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1 //===- HexagonRelocator.cpp -----------------------------------------------===//
2 //
3 //                     The MCLinker Project
4 //
5 // This file is distributed under the University of Illinois Open Source
6 // License. See LICENSE.TXT for details.
7 //
8 //===----------------------------------------------------------------------===//
9 #include "HexagonRelocator.h"
10 #include "HexagonRelocationFunctions.h"
11 #include "HexagonEncodings.h"
12 
13 #include "mcld/LD/ELFFileFormat.h"
14 #include "mcld/LD/LDSymbol.h"
15 #include "mcld/Support/MsgHandling.h"
16 
17 #include <llvm/ADT/Twine.h>
18 #include <llvm/Support/DataTypes.h>
19 #include <llvm/Support/ELF.h>
20 
21 namespace mcld {
22 
23 //===--------------------------------------------------------------------===//
24 // Relocation Helper Functions
25 //===--------------------------------------------------------------------===//
26 /// helper_DynRel - Get an relocation entry in .rela.dyn
helper_DynRel_init(ResolveInfo * pSym,Fragment & pFrag,uint64_t pOffset,Relocator::Type pType,HexagonRelocator & pParent)27 static Relocation& helper_DynRel_init(ResolveInfo* pSym,
28                                       Fragment& pFrag,
29                                       uint64_t pOffset,
30                                       Relocator::Type pType,
31                                       HexagonRelocator& pParent) {
32   HexagonLDBackend& ld_backend = pParent.getTarget();
33   Relocation& rela_entry = *ld_backend.getRelaDyn().create();
34   rela_entry.setType(pType);
35   rela_entry.targetRef().assign(pFrag, pOffset);
36   if (pType == llvm::ELF::R_HEX_RELATIVE || pSym == NULL)
37     rela_entry.setSymInfo(0);
38   else
39     rela_entry.setSymInfo(pSym);
40 
41   return rela_entry;
42 }
43 
44 /// helper_use_relative_reloc - Check if symbol can use relocation
45 /// R_HEX_RELATIVE
helper_use_relative_reloc(const ResolveInfo & pSym,const HexagonRelocator & pFactory)46 static bool helper_use_relative_reloc(const ResolveInfo& pSym,
47                                       const HexagonRelocator& pFactory) {
48   // if symbol is dynamic or undefine or preemptible
49   if (pSym.isDyn() || pSym.isUndef() ||
50       pFactory.getTarget().isSymbolPreemptible(pSym))
51     return false;
52   return true;
53 }
54 
helper_GOT_init(Relocation & pReloc,bool pHasRel,HexagonRelocator & pParent)55 static HexagonGOTEntry& helper_GOT_init(Relocation& pReloc,
56                                         bool pHasRel,
57                                         HexagonRelocator& pParent) {
58   // rsym - The relocation target symbol
59   ResolveInfo* rsym = pReloc.symInfo();
60   HexagonLDBackend& ld_backend = pParent.getTarget();
61   assert(pParent.getSymGOTMap().lookUp(*rsym) == NULL);
62 
63   HexagonGOTEntry* got_entry = ld_backend.getGOT().create();
64   pParent.getSymGOTMap().record(*rsym, *got_entry);
65 
66   if (!pHasRel) {
67     // No corresponding dynamic relocation, initialize to the symbol value.
68     got_entry->setValue(HexagonRelocator::SymVal);
69   } else {
70     // Initialize got_entry content and the corresponding dynamic relocation.
71     if (helper_use_relative_reloc(*rsym, pParent)) {
72       helper_DynRel_init(
73           rsym, *got_entry, 0x0, llvm::ELF::R_HEX_RELATIVE, pParent);
74       got_entry->setValue(HexagonRelocator::SymVal);
75     } else {
76       helper_DynRel_init(
77           rsym, *got_entry, 0x0, llvm::ELF::R_HEX_GLOB_DAT, pParent);
78       got_entry->setValue(0);
79     }
80   }
81   return *got_entry;
82 }
83 
helper_get_GOT_address(ResolveInfo & pSym,HexagonRelocator & pParent)84 static Relocator::Address helper_get_GOT_address(ResolveInfo& pSym,
85                                                  HexagonRelocator& pParent) {
86   HexagonGOTEntry* got_entry = pParent.getSymGOTMap().lookUp(pSym);
87   assert(got_entry != NULL);
88   return pParent.getTarget().getGOT().addr() + got_entry->getOffset();
89 }
90 
helper_PLT_init(Relocation & pReloc,HexagonRelocator & pParent)91 static PLTEntryBase& helper_PLT_init(Relocation& pReloc,
92                                      HexagonRelocator& pParent) {
93   // rsym - The relocation target symbol
94   ResolveInfo* rsym = pReloc.symInfo();
95   HexagonLDBackend& ld_backend = pParent.getTarget();
96   assert(pParent.getSymPLTMap().lookUp(*rsym) == NULL);
97 
98   PLTEntryBase* plt_entry = ld_backend.getPLT().create();
99   pParent.getSymPLTMap().record(*rsym, *plt_entry);
100 
101   assert(pParent.getSymGOTPLTMap().lookUp(*rsym) == NULL &&
102          "PLT entry not exist, but DynRel entry exist!");
103   HexagonGOTEntry* gotplt_entry = ld_backend.getGOTPLT().create();
104   pParent.getSymGOTPLTMap().record(*rsym, *gotplt_entry);
105   // init the corresponding rel entry in .rela.plt
106   Relocation& rela_entry = *ld_backend.getRelaPLT().create();
107   rela_entry.setType(llvm::ELF::R_HEX_JMP_SLOT);
108   rela_entry.targetRef().assign(*gotplt_entry);
109   rela_entry.setSymInfo(rsym);
110 
111   return *plt_entry;
112 }
113 
helper_get_PLT_address(ResolveInfo & pSym,HexagonRelocator & pParent)114 static Relocator::Address helper_get_PLT_address(ResolveInfo& pSym,
115                                                  HexagonRelocator& pParent) {
116   PLTEntryBase* plt_entry = pParent.getSymPLTMap().lookUp(pSym);
117   assert(plt_entry != NULL);
118   return pParent.getTarget().getPLT().addr() + plt_entry->getOffset();
119 }
120 
121 //===--------------------------------------------------------------------===//
122 // Relocation Functions and Tables
123 //===--------------------------------------------------------------------===//
124 DECL_HEXAGON_APPLY_RELOC_FUNCS
125 
126 /// the prototype of applying function
127 typedef Relocator::Result (*ApplyFunctionType)(Relocation& pReloc,
128                                                HexagonRelocator& pParent);
129 
130 // the table entry of applying functions
131 struct ApplyFunctionTriple {
132   ApplyFunctionType func;
133   unsigned int type;
134   const char* name;
135 };
136 
137 // declare the table of applying functions
138 static const ApplyFunctionTriple ApplyFunctions[] = {
139     DECL_HEXAGON_APPLY_RELOC_FUNC_PTRS};
140 
findBitMask(uint32_t insn,Instruction * encodings,int32_t numInsns)141 static uint32_t findBitMask(uint32_t insn,
142                             Instruction* encodings,
143                             int32_t numInsns) {
144   for (int32_t i = 0; i < numInsns; ++i) {
145     if (((insn & 0xc000) == 0) && !(encodings[i].isDuplex))
146       continue;
147 
148     if (((insn & 0xc000) != 0) && (encodings[i].isDuplex))
149       continue;
150 
151     if (((encodings[i].insnMask) & insn) == encodings[i].insnCmpMask)
152       return encodings[i].insnBitMask;
153   }
154   assert(0);
155   // Should not be here, but add a return for -Werror=return-type
156   // error: control reaches end of non-void function
157   return -1;
158 }
159 
160 #define FINDBITMASK(INSN)     \
161   findBitMask((uint32_t)INSN, \
162               insn_encodings, \
163               sizeof(insn_encodings) / sizeof(Instruction))
164 
165 //===--------------------------------------------------------------------===//
166 // HexagonRelocator
167 //===--------------------------------------------------------------------===//
HexagonRelocator(HexagonLDBackend & pParent,const LinkerConfig & pConfig)168 HexagonRelocator::HexagonRelocator(HexagonLDBackend& pParent,
169                                    const LinkerConfig& pConfig)
170     : Relocator(pConfig), m_Target(pParent) {
171 }
172 
~HexagonRelocator()173 HexagonRelocator::~HexagonRelocator() {
174 }
175 
applyRelocation(Relocation & pRelocation)176 Relocator::Result HexagonRelocator::applyRelocation(Relocation& pRelocation) {
177   Relocation::Type type = pRelocation.type();
178 
179   if (type > 85) {  // 86-255 relocs do not exists for Hexagon
180     return Relocator::Unknown;
181   }
182 
183   // apply the relocation
184   return ApplyFunctions[type].func(pRelocation, *this);
185 }
186 
getName(Relocation::Type pType) const187 const char* HexagonRelocator::getName(Relocation::Type pType) const {
188   return ApplyFunctions[pType].name;
189 }
190 
getSize(Relocation::Type pType) const191 Relocator::Size HexagonRelocator::getSize(Relocation::Type pType) const {
192   return 32;
193 }
194 
scanRelocation(Relocation & pReloc,IRBuilder & pLinker,Module & pModule,LDSection & pSection,Input & pInput)195 void HexagonRelocator::scanRelocation(Relocation& pReloc,
196                                       IRBuilder& pLinker,
197                                       Module& pModule,
198                                       LDSection& pSection,
199                                       Input& pInput) {
200   if (LinkerConfig::Object == config().codeGenType())
201     return;
202 
203   // rsym - The relocation target symbol
204   ResolveInfo* rsym = pReloc.symInfo();
205   assert(rsym != NULL &&
206          "ResolveInfo of relocation not set while scanRelocation");
207 
208   if (config().isCodeStatic())
209     return;
210 
211   assert(pSection.getLink() != NULL);
212   if ((pSection.getLink()->flag() & llvm::ELF::SHF_ALLOC) == 0)
213     return;
214 
215   if (rsym->isLocal())  // rsym is local
216     scanLocalReloc(pReloc, pLinker, pModule, pSection);
217   else  // rsym is external
218     scanGlobalReloc(pReloc, pLinker, pModule, pSection);
219 
220   // check if we should issue undefined reference for the relocation target
221   // symbol
222   if (rsym->isUndef() && !rsym->isDyn() && !rsym->isWeak() && !rsym->isNull())
223     issueUndefRef(pReloc, pSection, pInput);
224 }
225 
addCopyReloc(ResolveInfo & pSym,HexagonLDBackend & pTarget)226 void HexagonRelocator::addCopyReloc(ResolveInfo& pSym,
227                                     HexagonLDBackend& pTarget) {
228   Relocation& rel_entry = *pTarget.getRelaDyn().create();
229   rel_entry.setType(pTarget.getCopyRelType());
230   assert(pSym.outSymbol()->hasFragRef());
231   rel_entry.targetRef().assign(*pSym.outSymbol()->fragRef());
232   rel_entry.setSymInfo(&pSym);
233 }
234 
scanLocalReloc(Relocation & pReloc,IRBuilder & pBuilder,Module & pModule,LDSection & pSection)235 void HexagonRelocator::scanLocalReloc(Relocation& pReloc,
236                                       IRBuilder& pBuilder,
237                                       Module& pModule,
238                                       LDSection& pSection) {
239   // rsym - The relocation target symbol
240   ResolveInfo* rsym = pReloc.symInfo();
241 
242   switch (pReloc.type()) {
243     case llvm::ELF::R_HEX_LO16:
244     case llvm::ELF::R_HEX_HI16:
245     case llvm::ELF::R_HEX_16:
246     case llvm::ELF::R_HEX_8:
247     case llvm::ELF::R_HEX_32_6_X:
248     case llvm::ELF::R_HEX_16_X:
249     case llvm::ELF::R_HEX_12_X:
250     case llvm::ELF::R_HEX_11_X:
251     case llvm::ELF::R_HEX_10_X:
252     case llvm::ELF::R_HEX_9_X:
253     case llvm::ELF::R_HEX_8_X:
254     case llvm::ELF::R_HEX_7_X:
255     case llvm::ELF::R_HEX_6_X:
256       assert(!(rsym->reserved() & ReserveRel) &&
257              "Cannot apply this relocation for read only section");
258       return;
259 
260     case llvm::ELF::R_HEX_32:
261       // If buiding PIC object (shared library or PIC executable),
262       // a dynamic relocations with RELATIVE type to this location is needed.
263       // Reserve an entry in .rel.dyn
264       if (config().isCodeIndep()) {
265         Relocation& reloc = helper_DynRel_init(rsym,
266                                                *pReloc.targetRef().frag(),
267                                                pReloc.targetRef().offset(),
268                                                llvm::ELF::R_HEX_RELATIVE,
269                                                *this);
270         // we need to set up the relocation addend at apply relocation, record
271         // the
272         // relocation
273         getRelRelMap().record(pReloc, reloc);
274 
275         // set Rel bit
276         rsym->setReserved(rsym->reserved() | ReserveRel);
277         getTarget().checkAndSetHasTextRel(*pSection.getLink());
278       }
279       return;
280 
281     default:
282       return;
283   }
284 }
285 
scanGlobalReloc(Relocation & pReloc,IRBuilder & pBuilder,Module & pModule,LDSection & pSection)286 void HexagonRelocator::scanGlobalReloc(Relocation& pReloc,
287                                        IRBuilder& pBuilder,
288                                        Module& pModule,
289                                        LDSection& pSection) {
290   // rsym - The relocation target symbol
291   ResolveInfo* rsym = pReloc.symInfo();
292   HexagonLDBackend& ld_backend = getTarget();
293 
294   switch (pReloc.type()) {
295     case llvm::ELF::R_HEX_LO16:
296     case llvm::ELF::R_HEX_HI16:
297     case llvm::ELF::R_HEX_16:
298     case llvm::ELF::R_HEX_8:
299     case llvm::ELF::R_HEX_32_6_X:
300     case llvm::ELF::R_HEX_16_X:
301     case llvm::ELF::R_HEX_12_X:
302     case llvm::ELF::R_HEX_11_X:
303     case llvm::ELF::R_HEX_10_X:
304     case llvm::ELF::R_HEX_9_X:
305     case llvm::ELF::R_HEX_8_X:
306     case llvm::ELF::R_HEX_7_X:
307     case llvm::ELF::R_HEX_6_X:
308       assert(!(rsym->reserved() & ReserveRel) &&
309              "Cannot apply this relocation for read only section");
310       return;
311 
312     case llvm::ELF::R_HEX_32:
313       if (ld_backend.symbolNeedsPLT(*rsym)) {
314         // create PLT for this symbol if it does not have.
315         if (!(rsym->reserved() & ReservePLT)) {
316           helper_PLT_init(pReloc, *this);
317           rsym->setReserved(rsym->reserved() | ReservePLT);
318         }
319       }
320 
321       if (ld_backend.symbolNeedsDynRel(
322               *rsym, (rsym->reserved() & ReservePLT), true)) {
323         if (ld_backend.symbolNeedsCopyReloc(pReloc, *rsym)) {
324           LDSymbol& cpy_sym =
325               defineSymbolforCopyReloc(pBuilder, *rsym, ld_backend);
326           addCopyReloc(*cpy_sym.resolveInfo(), ld_backend);
327         } else {
328           Relocation& reloc = helper_DynRel_init(rsym,
329                                                  *pReloc.targetRef().frag(),
330                                                  pReloc.targetRef().offset(),
331                                                  llvm::ELF::R_HEX_RELATIVE,
332                                                  *this);
333           // we need to set up the relocation addend at apply relocation, record
334           // the
335           // relocation
336           getRelRelMap().record(pReloc, reloc);
337           rsym->setReserved(rsym->reserved() | ReserveRel);
338           ld_backend.checkAndSetHasTextRel(*pSection.getLink());
339         }
340       }
341       return;
342 
343     case llvm::ELF::R_HEX_GOTREL_LO16:
344     case llvm::ELF::R_HEX_GOTREL_HI16:
345     case llvm::ELF::R_HEX_GOTREL_32:
346     case llvm::ELF::R_HEX_GOTREL_32_6_X:
347     case llvm::ELF::R_HEX_GOTREL_16_X:
348     case llvm::ELF::R_HEX_GOTREL_11_X:
349       // This assumes that GOT exists
350       return;
351 
352     case llvm::ELF::R_HEX_GOT_LO16:
353     case llvm::ELF::R_HEX_GOT_HI16:
354     case llvm::ELF::R_HEX_GOT_32:
355     case llvm::ELF::R_HEX_GOT_16:
356     case llvm::ELF::R_HEX_GOT_32_6_X:
357     case llvm::ELF::R_HEX_GOT_16_X:
358     case llvm::ELF::R_HEX_GOT_11_X:
359       // Symbol needs GOT entry, reserve entry in .got
360       // return if we already create GOT for this symbol
361       if (rsym->reserved() & ReserveGOT)
362         return;
363       // If the GOT is used in statically linked binaries,
364       // the GOT entry is enough and no relocation is needed.
365       if (config().isCodeStatic())
366         helper_GOT_init(pReloc, false, *this);
367       else
368         helper_GOT_init(pReloc, true, *this);
369       // set GOT bit
370       rsym->setReserved(rsym->reserved() | ReserveGOT);
371       return;
372 
373     case llvm::ELF::R_HEX_B22_PCREL:
374     case llvm::ELF::R_HEX_B15_PCREL:
375     case llvm::ELF::R_HEX_B7_PCREL:
376     case llvm::ELF::R_HEX_B13_PCREL:
377     case llvm::ELF::R_HEX_B9_PCREL:
378     case llvm::ELF::R_HEX_B32_PCREL_X:
379     case llvm::ELF::R_HEX_B22_PCREL_X:
380     case llvm::ELF::R_HEX_B15_PCREL_X:
381     case llvm::ELF::R_HEX_B13_PCREL_X:
382     case llvm::ELF::R_HEX_B9_PCREL_X:
383     case llvm::ELF::R_HEX_B7_PCREL_X:
384     case llvm::ELF::R_HEX_32_PCREL:
385     case llvm::ELF::R_HEX_6_PCREL_X:
386     case llvm::ELF::R_HEX_PLT_B22_PCREL:
387       if (rsym->reserved() & ReservePLT)
388         return;
389       if (ld_backend.symbolNeedsPLT(*rsym) ||
390           pReloc.type() == llvm::ELF::R_HEX_PLT_B22_PCREL) {
391         helper_PLT_init(pReloc, *this);
392         rsym->setReserved(rsym->reserved() | ReservePLT);
393       }
394       return;
395 
396     default:
397       break;
398   }  // end of switch
399 }
400 
401 /// defineSymbolforCopyReloc
402 /// For a symbol needing copy relocation, define a copy symbol in the BSS
403 /// section and all other reference to this symbol should refer to this
404 /// copy.
405 /// @note This is executed at `scan relocation' stage.
defineSymbolforCopyReloc(IRBuilder & pBuilder,const ResolveInfo & pSym,HexagonLDBackend & pTarget)406 LDSymbol& HexagonRelocator::defineSymbolforCopyReloc(
407     IRBuilder& pBuilder,
408     const ResolveInfo& pSym,
409     HexagonLDBackend& pTarget) {
410   // get or create corresponding BSS LDSection
411   LDSection* bss_sect_hdr = NULL;
412   ELFFileFormat* file_format = pTarget.getOutputFormat();
413   if (ResolveInfo::ThreadLocal == pSym.type())
414     bss_sect_hdr = &file_format->getTBSS();
415   else
416     bss_sect_hdr = &file_format->getBSS();
417 
418   // get or create corresponding BSS SectionData
419   assert(bss_sect_hdr != NULL);
420   SectionData* bss_section = NULL;
421   if (bss_sect_hdr->hasSectionData())
422     bss_section = bss_sect_hdr->getSectionData();
423   else
424     bss_section = IRBuilder::CreateSectionData(*bss_sect_hdr);
425 
426   // Determine the alignment by the symbol value
427   // FIXME: here we use the largest alignment
428   uint32_t addralign = config().targets().bitclass() / 8;
429 
430   // allocate space in BSS for the copy symbol
431   Fragment* frag = new FillFragment(0x0, 1, pSym.size());
432   uint64_t size = ObjectBuilder::AppendFragment(*frag, *bss_section, addralign);
433   bss_sect_hdr->setSize(bss_sect_hdr->size() + size);
434 
435   // change symbol binding to Global if it's a weak symbol
436   ResolveInfo::Binding binding = (ResolveInfo::Binding)pSym.binding();
437   if (binding == ResolveInfo::Weak)
438     binding = ResolveInfo::Global;
439 
440   // Define the copy symbol in the bss section and resolve it
441   LDSymbol* cpy_sym = pBuilder.AddSymbol<IRBuilder::Force, IRBuilder::Resolve>(
442       pSym.name(),
443       (ResolveInfo::Type)pSym.type(),
444       ResolveInfo::Define,
445       binding,
446       pSym.size(),  // size
447       0x0,          // value
448       FragmentRef::Create(*frag, 0x0),
449       (ResolveInfo::Visibility)pSym.other());
450 
451   // output all other alias symbols if any
452   Module& pModule = pBuilder.getModule();
453   Module::AliasList* alias_list = pModule.getAliasList(pSym);
454   if (alias_list != NULL) {
455     Module::alias_iterator it, it_e = alias_list->end();
456     for (it = alias_list->begin(); it != it_e; ++it) {
457       const ResolveInfo* alias = *it;
458       if (alias != &pSym && alias->isDyn()) {
459         pBuilder.AddSymbol<IRBuilder::Force, IRBuilder::Resolve>(
460             alias->name(),
461             (ResolveInfo::Type)alias->type(),
462             ResolveInfo::Define,
463             binding,
464             alias->size(),  // size
465             0x0,            // value
466             FragmentRef::Create(*frag, 0x0),
467             (ResolveInfo::Visibility)alias->other());
468       }
469     }
470   }
471 
472   return *cpy_sym;
473 }
474 
partialScanRelocation(Relocation & pReloc,Module & pModule)475 void HexagonRelocator::partialScanRelocation(Relocation& pReloc,
476                                              Module& pModule) {
477   pReloc.updateAddend();
478   // if we meet a section symbol
479   if (pReloc.symInfo()->type() == ResolveInfo::Section) {
480     LDSymbol* input_sym = pReloc.symInfo()->outSymbol();
481 
482     // 1. update the relocation target offset
483     assert(input_sym->hasFragRef());
484     // 2. get the output LDSection which the symbol defined in
485     const LDSection& out_sect =
486         input_sym->fragRef()->frag()->getParent()->getSection();
487     ResolveInfo* sym_info =
488         pModule.getSectionSymbolSet().get(out_sect)->resolveInfo();
489     // set relocation target symbol to the output section symbol's resolveInfo
490     pReloc.setSymInfo(sym_info);
491   }
492 }
493 
494 //=========================================//
495 // Each relocation function implementation //
496 //=========================================//
497 
498 // R_HEX_NONE
none(Relocation & pReloc,HexagonRelocator & pParent)499 Relocator::Result none(Relocation& pReloc, HexagonRelocator& pParent) {
500   return Relocator::OK;
501 }
502 
503 // R_HEX_32 and its class of relocations use only addend and symbol value
504 // S + A : result is unsigned truncate.
505 // Exception: R_HEX_32_6_X : unsigned verify
applyAbs(Relocation & pReloc)506 Relocator::Result applyAbs(Relocation& pReloc) {
507   Relocator::Address S = pReloc.symValue();
508   Relocator::DWord A = pReloc.addend();
509   uint32_t result = (uint32_t)(S + A);
510   uint32_t bitMask = 0;
511   uint32_t effectiveBits = 0;
512   uint32_t alignment = 1;
513   uint32_t shift = 0;
514 
515   switch (pReloc.type()) {
516     case llvm::ELF::R_HEX_LO16:
517       bitMask = 0x00c03fff;
518       break;
519 
520     case llvm::ELF::R_HEX_HI16:
521       shift = 16;
522       bitMask = 0x00c03fff;
523       break;
524 
525     case llvm::ELF::R_HEX_32:
526       bitMask = 0xffffffff;
527       break;
528 
529     case llvm::ELF::R_HEX_16:
530       bitMask = 0x0000ffff;
531       alignment = 2;
532       break;
533 
534     case llvm::ELF::R_HEX_8:
535       bitMask = 0x000000ff;
536       alignment = 1;
537       break;
538 
539     case llvm::ELF::R_HEX_12_X:
540       bitMask = 0x000007e0;
541       break;
542 
543     case llvm::ELF::R_HEX_32_6_X:
544       bitMask = 0xfff3fff;
545       shift = 6;
546       effectiveBits = 26;
547       break;
548 
549     case llvm::ELF::R_HEX_16_X:
550     case llvm::ELF::R_HEX_11_X:
551     case llvm::ELF::R_HEX_10_X:
552     case llvm::ELF::R_HEX_9_X:
553     case llvm::ELF::R_HEX_8_X:
554     case llvm::ELF::R_HEX_7_X:
555     case llvm::ELF::R_HEX_6_X:
556       bitMask = FINDBITMASK(pReloc.target());
557       break;
558 
559     default:
560       // show proper error
561       fatal(diag::unsupported_relocation) << static_cast<int>(pReloc.type())
562                                           << "mclinker@googlegroups.com";
563   }
564 
565   if ((shift != 0) && (result % alignment != 0))
566     return Relocator::BadReloc;
567 
568   result >>= shift;
569 
570   if (effectiveBits) {
571     uint32_t range = 1 << effectiveBits;
572     if (result > (range - 1))
573       return Relocator::Overflow;
574   }
575 
576   pReloc.target() |= ApplyMask<uint32_t>(bitMask, result);
577   return Relocator::OK;
578 }
579 
580 // R_HEX_B22_PCREL and its class of relocations, use
581 // S + A - P : result is signed verify.
582 // Exception: R_HEX_B32_PCREL_X : signed truncate
583 // Another Exception: R_HEX_6_PCREL_X is unsigned truncate
applyRel(Relocation & pReloc,int64_t pResult)584 Relocator::Result applyRel(Relocation& pReloc, int64_t pResult) {
585   uint32_t bitMask = 0;
586   uint32_t effectiveBits = 0;
587   uint32_t alignment = 1;
588   uint32_t result;
589   uint32_t shift = 0;
590 
591   switch (pReloc.type()) {
592     case llvm::ELF::R_HEX_B22_PCREL:
593       bitMask = 0x01ff3ffe;
594       effectiveBits = 22;
595       alignment = 4;
596       shift = 2;
597       break;
598 
599     case llvm::ELF::R_HEX_B15_PCREL:
600       bitMask = 0x00df20fe;
601       effectiveBits = 15;
602       alignment = 4;
603       shift = 2;
604       break;
605 
606     case llvm::ELF::R_HEX_B7_PCREL:
607       bitMask = 0x00001f18;
608       effectiveBits = 7;
609       alignment = 4;
610       shift = 2;
611       break;
612 
613     case llvm::ELF::R_HEX_B13_PCREL:
614       bitMask = 0x00202ffe;
615       effectiveBits = 13;
616       alignment = 4;
617       shift = 2;
618       break;
619 
620     case llvm::ELF::R_HEX_B9_PCREL:
621       bitMask = 0x003000fe;
622       effectiveBits = 9;
623       alignment = 4;
624       shift = 2;
625       break;
626 
627     case llvm::ELF::R_HEX_B32_PCREL_X:
628       bitMask = 0xfff3fff;
629       shift = 6;
630       break;
631 
632     case llvm::ELF::R_HEX_B22_PCREL_X:
633       bitMask = 0x01ff3ffe;
634       effectiveBits = 22;
635       pResult &= 0x3f;
636       break;
637 
638     case llvm::ELF::R_HEX_B15_PCREL_X:
639       bitMask = 0x00df20fe;
640       effectiveBits = 15;
641       pResult &= 0x3f;
642       break;
643 
644     case llvm::ELF::R_HEX_B13_PCREL_X:
645       bitMask = 0x00202ffe;
646       effectiveBits = 13;
647       pResult &= 0x3f;
648       break;
649 
650     case llvm::ELF::R_HEX_B9_PCREL_X:
651       bitMask = 0x003000fe;
652       effectiveBits = 9;
653       pResult &= 0x3f;
654       break;
655 
656     case llvm::ELF::R_HEX_B7_PCREL_X:
657       bitMask = 0x00001f18;
658       effectiveBits = 7;
659       pResult &= 0x3f;
660       break;
661 
662     case llvm::ELF::R_HEX_32_PCREL:
663       bitMask = 0xffffffff;
664       effectiveBits = 32;
665       break;
666 
667     case llvm::ELF::R_HEX_6_PCREL_X:
668       // This is unique since it has a unsigned operand and its truncated
669       bitMask = FINDBITMASK(pReloc.target());
670       result = pReloc.addend() + pReloc.symValue() - pReloc.place();
671       pReloc.target() |= ApplyMask<uint32_t>(bitMask, result);
672       return Relocator::OK;
673 
674     default:
675       // show proper error
676       fatal(diag::unsupported_relocation) << static_cast<int>(pReloc.type())
677                                           << "mclinker@googlegroups.com";
678   }
679 
680   if ((shift != 0) && (pResult % alignment != 0))
681     return Relocator::BadReloc;
682 
683   pResult >>= shift;
684 
685   if (effectiveBits) {
686     int64_t range = 1LL << (effectiveBits - 1);
687     if ((pResult > (range - 1)) || (pResult < -range))
688       return Relocator::Overflow;
689   }
690 
691   pReloc.target() |= (uint32_t)ApplyMask<int32_t>(bitMask, pResult);
692   return Relocator::OK;
693 }
694 
relocAbs(Relocation & pReloc,HexagonRelocator & pParent)695 Relocator::Result relocAbs(Relocation& pReloc, HexagonRelocator& pParent) {
696   ResolveInfo* rsym = pReloc.symInfo();
697   Relocator::Address S = pReloc.symValue();
698   Relocator::DWord A = pReloc.addend();
699 
700   Relocation* rel_entry = pParent.getRelRelMap().lookUp(pReloc);
701   bool has_dyn_rel = (rel_entry != NULL);
702 
703   // if the flag of target section is not ALLOC, we eprform only static
704   // relocation.
705   if (0 == (llvm::ELF::SHF_ALLOC &
706             pReloc.targetRef().frag()->getParent()->getSection().flag())) {
707     return applyAbs(pReloc);
708   }
709 
710   // a local symbol with .rela type relocation
711   if (rsym->isLocal() && has_dyn_rel) {
712     rel_entry->setAddend(S + A);
713     return Relocator::OK;
714   }
715 
716   if (!rsym->isLocal()) {
717     if (rsym->reserved() & HexagonRelocator::ReservePLT) {
718       S = helper_get_PLT_address(*rsym, pParent);
719     }
720 
721     if (has_dyn_rel) {
722       if (llvm::ELF::R_HEX_32 == pReloc.type() &&
723           helper_use_relative_reloc(*rsym, pParent)) {
724         rel_entry->setAddend(S + A);
725       } else {
726         rel_entry->setAddend(A);
727         return Relocator::OK;
728       }
729     }
730   }
731 
732   return applyAbs(pReloc);
733 }
734 
relocPCREL(Relocation & pReloc,HexagonRelocator & pParent)735 Relocator::Result relocPCREL(Relocation& pReloc, HexagonRelocator& pParent) {
736   ResolveInfo* rsym = pReloc.symInfo();
737   int64_t result;
738 
739   Relocator::Address S = pReloc.symValue();
740   Relocator::DWord A = pReloc.addend();
741   Relocator::DWord P = pReloc.place();
742 
743   FragmentRef& target_fragref = pReloc.targetRef();
744   Fragment* target_frag = target_fragref.frag();
745   LDSection& target_sect = target_frag->getParent()->getSection();
746 
747   result = (int64_t)(S + A - P);
748 
749   // for relocs inside non ALLOC, just apply
750   if ((llvm::ELF::SHF_ALLOC & target_sect.flag()) == 0) {
751     return applyRel(pReloc, result);
752   }
753 
754   if (!rsym->isLocal()) {
755     if (rsym->reserved() & HexagonRelocator::ReservePLT) {
756       S = helper_get_PLT_address(*rsym, pParent);
757       result = (int64_t)(S + A - P);
758       applyRel(pReloc, result);
759       return Relocator::OK;
760     }
761   }
762 
763   return applyRel(pReloc, result);
764 }
765 
766 // R_HEX_GPREL16_0 and its class : Unsigned Verify
relocGPREL(Relocation & pReloc,HexagonRelocator & pParent)767 Relocator::Result relocGPREL(Relocation& pReloc, HexagonRelocator& pParent) {
768   Relocator::Address S = pReloc.symValue();
769   Relocator::DWord A = pReloc.addend();
770   Relocator::DWord GP = pParent.getTarget().getGP();
771 
772   uint32_t result = (uint32_t)(S + A - GP);
773   uint32_t shift = 0;
774   uint32_t alignment = 1;
775 
776   switch (pReloc.type()) {
777     case llvm::ELF::R_HEX_GPREL16_0:
778       break;
779 
780     case llvm::ELF::R_HEX_GPREL16_1:
781       shift = 1;
782       alignment = 2;
783       break;
784 
785     case llvm::ELF::R_HEX_GPREL16_2:
786       shift = 2;
787       alignment = 4;
788       break;
789 
790     case llvm::ELF::R_HEX_GPREL16_3:
791       shift = 3;
792       alignment = 8;
793       break;
794 
795     default:
796       // show proper error
797       fatal(diag::unsupported_relocation) << static_cast<int>(pReloc.type())
798                                           << "mclinker@googlegroups.com";
799   }
800 
801   uint32_t range = 1 << 16;
802   uint32_t bitMask = FINDBITMASK(pReloc.target());
803 
804   if ((shift != 0) && (result % alignment != 0))
805     return Relocator::BadReloc;
806 
807   result >>= shift;
808 
809   if (result < range - 1) {
810     pReloc.target() |= ApplyMask<uint32_t>(bitMask, result);
811     return Relocator::OK;
812   }
813   return Relocator::Overflow;
814 }
815 
816 // R_HEX_PLT_B22_PCREL: PLT(S) + A - P
relocPLTB22PCREL(Relocation & pReloc,HexagonRelocator & pParent)817 Relocator::Result relocPLTB22PCREL(Relocation& pReloc,
818                                    HexagonRelocator& pParent) {
819   // PLT_S depends on if there is a PLT entry.
820   Relocator::Address PLT_S;
821   if ((pReloc.symInfo()->reserved() & HexagonRelocator::ReservePLT))
822     PLT_S = helper_get_PLT_address(*pReloc.symInfo(), pParent);
823   else
824     PLT_S = pReloc.symValue();
825   Relocator::Address P = pReloc.place();
826   uint32_t bitMask = FINDBITMASK(pReloc.target());
827   uint32_t result = (PLT_S + pReloc.addend() - P) >> 2;
828   pReloc.target() = pReloc.target() | ApplyMask<uint32_t>(bitMask, result);
829   return Relocator::OK;
830 }
831 
832 // R_HEX_GOT_LO16 and its class : (G) Signed Truncate
833 // Exception: R_HEX_GOT_16(_X): signed verify
834 // Exception: R_HEX_GOT_11_X : unsigned truncate
relocGOT(Relocation & pReloc,HexagonRelocator & pParent)835 Relocator::Result relocGOT(Relocation& pReloc, HexagonRelocator& pParent) {
836   if (!(pReloc.symInfo()->reserved() & HexagonRelocator::ReserveGOT)) {
837     return Relocator::BadReloc;
838   }
839 
840   // set got entry value if needed
841   HexagonGOTEntry* got_entry = pParent.getSymGOTMap().lookUp(*pReloc.symInfo());
842   assert(got_entry != NULL);
843   if (HexagonRelocator::SymVal == got_entry->getValue())
844     got_entry->setValue(pReloc.symValue());
845 
846   Relocator::Address GOT_S = helper_get_GOT_address(*pReloc.symInfo(), pParent);
847   Relocator::Address GOT = pParent.getTarget().getGOTSymbolAddr();
848   int32_t result = (int32_t)(GOT_S - GOT);
849   uint32_t effectiveBits = 0;
850   uint32_t alignment = 1;
851   uint32_t bitMask = 0;
852   uint32_t result_u;
853   uint32_t shift = 0;
854 
855   switch (pReloc.type()) {
856     case llvm::ELF::R_HEX_GOT_LO16:
857       bitMask = 0x00c03fff;
858       break;
859 
860     case llvm::ELF::R_HEX_GOT_HI16:
861       bitMask = 0x00c03fff;
862       shift = 16;
863       alignment = 4;
864       break;
865 
866     case llvm::ELF::R_HEX_GOT_32:
867       bitMask = 0xffffffff;
868       break;
869 
870     case llvm::ELF::R_HEX_GOT_16:
871       bitMask = FINDBITMASK(pReloc.target());
872       effectiveBits = 16;
873       break;
874 
875     case llvm::ELF::R_HEX_GOT_32_6_X:
876       bitMask = 0xfff3fff;
877       shift = 6;
878       break;
879 
880     case llvm::ELF::R_HEX_GOT_16_X:
881       bitMask = FINDBITMASK(pReloc.target());
882       effectiveBits = 6;
883       break;
884 
885     case llvm::ELF::R_HEX_GOT_11_X:
886       bitMask = FINDBITMASK(pReloc.target());
887       result_u = GOT_S - GOT;
888       pReloc.target() |= ApplyMask<uint32_t>(bitMask, result_u);
889       return Relocator::OK;
890 
891     default:
892       // show proper error
893       fatal(diag::unsupported_relocation) << static_cast<int>(pReloc.type())
894                                           << "mclinker@googlegroups.com";
895   }
896 
897   if ((shift != 0) && (result % alignment != 0))
898     return Relocator::BadReloc;
899 
900   result >>= shift;
901 
902   if (effectiveBits) {
903     int32_t range = 1 << (effectiveBits - 1);
904     if ((result > range - 1) || (result < -range))
905       return Relocator::Overflow;
906   }
907   pReloc.target() |= ApplyMask<int32_t>(bitMask, result);
908   return Relocator::OK;
909 }
910 
911 // R_HEX_GOTREL_LO16: and its class of relocs
912 // (S + A - GOT) : Signed Truncate
relocGOTREL(Relocation & pReloc,HexagonRelocator & pParent)913 Relocator::Result relocGOTREL(Relocation& pReloc, HexagonRelocator& pParent) {
914   Relocator::Address S = pReloc.symValue();
915   Relocator::DWord A = pReloc.addend();
916   Relocator::Address GOT = pParent.getTarget().getGOTSymbolAddr();
917 
918   uint32_t bitMask = 0;
919   uint32_t alignment = 1;
920   uint32_t shift = 0;
921 
922   uint32_t result = (uint32_t)(S + A - GOT);
923 
924   switch (pReloc.type()) {
925     case llvm::ELF::R_HEX_GOTREL_LO16:
926       bitMask = 0x00c03fff;
927       break;
928 
929     case llvm::ELF::R_HEX_GOTREL_HI16:
930       bitMask = 0x00c03fff;
931       shift = 16;
932       alignment = 4;
933       break;
934 
935     case llvm::ELF::R_HEX_GOTREL_32:
936       bitMask = 0xffffffff;
937       break;
938 
939     case llvm::ELF::R_HEX_GOTREL_32_6_X:
940       bitMask = 0x0fff3fff;
941       shift = 6;
942       break;
943 
944     case llvm::ELF::R_HEX_GOTREL_16_X:
945     case llvm::ELF::R_HEX_GOTREL_11_X:
946       bitMask = FINDBITMASK(pReloc.target());
947       break;
948 
949     default:
950       // show proper error
951       fatal(diag::unsupported_relocation) << static_cast<int>(pReloc.type())
952                                           << "mclinker@googlegroups.com";
953   }
954 
955   if (result % alignment != 0)
956     return Relocator::BadReloc;
957 
958   result >>= shift;
959 
960   pReloc.target() |= ApplyMask<uint32_t>(bitMask, result);
961   return Relocator::OK;
962 }
963 
unsupported(Relocation & pReloc,HexagonRelocator & pParent)964 Relocator::Result unsupported(Relocation& pReloc, HexagonRelocator& pParent) {
965   return Relocator::Unsupported;
966 }
967 
968 }  // namespace mcld
969