Esempio n. 1
0
void listClasses(_Module* module, int pageSize)
{
   const wchar16_t* moduleName = module->Name();

   int row = 0;
   ReferenceMap::Iterator it = ((Module*)module)->References();
   while (!it.Eof()) {
      const wchar16_t* reference = it.key();
      NamespaceName ns(it.key());
      if (StringHelper::compare(moduleName, ns)) {
         ReferenceName name(it.key());
         if (module->mapSection(*it | mskVMTRef, true)) {
            wprintf(_T("class %s\n"), (const wchar16_t*)name);
         }
         else wprintf(_T("symbol %s\n"), (const wchar16_t*)name);

         row++;
         if (row == pageSize) {
            wprintf(_T("Press any key to continue..."));
            fgetchar();
            wprintf(_T("\n"));

            row = 0;
         }
      }

      it++;
   }
}
Esempio n. 2
0
int Linker :: fillImportTable(ImageInfo& info)
{
   int count = 0;

   ReferenceMap::Iterator it = info.image->getExternalIt();
   while (!it.Eof()) {
      ident_t external = it.key();

      ident_t function = external + external.findLast('.') + 1;
      IdentifierString dll(external + getlength(DLL_NAMESPACE) + 1, function - (external + getlength(DLL_NAMESPACE)) - 2);
      if (dll.ident().compare(RTDLL_FORWARD)) {
         dll.copy(info.project->resolvePrimitive(RTDLL_FORWARD));
      }

      ReferenceMap* functions = info.importTable.get(dll);
      if (functions==NULL) {
         functions = new ReferenceMap(0);

         info.importTable.add(dll, functions);
      }
      functions->add(function, *it);

      it++;
      count++;
   }
   return count;
}
Esempio n. 3
0
void Linker::createImportTable64(ImageInfo& info)
{
   size_t count = fillImportTable(info);
   Section* import = info.image->getImportSection();

   MemoryWriter writer(import);

   // reference to the import section
   ref_t importRef = (count + 1) | mskImportRef;
   info.map.importMapping.add(importRef, 0);

   MemoryWriter tableWriter(import);
   writer.writeBytes(0, (count + 1) * 20);               // fill import table
   MemoryWriter fwdWriter(import);
   writer.writeBytes(0, (info.importTable.Count() + count) * 8);  // fill forward table
   MemoryWriter lstWriter(import);
   writer.writeBytes(0, (info.importTable.Count() + count) * 8);  // fill import list

   ImportTable::Iterator dll = info.importTable.start();
   while (!dll.Eof()) {
      tableWriter.writeRef(importRef, lstWriter.Position());              // OriginalFirstThunk
      tableWriter.writeDWord((pos_t)time(NULL));                            // TimeDateStamp
      tableWriter.writeDWord((pos_t)-1);                                         // ForwarderChain
      tableWriter.writeRef(importRef, import->Length());                  // Name

      const char* dllName = dll.key();
      writer.write(dllName, getlength(dllName));
      writer.writeChar('.');
      writer.writeLiteral("dll");

      tableWriter.writeRef(importRef, fwdWriter.Position());              // ForwarderChain

      // fill OriginalFirstThunk & ForwarderChain
      ReferenceMap::Iterator fun = (*dll)->start();
      while (!fun.Eof()) {
         info.map.importMapping.add(*fun, fwdWriter.Position());

         // NOTE : the reference are 64 bit, but fixing function will ignore the high dword
         fwdWriter.writeRef(importRef, import->Length());
         fwdWriter.writeDWord(0);
         lstWriter.writeRef(importRef, import->Length());
         lstWriter.writeDWord(0);

         writer.writeWord(1);                                             // Hint (not used)
         writer.writeLiteral(fun.key());

         fun++;
      }
      lstWriter.writeDWord(0);                                            // mark end of chains
      lstWriter.writeDWord(0);
      fwdWriter.writeDWord(0);
      fwdWriter.writeDWord(0);

      dll++;
   }
}
Esempio n. 4
0
void listClasses(_Module* module, int pageSize)
{
   ident_t moduleName = module->Name();

   int row = 0;
   ReferenceMap::Iterator it = ((Module*)module)->References();
   while (!it.Eof()) {
      ident_t reference = it.key();
      if (isWeakReference(reference)) {
         if (module->mapSection(*it | mskVMTRef, true)) {
            printLine("class ", reference + 1, row, pageSize);
         }
         else if (module->mapSection(*it | mskSymbolRef, true)) {
            printLine("symbol ", reference + 1, row, pageSize);
         }
      }

      it++;
   }
}
Esempio n. 5
0
void printAPI(_Module* module, int pageSize)
{
   ident_t moduleName = module->Name();

   ReferenceMap::Iterator it = ((Module*)module)->References();
   while (!it.Eof()) {
      ident_t reference = it.key();
      NamespaceName ns(it.key());
      if (moduleName.compare(ns)) {
         ReferenceName name(it.key());
         if (module->mapSection(*it | mskVMTRef, true)) {
            printLine("class ", name);

            listClassMethods(module, name, pageSize, true, true);
            printLine();
         }
         else if (module->mapSection(*it | mskSymbolRef, true)) {
            printLine("symbol ", name);
         }
      }

      it++;
   }
}