//===-- SectionLoadHistory.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/Target/SectionLoadHistory.h" // C Includes // C++ Includes // Other libraries and framework includes // Project includes #include "lldb/Core/Stream.h" #include "lldb/Target/SectionLoadList.h" using namespace lldb; using namespace lldb_private; bool SectionLoadHistory::IsEmpty() const { Mutex::Locker locker(m_mutex); return m_stop_id_to_section_load_list.empty(); } void SectionLoadHistory::Clear () { Mutex::Locker locker(m_mutex); m_stop_id_to_section_load_list.clear(); } uint32_t SectionLoadHistory::GetLastStopID() const { Mutex::Locker locker(m_mutex); if (m_stop_id_to_section_load_list.empty()) return 0; else return m_stop_id_to_section_load_list.rbegin()->first; } SectionLoadList * SectionLoadHistory::GetSectionLoadListForStopID (uint32_t stop_id, bool read_only) { if (m_stop_id_to_section_load_list.empty()) { SectionLoadListSP section_load_list_sp(new SectionLoadList()); if (stop_id == eStopIDNow) stop_id = 0; m_stop_id_to_section_load_list[stop_id] = section_load_list_sp; return section_load_list_sp.get(); } else { if (read_only) { // The section load list is for reading data only so we don't need to create // a new SectionLoadList for the current stop ID, just return the section // load list for the stop ID that is equal to or less than the current stop ID if (stop_id == eStopIDNow) { // If we are asking for the latest and greatest value, it is always // at the end of our list becuase that will be the highest stop ID. StopIDToSectionLoadList::reverse_iterator rpos = m_stop_id_to_section_load_list.rbegin(); return rpos->second.get(); } else { StopIDToSectionLoadList::iterator pos = m_stop_id_to_section_load_list.lower_bound(stop_id); if (pos != m_stop_id_to_section_load_list.end() && pos->first == stop_id) return pos->second.get(); else if (pos != m_stop_id_to_section_load_list.begin()) { --pos; return pos->second.get(); } } } else { // You can only use "eStopIDNow" when reading from the section load history assert(stop_id != eStopIDNow); // We are updating the section load list (not read only), so if the stop ID // passed in isn't the same as the last stop ID in our collection, then create // a new node using the current stop ID StopIDToSectionLoadList::iterator pos = m_stop_id_to_section_load_list.lower_bound(stop_id); if (pos != m_stop_id_to_section_load_list.end() && pos->first == stop_id) { // We already have an entry for this value return pos->second.get(); } // We must make a new section load list that is based on the last valid // section load list, so here we copy the last section load list and add // a new node for the current stop ID. StopIDToSectionLoadList::reverse_iterator rpos = m_stop_id_to_section_load_list.rbegin(); SectionLoadListSP section_load_list_sp(new SectionLoadList(*rpos->second.get())); m_stop_id_to_section_load_list[stop_id] = section_load_list_sp; return section_load_list_sp.get(); } } return NULL; } SectionLoadList & SectionLoadHistory::GetCurrentSectionLoadList () { const bool read_only = true; SectionLoadList *section_load_list = GetSectionLoadListForStopID (eStopIDNow, read_only); assert(section_load_list != NULL); return *section_load_list; } addr_t SectionLoadHistory::GetSectionLoadAddress (uint32_t stop_id, const lldb::SectionSP §ion_sp) { Mutex::Locker locker(m_mutex); const bool read_only = true; SectionLoadList *section_load_list = GetSectionLoadListForStopID (stop_id, read_only); return section_load_list->GetSectionLoadAddress(section_sp); } bool SectionLoadHistory::ResolveLoadAddress (uint32_t stop_id, addr_t load_addr, Address &so_addr) { // First find the top level section that this load address exists in Mutex::Locker locker(m_mutex); const bool read_only = true; SectionLoadList *section_load_list = GetSectionLoadListForStopID (stop_id, read_only); return section_load_list->ResolveLoadAddress (load_addr, so_addr); } bool SectionLoadHistory::SetSectionLoadAddress (uint32_t stop_id, const lldb::SectionSP §ion_sp, addr_t load_addr, bool warn_multiple) { Mutex::Locker locker(m_mutex); const bool read_only = false; SectionLoadList *section_load_list = GetSectionLoadListForStopID (stop_id, read_only); return section_load_list->SetSectionLoadAddress(section_sp, load_addr, warn_multiple); } size_t SectionLoadHistory::SetSectionUnloaded (uint32_t stop_id, const lldb::SectionSP §ion_sp) { Mutex::Locker locker(m_mutex); const bool read_only = false; SectionLoadList *section_load_list = GetSectionLoadListForStopID (stop_id, read_only); return section_load_list->SetSectionUnloaded (section_sp); } bool SectionLoadHistory::SetSectionUnloaded (uint32_t stop_id, const lldb::SectionSP §ion_sp, addr_t load_addr) { Mutex::Locker locker(m_mutex); const bool read_only = false; SectionLoadList *section_load_list = GetSectionLoadListForStopID (stop_id, read_only); return section_load_list->SetSectionUnloaded (section_sp, load_addr); } void SectionLoadHistory::Dump (Stream &s, Target *target) { Mutex::Locker locker(m_mutex); StopIDToSectionLoadList::iterator pos, end = m_stop_id_to_section_load_list.end(); for (pos = m_stop_id_to_section_load_list.begin(); pos != end; ++pos) { s.Printf("StopID = %u:\n", pos->first); pos->second->Dump(s, target); s.EOL(); } }