UEFITool/common/generated/intel_acm.h

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#ifndef INTEL_ACM_H_
#define INTEL_ACM_H_
// This is a generated file! Please edit source .ksy file and use kaitai-struct-compiler to rebuild
#include "../kaitai/kaitaistruct.h"
#include <stdint.h>
#if KAITAI_STRUCT_VERSION < 9000L
#error "Incompatible Kaitai Struct C++/STL API: version 0.9 or later is required"
#endif
class intel_acm_t : public kaitai::kstruct {
public:
class header_t;
enum module_subtype_t {
MODULE_SUBTYPE_TXT = 0,
MODULE_SUBTYPE_STARTUP = 1,
MODULE_SUBTYPE_BOOT_GUARD = 3
};
enum known_header_version_t {
KNOWN_HEADER_VERSION_V0_0 = 0,
KNOWN_HEADER_VERSION_V3_0 = 196608
};
intel_acm_t(kaitai::kstream* p__io, kaitai::kstruct* p__parent = 0, intel_acm_t* p__root = 0);
private:
void _read();
void _clean_up();
public:
~intel_acm_t();
class header_t : public kaitai::kstruct {
public:
header_t(kaitai::kstream* p__io, intel_acm_t* p__parent = 0, intel_acm_t* p__root = 0);
private:
void _read();
void _clean_up();
public:
~header_t();
private:
uint16_t m_module_type;
module_subtype_t m_module_subtype;
uint32_t m_header_size;
uint32_t m_header_version;
uint16_t m_chipset_id;
uint16_t m_flags;
uint32_t m_module_vendor;
uint8_t m_date_day;
uint8_t m_date_month;
uint16_t m_date_year;
uint32_t m_module_size;
uint16_t m_acm_svn;
uint16_t m_se_svn;
uint32_t m_code_control_flags;
uint32_t m_error_entry_point;
uint32_t m_gdt_max;
uint32_t m_gdt_base;
uint32_t m_segment_sel;
uint32_t m_entry_point;
std::string m_reserved;
uint32_t m_key_size;
uint32_t m_scratch_space_size;
std::string m_rsa_public_key;
uint32_t m_rsa_exponent;
bool n_rsa_exponent;
public:
bool _is_null_rsa_exponent() { rsa_exponent(); return n_rsa_exponent; };
private:
std::string m_rsa_signature;
std::string m_scratch_space;
intel_acm_t* m__root;
intel_acm_t* m__parent;
public:
uint16_t module_type() const { return m_module_type; }
module_subtype_t module_subtype() const { return m_module_subtype; }
/**
* counted in 4 byte increments
*/
uint32_t header_size() const { return m_header_size; }
uint32_t header_version() const { return m_header_version; }
uint16_t chipset_id() const { return m_chipset_id; }
uint16_t flags() const { return m_flags; }
uint32_t module_vendor() const { return m_module_vendor; }
/**
* BCD
*/
uint8_t date_day() const { return m_date_day; }
/**
* BCD
*/
uint8_t date_month() const { return m_date_month; }
/**
* BCD
*/
uint16_t date_year() const { return m_date_year; }
/**
* counted in 4 byte increments
*/
uint32_t module_size() const { return m_module_size; }
uint16_t acm_svn() const { return m_acm_svn; }
uint16_t se_svn() const { return m_se_svn; }
uint32_t code_control_flags() const { return m_code_control_flags; }
uint32_t error_entry_point() const { return m_error_entry_point; }
uint32_t gdt_max() const { return m_gdt_max; }
uint32_t gdt_base() const { return m_gdt_base; }
uint32_t segment_sel() const { return m_segment_sel; }
uint32_t entry_point() const { return m_entry_point; }
std::string reserved() const { return m_reserved; }
/**
* counted in 4 byte increments
*/
uint32_t key_size() const { return m_key_size; }
/**
* counted in 4 byte increments
*/
uint32_t scratch_space_size() const { return m_scratch_space_size; }
std::string rsa_public_key() const { return m_rsa_public_key; }
uint32_t rsa_exponent() const { return m_rsa_exponent; }
std::string rsa_signature() const { return m_rsa_signature; }
std::string scratch_space() const { return m_scratch_space; }
intel_acm_t* _root() const { return m__root; }
intel_acm_t* _parent() const { return m__parent; }
};
private:
header_t* m_header;
std::string m_body;
intel_acm_t* m__root;
kaitai::kstruct* m__parent;
public:
header_t* header() const { return m_header; }
std::string body() const { return m_body; }
intel_acm_t* _root() const { return m__root; }
kaitai::kstruct* _parent() const { return m__parent; }
};
#endif // INTEL_ACM_H_