//===-- Section.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/Core/Section.h" #include "lldb/Core/Module.h" #include "lldb/Symbol/ObjectFile.h" #include "lldb/Target/Target.h" using namespace lldb; using namespace lldb_private; Section::Section (const ModuleSP &module_sp, ObjectFile *obj_file, user_id_t sect_id, const ConstString &name, SectionType sect_type, addr_t file_addr, addr_t byte_size, lldb::offset_t file_offset, lldb::offset_t file_size, uint32_t flags) : ModuleChild (module_sp), UserID (sect_id), Flags (flags), m_obj_file (obj_file), m_type (sect_type), m_parent_wp (), m_name (name), m_file_addr (file_addr), m_byte_size (byte_size), m_file_offset (file_offset), m_file_size (file_size), m_children (), m_fake (false), m_encrypted (false), m_thread_specific (false) { // printf ("Section::Section(%p): module=%p, sect_id = 0x%16.16" PRIx64 ", addr=[0x%16.16" PRIx64 " - 0x%16.16" PRIx64 "), file [0x%16.16" PRIx64 " - 0x%16.16" PRIx64 "), flags = 0x%8.8x, name = %s\n", // this, module_sp.get(), sect_id, file_addr, file_addr + byte_size, file_offset, file_offset + file_size, flags, name.GetCString()); } Section::Section (const lldb::SectionSP &parent_section_sp, const ModuleSP &module_sp, ObjectFile *obj_file, user_id_t sect_id, const ConstString &name, SectionType sect_type, addr_t file_addr, addr_t byte_size, lldb::offset_t file_offset, lldb::offset_t file_size, uint32_t flags) : ModuleChild (module_sp), UserID (sect_id), Flags (flags), m_obj_file (obj_file), m_type (sect_type), m_parent_wp (), m_name (name), m_file_addr (file_addr), m_byte_size (byte_size), m_file_offset (file_offset), m_file_size (file_size), m_children (), m_fake (false), m_encrypted (false), m_thread_specific (false) { // printf ("Section::Section(%p): module=%p, sect_id = 0x%16.16" PRIx64 ", addr=[0x%16.16" PRIx64 " - 0x%16.16" PRIx64 "), file [0x%16.16" PRIx64 " - 0x%16.16" PRIx64 "), flags = 0x%8.8x, name = %s.%s\n", // this, module_sp.get(), sect_id, file_addr, file_addr + byte_size, file_offset, file_offset + file_size, flags, parent_section_sp->GetName().GetCString(), name.GetCString()); if (parent_section_sp) m_parent_wp = parent_section_sp; } Section::~Section() { // printf ("Section::~Section(%p)\n", this); } addr_t Section::GetFileAddress () const { SectionSP parent_sp (GetParent ()); if (parent_sp) { // This section has a parent which means m_file_addr is an offset into // the parent section, so the file address for this section is the file // address of the parent plus the offset return parent_sp->GetFileAddress() + m_file_addr; } // This section has no parent, so m_file_addr is the file base address return m_file_addr; } lldb::addr_t Section::GetOffset () const { // This section has a parent which means m_file_addr is an offset. SectionSP parent_sp (GetParent ()); if (parent_sp) return m_file_addr; // This section has no parent, so there is no offset to be had return 0; } addr_t Section::GetLoadBaseAddress (Target *target) const { addr_t load_base_addr = LLDB_INVALID_ADDRESS; SectionSP parent_sp (GetParent ()); if (parent_sp) { load_base_addr = parent_sp->GetLoadBaseAddress (target); if (load_base_addr != LLDB_INVALID_ADDRESS) load_base_addr += GetOffset(); } else { load_base_addr = target->GetSectionLoadList().GetSectionLoadAddress (const_cast
(this)->shared_from_this()); } return load_base_addr; } bool Section::ResolveContainedAddress (addr_t offset, Address &so_addr) const { const size_t num_children = m_children.GetSize(); if (num_children > 0) { for (size_t i=0; iGetOffset(); if (child_offset <= offset && offset - child_offset < child_section->GetByteSize()) return child_section->ResolveContainedAddress (offset - child_offset, so_addr); } } so_addr.SetOffset(offset); so_addr.SetSection(const_cast
(this)->shared_from_this()); #ifdef LLDB_CONFIGURATION_DEBUG // For debug builds, ensure that there are no orphaned (i.e., moduleless) sections. assert(GetModule().get()); #endif return true; } bool Section::ContainsFileAddress (addr_t vm_addr) const { const addr_t file_addr = GetFileAddress(); if (file_addr != LLDB_INVALID_ADDRESS) { if (file_addr <= vm_addr) { const addr_t offset = vm_addr - file_addr; return offset < GetByteSize(); } } return false; } int Section::Compare (const Section& a, const Section& b) { if (&a == &b) return 0; const ModuleSP a_module_sp = a.GetModule(); const ModuleSP b_module_sp = b.GetModule(); if (a_module_sp == b_module_sp) { user_id_t a_sect_uid = a.GetID(); user_id_t b_sect_uid = b.GetID(); if (a_sect_uid < b_sect_uid) return -1; if (a_sect_uid > b_sect_uid) return 1; return 0; } else { // The modules are different, just compare the module pointers if (a_module_sp.get() < b_module_sp.get()) return -1; else return 1; // We already know the modules aren't equal } } void Section::Dump (Stream *s, Target *target, uint32_t depth) const { // s->Printf("%.*p: ", (int)sizeof(void*) * 2, this); s->Indent(); s->Printf("0x%8.8" PRIx64 " %-16s ", GetID(), GetSectionTypeAsCString (m_type)); bool resolved = true; addr_t addr = LLDB_INVALID_ADDRESS; if (GetByteSize() == 0) s->Printf("%39s", ""); else { if (target) addr = GetLoadBaseAddress (target); if (addr == LLDB_INVALID_ADDRESS) { if (target) resolved = false; addr = GetFileAddress(); } VMRange range(addr, addr + m_byte_size); range.Dump (s, 0); } s->Printf("%c 0x%8.8" PRIx64 " 0x%8.8" PRIx64 " 0x%8.8x ", resolved ? ' ' : '*', m_file_offset, m_file_size, Get()); DumpName (s); s->EOL(); if (depth > 0) m_children.Dump(s, target, false, depth - 1); } void Section::DumpName (Stream *s) const { SectionSP parent_sp (GetParent ()); if (parent_sp) { parent_sp->DumpName (s); s->PutChar('.'); } else { // The top most section prints the module basename const char * name = NULL; ModuleSP module_sp (GetModule()); const FileSpec &file_spec = m_obj_file->GetFileSpec(); if (m_obj_file) name = file_spec.GetFilename().AsCString(); if ((!name || !name[0]) && module_sp) name = module_sp->GetFileSpec().GetFilename().AsCString(); if (name && name[0]) s->Printf("%s.", name); } m_name.Dump(s); } bool Section::IsDescendant (const Section *section) { if (this == section) return true; SectionSP parent_sp (GetParent ()); if (parent_sp) return parent_sp->IsDescendant (section); return false; } bool Section::Slide (addr_t slide_amount, bool slide_children) { if (m_file_addr != LLDB_INVALID_ADDRESS) { if (slide_amount == 0) return true; m_file_addr += slide_amount; if (slide_children) m_children.Slide (slide_amount, slide_children); return true; } return false; } #pragma mark SectionList SectionList::SectionList () : m_sections() { } SectionList::~SectionList () { } SectionList & SectionList::operator = (const SectionList& rhs) { if (this != &rhs) m_sections = rhs.m_sections; return *this; } size_t SectionList::AddSection (const lldb::SectionSP& section_sp) { assert (section_sp.get()); size_t section_index = m_sections.size(); m_sections.push_back(section_sp); return section_index; } // Warning, this can be slow as it's removing items from a std::vector. bool SectionList::DeleteSection (size_t idx) { if (idx < m_sections.size()) { m_sections.erase (m_sections.begin() + idx); return true; } return false; } size_t SectionList::FindSectionIndex (const Section* sect) { iterator sect_iter; iterator begin = m_sections.begin(); iterator end = m_sections.end(); for (sect_iter = begin; sect_iter != end; ++sect_iter) { if (sect_iter->get() == sect) { // The secton was already in this section list return std::distance (begin, sect_iter); } } return UINT32_MAX; } size_t SectionList::AddUniqueSection (const lldb::SectionSP& sect_sp) { size_t sect_idx = FindSectionIndex (sect_sp.get()); if (sect_idx == UINT32_MAX) { sect_idx = AddSection (sect_sp); } return sect_idx; } bool SectionList::ReplaceSection (user_id_t sect_id, const lldb::SectionSP& sect_sp, uint32_t depth) { iterator sect_iter, end = m_sections.end(); for (sect_iter = m_sections.begin(); sect_iter != end; ++sect_iter) { if ((*sect_iter)->GetID() == sect_id) { *sect_iter = sect_sp; return true; } else if (depth > 0) { if ((*sect_iter)->GetChildren().ReplaceSection(sect_id, sect_sp, depth - 1)) return true; } } return false; } size_t SectionList::GetNumSections (uint32_t depth) const { size_t count = m_sections.size(); if (depth > 0) { const_iterator sect_iter, end = m_sections.end(); for (sect_iter = m_sections.begin(); sect_iter != end; ++sect_iter) { count += (*sect_iter)->GetChildren().GetNumSections(depth - 1); } } return count; } SectionSP SectionList::GetSectionAtIndex (size_t idx) const { SectionSP sect_sp; if (idx < m_sections.size()) sect_sp = m_sections[idx]; return sect_sp; } SectionSP SectionList::FindSectionByName (const ConstString §ion_dstr) const { SectionSP sect_sp; // Check if we have a valid section string if (section_dstr && !m_sections.empty()) { const_iterator sect_iter; const_iterator end = m_sections.end(); for (sect_iter = m_sections.begin(); sect_iter != end && sect_sp.get() == NULL; ++sect_iter) { Section *child_section = sect_iter->get(); assert (child_section); if (child_section->GetName() == section_dstr) { sect_sp = *sect_iter; } else { sect_sp = child_section->GetChildren().FindSectionByName(section_dstr); } } } return sect_sp; } SectionSP SectionList::FindSectionByID (user_id_t sect_id) const { SectionSP sect_sp; if (sect_id) { const_iterator sect_iter; const_iterator end = m_sections.end(); for (sect_iter = m_sections.begin(); sect_iter != end && sect_sp.get() == NULL; ++sect_iter) { if ((*sect_iter)->GetID() == sect_id) { sect_sp = *sect_iter; break; } else { sect_sp = (*sect_iter)->GetChildren().FindSectionByID (sect_id); } } } return sect_sp; } SectionSP SectionList::FindSectionByType (SectionType sect_type, bool check_children, size_t start_idx) const { SectionSP sect_sp; size_t num_sections = m_sections.size(); for (size_t idx = start_idx; idx < num_sections; ++idx) { if (m_sections[idx]->GetType() == sect_type) { sect_sp = m_sections[idx]; break; } else if (check_children) { sect_sp = m_sections[idx]->GetChildren().FindSectionByType (sect_type, check_children, 0); if (sect_sp) break; } } return sect_sp; } SectionSP SectionList::FindSectionContainingFileAddress (addr_t vm_addr, uint32_t depth) const { SectionSP sect_sp; const_iterator sect_iter; const_iterator end = m_sections.end(); for (sect_iter = m_sections.begin(); sect_iter != end && sect_sp.get() == NULL; ++sect_iter) { Section *sect = sect_iter->get(); if (sect->ContainsFileAddress (vm_addr)) { // The file address is in this section. We need to make sure one of our child // sections doesn't contain this address as well as obeying the depth limit // that was passed in. if (depth > 0) sect_sp = sect->GetChildren().FindSectionContainingFileAddress(vm_addr, depth - 1); if (sect_sp.get() == NULL && !sect->IsFake()) sect_sp = *sect_iter; } } return sect_sp; } bool SectionList::ContainsSection(user_id_t sect_id) const { return FindSectionByID (sect_id).get() != NULL; } void SectionList::Dump (Stream *s, Target *target, bool show_header, uint32_t depth) const { bool target_has_loaded_sections = target && !target->GetSectionLoadList().IsEmpty(); if (show_header && !m_sections.empty()) { s->Indent(); s->Printf( "SectID Type %s Address File Off. File Size Flags Section Name\n", target_has_loaded_sections ? "Load" : "File"); s->Indent(); s->PutCString("---------- ---------------- --------------------------------------- ---------- ---------- ---------- ----------------------------\n"); } const_iterator sect_iter; const_iterator end = m_sections.end(); for (sect_iter = m_sections.begin(); sect_iter != end; ++sect_iter) { (*sect_iter)->Dump(s, target_has_loaded_sections ? target : NULL, depth); } if (show_header && !m_sections.empty()) s->IndentLess(); } size_t SectionList::Slide (addr_t slide_amount, bool slide_children) { size_t count = 0; const_iterator pos, end = m_sections.end(); for (pos = m_sections.begin(); pos != end; ++pos) { if ((*pos)->Slide(slide_amount, slide_children)) ++count; } return count; }