xref: /freebsd/contrib/llvm-project/llvm/lib/Object/DXContainer.cpp (revision 7fdf597e96a02165cfe22ff357b857d5fa15ed8a)
1 //===- DXContainer.cpp - DXContainer object file implementation -----------===//
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 "llvm/Object/DXContainer.h"
10 #include "llvm/BinaryFormat/DXContainer.h"
11 #include "llvm/Object/Error.h"
12 #include "llvm/Support/Alignment.h"
13 #include "llvm/Support/FormatVariadic.h"
14 
15 using namespace llvm;
16 using namespace llvm::object;
17 
18 static Error parseFailed(const Twine &Msg) {
19   return make_error<GenericBinaryError>(Msg.str(), object_error::parse_failed);
20 }
21 
22 template <typename T>
23 static Error readStruct(StringRef Buffer, const char *Src, T &Struct) {
24   // Don't read before the beginning or past the end of the file
25   if (Src < Buffer.begin() || Src + sizeof(T) > Buffer.end())
26     return parseFailed("Reading structure out of file bounds");
27 
28   memcpy(&Struct, Src, sizeof(T));
29   // DXContainer is always little endian
30   if (sys::IsBigEndianHost)
31     Struct.swapBytes();
32   return Error::success();
33 }
34 
35 template <typename T>
36 static Error readInteger(StringRef Buffer, const char *Src, T &Val,
37                          Twine Str = "structure") {
38   static_assert(std::is_integral_v<T>,
39                 "Cannot call readInteger on non-integral type.");
40   // Don't read before the beginning or past the end of the file
41   if (Src < Buffer.begin() || Src + sizeof(T) > Buffer.end())
42     return parseFailed(Twine("Reading ") + Str + " out of file bounds");
43 
44   // The DXContainer offset table is comprised of uint32_t values but not padded
45   // to a 64-bit boundary. So Parts may start unaligned if there is an odd
46   // number of parts and part data itself is not required to be padded.
47   if (reinterpret_cast<uintptr_t>(Src) % alignof(T) != 0)
48     memcpy(reinterpret_cast<char *>(&Val), Src, sizeof(T));
49   else
50     Val = *reinterpret_cast<const T *>(Src);
51   // DXContainer is always little endian
52   if (sys::IsBigEndianHost)
53     sys::swapByteOrder(Val);
54   return Error::success();
55 }
56 
57 DXContainer::DXContainer(MemoryBufferRef O) : Data(O) {}
58 
59 Error DXContainer::parseHeader() {
60   return readStruct(Data.getBuffer(), Data.getBuffer().data(), Header);
61 }
62 
63 Error DXContainer::parseDXILHeader(StringRef Part) {
64   if (DXIL)
65     return parseFailed("More than one DXIL part is present in the file");
66   const char *Current = Part.begin();
67   dxbc::ProgramHeader Header;
68   if (Error Err = readStruct(Part, Current, Header))
69     return Err;
70   Current += offsetof(dxbc::ProgramHeader, Bitcode) + Header.Bitcode.Offset;
71   DXIL.emplace(std::make_pair(Header, Current));
72   return Error::success();
73 }
74 
75 Error DXContainer::parseShaderFeatureFlags(StringRef Part) {
76   if (ShaderFeatureFlags)
77     return parseFailed("More than one SFI0 part is present in the file");
78   uint64_t FlagValue = 0;
79   if (Error Err = readInteger(Part, Part.begin(), FlagValue))
80     return Err;
81   ShaderFeatureFlags = FlagValue;
82   return Error::success();
83 }
84 
85 Error DXContainer::parseHash(StringRef Part) {
86   if (Hash)
87     return parseFailed("More than one HASH part is present in the file");
88   dxbc::ShaderHash ReadHash;
89   if (Error Err = readStruct(Part, Part.begin(), ReadHash))
90     return Err;
91   Hash = ReadHash;
92   return Error::success();
93 }
94 
95 Error DXContainer::parsePSVInfo(StringRef Part) {
96   if (PSVInfo)
97     return parseFailed("More than one PSV0 part is present in the file");
98   PSVInfo = DirectX::PSVRuntimeInfo(Part);
99   // Parsing the PSVRuntime info occurs late because we need to read data from
100   // other parts first.
101   return Error::success();
102 }
103 
104 Error DirectX::Signature::initialize(StringRef Part) {
105   dxbc::ProgramSignatureHeader SigHeader;
106   if (Error Err = readStruct(Part, Part.begin(), SigHeader))
107     return Err;
108   size_t Size = sizeof(dxbc::ProgramSignatureElement) * SigHeader.ParamCount;
109 
110   if (Part.size() < Size + SigHeader.FirstParamOffset)
111     return parseFailed("Signature parameters extend beyond the part boundary");
112 
113   Parameters.Data = Part.substr(SigHeader.FirstParamOffset, Size);
114 
115   StringTableOffset = SigHeader.FirstParamOffset + static_cast<uint32_t>(Size);
116   StringTable = Part.substr(SigHeader.FirstParamOffset + Size);
117 
118   for (const auto &Param : Parameters) {
119     if (Param.NameOffset < StringTableOffset)
120       return parseFailed("Invalid parameter name offset: name starts before "
121                          "the first name offset");
122     if (Param.NameOffset - StringTableOffset > StringTable.size())
123       return parseFailed("Invalid parameter name offset: name starts after the "
124                          "end of the part data");
125   }
126   return Error::success();
127 }
128 
129 Error DXContainer::parsePartOffsets() {
130   uint32_t LastOffset =
131       sizeof(dxbc::Header) + (Header.PartCount * sizeof(uint32_t));
132   const char *Current = Data.getBuffer().data() + sizeof(dxbc::Header);
133   for (uint32_t Part = 0; Part < Header.PartCount; ++Part) {
134     uint32_t PartOffset;
135     if (Error Err = readInteger(Data.getBuffer(), Current, PartOffset))
136       return Err;
137     if (PartOffset < LastOffset)
138       return parseFailed(
139           formatv(
140               "Part offset for part {0} begins before the previous part ends",
141               Part)
142               .str());
143     Current += sizeof(uint32_t);
144     if (PartOffset >= Data.getBufferSize())
145       return parseFailed("Part offset points beyond boundary of the file");
146     // To prevent overflow when reading the part name, we subtract the part name
147     // size from the buffer size, rather than adding to the offset. Since the
148     // file header is larger than the part header we can't reach this code
149     // unless the buffer is at least as large as a part header, so this
150     // subtraction can't underflow.
151     if (PartOffset >= Data.getBufferSize() - sizeof(dxbc::PartHeader::Name))
152       return parseFailed("File not large enough to read part name");
153     PartOffsets.push_back(PartOffset);
154 
155     dxbc::PartType PT =
156         dxbc::parsePartType(Data.getBuffer().substr(PartOffset, 4));
157     uint32_t PartDataStart = PartOffset + sizeof(dxbc::PartHeader);
158     uint32_t PartSize;
159     if (Error Err = readInteger(Data.getBuffer(),
160                                 Data.getBufferStart() + PartOffset + 4,
161                                 PartSize, "part size"))
162       return Err;
163     StringRef PartData = Data.getBuffer().substr(PartDataStart, PartSize);
164     LastOffset = PartOffset + PartSize;
165     switch (PT) {
166     case dxbc::PartType::DXIL:
167       if (Error Err = parseDXILHeader(PartData))
168         return Err;
169       break;
170     case dxbc::PartType::SFI0:
171       if (Error Err = parseShaderFeatureFlags(PartData))
172         return Err;
173       break;
174     case dxbc::PartType::HASH:
175       if (Error Err = parseHash(PartData))
176         return Err;
177       break;
178     case dxbc::PartType::PSV0:
179       if (Error Err = parsePSVInfo(PartData))
180         return Err;
181       break;
182     case dxbc::PartType::ISG1:
183       if (Error Err = InputSignature.initialize(PartData))
184         return Err;
185       break;
186     case dxbc::PartType::OSG1:
187       if (Error Err = OutputSignature.initialize(PartData))
188         return Err;
189       break;
190     case dxbc::PartType::PSG1:
191       if (Error Err = PatchConstantSignature.initialize(PartData))
192         return Err;
193       break;
194     case dxbc::PartType::Unknown:
195       break;
196     }
197   }
198 
199   // Fully parsing the PSVInfo requires knowing the shader kind which we read
200   // out of the program header in the DXIL part.
201   if (PSVInfo) {
202     if (!DXIL)
203       return parseFailed("Cannot fully parse pipeline state validation "
204                          "information without DXIL part.");
205     if (Error Err = PSVInfo->parse(DXIL->first.ShaderKind))
206       return Err;
207   }
208   return Error::success();
209 }
210 
211 Expected<DXContainer> DXContainer::create(MemoryBufferRef Object) {
212   DXContainer Container(Object);
213   if (Error Err = Container.parseHeader())
214     return std::move(Err);
215   if (Error Err = Container.parsePartOffsets())
216     return std::move(Err);
217   return Container;
218 }
219 
220 void DXContainer::PartIterator::updateIteratorImpl(const uint32_t Offset) {
221   StringRef Buffer = Container.Data.getBuffer();
222   const char *Current = Buffer.data() + Offset;
223   // Offsets are validated during parsing, so all offsets in the container are
224   // valid and contain enough readable data to read a header.
225   cantFail(readStruct(Buffer, Current, IteratorState.Part));
226   IteratorState.Data =
227       StringRef(Current + sizeof(dxbc::PartHeader), IteratorState.Part.Size);
228   IteratorState.Offset = Offset;
229 }
230 
231 Error DirectX::PSVRuntimeInfo::parse(uint16_t ShaderKind) {
232   Triple::EnvironmentType ShaderStage = dxbc::getShaderStage(ShaderKind);
233 
234   const char *Current = Data.begin();
235   if (Error Err = readInteger(Data, Current, Size))
236     return Err;
237   Current += sizeof(uint32_t);
238 
239   StringRef PSVInfoData = Data.substr(sizeof(uint32_t), Size);
240 
241   if (PSVInfoData.size() < Size)
242     return parseFailed(
243         "Pipeline state data extends beyond the bounds of the part");
244 
245   using namespace dxbc::PSV;
246 
247   const uint32_t PSVVersion = getVersion();
248 
249   // Detect the PSVVersion by looking at the size field.
250   if (PSVVersion == 3) {
251     v3::RuntimeInfo Info;
252     if (Error Err = readStruct(PSVInfoData, Current, Info))
253       return Err;
254     if (sys::IsBigEndianHost)
255       Info.swapBytes(ShaderStage);
256     BasicInfo = Info;
257   } else if (PSVVersion == 2) {
258     v2::RuntimeInfo Info;
259     if (Error Err = readStruct(PSVInfoData, Current, Info))
260       return Err;
261     if (sys::IsBigEndianHost)
262       Info.swapBytes(ShaderStage);
263     BasicInfo = Info;
264   } else if (PSVVersion == 1) {
265     v1::RuntimeInfo Info;
266     if (Error Err = readStruct(PSVInfoData, Current, Info))
267       return Err;
268     if (sys::IsBigEndianHost)
269       Info.swapBytes(ShaderStage);
270     BasicInfo = Info;
271   } else if (PSVVersion == 0) {
272     v0::RuntimeInfo Info;
273     if (Error Err = readStruct(PSVInfoData, Current, Info))
274       return Err;
275     if (sys::IsBigEndianHost)
276       Info.swapBytes(ShaderStage);
277     BasicInfo = Info;
278   } else
279     return parseFailed(
280         "Cannot read PSV Runtime Info, unsupported PSV version.");
281 
282   Current += Size;
283 
284   uint32_t ResourceCount = 0;
285   if (Error Err = readInteger(Data, Current, ResourceCount))
286     return Err;
287   Current += sizeof(uint32_t);
288 
289   if (ResourceCount > 0) {
290     if (Error Err = readInteger(Data, Current, Resources.Stride))
291       return Err;
292     Current += sizeof(uint32_t);
293 
294     size_t BindingDataSize = Resources.Stride * ResourceCount;
295     Resources.Data = Data.substr(Current - Data.begin(), BindingDataSize);
296 
297     if (Resources.Data.size() < BindingDataSize)
298       return parseFailed(
299           "Resource binding data extends beyond the bounds of the part");
300 
301     Current += BindingDataSize;
302   } else
303     Resources.Stride = sizeof(v2::ResourceBindInfo);
304 
305   // PSV version 0 ends after the resource bindings.
306   if (PSVVersion == 0)
307     return Error::success();
308 
309   // String table starts at a 4-byte offset.
310   Current = reinterpret_cast<const char *>(
311       alignTo<4>(reinterpret_cast<uintptr_t>(Current)));
312 
313   uint32_t StringTableSize = 0;
314   if (Error Err = readInteger(Data, Current, StringTableSize))
315     return Err;
316   if (StringTableSize % 4 != 0)
317     return parseFailed("String table misaligned");
318   Current += sizeof(uint32_t);
319   StringTable = StringRef(Current, StringTableSize);
320 
321   Current += StringTableSize;
322 
323   uint32_t SemanticIndexTableSize = 0;
324   if (Error Err = readInteger(Data, Current, SemanticIndexTableSize))
325     return Err;
326   Current += sizeof(uint32_t);
327 
328   SemanticIndexTable.reserve(SemanticIndexTableSize);
329   for (uint32_t I = 0; I < SemanticIndexTableSize; ++I) {
330     uint32_t Index = 0;
331     if (Error Err = readInteger(Data, Current, Index))
332       return Err;
333     Current += sizeof(uint32_t);
334     SemanticIndexTable.push_back(Index);
335   }
336 
337   uint8_t InputCount = getSigInputCount();
338   uint8_t OutputCount = getSigOutputCount();
339   uint8_t PatchOrPrimCount = getSigPatchOrPrimCount();
340 
341   uint32_t ElementCount = InputCount + OutputCount + PatchOrPrimCount;
342 
343   if (ElementCount > 0) {
344     if (Error Err = readInteger(Data, Current, SigInputElements.Stride))
345       return Err;
346     Current += sizeof(uint32_t);
347     // Assign the stride to all the arrays.
348     SigOutputElements.Stride = SigPatchOrPrimElements.Stride =
349         SigInputElements.Stride;
350 
351     if (Data.end() - Current <
352         (ptrdiff_t)(ElementCount * SigInputElements.Stride))
353       return parseFailed(
354           "Signature elements extend beyond the size of the part");
355 
356     size_t InputSize = SigInputElements.Stride * InputCount;
357     SigInputElements.Data = Data.substr(Current - Data.begin(), InputSize);
358     Current += InputSize;
359 
360     size_t OutputSize = SigOutputElements.Stride * OutputCount;
361     SigOutputElements.Data = Data.substr(Current - Data.begin(), OutputSize);
362     Current += OutputSize;
363 
364     size_t PSize = SigPatchOrPrimElements.Stride * PatchOrPrimCount;
365     SigPatchOrPrimElements.Data = Data.substr(Current - Data.begin(), PSize);
366     Current += PSize;
367   }
368 
369   ArrayRef<uint8_t> OutputVectorCounts = getOutputVectorCounts();
370   uint8_t PatchConstOrPrimVectorCount = getPatchConstOrPrimVectorCount();
371   uint8_t InputVectorCount = getInputVectorCount();
372 
373   auto maskDwordSize = [](uint8_t Vector) {
374     return (static_cast<uint32_t>(Vector) + 7) >> 3;
375   };
376 
377   auto mapTableSize = [maskDwordSize](uint8_t X, uint8_t Y) {
378     return maskDwordSize(Y) * X * 4;
379   };
380 
381   if (usesViewID()) {
382     for (uint32_t I = 0; I < OutputVectorCounts.size(); ++I) {
383       // The vector mask is one bit per component and 4 components per vector.
384       // We can compute the number of dwords required by rounding up to the next
385       // multiple of 8.
386       uint32_t NumDwords =
387           maskDwordSize(static_cast<uint32_t>(OutputVectorCounts[I]));
388       size_t NumBytes = NumDwords * sizeof(uint32_t);
389       OutputVectorMasks[I].Data = Data.substr(Current - Data.begin(), NumBytes);
390       Current += NumBytes;
391     }
392 
393     if (ShaderStage == Triple::Hull && PatchConstOrPrimVectorCount > 0) {
394       uint32_t NumDwords = maskDwordSize(PatchConstOrPrimVectorCount);
395       size_t NumBytes = NumDwords * sizeof(uint32_t);
396       PatchOrPrimMasks.Data = Data.substr(Current - Data.begin(), NumBytes);
397       Current += NumBytes;
398     }
399   }
400 
401   // Input/Output mapping table
402   for (uint32_t I = 0; I < OutputVectorCounts.size(); ++I) {
403     if (InputVectorCount == 0 || OutputVectorCounts[I] == 0)
404       continue;
405     uint32_t NumDwords = mapTableSize(InputVectorCount, OutputVectorCounts[I]);
406     size_t NumBytes = NumDwords * sizeof(uint32_t);
407     InputOutputMap[I].Data = Data.substr(Current - Data.begin(), NumBytes);
408     Current += NumBytes;
409   }
410 
411   // Hull shader: Input/Patch mapping table
412   if (ShaderStage == Triple::Hull && PatchConstOrPrimVectorCount > 0 &&
413       InputVectorCount > 0) {
414     uint32_t NumDwords =
415         mapTableSize(InputVectorCount, PatchConstOrPrimVectorCount);
416     size_t NumBytes = NumDwords * sizeof(uint32_t);
417     InputPatchMap.Data = Data.substr(Current - Data.begin(), NumBytes);
418     Current += NumBytes;
419   }
420 
421   // Domain Shader: Patch/Output mapping table
422   if (ShaderStage == Triple::Domain && PatchConstOrPrimVectorCount > 0 &&
423       OutputVectorCounts[0] > 0) {
424     uint32_t NumDwords =
425         mapTableSize(PatchConstOrPrimVectorCount, OutputVectorCounts[0]);
426     size_t NumBytes = NumDwords * sizeof(uint32_t);
427     PatchOutputMap.Data = Data.substr(Current - Data.begin(), NumBytes);
428     Current += NumBytes;
429   }
430 
431   return Error::success();
432 }
433 
434 uint8_t DirectX::PSVRuntimeInfo::getSigInputCount() const {
435   if (const auto *P = std::get_if<dxbc::PSV::v3::RuntimeInfo>(&BasicInfo))
436     return P->SigInputElements;
437   if (const auto *P = std::get_if<dxbc::PSV::v2::RuntimeInfo>(&BasicInfo))
438     return P->SigInputElements;
439   if (const auto *P = std::get_if<dxbc::PSV::v1::RuntimeInfo>(&BasicInfo))
440     return P->SigInputElements;
441   return 0;
442 }
443 
444 uint8_t DirectX::PSVRuntimeInfo::getSigOutputCount() const {
445   if (const auto *P = std::get_if<dxbc::PSV::v3::RuntimeInfo>(&BasicInfo))
446     return P->SigOutputElements;
447   if (const auto *P = std::get_if<dxbc::PSV::v2::RuntimeInfo>(&BasicInfo))
448     return P->SigOutputElements;
449   if (const auto *P = std::get_if<dxbc::PSV::v1::RuntimeInfo>(&BasicInfo))
450     return P->SigOutputElements;
451   return 0;
452 }
453 
454 uint8_t DirectX::PSVRuntimeInfo::getSigPatchOrPrimCount() const {
455   if (const auto *P = std::get_if<dxbc::PSV::v3::RuntimeInfo>(&BasicInfo))
456     return P->SigPatchOrPrimElements;
457   if (const auto *P = std::get_if<dxbc::PSV::v2::RuntimeInfo>(&BasicInfo))
458     return P->SigPatchOrPrimElements;
459   if (const auto *P = std::get_if<dxbc::PSV::v1::RuntimeInfo>(&BasicInfo))
460     return P->SigPatchOrPrimElements;
461   return 0;
462 }
463