本文整理汇总了C++中pe_base::get_directory_size方法的典型用法代码示例。如果您正苦于以下问题:C++ pe_base::get_directory_size方法的具体用法?C++ pe_base::get_directory_size怎么用?C++ pe_base::get_directory_size使用的例子?那么恭喜您, 这里精选的方法代码示例或许可以为您提供帮助。您也可以进一步了解该方法所在类pe_base
的用法示例。
在下文中一共展示了pe_base::get_directory_size方法的4个代码示例,这些例子默认根据受欢迎程度排序。您可以为喜欢或者感觉有用的代码点赞,您的评价将有助于系统推荐出更棒的C++代码示例。
示例1: get_relocations
//Get relocation list of pe file, supports one-word sized relocations only
//If list_absolute_entries = true, IMAGE_REL_BASED_ABSOLUTE will be listed
const relocation_table_list get_relocations(const pe_base& pe, bool list_absolute_entries)
{
relocation_table_list ret;
//If image does not have relocations
if(!pe.has_reloc())
return ret;
//Check the length in bytes of the section containing relocation directory
if(pe.section_data_length_from_rva(pe.get_directory_rva(image_directory_entry_basereloc),
pe.get_directory_rva(image_directory_entry_basereloc), section_data_virtual, true)
< sizeof(image_base_relocation))
throw pe_exception("Incorrect relocation directory", pe_exception::incorrect_relocation_directory);
unsigned long current_pos = pe.get_directory_rva(image_directory_entry_basereloc);
//First IMAGE_BASE_RELOCATION table
image_base_relocation reloc_table = pe.section_data_from_rva<image_base_relocation>(current_pos, section_data_virtual, true);
if(reloc_table.SizeOfBlock % 2)
throw pe_exception("Incorrect relocation directory", pe_exception::incorrect_relocation_directory);
unsigned long reloc_size = pe.get_directory_size(image_directory_entry_basereloc);
unsigned long read_size = 0;
//reloc_table.VirtualAddress is not checked (not so important)
while(reloc_table.SizeOfBlock && read_size < reloc_size)
{
//Create relocation table
relocation_table table;
//Save RVA
table.set_rva(reloc_table.VirtualAddress);
if(!pe_utils::is_sum_safe(current_pos, reloc_table.SizeOfBlock))
throw pe_exception("Incorrect relocation directory", pe_exception::incorrect_relocation_directory);
//List all relocations
for(unsigned long i = sizeof(image_base_relocation); i < reloc_table.SizeOfBlock; i += sizeof(uint16_t))
{
relocation_entry entry(pe.section_data_from_rva<uint16_t>(current_pos + i, section_data_virtual, true));
if(list_absolute_entries || entry.get_type() != image_rel_based_absolute)
table.add_relocation(entry);
}
//Save table
ret.push_back(table);
//Go to next relocation block
if(!pe_utils::is_sum_safe(current_pos, reloc_table.SizeOfBlock))
throw pe_exception("Incorrect relocation directory", pe_exception::incorrect_relocation_directory);
current_pos += reloc_table.SizeOfBlock;
read_size += reloc_table.SizeOfBlock;
if (read_size >= reloc_size)
break;
reloc_table = pe.section_data_from_rva<image_base_relocation>(current_pos, section_data_virtual, true);
}
return ret;
}
示例2: get_bound_import_module_list
const bound_import_module_list get_bound_import_module_list(const pe_base& pe)
{
//Returned bound import modules list
bound_import_module_list ret;
//If image has no bound imports
if(!pe.has_bound_import())
return ret;
uint32_t bound_import_data_len =
pe.section_data_length_from_rva(pe.get_directory_rva(image_directory_entry_bound_import), pe.get_directory_rva(image_directory_entry_bound_import), section_data_raw, true);
if(bound_import_data_len < pe.get_directory_size(image_directory_entry_bound_import))
throw pe_exception("Incorrect bound import directory", pe_exception::incorrect_bound_import_directory);
const char* bound_import_data = pe.section_data_from_rva(pe.get_directory_rva(image_directory_entry_bound_import), section_data_raw, true);
//Check read in "read_pe" function raw bound import data size
if(bound_import_data_len < sizeof(image_bound_import_descriptor))
throw pe_exception("Incorrect bound import directory", pe_exception::incorrect_bound_import_directory);
//current bound_import_data_ in-string position
unsigned long current_pos = 0;
//first bound import descriptor
//so, we're working with raw data here, no section helpers available
const image_bound_import_descriptor* descriptor = reinterpret_cast<const image_bound_import_descriptor*>(&bound_import_data[current_pos]);
//Enumerate until zero
while(descriptor->OffsetModuleName)
{
//Check module name offset
if(descriptor->OffsetModuleName >= bound_import_data_len)
throw pe_exception("Incorrect bound import directory", pe_exception::incorrect_bound_import_directory);
//Check module name for null-termination
if(!pe_utils::is_null_terminated(&bound_import_data[descriptor->OffsetModuleName], bound_import_data_len - descriptor->OffsetModuleName))
throw pe_exception("Incorrect bound import directory", pe_exception::incorrect_bound_import_directory);
//Create bound import descriptor structure
bound_import elem(&bound_import_data[descriptor->OffsetModuleName], descriptor->TimeDateStamp);
//Check DWORDs
if(descriptor->NumberOfModuleForwarderRefs >= pe_utils::max_dword / sizeof(image_bound_forwarder_ref)
|| !pe_utils::is_sum_safe(current_pos, 2 /* this descriptor and the next one */ * sizeof(image_bound_import_descriptor) + descriptor->NumberOfModuleForwarderRefs * sizeof(image_bound_forwarder_ref)))
throw pe_exception("Incorrect bound import directory", pe_exception::incorrect_bound_import_directory);
//Move after current descriptor
current_pos += sizeof(image_bound_import_descriptor);
//Enumerate referenced bound import descriptors
for(unsigned long i = 0; i != descriptor->NumberOfModuleForwarderRefs; ++i)
{
//They're just after parent descriptor
//Check size of structure
if(current_pos + sizeof(image_bound_forwarder_ref) > bound_import_data_len)
throw pe_exception("Incorrect bound import directory", pe_exception::incorrect_bound_import_directory);
//Get IMAGE_BOUND_FORWARDER_REF pointer
const image_bound_forwarder_ref* ref_descriptor = reinterpret_cast<const image_bound_forwarder_ref*>(&bound_import_data[current_pos]);
//Check referenced module name
if(ref_descriptor->OffsetModuleName >= bound_import_data_len)
throw pe_exception("Incorrect bound import directory", pe_exception::incorrect_bound_import_directory);
//And its null-termination
if(!pe_utils::is_null_terminated(&bound_import_data[ref_descriptor->OffsetModuleName], bound_import_data_len - ref_descriptor->OffsetModuleName))
throw pe_exception("Incorrect bound import directory", pe_exception::incorrect_bound_import_directory);
//Add referenced module to current bound import structure
elem.add_module_ref(bound_import_ref(&bound_import_data[ref_descriptor->OffsetModuleName], ref_descriptor->TimeDateStamp));
//Move after referenced bound import descriptor
current_pos += sizeof(image_bound_forwarder_ref);
}
//Check structure size
if(current_pos + sizeof(image_bound_import_descriptor) > bound_import_data_len)
throw pe_exception("Incorrect bound import directory", pe_exception::incorrect_bound_import_directory);
//Move to next bound import descriptor
descriptor = reinterpret_cast<const image_bound_import_descriptor*>(&bound_import_data[current_pos]);
//Save created descriptor structure and references
ret.push_back(elem);
}
//Return result
return ret;
}
示例3: get_exported_functions
//Returns array of exported functions and information about export (if info != 0)
const exported_functions_list get_exported_functions(const pe_base& pe, export_info* info)
{
//Returned exported functions info array
std::vector<exported_function> ret;
if(pe.has_exports())
{
//Check the length in bytes of the section containing export directory
if(pe.section_data_length_from_rva(pe.get_directory_rva(image_directory_entry_export),
pe.get_directory_rva(image_directory_entry_export), section_data_virtual, true)
< sizeof(image_export_directory))
throw pe_exception("Incorrect export directory", pe_exception::incorrect_export_directory);
image_export_directory exports = pe.section_data_from_rva<image_export_directory>(pe.get_directory_rva(image_directory_entry_export), section_data_virtual, true);
unsigned long max_name_length;
if(info)
{
//Save some export info data
info->set_characteristics(exports.Characteristics);
info->set_major_version(exports.MajorVersion);
info->set_minor_version(exports.MinorVersion);
//Get byte count that we have for dll name
if((max_name_length = pe.section_data_length_from_rva(exports.Name, exports.Name, section_data_virtual, true)) < 2)
throw pe_exception("Incorrect export directory", pe_exception::incorrect_export_directory);
//Get dll name pointer
const char* dll_name = pe.section_data_from_rva(exports.Name, section_data_virtual, true);
//Check for null-termination
if(!pe_utils::is_null_terminated(dll_name, max_name_length))
throw pe_exception("Incorrect export directory", pe_exception::incorrect_export_directory);
//Save the rest of export information data
info->set_name(dll_name);
info->set_number_of_functions(exports.NumberOfFunctions);
info->set_number_of_names(exports.NumberOfNames);
info->set_ordinal_base(exports.Base);
info->set_rva_of_functions(exports.AddressOfFunctions);
info->set_rva_of_names(exports.AddressOfNames);
info->set_rva_of_name_ordinals(exports.AddressOfNameOrdinals);
info->set_timestamp(exports.TimeDateStamp);
}
if(!exports.NumberOfFunctions)
return ret;
//Check IMAGE_EXPORT_DIRECTORY fields
if(exports.NumberOfNames > exports.NumberOfFunctions)
throw pe_exception("Incorrect export directory", pe_exception::incorrect_export_directory);
//Check some export directory fields
if((!exports.AddressOfNameOrdinals && exports.AddressOfNames) ||
(exports.AddressOfNameOrdinals && !exports.AddressOfNames) ||
!exports.AddressOfFunctions
|| exports.NumberOfFunctions >= pe_utils::max_dword / sizeof(uint32_t)
|| exports.NumberOfNames > pe_utils::max_dword / sizeof(uint32_t)
|| !pe_utils::is_sum_safe(exports.AddressOfFunctions, exports.NumberOfFunctions * sizeof(uint32_t))
|| !pe_utils::is_sum_safe(exports.AddressOfNames, exports.NumberOfNames * sizeof(uint32_t))
|| !pe_utils::is_sum_safe(exports.AddressOfNameOrdinals, exports.NumberOfFunctions * sizeof(uint32_t))
|| !pe_utils::is_sum_safe(pe.get_directory_rva(image_directory_entry_export), pe.get_directory_size(image_directory_entry_export)))
throw pe_exception("Incorrect export directory", pe_exception::incorrect_export_directory);
//Check if it is enough bytes to hold AddressOfFunctions table
if(pe.section_data_length_from_rva(exports.AddressOfFunctions, exports.AddressOfFunctions, section_data_virtual, true)
< exports.NumberOfFunctions * sizeof(uint32_t))
throw pe_exception("Incorrect export directory", pe_exception::incorrect_export_directory);
if(exports.AddressOfNames)
{
//Check if it is enough bytes to hold name and ordinal tables
if(pe.section_data_length_from_rva(exports.AddressOfNameOrdinals, exports.AddressOfNameOrdinals, section_data_virtual, true)
< exports.NumberOfNames * sizeof(uint16_t))
throw pe_exception("Incorrect export directory", pe_exception::incorrect_export_directory);
if(pe.section_data_length_from_rva(exports.AddressOfNames, exports.AddressOfNames, section_data_virtual, true)
< exports.NumberOfNames * sizeof(uint32_t))
throw pe_exception("Incorrect export directory", pe_exception::incorrect_export_directory);
}
for(uint32_t ordinal = 0; ordinal < exports.NumberOfFunctions; ordinal++)
{
//Get function address
//Sum and multiplication are safe (checked above)
uint32_t rva = pe.section_data_from_rva<uint32_t>(exports.AddressOfFunctions + ordinal * sizeof(uint32_t), section_data_virtual, true);
//If we have a skip
if(!rva)
continue;
exported_function func;
func.set_rva(rva);
if(!pe_utils::is_sum_safe(exports.Base, ordinal) || exports.Base + ordinal > pe_utils::max_word)
throw pe_exception("Incorrect export directory", pe_exception::incorrect_export_directory);
func.set_ordinal(static_cast<uint16_t>(ordinal + exports.Base));
//.........这里部分代码省略.........
示例4: rebuild_pe
//Rebuild PE image and write it to "out" ostream
//If strip_dos_header is true, DOS headers partially will be used for PE headers
//If change_size_of_headers == true, SizeOfHeaders will be recalculated automatically
//If save_bound_import == true, existing bound import directory will be saved correctly (because some compilers and bind.exe put it to PE headers)
void rebuild_pe(pe_base& pe, std::ostream& out, bool strip_dos_header, bool change_size_of_headers, bool save_bound_import)
{
if(out.bad())
throw pe_exception("Stream is bad", pe_exception::stream_is_bad);
if(save_bound_import && pe.has_bound_import())
{
if(pe.section_data_length_from_rva(pe.get_directory_rva(image_directory_entry_bound_import), pe.get_directory_rva(image_directory_entry_bound_import), section_data_raw, true)
< pe.get_directory_size(image_directory_entry_bound_import))
throw pe_exception("Incorrect bound import directory", pe_exception::incorrect_bound_import_directory);
}
//Change ostream state
out.exceptions(std::ios::goodbit);
out.clear();
uint32_t original_bound_import_rva = pe.has_bound_import() ? pe.get_directory_rva(image_directory_entry_bound_import) : 0;
if(original_bound_import_rva && original_bound_import_rva > pe.get_size_of_headers())
{
//No need to do anything with bound import directory
//if it is placed inside of any section, not headers
original_bound_import_rva = 0;
save_bound_import = false;
}
{
image_dos_header dos_header;
//Rebuild PE image headers
rebuild_pe(pe, dos_header, strip_dos_header, change_size_of_headers, save_bound_import);
//Write DOS header
out.write(reinterpret_cast<const char*>(&dos_header), strip_dos_header ? 8 * sizeof(uint16_t) : sizeof(image_dos_header));
}
//If we have stub overlay, write it too
{
const std::string& stub = pe.get_stub_overlay();
if(stub.size())
{
out.write(stub.data(), stub.size());
size_t aligned_size = pe_utils::align_up(stub.size(), sizeof(uint32_t));
//Align PE header, which is right after rich overlay
while(aligned_size > stub.size())
{
out.put('\0');
--aligned_size;
}
}
}
//Write NT headers
out.write(static_cast<const pe_base&>(pe).get_nt_headers_ptr(), pe.get_sizeof_nt_header()
- sizeof(image_data_directory) * (image_numberof_directory_entries - pe.get_number_of_rvas_and_sizes()));
//Write section headers
const section_list& sections = pe.get_image_sections();
for(section_list::const_iterator it = sections.begin(); it != sections.end(); ++it)
{
out.write(reinterpret_cast<const char*>(&(*it).get_raw_header()), sizeof(image_section_header));
}
//Write bound import data if requested
if(save_bound_import && pe.has_bound_import())
{
out.write(pe.section_data_from_rva(original_bound_import_rva, section_data_raw, true),
pe.get_directory_size(image_directory_entry_bound_import));
}
//Write section data finally
for(section_list::const_iterator it = sections.begin(); it != sections.end(); ++it)
{
const section& s = *it;
std::streamoff wpos = out.tellp();
//Fill unused overlay data between sections with null bytes
for(unsigned int i = 0; i < s.get_pointer_to_raw_data() - wpos; i++)
out.put(0);
//Write raw section data
out.write(s.get_raw_data().data(), s.get_size_of_raw_data());
}
}