godot/tools/pe_bliss/pe_exports.h

164 lines
5.8 KiB
C++

#pragma once
#include <vector>
#include <string>
#include "pe_structures.h"
#include "pe_base.h"
#include "pe_directory.h"
namespace pe_bliss
{
//Class representing exported function
class exported_function
{
public:
//Default constructor
exported_function();
//Returns ordinal of function (actually, ordinal = hint + ordinal base)
uint16_t get_ordinal() const;
//Returns RVA of function
uint32_t get_rva() const;
//Returns true if function has name and name ordinal
bool has_name() const;
//Returns name of function
const std::string& get_name() const;
//Returns name ordinal of function
uint16_t get_name_ordinal() const;
//Returns true if function is forwarded to other library
bool is_forwarded() const;
//Returns the name of forwarded function
const std::string& get_forwarded_name() const;
public: //Setters do not change everything inside image, they are used by PE class
//You can also use them to rebuild export directory
//Sets ordinal of function
void set_ordinal(uint16_t ordinal);
//Sets RVA of function
void set_rva(uint32_t rva);
//Sets name of function (or clears it, if empty name is passed)
void set_name(const std::string& name);
//Sets name ordinal
void set_name_ordinal(uint16_t name_ordinal);
//Sets forwarded function name (or clears it, if empty name is passed)
void set_forwarded_name(const std::string& name);
private:
uint16_t ordinal_; //Function ordinal
uint32_t rva_; //Function RVA
std::string name_; //Function name
bool has_name_; //true == function has name
uint16_t name_ordinal_; //Function name ordinal
bool forward_; //true == function is forwarded
std::string forward_name_; //Name of forwarded function
};
//Class representing export information
class export_info
{
public:
//Default constructor
export_info();
//Returns characteristics
uint32_t get_characteristics() const;
//Returns timestamp
uint32_t get_timestamp() const;
//Returns major version
uint16_t get_major_version() const;
//Returns minor version
uint16_t get_minor_version() const;
//Returns DLL name
const std::string& get_name() const;
//Returns ordinal base
uint32_t get_ordinal_base() const;
//Returns number of functions
uint32_t get_number_of_functions() const;
//Returns number of function names
uint32_t get_number_of_names() const;
//Returns RVA of function address table
uint32_t get_rva_of_functions() const;
//Returns RVA of function name address table
uint32_t get_rva_of_names() const;
//Returns RVA of name ordinals table
uint32_t get_rva_of_name_ordinals() const;
public: //Setters do not change everything inside image, they are used by PE class
//You can also use them to rebuild export directory using rebuild_exports
//Sets characteristics
void set_characteristics(uint32_t characteristics);
//Sets timestamp
void set_timestamp(uint32_t timestamp);
//Sets major version
void set_major_version(uint16_t major_version);
//Sets minor version
void set_minor_version(uint16_t minor_version);
//Sets DLL name
void set_name(const std::string& name);
//Sets ordinal base
void set_ordinal_base(uint32_t ordinal_base);
//Sets number of functions
void set_number_of_functions(uint32_t number_of_functions);
//Sets number of function names
void set_number_of_names(uint32_t number_of_names);
//Sets RVA of function address table
void set_rva_of_functions(uint32_t rva_of_functions);
//Sets RVA of function name address table
void set_rva_of_names(uint32_t rva_of_names);
//Sets RVA of name ordinals table
void set_rva_of_name_ordinals(uint32_t rva_of_name_ordinals);
private:
uint32_t characteristics_;
uint32_t timestamp_;
uint16_t major_version_;
uint16_t minor_version_;
std::string name_;
uint32_t ordinal_base_;
uint32_t number_of_functions_;
uint32_t number_of_names_;
uint32_t address_of_functions_;
uint32_t address_of_names_;
uint32_t address_of_name_ordinals_;
};
//Exported functions list typedef
typedef std::vector<exported_function> exported_functions_list;
//Returns array of exported functions
const exported_functions_list get_exported_functions(const pe_base& pe);
//Returns array of exported functions and information about export
const exported_functions_list get_exported_functions(const pe_base& pe, export_info& info);
//Helper export functions
//Returns pair: <ordinal base for supplied functions; maximum ordinal value for supplied functions>
const std::pair<uint16_t, uint16_t> get_export_ordinal_limits(const exported_functions_list& exports);
//Checks if exported function name already exists
bool exported_name_exists(const std::string& function_name, const exported_functions_list& exports);
//Checks if exported function ordinal already exists
bool exported_ordinal_exists(uint16_t ordinal, const exported_functions_list& exports);
//Export directory rebuilder
//info - export information
//exported_functions_list - list of exported functions
//exports_section - section where export directory will be placed (must be attached to PE image)
//offset_from_section_start - offset from exports_section raw data start
//save_to_pe_headers - if true, new export directory information will be saved to PE image headers
//auto_strip_last_section - if true and exports are placed in the last section, it will be automatically stripped
//number_of_functions and number_of_names parameters don't matter in "info" when rebuilding, they're calculated independently
//characteristics, major_version, minor_version, timestamp and name are the only used members of "info" structure
//Returns new export directory information
//exported_functions_list is copied intentionally to be sorted by ordinal values later
//Name ordinals in exported function don't matter, they will be recalculated
const image_directory rebuild_exports(pe_base& pe, const export_info& info, exported_functions_list exports, section& exports_section, uint32_t offset_from_section_start = 0, bool save_to_pe_header = true, bool auto_strip_last_section = true);
}