//===-- SectionLoadList.cpp -----------------------------------------------===// // // Part of the LLVM Project, under the Apache License v2.0 with LLVM Exceptions. // See https://llvm.org/LICENSE.txt for license information. // SPDX-License-Identifier: Apache-2.0 WITH LLVM-exception // //===----------------------------------------------------------------------===// #include "lldb/Target/SectionLoadList.h" #include "lldb/Core/Module.h" #include "lldb/Core/Section.h" #include "lldb/Symbol/Block.h" #include "lldb/Symbol/Symbol.h" #include "lldb/Symbol/SymbolContext.h" #include "lldb/Utility/LLDBLog.h" #include "lldb/Utility/Log.h" #include "lldb/Utility/Stream.h" using namespace lldb; using namespace lldb_private; SectionLoadList::SectionLoadList(const SectionLoadList &rhs) : m_addr_to_sect(), m_sect_to_addr(), m_mutex() { std::lock_guard guard(rhs.m_mutex); m_addr_to_sect = rhs.m_addr_to_sect; m_sect_to_addr = rhs.m_sect_to_addr; } void SectionLoadList::operator=(const SectionLoadList &rhs) { std::lock(m_mutex, rhs.m_mutex); std::lock_guard lhs_guard(m_mutex, std::adopt_lock); std::lock_guard rhs_guard(rhs.m_mutex, std::adopt_lock); m_addr_to_sect = rhs.m_addr_to_sect; m_sect_to_addr = rhs.m_sect_to_addr; } bool SectionLoadList::IsEmpty() const { std::lock_guard guard(m_mutex); return m_addr_to_sect.empty(); } void SectionLoadList::Clear() { std::lock_guard guard(m_mutex); m_addr_to_sect.clear(); m_sect_to_addr.clear(); } addr_t SectionLoadList::GetSectionLoadAddress(const lldb::SectionSP §ion) const { // TODO: add support for the same section having multiple load addresses addr_t section_load_addr = LLDB_INVALID_ADDRESS; if (section) { std::lock_guard guard(m_mutex); sect_to_addr_collection::const_iterator pos = m_sect_to_addr.find(section.get()); if (pos != m_sect_to_addr.end()) section_load_addr = pos->second; } return section_load_addr; } bool SectionLoadList::SetSectionLoadAddress(const lldb::SectionSP §ion, addr_t load_addr, bool warn_multiple) { Log *log = GetLog(LLDBLog::DynamicLoader); ModuleSP module_sp(section->GetModule()); if (module_sp) { LLDB_LOGV(log, "(section = {0} ({1}.{2}), load_addr = {3:x}) module = {4}", section.get(), module_sp->GetFileSpec(), section->GetName(), load_addr, module_sp.get()); if (section->GetByteSize() == 0) return false; // No change // Fill in the section -> load_addr map std::lock_guard guard(m_mutex); sect_to_addr_collection::iterator sta_pos = m_sect_to_addr.find(section.get()); if (sta_pos != m_sect_to_addr.end()) { if (load_addr == sta_pos->second) return false; // No change... else sta_pos->second = load_addr; } else m_sect_to_addr[section.get()] = load_addr; // Fill in the load_addr -> section map addr_to_sect_collection::iterator ats_pos = m_addr_to_sect.find(load_addr); if (ats_pos != m_addr_to_sect.end()) { // Some sections are ok to overlap, and for others we should warn. When // we have multiple load addresses that correspond to a section, we will // always attribute the section to the be last section that claims it // exists at that address. Sometimes it is ok for more that one section // to be loaded at a specific load address, and other times it isn't. The // "warn_multiple" parameter tells us if we should warn in this case or // not. The DynamicLoader plug-in subclasses should know which sections // should warn and which shouldn't (darwin shared cache modules all // shared the same "__LINKEDIT" sections, so the dynamic loader can pass // false for "warn_multiple"). if (warn_multiple && section != ats_pos->second) { ModuleSP module_sp(section->GetModule()); if (module_sp) { ModuleSP curr_module_sp(ats_pos->second->GetModule()); if (curr_module_sp) { module_sp->ReportWarning( "address {0:x16} maps to more than one section: {1}.{2} and " "{3}.{4}", load_addr, module_sp->GetFileSpec().GetFilename().GetCString(), section->GetName().GetCString(), curr_module_sp->GetFileSpec().GetFilename().GetCString(), ats_pos->second->GetName().GetCString()); } } } ats_pos->second = section; } else { // Remove the old address->section entry, if // there is one. for (const auto &entry : m_addr_to_sect) { if (entry.second == section) { const auto &it_pos = m_addr_to_sect.find(entry.first); m_addr_to_sect.erase(it_pos); break; } } m_addr_to_sect[load_addr] = section; } return true; // Changed } else { if (log) { LLDB_LOGF( log, "SectionLoadList::%s (section = %p (%s), load_addr = 0x%16.16" PRIx64 ") error: module has been deleted", __FUNCTION__, static_cast(section.get()), section->GetName().AsCString(), load_addr); } } return false; } size_t SectionLoadList::SetSectionUnloaded(const lldb::SectionSP §ion_sp) { size_t unload_count = 0; if (section_sp) { Log *log = GetLog(LLDBLog::DynamicLoader); if (log && log->GetVerbose()) { ModuleSP module_sp = section_sp->GetModule(); std::string module_name(""); if (module_sp) { const FileSpec &module_file_spec( section_sp->GetModule()->GetFileSpec()); module_name = module_file_spec.GetPath(); } LLDB_LOGF(log, "SectionLoadList::%s (section = %p (%s.%s))", __FUNCTION__, static_cast(section_sp.get()), module_name.c_str(), section_sp->GetName().AsCString()); } std::lock_guard guard(m_mutex); sect_to_addr_collection::iterator sta_pos = m_sect_to_addr.find(section_sp.get()); if (sta_pos != m_sect_to_addr.end()) { ++unload_count; addr_t load_addr = sta_pos->second; m_sect_to_addr.erase(sta_pos); addr_to_sect_collection::iterator ats_pos = m_addr_to_sect.find(load_addr); if (ats_pos != m_addr_to_sect.end()) m_addr_to_sect.erase(ats_pos); } } return unload_count; } bool SectionLoadList::SetSectionUnloaded(const lldb::SectionSP §ion_sp, addr_t load_addr) { Log *log = GetLog(LLDBLog::DynamicLoader); if (log && log->GetVerbose()) { ModuleSP module_sp = section_sp->GetModule(); std::string module_name(""); if (module_sp) { const FileSpec &module_file_spec(section_sp->GetModule()->GetFileSpec()); module_name = module_file_spec.GetPath(); } LLDB_LOGF( log, "SectionLoadList::%s (section = %p (%s.%s), load_addr = 0x%16.16" PRIx64 ")", __FUNCTION__, static_cast(section_sp.get()), module_name.c_str(), section_sp->GetName().AsCString(), load_addr); } bool erased = false; std::lock_guard guard(m_mutex); sect_to_addr_collection::iterator sta_pos = m_sect_to_addr.find(section_sp.get()); if (sta_pos != m_sect_to_addr.end()) { erased = true; m_sect_to_addr.erase(sta_pos); } addr_to_sect_collection::iterator ats_pos = m_addr_to_sect.find(load_addr); if (ats_pos != m_addr_to_sect.end()) { erased = true; m_addr_to_sect.erase(ats_pos); } return erased; } bool SectionLoadList::ResolveLoadAddress(addr_t load_addr, Address &so_addr, bool allow_section_end) const { // First find the top level section that this load address exists in std::lock_guard guard(m_mutex); if (!m_addr_to_sect.empty()) { addr_to_sect_collection::const_iterator pos = m_addr_to_sect.lower_bound(load_addr); if (pos != m_addr_to_sect.end()) { if (load_addr != pos->first && pos != m_addr_to_sect.begin()) --pos; const addr_t pos_load_addr = pos->first; if (load_addr >= pos_load_addr) { addr_t offset = load_addr - pos_load_addr; if (offset < pos->second->GetByteSize() + (allow_section_end ? 1 : 0)) { // We have found the top level section, now we need to find the // deepest child section. return pos->second->ResolveContainedAddress(offset, so_addr, allow_section_end); } } } else { // There are no entries that have an address that is >= load_addr, so we // need to check the last entry on our collection. addr_to_sect_collection::const_reverse_iterator rpos = m_addr_to_sect.rbegin(); if (load_addr >= rpos->first) { addr_t offset = load_addr - rpos->first; if (offset < rpos->second->GetByteSize() + (allow_section_end ? 1 : 0)) { // We have found the top level section, now we need to find the // deepest child section. return rpos->second->ResolveContainedAddress(offset, so_addr, allow_section_end); } } } } so_addr.Clear(); return false; } void SectionLoadList::Dump(Stream &s, Target *target) { std::lock_guard guard(m_mutex); addr_to_sect_collection::const_iterator pos, end; for (pos = m_addr_to_sect.begin(), end = m_addr_to_sect.end(); pos != end; ++pos) { s.Printf("addr = 0x%16.16" PRIx64 ", section = %p: ", pos->first, static_cast(pos->second.get())); pos->second->Dump(s.AsRawOstream(), s.GetIndentLevel(), target, 0); } }