipNextWord())
1015     return EC;
1016 
1017   return sampleprof_error::success;
1018 }
1019 
1020 std::error_code SampleProfileReaderGCC::readSectionTag(uint32_t Expected) {
1021   uint32_t Tag;
1022   if (!GcovBuffer.readInt(Tag))
1023     return sampleprof_error::truncated;
1024 
1025   if (Tag != Expected)
1026     return sampleprof_error::malformed;
1027 
1028   if (std::error_code EC = skipNextWord())
1029     return EC;
1030 
1031   return sampleprof_error::success;
1032 }
1033 
1034 std::error_code SampleProfileReaderGCC::readNameTable() {
1035   if (std::error_code EC = readSectionTag(GCOVTagAFDOFileNames))
1036     return EC;
1037 
1038   uint32_t Size;
1039   if (!GcovBuffer.readInt(Size))
1040     return sampleprof_error::truncated;
1041 
1042   for (uint32_t I = 0; I < Size; ++I) {
1043     StringRef Str;
1044     if (!GcovBuffer.readString(Str))
1045       return sampleprof_error::truncated;
1046     Names.push_back(Str);
1047   }
1048 
1049   return sampleprof_error::success;
1050 }
1051 
1052 std::error_code SampleProfileReaderGCC::readFunctionProfiles() {
1053   if (std::error_code EC = readSectionTag(GCOVTagAFDOFunction))
1054     return EC;
1055 
1056   uint32_t NumFunctions;
1057   if (!GcovBuffer.readInt(NumFunctions))
1058     return sampleprof_error::truncated;
1059 
1060   InlineCallStack Stack;
1061   for (uint32_t I = 0; I < NumFunctions; ++I)
1062     if (std::error_code EC = readOneFunctionProfile(Stack, true, 0))
1063       return EC;
1064 
1065   computeSummary();
1066   return sampleprof_error::success;
1067 }
1068 
1069 std::error_code SampleProfileReaderGCC::readOneFunctionProfile(
1070     const InlineCallStack &InlineStack, bool Update, uint32_t Offset) {
1071   uint64_t HeadCount = 0;
1072   if (InlineStack.size() == 0)
1073     if (!GcovBuffer.readInt64(HeadCount))
1074       return sampleprof_error::truncated;
1075 
1076   uint32_t NameIdx;
1077   if (!GcovBuffer.readInt(NameIdx))
1078     return sampleprof_error::truncated;
1079 
1080   StringRef Name(Names[NameIdx]);
1081 
1082   uint32_t NumPosCounts;
1083   if (!GcovBuffer.readInt(NumPosCounts))
1084     return sampleprof_error::truncated;
1085 
1086   uint32_t NumCallsites;
1087   if (!GcovBuffer.readInt(NumCallsites))
1088     return sampleprof_error::truncated;
1089 
1090   FunctionSamples *FProfile = nullptr;
1091   if (InlineStack.size() == 0) {
1092     // If this is a top function that we have already processed, do not
1093     // update its profile again.  This happens in the presence of
1094     // function aliases.  Since these aliases share the same function
1095     // body, there will be identical replicated profiles for the
1096     // original function.  In this case, we simply not bother updating
1097     // the profile of the original function.
1098     FProfile = &Profiles[Name];
1099     FProfile->addHeadSamples(HeadCount);
1100     if (FProfile->getTotalSamples() > 0)
1101       Update = false;
1102   } else {
1103     // Otherwise, we are reading an inlined instance. The top of the
1104     // inline stack contains the profile of the caller. Insert this
1105     // callee in the caller's CallsiteMap.
1106     FunctionSamples *CallerProfile = InlineStack.front();
1107     uint32_t LineOffset = Offset >> 16;
1108     uint32_t Discriminator = Offset & 0xffff;
1109     FProfile = &CallerProfile->functionSamplesAt(
1110         LineLocation(LineOffset, Discriminator))[Name];
1111   }
1112   FProfile->setName(Name);
1113 
1114   for (uint32_t I = 0; I < NumPosCounts; ++I) {
1115     uint32_t Offset;
1116     if (!GcovBuffer.readInt(Offset))
1117       return sampleprof_error::truncated;
1118 
1119     uint32_t NumTargets;
1120     if (!GcovBuffer.readInt(NumTargets))
1121       return sampleprof_error::truncated;
1122 
1123     uint64_t Count;
1124     if (!GcovBuffer.readInt64(Count))
1125       return sampleprof_error::truncated;
1126 
1127     // The line location is encoded in the offset as:
1128     //   high 16 bits: line offset to the start of the function.
1129     //   low 16 bits: discriminator.
1130     uint32_t LineOffset = Offset >> 16;
1131     uint32_t Discriminator = Offset & 0xffff;
1132 
1133     InlineCallStack NewStack;
1134     NewStack.push_back(FProfile);
1135     NewStack.insert(NewStack.end(), InlineStack.begin(), InlineStack.end());
1136     if (Update) {
1137       // Walk up the inline stack, adding the samples on this line to
1138       // the total sample count of the callers in the chain.
1139       for (auto CallerProfile : NewStack)
1140         CallerProfile->addTotalSamples(Count);
1141 
1142       // Update the body samples for the current profile.
1143       FProfile->addBodySamples(LineOffset, Discriminator, Count);
1144     }
1145 
1146     // Process the list of functions called at an indirect call site.
1147     // These are all the targets that a function pointer (or virtual
1148     // function) resolved at runtime.
1149     for (uint32_t J = 0; J < NumTargets; J++) {
1150       uint32_t HistVal;
1151       if (!GcovBuffer.readInt(HistVal))
1152         return sampleprof_error::truncated;
1153 
1154       if (HistVal != HIST_TYPE_INDIR_CALL_TOPN)
1155         return sampleprof_error::malformed;
1156 
1157       uint64_t TargetIdx;
1158       if (!GcovBuffer.readInt64(TargetIdx))
1159         return sampleprof_error::truncated;
1160       StringRef TargetName(Names[TargetIdx]);
1161 
1162       uint64_t TargetCount;
1163       if (!GcovBuffer.readInt64(TargetCount))
1164         return sampleprof_error::truncated;
1165 
1166       if (Update)
1167         FProfile->addCalledTargetSamples(LineOffset, Discriminator,
1168                                          TargetName, TargetCount);
1169     }
1170   }
1171 
1172   // Process all the inlined callers into the current function. These
1173   // are all the callsites that were inlined into this function.
1174   for (uint32_t I = 0; I < NumCallsites; I++) {
1175     // The offset is encoded as:
1176     //   high 16 bits: line offset to the start of the function.
1177     //   low 16 bits: discriminator.
1178     uint32_t Offset;
1179     if (!GcovBuffer.readInt(Offset))
1180       return sampleprof_error::truncated;
1181     InlineCallStack NewStack;
1182     NewStack.push_back(FProfile);
1183     NewStack.insert(NewStack.end(), InlineStack.begin(), InlineStack.end());
1184     if (std::error_code EC = readOneFunctionProfile(NewStack, Update, Offset))
1185       return EC;
1186   }
1187 
1188   return sampleprof_error::success;
1189 }
1190 
1191 /// Read a GCC AutoFDO profile.
1192 ///
1193 /// This format is generated by the Linux Perf conversion tool at
1194 /// https://github.com/google/autofdo.
1195 std::error_code SampleProfileReaderGCC::readImpl() {
1196   // Read the string table.
1197   if (std::error_code EC = readNameTable())
1198     return EC;
1199 
1200   // Read the source profile.
1201   if (std::error_code EC = readFunctionProfiles())
1202     return EC;
1203 
1204   return sampleprof_error::success;
1205 }
1206 
1207 bool SampleProfileReaderGCC::hasFormat(const MemoryBuffer &Buffer) {
1208   StringRef Magic(reinterpret_cast<const char *>(Buffer.getBufferStart()));
1209   return Magic == "adcg*704";
1210 }
1211 
1212 void SampleProfileReaderItaniumRemapper::applyRemapping(LLVMContext &Ctx) {
1213   // If the reader is in compact format, we can't remap it because
1214   // we don't know what the original function names were.
1215   if (Reader.getFormat() == SPF_Compact_Binary) {
1216     Ctx.diagnose(DiagnosticInfoSampleProfile(
1217         Reader.getBuffer()->getBufferIdentifier(),
1218         "Profile data remapping cannot be applied to profile data "
1219         "in compact format (original mangled names are not available).",
1220         DS_Warning));
1221     return;
1222   }
1223 
1224   assert(Remappings && "should be initialized while creating remapper");
1225   for (auto &Sample : Reader.getProfiles())
1226     if (auto Key = Remappings->insert(Sample.first()))
1227       SampleMap.insert({Key, &Sample.second});
1228 
1229   RemappingApplied = true;
1230 }
1231 
1232 FunctionSamples *
1233 SampleProfileReaderItaniumRemapper::getSamplesFor(StringRef Fname) {
1234   if (auto Key = Remappings->lookup(Fname))
1235     return SampleMap.lookup(Key);
1236   return nullptr;
1237 }
1238 
1239 /// Prepare a memory buffer for the contents of \p Filename.
1240 ///
1241 /// \returns an error code indicating the status of the buffer.
1242 static ErrorOr<std::unique_ptr<MemoryBuffer>>
1243 setupMemoryBuffer(const Twine &Filename) {
1244   auto BufferOrErr = MemoryBuffer::getFileOrSTDIN(Filename);
1245   if (std::error_code EC = BufferOrErr.getError())
1246     return EC;
1247   auto Buffer = std::move(BufferOrErr.get());
1248 
1249   // Sanity check the file.
1250   if (uint64_t(Buffer->getBufferSize()) > std::numeric_limits<uint32_t>::max())
1251     return sampleprof_error::too_large;
1252 
1253   return std::move(Buffer);
1254 }
1255 
1256 /// Create a sample profile reader based on the format of the input file.
1257 ///
1258 /// \param Filename The file to open.
1259 ///
1260 /// \param C The LLVM context to use to emit diagnostics.
1261 ///
1262 /// \param RemapFilename The file used for profile remapping.
1263 ///
1264 /// \returns an error code indicating the status of the created reader.
1265 ErrorOr<std::unique_ptr<SampleProfileReader>>
1266 SampleProfileReader::create(const std::string Filename, LLVMContext &C,
1267                             const std::string RemapFilename) {
1268   auto BufferOrError = setupMemoryBuffer(Filename);
1269   if (std::error_code EC = BufferOrError.getError())
1270     return EC;
1271   return create(BufferOrError.get(), C, RemapFilename);
1272 }
1273 
1274 /// Create a sample profile remapper from the given input, to remap the
1275 /// function names in the given profile data.
1276 ///
1277 /// \param Filename The file to open.
1278 ///
1279 /// \param Reader The profile reader the remapper is going to be applied to.
1280 ///
1281 /// \param C The LLVM context to use to emit diagnostics.
1282 ///
1283 /// \returns an error code indicating the status of the created reader.
1284 ErrorOr<std::unique_ptr<SampleProfileReaderItaniumRemapper>>
1285 SampleProfileReaderItaniumRemapper::create(const std::string Filename,
1286                                            SampleProfileReader &Reader,
1287                                            LLVMContext &C) {
1288   auto BufferOrError = setupMemoryBuffer(Filename);
1289   if (std::error_code EC = BufferOrError.getError())
1290     return EC;
1291   return create(BufferOrError.get(), Reader, C);
1292 }
1293 
1294 /// Create a sample profile remapper from the given input, to remap the
1295 /// function names in the given profile data.
1296 ///
1297 /// \param B The memory buffer to create the reader from (assumes ownership).
1298 ///
1299 /// \param C The LLVM context to use to emit diagnostics.
1300 ///
1301 /// \param Reader The profile reader the remapper is going to be applied to.
1302 ///
1303 /// \returns an error code indicating the status of the created reader.
1304 ErrorOr<std::unique_ptr<SampleProfileReaderItaniumRemapper>>
1305 SampleProfileReaderItaniumRemapper::create(std::unique_ptr<MemoryBuffer> &B,
1306                                            SampleProfileReader &Reader,
1307                                            LLVMContext &C) {
1308   auto Remappings = std::make_unique<SymbolRemappingReader>();
1309   if (Error E = Remappings->read(*B.get())) {
1310     handleAllErrors(
1311         std::move(E), [&](const SymbolRemappingParseError &ParseError) {
1312           C.diagnose(DiagnosticInfoSampleProfile(B->getBufferIdentifier(),
1313                                                  ParseError.getLineNum(),
1314                                                  ParseError.getMessage()));
1315         });
1316     return sampleprof_error::malformed;
1317   }
1318 
1319   return std::make_unique<SampleProfileReaderItaniumRemapper>(
1320       std::move(B), std::move(Remappings), Reader);
1321 }
1322 
1323 /// Create a sample profile reader based on the format of the input data.
1324 ///
1325 /// \param B The memory buffer to create the reader from (assumes ownership).
1326 ///
1327 /// \param C The LLVM context to use to emit diagnostics.
1328 ///
1329 /// \param RemapFilename The file used for profile remapping.
1330 ///
1331 /// \returns an error code indicating the status of the created reader.
1332 ErrorOr<std::unique_ptr<SampleProfileReader>>
1333 SampleProfileReader::create(std::unique_ptr<MemoryBuffer> &B, LLVMContext &C,
1334                             const std::string RemapFilename) {
1335   std::unique_ptr<SampleProfileReader> Reader;
1336   if (SampleProfileReaderRawBinary::hasFormat(*B))
1337     Reader.reset(new SampleProfileReaderRawBinary(std::move(B), C));
1338   else if (SampleProfileReaderExtBinary::hasFormat(*B))
1339     Reader.reset(new SampleProfileReaderExtBinary(std::move(B), C));
1340   else if (SampleProfileReaderCompactBinary::hasFormat(*B))
1341     Reader.reset(new SampleProfileReaderCompactBinary(std::move(B), C));
1342   else if (SampleProfileReaderGCC::hasFormat(*B))
1343     Reader.reset(new SampleProfileReaderGCC(std::move(B), C));
1344   else if (SampleProfileReaderText::hasFormat(*B))
1345     Reader.reset(new SampleProfileReaderText(std::move(B), C));
1346   else
1347     return sampleprof_error::unrecognized_format;
1348 
1349   if (!RemapFilename.empty()) {
1350     auto ReaderOrErr =
1351         SampleProfileReaderItaniumRemapper::create(RemapFilename, *Reader, C);
1352     if (std::error_code EC = ReaderOrErr.getError()) {
1353       std::string Msg = "Could not create remapper: " + EC.message();
1354       C.diagnose(DiagnosticInfoSampleProfile(RemapFilename, Msg));
1355       return EC;
1356     }
1357     Reader->Remapper = std::move(ReaderOrErr.get());
1358   }
1359 
1360   FunctionSamples::Format = Reader->getFormat();
1361   if (std::error_code EC = Reader->readHeader()) {
1362     return EC;
1363   }
1364 
1365   return std::move(Reader);
1366 }
1367 
1368 // For text and GCC file formats, we compute the summary after reading the
1369 // profile. Binary format has the profile summary in its header.
1370 void SampleProfileReader::computeSummary() {
1371   SampleProfileSummaryBuilder Builder(ProfileSummaryBuilder::DefaultCutoffs);
1372   for (const auto &I : Profiles) {
1373     const FunctionSamples &Profile = I.second;
1374     Builder.addRecord(Profile);
1375   }
1376   Summary = Builder.getSummary();
1377 }
1378