UEFITool/common/generated/intel_acbp_v1.h
2023-02-26 13:23:25 -08:00

456 lines
14 KiB
C++

#pragma once
// This is a generated file! Please edit source .ksy file and use kaitai-struct-compiler to rebuild
#include "../kaitai/kaitaistruct.h"
#include <stdint.h>
#include <memory>
#include <vector>
#if KAITAI_STRUCT_VERSION < 9000L
#error "Incompatible Kaitai Struct C++/STL API: version 0.9 or later is required"
#endif
class intel_acbp_v1_t : public kaitai::kstruct {
public:
class pmsg_body_t;
class acbp_element_t;
class common_header_t;
class signature_t;
class pmda_entry_v1_t;
class ibb_segment_t;
class public_key_t;
class hash_t;
class pmda_entry_v2_t;
class ibbs_body_t;
class pmda_body_t;
enum ibb_segment_type_t {
IBB_SEGMENT_TYPE_IBB = 0,
IBB_SEGMENT_TYPE_NON_IBB = 1
};
enum structure_ids_t : uint64_t {
STRUCTURE_IDS_PMDA = 6872283318001360735LL,
STRUCTURE_IDS_PMSG = 6872289979495636831LL,
STRUCTURE_IDS_ACBP = 6872299801917087583LL,
STRUCTURE_IDS_IBBS = 6872303100435717983LL
};
intel_acbp_v1_t(kaitai::kstream* p__io, kaitai::kstruct* p__parent = nullptr, intel_acbp_v1_t* p__root = nullptr);
private:
void _read();
void _clean_up();
public:
~intel_acbp_v1_t();
class pmsg_body_t : public kaitai::kstruct {
public:
pmsg_body_t(kaitai::kstream* p__io, intel_acbp_v1_t::acbp_element_t* p__parent = nullptr, intel_acbp_v1_t* p__root = nullptr);
private:
void _read();
void _clean_up();
public:
~pmsg_body_t();
private:
uint8_t m_version;
uint16_t m_key_id;
std::unique_ptr<public_key_t> m_public_key;
uint16_t m_sig_scheme;
std::unique_ptr<signature_t> m_signature;
intel_acbp_v1_t* m__root;
intel_acbp_v1_t::acbp_element_t* m__parent;
public:
uint8_t version() const { return m_version; }
uint16_t key_id() const { return m_key_id; }
public_key_t* public_key() const { return m_public_key.get(); }
uint16_t sig_scheme() const { return m_sig_scheme; }
signature_t* signature() const { return m_signature.get(); }
intel_acbp_v1_t* _root() const { return m__root; }
intel_acbp_v1_t::acbp_element_t* _parent() const { return m__parent; }
};
class acbp_element_t : public kaitai::kstruct {
public:
acbp_element_t(kaitai::kstream* p__io, intel_acbp_v1_t* p__parent = nullptr, intel_acbp_v1_t* p__root = nullptr);
private:
void _read();
void _clean_up();
public:
~acbp_element_t();
private:
std::unique_ptr<common_header_t> m_header;
std::unique_ptr<ibbs_body_t> m_ibbs_body;
bool n_ibbs_body;
public:
bool _is_null_ibbs_body() { ibbs_body(); return n_ibbs_body; };
private:
std::unique_ptr<pmda_body_t> m_pmda_body;
bool n_pmda_body;
public:
bool _is_null_pmda_body() { pmda_body(); return n_pmda_body; };
private:
std::unique_ptr<pmsg_body_t> m_pmsg_body;
bool n_pmsg_body;
public:
bool _is_null_pmsg_body() { pmsg_body(); return n_pmsg_body; };
private:
std::string m_invalid_body;
bool n_invalid_body;
public:
bool _is_null_invalid_body() { invalid_body(); return n_invalid_body; };
private:
intel_acbp_v1_t* m__root;
intel_acbp_v1_t* m__parent;
public:
common_header_t* header() const { return m_header.get(); }
ibbs_body_t* ibbs_body() const { return m_ibbs_body.get(); }
pmda_body_t* pmda_body() const { return m_pmda_body.get(); }
pmsg_body_t* pmsg_body() const { return m_pmsg_body.get(); }
std::string invalid_body() const { return m_invalid_body; }
intel_acbp_v1_t* _root() const { return m__root; }
intel_acbp_v1_t* _parent() const { return m__parent; }
};
class common_header_t : public kaitai::kstruct {
public:
common_header_t(kaitai::kstream* p__io, intel_acbp_v1_t::acbp_element_t* p__parent = nullptr, intel_acbp_v1_t* p__root = nullptr);
private:
void _read();
void _clean_up();
public:
~common_header_t();
private:
structure_ids_t m_structure_id;
uint8_t m_version;
intel_acbp_v1_t* m__root;
intel_acbp_v1_t::acbp_element_t* m__parent;
public:
structure_ids_t structure_id() const { return m_structure_id; }
uint8_t version() const { return m_version; }
intel_acbp_v1_t* _root() const { return m__root; }
intel_acbp_v1_t::acbp_element_t* _parent() const { return m__parent; }
};
class signature_t : public kaitai::kstruct {
public:
signature_t(kaitai::kstream* p__io, intel_acbp_v1_t::pmsg_body_t* p__parent = nullptr, intel_acbp_v1_t* p__root = nullptr);
private:
void _read();
void _clean_up();
public:
~signature_t();
private:
uint8_t m_version;
uint16_t m_size_bits;
uint16_t m_hash_algorithm_id;
std::string m_signature;
intel_acbp_v1_t* m__root;
intel_acbp_v1_t::pmsg_body_t* m__parent;
public:
uint8_t version() const { return m_version; }
uint16_t size_bits() const { return m_size_bits; }
uint16_t hash_algorithm_id() const { return m_hash_algorithm_id; }
std::string signature() const { return m_signature; }
intel_acbp_v1_t* _root() const { return m__root; }
intel_acbp_v1_t::pmsg_body_t* _parent() const { return m__parent; }
};
class pmda_entry_v1_t : public kaitai::kstruct {
public:
pmda_entry_v1_t(kaitai::kstream* p__io, intel_acbp_v1_t::pmda_body_t* p__parent = nullptr, intel_acbp_v1_t* p__root = nullptr);
private:
void _read();
void _clean_up();
public:
~pmda_entry_v1_t();
private:
uint32_t m_base;
uint32_t m_size;
std::string m_hash;
intel_acbp_v1_t* m__root;
intel_acbp_v1_t::pmda_body_t* m__parent;
public:
uint32_t base() const { return m_base; }
uint32_t size() const { return m_size; }
std::string hash() const { return m_hash; }
intel_acbp_v1_t* _root() const { return m__root; }
intel_acbp_v1_t::pmda_body_t* _parent() const { return m__parent; }
};
class ibb_segment_t : public kaitai::kstruct {
public:
ibb_segment_t(kaitai::kstream* p__io, intel_acbp_v1_t::ibbs_body_t* p__parent = nullptr, intel_acbp_v1_t* p__root = nullptr);
private:
void _read();
void _clean_up();
public:
~ibb_segment_t();
private:
uint16_t m_reserved;
uint16_t m_flags;
uint32_t m_base;
uint32_t m_size;
intel_acbp_v1_t* m__root;
intel_acbp_v1_t::ibbs_body_t* m__parent;
public:
uint16_t reserved() const { return m_reserved; }
uint16_t flags() const { return m_flags; }
uint32_t base() const { return m_base; }
uint32_t size() const { return m_size; }
intel_acbp_v1_t* _root() const { return m__root; }
intel_acbp_v1_t::ibbs_body_t* _parent() const { return m__parent; }
};
class public_key_t : public kaitai::kstruct {
public:
public_key_t(kaitai::kstream* p__io, intel_acbp_v1_t::pmsg_body_t* p__parent = nullptr, intel_acbp_v1_t* p__root = nullptr);
private:
void _read();
void _clean_up();
public:
~public_key_t();
private:
uint8_t m_version;
uint16_t m_size_bits;
uint32_t m_exponent;
std::string m_modulus;
intel_acbp_v1_t* m__root;
intel_acbp_v1_t::pmsg_body_t* m__parent;
public:
uint8_t version() const { return m_version; }
uint16_t size_bits() const { return m_size_bits; }
uint32_t exponent() const { return m_exponent; }
std::string modulus() const { return m_modulus; }
intel_acbp_v1_t* _root() const { return m__root; }
intel_acbp_v1_t::pmsg_body_t* _parent() const { return m__parent; }
};
class hash_t : public kaitai::kstruct {
public:
hash_t(kaitai::kstream* p__io, kaitai::kstruct* p__parent = nullptr, intel_acbp_v1_t* p__root = nullptr);
private:
void _read();
void _clean_up();
public:
~hash_t();
private:
uint16_t m_hash_algorithm_id;
uint16_t m_len_hash;
std::string m_hash;
intel_acbp_v1_t* m__root;
kaitai::kstruct* m__parent;
public:
uint16_t hash_algorithm_id() const { return m_hash_algorithm_id; }
uint16_t len_hash() const { return m_len_hash; }
std::string hash() const { return m_hash; }
intel_acbp_v1_t* _root() const { return m__root; }
kaitai::kstruct* _parent() const { return m__parent; }
};
class pmda_entry_v2_t : public kaitai::kstruct {
public:
pmda_entry_v2_t(kaitai::kstream* p__io, intel_acbp_v1_t::pmda_body_t* p__parent = nullptr, intel_acbp_v1_t* p__root = nullptr);
private:
void _read();
void _clean_up();
public:
~pmda_entry_v2_t();
private:
uint32_t m_base;
uint32_t m_size;
std::unique_ptr<hash_t> m_hash;
intel_acbp_v1_t* m__root;
intel_acbp_v1_t::pmda_body_t* m__parent;
public:
uint32_t base() const { return m_base; }
uint32_t size() const { return m_size; }
hash_t* hash() const { return m_hash.get(); }
intel_acbp_v1_t* _root() const { return m__root; }
intel_acbp_v1_t::pmda_body_t* _parent() const { return m__parent; }
};
class ibbs_body_t : public kaitai::kstruct {
public:
ibbs_body_t(kaitai::kstream* p__io, intel_acbp_v1_t::acbp_element_t* p__parent = nullptr, intel_acbp_v1_t* p__root = nullptr);
private:
void _read();
void _clean_up();
public:
~ibbs_body_t();
private:
std::unique_ptr<std::vector<uint8_t>> m_reserved;
uint32_t m_flags;
uint64_t m_mch_bar;
uint64_t m_vtd_bar;
uint32_t m_dma_protection_base0;
uint32_t m_dma_protection_limit0;
uint64_t m_dma_protection_base1;
uint64_t m_dma_protection_limit1;
std::unique_ptr<hash_t> m_post_ibb_hash;
uint32_t m_ibb_entry_point;
std::unique_ptr<hash_t> m_ibb_hash;
uint8_t m_num_ibb_segments;
std::unique_ptr<std::vector<std::unique_ptr<ibb_segment_t>>> m_ibb_segments;
intel_acbp_v1_t* m__root;
intel_acbp_v1_t::acbp_element_t* m__parent;
public:
std::vector<uint8_t>* reserved() const { return m_reserved.get(); }
uint32_t flags() const { return m_flags; }
uint64_t mch_bar() const { return m_mch_bar; }
uint64_t vtd_bar() const { return m_vtd_bar; }
uint32_t dma_protection_base0() const { return m_dma_protection_base0; }
uint32_t dma_protection_limit0() const { return m_dma_protection_limit0; }
uint64_t dma_protection_base1() const { return m_dma_protection_base1; }
uint64_t dma_protection_limit1() const { return m_dma_protection_limit1; }
hash_t* post_ibb_hash() const { return m_post_ibb_hash.get(); }
uint32_t ibb_entry_point() const { return m_ibb_entry_point; }
hash_t* ibb_hash() const { return m_ibb_hash.get(); }
uint8_t num_ibb_segments() const { return m_num_ibb_segments; }
std::vector<std::unique_ptr<ibb_segment_t>>* ibb_segments() const { return m_ibb_segments.get(); }
intel_acbp_v1_t* _root() const { return m__root; }
intel_acbp_v1_t::acbp_element_t* _parent() const { return m__parent; }
};
class pmda_body_t : public kaitai::kstruct {
public:
pmda_body_t(kaitai::kstream* p__io, intel_acbp_v1_t::acbp_element_t* p__parent = nullptr, intel_acbp_v1_t* p__root = nullptr);
private:
void _read();
void _clean_up();
public:
~pmda_body_t();
private:
uint16_t m_total_size;
uint32_t m_version;
uint32_t m_num_entries;
std::unique_ptr<std::vector<std::unique_ptr<pmda_entry_v1_t>>> m_entries_v1;
bool n_entries_v1;
public:
bool _is_null_entries_v1() { entries_v1(); return n_entries_v1; };
private:
std::unique_ptr<std::vector<std::unique_ptr<pmda_entry_v2_t>>> m_entries_v2;
bool n_entries_v2;
public:
bool _is_null_entries_v2() { entries_v2(); return n_entries_v2; };
private:
intel_acbp_v1_t* m__root;
intel_acbp_v1_t::acbp_element_t* m__parent;
public:
uint16_t total_size() const { return m_total_size; }
uint32_t version() const { return m_version; }
uint32_t num_entries() const { return m_num_entries; }
std::vector<std::unique_ptr<pmda_entry_v1_t>>* entries_v1() const { return m_entries_v1.get(); }
std::vector<std::unique_ptr<pmda_entry_v2_t>>* entries_v2() const { return m_entries_v2.get(); }
intel_acbp_v1_t* _root() const { return m__root; }
intel_acbp_v1_t::acbp_element_t* _parent() const { return m__parent; }
};
private:
structure_ids_t m_structure_id;
uint8_t m_version;
uint8_t m_reserved0;
uint8_t m_bpm_revision;
uint8_t m_bp_svn;
uint8_t m_acm_svn;
uint8_t m_reserved1;
uint16_t m_nem_data_size;
std::unique_ptr<std::vector<std::unique_ptr<acbp_element_t>>> m_elements;
intel_acbp_v1_t* m__root;
kaitai::kstruct* m__parent;
public:
structure_ids_t structure_id() const { return m_structure_id; }
uint8_t version() const { return m_version; }
uint8_t reserved0() const { return m_reserved0; }
uint8_t bpm_revision() const { return m_bpm_revision; }
uint8_t bp_svn() const { return m_bp_svn; }
uint8_t acm_svn() const { return m_acm_svn; }
uint8_t reserved1() const { return m_reserved1; }
uint16_t nem_data_size() const { return m_nem_data_size; }
std::vector<std::unique_ptr<acbp_element_t>>* elements() const { return m_elements.get(); }
intel_acbp_v1_t* _root() const { return m__root; }
kaitai::kstruct* _parent() const { return m__parent; }
};