xref: /freebsd/contrib/llvm-project/compiler-rt/lib/orc/coff_platform.cpp (revision 56b17de1e8360fe131d425de20b5e75ff3ea897c)
1 //===- coff_platform.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 // This file contains code required to load the rest of the COFF runtime.
10 //
11 //===----------------------------------------------------------------------===//
12 
13 #define NOMINMAX
14 #include <windows.h>
15 
16 #include "coff_platform.h"
17 
18 #include "debug.h"
19 #include "error.h"
20 #include "wrapper_function_utils.h"
21 
22 #include <array>
23 #include <list>
24 #include <map>
25 #include <mutex>
26 #include <sstream>
27 #include <string_view>
28 #include <vector>
29 
30 #define DEBUG_TYPE "coff_platform"
31 
32 using namespace __orc_rt;
33 
34 namespace __orc_rt {
35 
36 using COFFJITDylibDepInfo = std::vector<ExecutorAddr>;
37 using COFFJITDylibDepInfoMap =
38     std::unordered_map<ExecutorAddr, COFFJITDylibDepInfo>;
39 
40 using SPSCOFFObjectSectionsMap =
41     SPSSequence<SPSTuple<SPSString, SPSExecutorAddrRange>>;
42 
43 using SPSCOFFJITDylibDepInfo = SPSSequence<SPSExecutorAddr>;
44 
45 using SPSCOFFJITDylibDepInfoMap =
46     SPSSequence<SPSTuple<SPSExecutorAddr, SPSCOFFJITDylibDepInfo>>;
47 
48 } // namespace __orc_rt
49 
50 ORC_RT_JIT_DISPATCH_TAG(__orc_rt_coff_symbol_lookup_tag)
51 ORC_RT_JIT_DISPATCH_TAG(__orc_rt_coff_push_initializers_tag)
52 
53 namespace {
54 class COFFPlatformRuntimeState {
55 private:
56   // Ctor/dtor section.
57   // Manage lists of *tor functions sorted by the last character of subsection
58   // name.
59   struct XtorSection {
60     void Register(char SubsectionChar, span<void (*)(void)> Xtors) {
61       Subsections[SubsectionChar - 'A'].push_back(Xtors);
62       SubsectionsNew[SubsectionChar - 'A'].push_back(Xtors);
63     }
64 
65     void RegisterNoRun(char SubsectionChar, span<void (*)(void)> Xtors) {
66       Subsections[SubsectionChar - 'A'].push_back(Xtors);
67     }
68 
69     void Reset() { SubsectionsNew = Subsections; }
70 
71     void RunAllNewAndFlush();
72 
73   private:
74     std::array<std::vector<span<void (*)(void)>>, 26> Subsections;
75     std::array<std::vector<span<void (*)(void)>>, 26> SubsectionsNew;
76   };
77 
78   struct JITDylibState {
79     std::string Name;
80     void *Header = nullptr;
81     size_t LinkedAgainstRefCount = 0;
82     size_t DlRefCount = 0;
83     std::vector<JITDylibState *> Deps;
84     std::vector<void (*)(void)> AtExits;
85     XtorSection CInitSection;    // XIA~XIZ
86     XtorSection CXXInitSection;  // XCA~XCZ
87     XtorSection CPreTermSection; // XPA~XPZ
88     XtorSection CTermSection;    // XTA~XTZ
89 
90     bool referenced() const {
91       return LinkedAgainstRefCount != 0 || DlRefCount != 0;
92     }
93   };
94 
95 public:
96   static void initialize();
97   static COFFPlatformRuntimeState &get();
98   static bool isInitialized() { return CPS; }
99   static void destroy();
100 
101   COFFPlatformRuntimeState() = default;
102 
103   // Delete copy and move constructors.
104   COFFPlatformRuntimeState(const COFFPlatformRuntimeState &) = delete;
105   COFFPlatformRuntimeState &
106   operator=(const COFFPlatformRuntimeState &) = delete;
107   COFFPlatformRuntimeState(COFFPlatformRuntimeState &&) = delete;
108   COFFPlatformRuntimeState &operator=(COFFPlatformRuntimeState &&) = delete;
109 
110   const char *dlerror();
111   void *dlopen(std::string_view Name, int Mode);
112   int dlclose(void *Header);
113   void *dlsym(void *Header, std::string_view Symbol);
114 
115   Error registerJITDylib(std::string Name, void *Header);
116   Error deregisterJITDylib(void *Header);
117 
118   Error registerAtExit(ExecutorAddr HeaderAddr, void (*AtExit)(void));
119 
120   Error registerObjectSections(
121       ExecutorAddr HeaderAddr,
122       std::vector<std::pair<std::string_view, ExecutorAddrRange>> Secs,
123       bool RunInitializers);
124   Error deregisterObjectSections(
125       ExecutorAddr HeaderAddr,
126       std::vector<std::pair<std::string_view, ExecutorAddrRange>> Secs);
127 
128   void *findJITDylibBaseByPC(uint64_t PC);
129 
130 private:
131   Error registerBlockRange(ExecutorAddr HeaderAddr, ExecutorAddrRange Range);
132   Error deregisterBlockRange(ExecutorAddr HeaderAddr, ExecutorAddrRange Range);
133 
134   Error registerSEHFrames(ExecutorAddr HeaderAddr,
135                           ExecutorAddrRange SEHFrameRange);
136   Error deregisterSEHFrames(ExecutorAddr HeaderAddr,
137                             ExecutorAddrRange SEHFrameRange);
138 
139   Expected<void *> dlopenImpl(std::string_view Path, int Mode);
140   Error dlopenFull(JITDylibState &JDS);
141   Error dlopenInitialize(JITDylibState &JDS, COFFJITDylibDepInfoMap &DepInfo);
142 
143   Error dlcloseImpl(void *DSOHandle);
144   Error dlcloseDeinitialize(JITDylibState &JDS);
145 
146   JITDylibState *getJITDylibStateByHeader(void *DSOHandle);
147   JITDylibState *getJITDylibStateByName(std::string_view Path);
148   Expected<ExecutorAddr> lookupSymbolInJITDylib(void *DSOHandle,
149                                                 std::string_view Symbol);
150 
151   static COFFPlatformRuntimeState *CPS;
152 
153   std::recursive_mutex JDStatesMutex;
154   std::map<void *, JITDylibState> JDStates;
155   struct BlockRange {
156     void *Header;
157     size_t Size;
158   };
159   std::map<void *, BlockRange> BlockRanges;
160   std::unordered_map<std::string_view, void *> JDNameToHeader;
161   std::string DLFcnError;
162 };
163 
164 } // namespace
165 
166 COFFPlatformRuntimeState *COFFPlatformRuntimeState::CPS = nullptr;
167 
168 COFFPlatformRuntimeState::JITDylibState *
169 COFFPlatformRuntimeState::getJITDylibStateByHeader(void *Header) {
170   auto I = JDStates.find(Header);
171   if (I == JDStates.end())
172     return nullptr;
173   return &I->second;
174 }
175 
176 COFFPlatformRuntimeState::JITDylibState *
177 COFFPlatformRuntimeState::getJITDylibStateByName(std::string_view Name) {
178   // FIXME: Avoid creating string copy here.
179   auto I = JDNameToHeader.find(std::string(Name.data(), Name.size()));
180   if (I == JDNameToHeader.end())
181     return nullptr;
182   void *H = I->second;
183   auto J = JDStates.find(H);
184   assert(J != JDStates.end() &&
185          "JITDylib has name map entry but no header map entry");
186   return &J->second;
187 }
188 
189 Error COFFPlatformRuntimeState::registerJITDylib(std::string Name,
190                                                  void *Header) {
191   ORC_RT_DEBUG({
192     printdbg("Registering JITDylib %s: Header = %p\n", Name.c_str(), Header);
193   });
194   std::lock_guard<std::recursive_mutex> Lock(JDStatesMutex);
195   if (JDStates.count(Header)) {
196     std::ostringstream ErrStream;
197     ErrStream << "Duplicate JITDylib registration for header " << Header
198               << " (name = " << Name << ")";
199     return make_error<StringError>(ErrStream.str());
200   }
201   if (JDNameToHeader.count(Name)) {
202     std::ostringstream ErrStream;
203     ErrStream << "Duplicate JITDylib registration for header " << Header
204               << " (header = " << Header << ")";
205     return make_error<StringError>(ErrStream.str());
206   }
207 
208   auto &JDS = JDStates[Header];
209   JDS.Name = std::move(Name);
210   JDS.Header = Header;
211   JDNameToHeader[JDS.Name] = Header;
212   return Error::success();
213 }
214 
215 Error COFFPlatformRuntimeState::deregisterJITDylib(void *Header) {
216   std::lock_guard<std::recursive_mutex> Lock(JDStatesMutex);
217   auto I = JDStates.find(Header);
218   if (I == JDStates.end()) {
219     std::ostringstream ErrStream;
220     ErrStream << "Attempted to deregister unrecognized header " << Header;
221     return make_error<StringError>(ErrStream.str());
222   }
223 
224   // Remove std::string construction once we can use C++20.
225   auto J = JDNameToHeader.find(
226       std::string(I->second.Name.data(), I->second.Name.size()));
227   assert(J != JDNameToHeader.end() &&
228          "Missing JDNameToHeader entry for JITDylib");
229 
230   ORC_RT_DEBUG({
231     printdbg("Deregistering JITDylib %s: Header = %p\n", I->second.Name.c_str(),
232              Header);
233   });
234 
235   JDNameToHeader.erase(J);
236   JDStates.erase(I);
237   return Error::success();
238 }
239 
240 void COFFPlatformRuntimeState::XtorSection::RunAllNewAndFlush() {
241   for (auto &Subsection : SubsectionsNew) {
242     for (auto &XtorGroup : Subsection)
243       for (auto &Xtor : XtorGroup)
244         if (Xtor)
245           Xtor();
246     Subsection.clear();
247   }
248 }
249 
250 const char *COFFPlatformRuntimeState::dlerror() { return DLFcnError.c_str(); }
251 
252 void *COFFPlatformRuntimeState::dlopen(std::string_view Path, int Mode) {
253   ORC_RT_DEBUG({
254     std::string S(Path.data(), Path.size());
255     printdbg("COFFPlatform::dlopen(\"%s\")\n", S.c_str());
256   });
257   std::lock_guard<std::recursive_mutex> Lock(JDStatesMutex);
258   if (auto H = dlopenImpl(Path, Mode))
259     return *H;
260   else {
261     // FIXME: Make dlerror thread safe.
262     DLFcnError = toString(H.takeError());
263     return nullptr;
264   }
265 }
266 
267 int COFFPlatformRuntimeState::dlclose(void *DSOHandle) {
268   ORC_RT_DEBUG({
269     auto *JDS = getJITDylibStateByHeader(DSOHandle);
270     std::string DylibName;
271     if (JDS) {
272       std::string S;
273       printdbg("COFFPlatform::dlclose(%p) (%s)\n", DSOHandle, S.c_str());
274     } else
275       printdbg("COFFPlatform::dlclose(%p) (%s)\n", DSOHandle, "invalid handle");
276   });
277   std::lock_guard<std::recursive_mutex> Lock(JDStatesMutex);
278   if (auto Err = dlcloseImpl(DSOHandle)) {
279     // FIXME: Make dlerror thread safe.
280     DLFcnError = toString(std::move(Err));
281     return -1;
282   }
283   return 0;
284 }
285 
286 void *COFFPlatformRuntimeState::dlsym(void *Header, std::string_view Symbol) {
287   auto Addr = lookupSymbolInJITDylib(Header, Symbol);
288   if (!Addr) {
289     return 0;
290   }
291 
292   return Addr->toPtr<void *>();
293 }
294 
295 Expected<void *> COFFPlatformRuntimeState::dlopenImpl(std::string_view Path,
296                                                       int Mode) {
297   // Try to find JITDylib state by name.
298   auto *JDS = getJITDylibStateByName(Path);
299 
300   if (!JDS)
301     return make_error<StringError>("No registered JTIDylib for path " +
302                                    std::string(Path.data(), Path.size()));
303 
304   if (auto Err = dlopenFull(*JDS))
305     return std::move(Err);
306 
307   // Bump the ref-count on this dylib.
308   ++JDS->DlRefCount;
309 
310   // Return the header address.
311   return JDS->Header;
312 }
313 
314 Error COFFPlatformRuntimeState::dlopenFull(JITDylibState &JDS) {
315   // Call back to the JIT to push the initializers.
316   Expected<COFFJITDylibDepInfoMap> DepInfoMap((COFFJITDylibDepInfoMap()));
317   if (auto Err = WrapperFunction<SPSExpected<SPSCOFFJITDylibDepInfoMap>(
318           SPSExecutorAddr)>::call(&__orc_rt_coff_push_initializers_tag,
319                                   DepInfoMap,
320                                   ExecutorAddr::fromPtr(JDS.Header)))
321     return Err;
322   if (!DepInfoMap)
323     return DepInfoMap.takeError();
324 
325   if (auto Err = dlopenInitialize(JDS, *DepInfoMap))
326     return Err;
327 
328   if (!DepInfoMap->empty()) {
329     ORC_RT_DEBUG({
330       printdbg("Unrecognized dep-info key headers in dlopen of %s\n",
331                JDS.Name.c_str());
332     });
333     std::ostringstream ErrStream;
334     ErrStream << "Encountered unrecognized dep-info key headers "
335                  "while processing dlopen of "
336               << JDS.Name;
337     return make_error<StringError>(ErrStream.str());
338   }
339 
340   return Error::success();
341 }
342 
343 Error COFFPlatformRuntimeState::dlopenInitialize(
344     JITDylibState &JDS, COFFJITDylibDepInfoMap &DepInfo) {
345   ORC_RT_DEBUG({
346     printdbg("COFFPlatformRuntimeState::dlopenInitialize(\"%s\")\n",
347              JDS.Name.c_str());
348   });
349 
350   // Skip visited dependency.
351   auto I = DepInfo.find(ExecutorAddr::fromPtr(JDS.Header));
352   if (I == DepInfo.end())
353     return Error::success();
354 
355   auto DI = std::move(I->second);
356   DepInfo.erase(I);
357 
358   // Run initializers of dependencies in proper order by depth-first traversal
359   // of dependency graph.
360   std::vector<JITDylibState *> OldDeps;
361   std::swap(JDS.Deps, OldDeps);
362   JDS.Deps.reserve(DI.size());
363   for (auto DepHeaderAddr : DI) {
364     auto *DepJDS = getJITDylibStateByHeader(DepHeaderAddr.toPtr<void *>());
365     if (!DepJDS) {
366       std::ostringstream ErrStream;
367       ErrStream << "Encountered unrecognized dep header "
368                 << DepHeaderAddr.toPtr<void *>() << " while initializing "
369                 << JDS.Name;
370       return make_error<StringError>(ErrStream.str());
371     }
372     ++DepJDS->LinkedAgainstRefCount;
373     if (auto Err = dlopenInitialize(*DepJDS, DepInfo))
374       return Err;
375   }
376 
377   // Run static initializers.
378   JDS.CInitSection.RunAllNewAndFlush();
379   JDS.CXXInitSection.RunAllNewAndFlush();
380 
381   // Decrement old deps.
382   for (auto *DepJDS : OldDeps) {
383     --DepJDS->LinkedAgainstRefCount;
384     if (!DepJDS->referenced())
385       if (auto Err = dlcloseDeinitialize(*DepJDS))
386         return Err;
387   }
388 
389   return Error::success();
390 }
391 
392 Error COFFPlatformRuntimeState::dlcloseImpl(void *DSOHandle) {
393   // Try to find JITDylib state by header.
394   auto *JDS = getJITDylibStateByHeader(DSOHandle);
395 
396   if (!JDS) {
397     std::ostringstream ErrStream;
398     ErrStream << "No registered JITDylib for " << DSOHandle;
399     return make_error<StringError>(ErrStream.str());
400   }
401 
402   // Bump the ref-count.
403   --JDS->DlRefCount;
404 
405   if (!JDS->referenced())
406     return dlcloseDeinitialize(*JDS);
407 
408   return Error::success();
409 }
410 
411 Error COFFPlatformRuntimeState::dlcloseDeinitialize(JITDylibState &JDS) {
412   ORC_RT_DEBUG({
413     printdbg("COFFPlatformRuntimeState::dlcloseDeinitialize(\"%s\")\n",
414              JDS.Name.c_str());
415   });
416 
417   // Run atexits
418   for (auto AtExit : JDS.AtExits)
419     AtExit();
420   JDS.AtExits.clear();
421 
422   // Run static terminators.
423   JDS.CPreTermSection.RunAllNewAndFlush();
424   JDS.CTermSection.RunAllNewAndFlush();
425 
426   // Queue all xtors as new again.
427   JDS.CInitSection.Reset();
428   JDS.CXXInitSection.Reset();
429   JDS.CPreTermSection.Reset();
430   JDS.CTermSection.Reset();
431 
432   // Deinitialize any dependencies.
433   for (auto *DepJDS : JDS.Deps) {
434     --DepJDS->LinkedAgainstRefCount;
435     if (!DepJDS->referenced())
436       if (auto Err = dlcloseDeinitialize(*DepJDS))
437         return Err;
438   }
439 
440   return Error::success();
441 }
442 
443 Expected<ExecutorAddr>
444 COFFPlatformRuntimeState::lookupSymbolInJITDylib(void *header,
445                                                  std::string_view Sym) {
446   Expected<ExecutorAddr> Result((ExecutorAddr()));
447   if (auto Err = WrapperFunction<SPSExpected<SPSExecutorAddr>(
448           SPSExecutorAddr, SPSString)>::call(&__orc_rt_coff_symbol_lookup_tag,
449                                              Result,
450                                              ExecutorAddr::fromPtr(header),
451                                              Sym))
452     return std::move(Err);
453   return Result;
454 }
455 
456 Error COFFPlatformRuntimeState::registerObjectSections(
457     ExecutorAddr HeaderAddr,
458     std::vector<std::pair<std::string_view, ExecutorAddrRange>> Secs,
459     bool RunInitializers) {
460   std::lock_guard<std::recursive_mutex> Lock(JDStatesMutex);
461   auto I = JDStates.find(HeaderAddr.toPtr<void *>());
462   if (I == JDStates.end()) {
463     std::ostringstream ErrStream;
464     ErrStream << "Unrecognized header " << HeaderAddr.getValue();
465     return make_error<StringError>(ErrStream.str());
466   }
467   auto &JDState = I->second;
468   for (auto &KV : Secs) {
469     if (auto Err = registerBlockRange(HeaderAddr, KV.second))
470       return Err;
471     if (KV.first.empty())
472       continue;
473     char LastChar = KV.first.data()[KV.first.size() - 1];
474     if (KV.first == ".pdata") {
475       if (auto Err = registerSEHFrames(HeaderAddr, KV.second))
476         return Err;
477     } else if (KV.first >= ".CRT$XIA" && KV.first <= ".CRT$XIZ") {
478       if (RunInitializers)
479         JDState.CInitSection.Register(LastChar,
480                                       KV.second.toSpan<void (*)(void)>());
481       else
482         JDState.CInitSection.RegisterNoRun(LastChar,
483                                            KV.second.toSpan<void (*)(void)>());
484     } else if (KV.first >= ".CRT$XCA" && KV.first <= ".CRT$XCZ") {
485       if (RunInitializers)
486         JDState.CXXInitSection.Register(LastChar,
487                                         KV.second.toSpan<void (*)(void)>());
488       else
489         JDState.CXXInitSection.RegisterNoRun(
490             LastChar, KV.second.toSpan<void (*)(void)>());
491     } else if (KV.first >= ".CRT$XPA" && KV.first <= ".CRT$XPZ")
492       JDState.CPreTermSection.Register(LastChar,
493                                        KV.second.toSpan<void (*)(void)>());
494     else if (KV.first >= ".CRT$XTA" && KV.first <= ".CRT$XTZ")
495       JDState.CTermSection.Register(LastChar,
496                                     KV.second.toSpan<void (*)(void)>());
497   }
498   return Error::success();
499 }
500 
501 Error COFFPlatformRuntimeState::deregisterObjectSections(
502     ExecutorAddr HeaderAddr,
503     std::vector<std::pair<std::string_view, ExecutorAddrRange>> Secs) {
504   std::lock_guard<std::recursive_mutex> Lock(JDStatesMutex);
505   auto I = JDStates.find(HeaderAddr.toPtr<void *>());
506   if (I == JDStates.end()) {
507     std::ostringstream ErrStream;
508     ErrStream << "Attempted to deregister unrecognized header "
509               << HeaderAddr.getValue();
510     return make_error<StringError>(ErrStream.str());
511   }
512   for (auto &KV : Secs) {
513     if (auto Err = deregisterBlockRange(HeaderAddr, KV.second))
514       return Err;
515     if (KV.first == ".pdata")
516       if (auto Err = deregisterSEHFrames(HeaderAddr, KV.second))
517         return Err;
518   }
519   return Error::success();
520 }
521 
522 Error COFFPlatformRuntimeState::registerSEHFrames(
523     ExecutorAddr HeaderAddr, ExecutorAddrRange SEHFrameRange) {
524   int N = (SEHFrameRange.End.getValue() - SEHFrameRange.Start.getValue()) /
525           sizeof(RUNTIME_FUNCTION);
526   auto Func = SEHFrameRange.Start.toPtr<PRUNTIME_FUNCTION>();
527   if (!RtlAddFunctionTable(Func, N,
528                            static_cast<DWORD64>(HeaderAddr.getValue())))
529     return make_error<StringError>("Failed to register SEH frames");
530   return Error::success();
531 }
532 
533 Error COFFPlatformRuntimeState::deregisterSEHFrames(
534     ExecutorAddr HeaderAddr, ExecutorAddrRange SEHFrameRange) {
535   if (!RtlDeleteFunctionTable(SEHFrameRange.Start.toPtr<PRUNTIME_FUNCTION>()))
536     return make_error<StringError>("Failed to deregister SEH frames");
537   return Error::success();
538 }
539 
540 Error COFFPlatformRuntimeState::registerBlockRange(ExecutorAddr HeaderAddr,
541                                                    ExecutorAddrRange Range) {
542   assert(!BlockRanges.count(Range.Start.toPtr<void *>()) &&
543          "Block range address already registered");
544   BlockRange B = {HeaderAddr.toPtr<void *>(), Range.size()};
545   BlockRanges.emplace(Range.Start.toPtr<void *>(), B);
546   return Error::success();
547 }
548 
549 Error COFFPlatformRuntimeState::deregisterBlockRange(ExecutorAddr HeaderAddr,
550                                                      ExecutorAddrRange Range) {
551   assert(BlockRanges.count(Range.Start.toPtr<void *>()) &&
552          "Block range address not registered");
553   BlockRanges.erase(Range.Start.toPtr<void *>());
554   return Error::success();
555 }
556 
557 Error COFFPlatformRuntimeState::registerAtExit(ExecutorAddr HeaderAddr,
558                                                void (*AtExit)(void)) {
559   std::lock_guard<std::recursive_mutex> Lock(JDStatesMutex);
560   auto I = JDStates.find(HeaderAddr.toPtr<void *>());
561   if (I == JDStates.end()) {
562     std::ostringstream ErrStream;
563     ErrStream << "Unrecognized header " << HeaderAddr.getValue();
564     return make_error<StringError>(ErrStream.str());
565   }
566   I->second.AtExits.push_back(AtExit);
567   return Error::success();
568 }
569 
570 void COFFPlatformRuntimeState::initialize() {
571   assert(!CPS && "COFFPlatformRuntimeState should be null");
572   CPS = new COFFPlatformRuntimeState();
573 }
574 
575 COFFPlatformRuntimeState &COFFPlatformRuntimeState::get() {
576   assert(CPS && "COFFPlatformRuntimeState not initialized");
577   return *CPS;
578 }
579 
580 void COFFPlatformRuntimeState::destroy() {
581   assert(CPS && "COFFPlatformRuntimeState not initialized");
582   delete CPS;
583 }
584 
585 void *COFFPlatformRuntimeState::findJITDylibBaseByPC(uint64_t PC) {
586   std::lock_guard<std::recursive_mutex> Lock(JDStatesMutex);
587   auto It = BlockRanges.upper_bound(reinterpret_cast<void *>(PC));
588   if (It == BlockRanges.begin())
589     return nullptr;
590   --It;
591   auto &Range = It->second;
592   if (PC >= reinterpret_cast<uint64_t>(It->first) + Range.Size)
593     return nullptr;
594   return Range.Header;
595 }
596 
597 ORC_RT_INTERFACE orc_rt_CWrapperFunctionResult
598 __orc_rt_coff_platform_bootstrap(char *ArgData, size_t ArgSize) {
599   COFFPlatformRuntimeState::initialize();
600   return WrapperFunctionResult().release();
601 }
602 
603 ORC_RT_INTERFACE orc_rt_CWrapperFunctionResult
604 __orc_rt_coff_platform_shutdown(char *ArgData, size_t ArgSize) {
605   COFFPlatformRuntimeState::destroy();
606   return WrapperFunctionResult().release();
607 }
608 
609 ORC_RT_INTERFACE orc_rt_CWrapperFunctionResult
610 __orc_rt_coff_register_jitdylib(char *ArgData, size_t ArgSize) {
611   return WrapperFunction<SPSError(SPSString, SPSExecutorAddr)>::handle(
612              ArgData, ArgSize,
613              [](std::string &Name, ExecutorAddr HeaderAddr) {
614                return COFFPlatformRuntimeState::get().registerJITDylib(
615                    std::move(Name), HeaderAddr.toPtr<void *>());
616              })
617       .release();
618 }
619 
620 ORC_RT_INTERFACE orc_rt_CWrapperFunctionResult
621 __orc_rt_coff_deregister_jitdylib(char *ArgData, size_t ArgSize) {
622   return WrapperFunction<SPSError(SPSExecutorAddr)>::handle(
623              ArgData, ArgSize,
624              [](ExecutorAddr HeaderAddr) {
625                return COFFPlatformRuntimeState::get().deregisterJITDylib(
626                    HeaderAddr.toPtr<void *>());
627              })
628       .release();
629 }
630 
631 ORC_RT_INTERFACE orc_rt_CWrapperFunctionResult
632 __orc_rt_coff_register_object_sections(char *ArgData, size_t ArgSize) {
633   return WrapperFunction<SPSError(SPSExecutorAddr, SPSCOFFObjectSectionsMap,
634                                   bool)>::
635       handle(ArgData, ArgSize,
636              [](ExecutorAddr HeaderAddr,
637                 std::vector<std::pair<std::string_view, ExecutorAddrRange>>
638                     &Secs,
639                 bool RunInitializers) {
640                return COFFPlatformRuntimeState::get().registerObjectSections(
641                    HeaderAddr, std::move(Secs), RunInitializers);
642              })
643           .release();
644 }
645 
646 ORC_RT_INTERFACE orc_rt_CWrapperFunctionResult
647 __orc_rt_coff_deregister_object_sections(char *ArgData, size_t ArgSize) {
648   return WrapperFunction<SPSError(SPSExecutorAddr, SPSCOFFObjectSectionsMap)>::
649       handle(ArgData, ArgSize,
650              [](ExecutorAddr HeaderAddr,
651                 std::vector<std::pair<std::string_view, ExecutorAddrRange>>
652                     &Secs) {
653                return COFFPlatformRuntimeState::get().deregisterObjectSections(
654                    HeaderAddr, std::move(Secs));
655              })
656           .release();
657 }
658 //------------------------------------------------------------------------------
659 //                        JIT'd dlfcn alternatives.
660 //------------------------------------------------------------------------------
661 
662 const char *__orc_rt_coff_jit_dlerror() {
663   return COFFPlatformRuntimeState::get().dlerror();
664 }
665 
666 void *__orc_rt_coff_jit_dlopen(const char *path, int mode) {
667   return COFFPlatformRuntimeState::get().dlopen(path, mode);
668 }
669 
670 int __orc_rt_coff_jit_dlclose(void *header) {
671   return COFFPlatformRuntimeState::get().dlclose(header);
672 }
673 
674 void *__orc_rt_coff_jit_dlsym(void *header, const char *symbol) {
675   return COFFPlatformRuntimeState::get().dlsym(header, symbol);
676 }
677 
678 //------------------------------------------------------------------------------
679 //                        COFF SEH exception support
680 //------------------------------------------------------------------------------
681 
682 struct ThrowInfo {
683   uint32_t attributes;
684   void *data;
685 };
686 
687 ORC_RT_INTERFACE void __stdcall __orc_rt_coff_cxx_throw_exception(
688     void *pExceptionObject, ThrowInfo *pThrowInfo) {
689 #ifdef __clang__
690 #pragma clang diagnostic push
691 #pragma clang diagnostic ignored "-Wmultichar"
692 #endif
693   constexpr uint32_t EH_EXCEPTION_NUMBER = 'msc' | 0xE0000000;
694 #ifdef __clang__
695 #pragma clang diagnostic pop
696 #endif
697   constexpr uint32_t EH_MAGIC_NUMBER1 = 0x19930520;
698   auto BaseAddr = COFFPlatformRuntimeState::get().findJITDylibBaseByPC(
699       reinterpret_cast<uint64_t>(pThrowInfo));
700   if (!BaseAddr) {
701     // This is not from JIT'd region.
702     // FIXME: Use the default implementation like below when alias api is
703     // capable. _CxxThrowException(pExceptionObject, pThrowInfo);
704     fprintf(stderr, "Throwing exception from compiled callback into JIT'd "
705                     "exception handler not supported yet.\n");
706     abort();
707     return;
708   }
709   const ULONG_PTR parameters[] = {
710       EH_MAGIC_NUMBER1,
711       reinterpret_cast<ULONG_PTR>(pExceptionObject),
712       reinterpret_cast<ULONG_PTR>(pThrowInfo),
713       reinterpret_cast<ULONG_PTR>(BaseAddr),
714   };
715   RaiseException(EH_EXCEPTION_NUMBER, EXCEPTION_NONCONTINUABLE,
716                  _countof(parameters), parameters);
717 }
718 
719 //------------------------------------------------------------------------------
720 //                             COFF atexits
721 //------------------------------------------------------------------------------
722 
723 typedef int (*OnExitFunction)(void);
724 typedef void (*AtExitFunction)(void);
725 
726 ORC_RT_INTERFACE OnExitFunction __orc_rt_coff_onexit(void *Header,
727                                                      OnExitFunction Func) {
728   if (auto Err = COFFPlatformRuntimeState::get().registerAtExit(
729           ExecutorAddr::fromPtr(Header), (void (*)(void))Func)) {
730     consumeError(std::move(Err));
731     return nullptr;
732   }
733   return Func;
734 }
735 
736 ORC_RT_INTERFACE int __orc_rt_coff_atexit(void *Header, AtExitFunction Func) {
737   if (auto Err = COFFPlatformRuntimeState::get().registerAtExit(
738           ExecutorAddr::fromPtr(Header), (void (*)(void))Func)) {
739     consumeError(std::move(Err));
740     return -1;
741   }
742   return 0;
743 }
744 
745 //------------------------------------------------------------------------------
746 //                             COFF Run Program
747 //------------------------------------------------------------------------------
748 
749 ORC_RT_INTERFACE int64_t __orc_rt_coff_run_program(const char *JITDylibName,
750                                                    const char *EntrySymbolName,
751                                                    int argc, char *argv[]) {
752   using MainTy = int (*)(int, char *[]);
753 
754   void *H =
755       __orc_rt_coff_jit_dlopen(JITDylibName, __orc_rt::coff::ORC_RT_RTLD_LAZY);
756   if (!H) {
757     __orc_rt_log_error(__orc_rt_coff_jit_dlerror());
758     return -1;
759   }
760 
761   auto *Main =
762       reinterpret_cast<MainTy>(__orc_rt_coff_jit_dlsym(H, EntrySymbolName));
763 
764   if (!Main) {
765     __orc_rt_log_error(__orc_rt_coff_jit_dlerror());
766     return -1;
767   }
768 
769   int Result = Main(argc, argv);
770 
771   if (__orc_rt_coff_jit_dlclose(H) == -1)
772     __orc_rt_log_error(__orc_rt_coff_jit_dlerror());
773 
774   return Result;
775 }
776