//===-- DynamicLoaderHexagonDYLD.cpp ----------------------------*- C++ -*-===// // // The LLVM Compiler Infrastructure // // This file is distributed under the University of Illinois Open Source // License. See LICENSE.TXT for details. // //===----------------------------------------------------------------------===// #include "lldb/Breakpoint/BreakpointLocation.h" #include "lldb/Core/Module.h" #include "lldb/Core/ModuleSpec.h" #include "lldb/Core/PluginManager.h" #include "lldb/Core/Section.h" #include "lldb/Symbol/ObjectFile.h" #include "lldb/Target/Process.h" #include "lldb/Target/Target.h" #include "lldb/Target/Thread.h" #include "lldb/Target/ThreadPlanRunToAddress.h" #include "lldb/Utility/Log.h" #include "DynamicLoaderHexagonDYLD.h" using namespace lldb; using namespace lldb_private; // Aidan 21/05/2014 // // Notes about hexagon dynamic loading: // // When we connect to a target we find the dyld breakpoint address. We put // a // breakpoint there with a callback 'RendezvousBreakpointHit()'. // // It is possible to find the dyld structure address from the ELF symbol // table, // but in the case of the simulator it has not been initialized before the // target calls dlinit(). // // We can only safely parse the dyld structure after we hit the dyld // breakpoint // since at that time we know dlinit() must have been called. // // Find the load address of a symbol static lldb::addr_t findSymbolAddress(Process *proc, ConstString findName) { assert(proc != nullptr); ModuleSP module = proc->GetTarget().GetExecutableModule(); assert(module.get() != nullptr); ObjectFile *exe = module->GetObjectFile(); assert(exe != nullptr); lldb_private::Symtab *symtab = exe->GetSymtab(); assert(symtab != nullptr); for (size_t i = 0; i < symtab->GetNumSymbols(); i++) { const Symbol *sym = symtab->SymbolAtIndex(i); assert(sym != nullptr); const ConstString &symName = sym->GetName(); if (ConstString::Compare(findName, symName) == 0) { Address addr = sym->GetAddress(); return addr.GetLoadAddress(&proc->GetTarget()); } } return LLDB_INVALID_ADDRESS; } void DynamicLoaderHexagonDYLD::Initialize() { PluginManager::RegisterPlugin(GetPluginNameStatic(), GetPluginDescriptionStatic(), CreateInstance); } void DynamicLoaderHexagonDYLD::Terminate() {} lldb_private::ConstString DynamicLoaderHexagonDYLD::GetPluginName() { return GetPluginNameStatic(); } lldb_private::ConstString DynamicLoaderHexagonDYLD::GetPluginNameStatic() { static ConstString g_name("hexagon-dyld"); return g_name; } const char *DynamicLoaderHexagonDYLD::GetPluginDescriptionStatic() { return "Dynamic loader plug-in that watches for shared library " "loads/unloads in Hexagon processes."; } uint32_t DynamicLoaderHexagonDYLD::GetPluginVersion() { return 1; } DynamicLoader *DynamicLoaderHexagonDYLD::CreateInstance(Process *process, bool force) { bool create = force; if (!create) { const llvm::Triple &triple_ref = process->GetTarget().GetArchitecture().GetTriple(); if (triple_ref.getArch() == llvm::Triple::hexagon) create = true; } if (create) return new DynamicLoaderHexagonDYLD(process); return NULL; } DynamicLoaderHexagonDYLD::DynamicLoaderHexagonDYLD(Process *process) : DynamicLoader(process), m_rendezvous(process), m_load_offset(LLDB_INVALID_ADDRESS), m_entry_point(LLDB_INVALID_ADDRESS), m_dyld_bid(LLDB_INVALID_BREAK_ID) {} DynamicLoaderHexagonDYLD::~DynamicLoaderHexagonDYLD() { if (m_dyld_bid != LLDB_INVALID_BREAK_ID) { m_process->GetTarget().RemoveBreakpointByID(m_dyld_bid); m_dyld_bid = LLDB_INVALID_BREAK_ID; } } void DynamicLoaderHexagonDYLD::DidAttach() { ModuleSP executable; addr_t load_offset; executable = GetTargetExecutable(); // Find the difference between the desired load address in the elf file and // the real load address in memory load_offset = ComputeLoadOffset(); // Check that there is a valid executable if (executable.get() == nullptr) return; // Disable JIT for hexagon targets because its not supported m_process->SetCanJIT(false); // Enable Interpreting of function call expressions m_process->SetCanInterpretFunctionCalls(true); // Add the current executable to the module list ModuleList module_list; module_list.Append(executable); // Map the loaded sections of this executable if (load_offset != LLDB_INVALID_ADDRESS) UpdateLoadedSections(executable, LLDB_INVALID_ADDRESS, load_offset, true); // AD: confirm this? // Load into LLDB all of the currently loaded executables in the stub LoadAllCurrentModules(); // AD: confirm this? // Callback for the target to give it the loaded module list m_process->GetTarget().ModulesDidLoad(module_list); // Try to set a breakpoint at the rendezvous breakpoint. DidLaunch uses // ProbeEntry() instead. That sets a breakpoint, at the dyld breakpoint // address, with a callback so that when hit, the dyld structure can be // parsed. if (!SetRendezvousBreakpoint()) { // fail } } void DynamicLoaderHexagonDYLD::DidLaunch() {} /// Checks to see if the target module has changed, updates the target /// accordingly and returns the target executable module. ModuleSP DynamicLoaderHexagonDYLD::GetTargetExecutable() { Target &target = m_process->GetTarget(); ModuleSP executable = target.GetExecutableModule(); // There is no executable if (!executable.get()) return executable; // The target executable file does not exits if (!FileSystem::Instance().Exists(executable->GetFileSpec())) return executable; // Prep module for loading ModuleSpec module_spec(executable->GetFileSpec(), executable->GetArchitecture()); ModuleSP module_sp(new Module(module_spec)); // Check if the executable has changed and set it to the target executable if // they differ. if (module_sp.get() && module_sp->GetUUID().IsValid() && executable->GetUUID().IsValid()) { // if the executable has changed ?? if (module_sp->GetUUID() != executable->GetUUID()) executable.reset(); } else if (executable->FileHasChanged()) executable.reset(); if (executable.get()) return executable; // TODO: What case is this code used? executable = target.GetSharedModule(module_spec); if (executable.get() != target.GetExecutableModulePointer()) { // Don't load dependent images since we are in dyld where we will know and // find out about all images that are loaded target.SetExecutableModule(executable, eLoadDependentsNo); } return executable; } // AD: Needs to be updated? Status DynamicLoaderHexagonDYLD::CanLoadImage() { return Status(); } void DynamicLoaderHexagonDYLD::UpdateLoadedSections(ModuleSP module, addr_t link_map_addr, addr_t base_addr, bool base_addr_is_offset) { Target &target = m_process->GetTarget(); const SectionList *sections = GetSectionListFromModule(module); assert(sections && "SectionList missing from loaded module."); m_loaded_modules[module] = link_map_addr; const size_t num_sections = sections->GetSize(); for (unsigned i = 0; i < num_sections; ++i) { SectionSP section_sp(sections->GetSectionAtIndex(i)); lldb::addr_t new_load_addr = section_sp->GetFileAddress() + base_addr; // AD: 02/05/14 // since our memory map starts from address 0, we must not ignore // sections that load to address 0. This violates the reference // ELF spec, however is used for Hexagon. // If the file address of the section is zero then this is not an // allocatable/loadable section (property of ELF sh_addr). Skip it. // if (new_load_addr == base_addr) // continue; target.SetSectionLoadAddress(section_sp, new_load_addr); } } /// Removes the loaded sections from the target in @p module. /// /// @param module The module to traverse. void DynamicLoaderHexagonDYLD::UnloadSections(const ModuleSP module) { Target &target = m_process->GetTarget(); const SectionList *sections = GetSectionListFromModule(module); assert(sections && "SectionList missing from unloaded module."); m_loaded_modules.erase(module); const size_t num_sections = sections->GetSize(); for (size_t i = 0; i < num_sections; ++i) { SectionSP section_sp(sections->GetSectionAtIndex(i)); target.SetSectionUnloaded(section_sp); } } // Place a breakpoint on <_rtld_debug_state> bool DynamicLoaderHexagonDYLD::SetRendezvousBreakpoint() { Log *log(GetLogIfAnyCategoriesSet(LIBLLDB_LOG_DYNAMIC_LOADER)); // This is the original code, which want to look in the rendezvous structure // to find the breakpoint address. Its backwards for us, since we can easily // find the breakpoint address, since it is exported in our executable. We // however know that we cant read the Rendezvous structure until we have hit // the breakpoint once. const ConstString dyldBpName("_rtld_debug_state"); addr_t break_addr = findSymbolAddress(m_process, dyldBpName); Target &target = m_process->GetTarget(); // Do not try to set the breakpoint if we don't know where to put it if (break_addr == LLDB_INVALID_ADDRESS) { if (log) log->Printf("Unable to locate _rtld_debug_state breakpoint address"); return false; } // Save the address of the rendezvous structure m_rendezvous.SetBreakAddress(break_addr); // If we haven't set the breakpoint before then set it if (m_dyld_bid == LLDB_INVALID_BREAK_ID) { Breakpoint *dyld_break = target.CreateBreakpoint(break_addr, true, false).get(); dyld_break->SetCallback(RendezvousBreakpointHit, this, true); dyld_break->SetBreakpointKind("shared-library-event"); m_dyld_bid = dyld_break->GetID(); // Make sure our breakpoint is at the right address. assert(target.GetBreakpointByID(m_dyld_bid) ->FindLocationByAddress(break_addr) ->GetBreakpoint() .GetID() == m_dyld_bid); if (log && dyld_break == nullptr) log->Printf("Failed to create _rtld_debug_state breakpoint"); // check we have successfully set bp return (dyld_break != nullptr); } else // rendezvous already set return true; } // We have just hit our breakpoint at <_rtld_debug_state> bool DynamicLoaderHexagonDYLD::RendezvousBreakpointHit( void *baton, StoppointCallbackContext *context, user_id_t break_id, user_id_t break_loc_id) { Log *log(GetLogIfAnyCategoriesSet(LIBLLDB_LOG_DYNAMIC_LOADER)); if (log) log->Printf("Rendezvous breakpoint hit!"); DynamicLoaderHexagonDYLD *dyld_instance = nullptr; dyld_instance = static_cast(baton); // if the dyld_instance is still not valid then try to locate it on the // symbol table if (!dyld_instance->m_rendezvous.IsValid()) { Process *proc = dyld_instance->m_process; const ConstString dyldStructName("_rtld_debug"); addr_t structAddr = findSymbolAddress(proc, dyldStructName); if (structAddr != LLDB_INVALID_ADDRESS) { dyld_instance->m_rendezvous.SetRendezvousAddress(structAddr); if (log) log->Printf("Found _rtld_debug structure @ 0x%08" PRIx64, structAddr); } else { if (log) log->Printf("Unable to resolve the _rtld_debug structure"); } } dyld_instance->RefreshModules(); // Return true to stop the target, false to just let the target run. return dyld_instance->GetStopWhenImagesChange(); } /// Helper method for RendezvousBreakpointHit. Updates LLDB's current set /// of loaded modules. void DynamicLoaderHexagonDYLD::RefreshModules() { Log *log(GetLogIfAnyCategoriesSet(LIBLLDB_LOG_DYNAMIC_LOADER)); if (!m_rendezvous.Resolve()) return; HexagonDYLDRendezvous::iterator I; HexagonDYLDRendezvous::iterator E; ModuleList &loaded_modules = m_process->GetTarget().GetImages(); if (m_rendezvous.ModulesDidLoad()) { ModuleList new_modules; E = m_rendezvous.loaded_end(); for (I = m_rendezvous.loaded_begin(); I != E; ++I) { FileSpec file(I->path); FileSystem::Instance().Resolve(file); ModuleSP module_sp = LoadModuleAtAddress(file, I->link_addr, I->base_addr, true); if (module_sp.get()) { loaded_modules.AppendIfNeeded(module_sp); new_modules.Append(module_sp); } if (log) { log->Printf("Target is loading '%s'", I->path.c_str()); if (!module_sp.get()) log->Printf("LLDB failed to load '%s'", I->path.c_str()); else log->Printf("LLDB successfully loaded '%s'", I->path.c_str()); } } m_process->GetTarget().ModulesDidLoad(new_modules); } if (m_rendezvous.ModulesDidUnload()) { ModuleList old_modules; E = m_rendezvous.unloaded_end(); for (I = m_rendezvous.unloaded_begin(); I != E; ++I) { FileSpec file(I->path); FileSystem::Instance().Resolve(file); ModuleSpec module_spec(file); ModuleSP module_sp = loaded_modules.FindFirstModule(module_spec); if (module_sp.get()) { old_modules.Append(module_sp); UnloadSections(module_sp); } if (log) log->Printf("Target is unloading '%s'", I->path.c_str()); } loaded_modules.Remove(old_modules); m_process->GetTarget().ModulesDidUnload(old_modules, false); } } // AD: This is very different to the Static Loader code. // It may be wise to look over this and its relation to stack // unwinding. ThreadPlanSP DynamicLoaderHexagonDYLD::GetStepThroughTrampolinePlan(Thread &thread, bool stop) { ThreadPlanSP thread_plan_sp; StackFrame *frame = thread.GetStackFrameAtIndex(0).get(); const SymbolContext &context = frame->GetSymbolContext(eSymbolContextSymbol); Symbol *sym = context.symbol; if (sym == NULL || !sym->IsTrampoline()) return thread_plan_sp; const ConstString sym_name = sym->GetMangled().GetName( lldb::eLanguageTypeUnknown, Mangled::ePreferMangled); if (!sym_name) return thread_plan_sp; SymbolContextList target_symbols; Target &target = thread.GetProcess()->GetTarget(); const ModuleList &images = target.GetImages(); images.FindSymbolsWithNameAndType(sym_name, eSymbolTypeCode, target_symbols); size_t num_targets = target_symbols.GetSize(); if (!num_targets) return thread_plan_sp; typedef std::vector AddressVector; AddressVector addrs; for (size_t i = 0; i < num_targets; ++i) { SymbolContext context; AddressRange range; if (target_symbols.GetContextAtIndex(i, context)) { context.GetAddressRange(eSymbolContextEverything, 0, false, range); lldb::addr_t addr = range.GetBaseAddress().GetLoadAddress(&target); if (addr != LLDB_INVALID_ADDRESS) addrs.push_back(addr); } } if (addrs.size() > 0) { AddressVector::iterator start = addrs.begin(); AddressVector::iterator end = addrs.end(); llvm::sort(start, end); addrs.erase(std::unique(start, end), end); thread_plan_sp.reset(new ThreadPlanRunToAddress(thread, addrs, stop)); } return thread_plan_sp; } /// Helper for the entry breakpoint callback. Resolves the load addresses /// of all dependent modules. void DynamicLoaderHexagonDYLD::LoadAllCurrentModules() { HexagonDYLDRendezvous::iterator I; HexagonDYLDRendezvous::iterator E; ModuleList module_list; if (!m_rendezvous.Resolve()) { Log *log(GetLogIfAnyCategoriesSet(LIBLLDB_LOG_DYNAMIC_LOADER)); if (log) log->Printf( "DynamicLoaderHexagonDYLD::%s unable to resolve rendezvous address", __FUNCTION__); return; } // The rendezvous class doesn't enumerate the main module, so track that // ourselves here. ModuleSP executable = GetTargetExecutable(); m_loaded_modules[executable] = m_rendezvous.GetLinkMapAddress(); for (I = m_rendezvous.begin(), E = m_rendezvous.end(); I != E; ++I) { const char *module_path = I->path.c_str(); FileSpec file(module_path); ModuleSP module_sp = LoadModuleAtAddress(file, I->link_addr, I->base_addr, true); if (module_sp.get()) { module_list.Append(module_sp); } else { Log *log(GetLogIfAnyCategoriesSet(LIBLLDB_LOG_DYNAMIC_LOADER)); if (log) log->Printf("DynamicLoaderHexagonDYLD::%s failed loading module %s at " "0x%" PRIx64, __FUNCTION__, module_path, I->base_addr); } } m_process->GetTarget().ModulesDidLoad(module_list); } /// Computes a value for m_load_offset returning the computed address on /// success and LLDB_INVALID_ADDRESS on failure. addr_t DynamicLoaderHexagonDYLD::ComputeLoadOffset() { // Here we could send a GDB packet to know the load offset // // send: $qOffsets#4b // get: Text=0;Data=0;Bss=0 // // Currently qOffsets is not supported by pluginProcessGDBRemote // return 0; } // Here we must try to read the entry point directly from the elf header. This // is possible if the process is not relocatable or dynamically linked. // // an alternative is to look at the PC if we can be sure that we have connected // when the process is at the entry point. // I dont think that is reliable for us. addr_t DynamicLoaderHexagonDYLD::GetEntryPoint() { if (m_entry_point != LLDB_INVALID_ADDRESS) return m_entry_point; // check we have a valid process if (m_process == nullptr) return LLDB_INVALID_ADDRESS; // Get the current executable module Module &module = *(m_process->GetTarget().GetExecutableModule().get()); // Get the object file (elf file) for this module lldb_private::ObjectFile &object = *(module.GetObjectFile()); // Check if the file is executable (ie, not shared object or relocatable) if (object.IsExecutable()) { // Get the entry point address for this object lldb_private::Address entry = object.GetEntryPointAddress(); // Return the entry point address return entry.GetFileAddress(); } // No idea so back out return LLDB_INVALID_ADDRESS; } const SectionList *DynamicLoaderHexagonDYLD::GetSectionListFromModule( const ModuleSP module) const { SectionList *sections = nullptr; if (module.get()) { ObjectFile *obj_file = module->GetObjectFile(); if (obj_file) { sections = obj_file->GetSectionList(); } } return sections; } static int ReadInt(Process *process, addr_t addr) { Status error; int value = (int)process->ReadUnsignedIntegerFromMemory( addr, sizeof(uint32_t), 0, error); if (error.Fail()) return -1; else return value; } lldb::addr_t DynamicLoaderHexagonDYLD::GetThreadLocalData(const lldb::ModuleSP module, const lldb::ThreadSP thread, lldb::addr_t tls_file_addr) { auto it = m_loaded_modules.find(module); if (it == m_loaded_modules.end()) return LLDB_INVALID_ADDRESS; addr_t link_map = it->second; if (link_map == LLDB_INVALID_ADDRESS) return LLDB_INVALID_ADDRESS; const HexagonDYLDRendezvous::ThreadInfo &metadata = m_rendezvous.GetThreadInfo(); if (!metadata.valid) return LLDB_INVALID_ADDRESS; // Get the thread pointer. addr_t tp = thread->GetThreadPointer(); if (tp == LLDB_INVALID_ADDRESS) return LLDB_INVALID_ADDRESS; // Find the module's modid. int modid = ReadInt(m_process, link_map + metadata.modid_offset); if (modid == -1) return LLDB_INVALID_ADDRESS; // Lookup the DTV structure for this thread. addr_t dtv_ptr = tp + metadata.dtv_offset; addr_t dtv = ReadPointer(dtv_ptr); if (dtv == LLDB_INVALID_ADDRESS) return LLDB_INVALID_ADDRESS; // Find the TLS block for this module. addr_t dtv_slot = dtv + metadata.dtv_slot_size * modid; addr_t tls_block = ReadPointer(dtv_slot + metadata.tls_offset); Module *mod = module.get(); Log *log(GetLogIfAnyCategoriesSet(LIBLLDB_LOG_DYNAMIC_LOADER)); if (log) log->Printf("DynamicLoaderHexagonDYLD::Performed TLS lookup: " "module=%s, link_map=0x%" PRIx64 ", tp=0x%" PRIx64 ", modid=%i, tls_block=0x%" PRIx64, mod->GetObjectName().AsCString(""), link_map, tp, modid, tls_block); if (tls_block == LLDB_INVALID_ADDRESS) return LLDB_INVALID_ADDRESS; else return tls_block + tls_file_addr; }