UEFITool/common/generated/intel_keym_v2.h

#ifndef INTEL_KEYM_V2_H_
#define INTEL_KEYM_V2_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>
#include <vector>

#if KAITAI_STRUCT_VERSION < 9000L
#error "Incompatible Kaitai Struct C++/STL API: version 0.9 or later is required"
#endif

class intel_keym_v2_t : public kaitai::kstruct {

public:
    class key_signature_t;
    class km_hash_t;
    class signature_t;
    class public_key_t;
    class header_t;

    enum structure_ids_t {
        STRUCTURE_IDS_KEYM = 6872296602200661855LL
    };

    enum km_usage_flags_t {
        KM_USAGE_FLAGS_BOOT_POLICY_MANIFEST = 1,
        KM_USAGE_FLAGS_FIT_PATCH_MANIFEST = 2,
        KM_USAGE_FLAGS_ACM_MANIFEST = 4,
        KM_USAGE_FLAGS_SDEV = 8
    };

    intel_keym_v2_t(kaitai::kstream* p__io, kaitai::kstruct* p__parent = 0, intel_keym_v2_t* p__root = 0);

private:
    void _read();
    void _clean_up();

public:
    ~intel_keym_v2_t();

    class key_signature_t : public kaitai::kstruct {

    public:

        key_signature_t(kaitai::kstream* p__io, intel_keym_v2_t* p__parent = 0, intel_keym_v2_t* p__root = 0);

    private:
        void _read();
        void _clean_up();

    public:
        ~key_signature_t();

    private:
        uint8_t m_version;
        uint16_t m_key_id;
        public_key_t* m_public_key;
        uint16_t m_sig_scheme;
        signature_t* m_signature;
        intel_keym_v2_t* m__root;
        intel_keym_v2_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; }
        uint16_t sig_scheme() const { return m_sig_scheme; }
        signature_t* signature() const { return m_signature; }
        intel_keym_v2_t* _root() const { return m__root; }
        intel_keym_v2_t* _parent() const { return m__parent; }
    };

    class km_hash_t : public kaitai::kstruct {

    public:

        km_hash_t(kaitai::kstream* p__io, intel_keym_v2_t* p__parent = 0, intel_keym_v2_t* p__root = 0);

    private:
        void _read();
        void _clean_up();

    public:
        ~km_hash_t();

    private:
        uint64_t m_usage_flags;
        uint16_t m_hash_algorithm_id;
        uint16_t m_len_hash;
        std::string m_hash;
        intel_keym_v2_t* m__root;
        intel_keym_v2_t* m__parent;

    public:
        uint64_t usage_flags() const { return m_usage_flags; }
        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_keym_v2_t* _root() const { return m__root; }
        intel_keym_v2_t* _parent() const { return m__parent; }
    };

    class signature_t : public kaitai::kstruct {

    public:

        signature_t(kaitai::kstream* p__io, intel_keym_v2_t::key_signature_t* p__parent = 0, intel_keym_v2_t* p__root = 0);

    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_keym_v2_t* m__root;
        intel_keym_v2_t::key_signature_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_keym_v2_t* _root() const { return m__root; }
        intel_keym_v2_t::key_signature_t* _parent() const { return m__parent; }
    };

    class public_key_t : public kaitai::kstruct {

    public:

        public_key_t(kaitai::kstream* p__io, intel_keym_v2_t::key_signature_t* p__parent = 0, intel_keym_v2_t* p__root = 0);

    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_keym_v2_t* m__root;
        intel_keym_v2_t::key_signature_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_keym_v2_t* _root() const { return m__root; }
        intel_keym_v2_t::key_signature_t* _parent() const { return m__parent; }
    };

    class header_t : public kaitai::kstruct {

    public:

        header_t(kaitai::kstream* p__io, intel_keym_v2_t* p__parent = 0, intel_keym_v2_t* p__root = 0);

    private:
        void _read();
        void _clean_up();

    public:
        ~header_t();

    private:
        structure_ids_t m_structure_id;
        uint8_t m_version;
        uint8_t m_header_specific;
        uint16_t m_total_size;
        intel_keym_v2_t* m__root;
        intel_keym_v2_t* m__parent;

    public:
        structure_ids_t structure_id() const { return m_structure_id; }
        uint8_t version() const { return m_version; }
        uint8_t header_specific() const { return m_header_specific; }
        uint16_t total_size() const { return m_total_size; }
        intel_keym_v2_t* _root() const { return m__root; }
        intel_keym_v2_t* _parent() const { return m__parent; }
    };

private:
    header_t* m_header;
    uint16_t m_key_signature_offset;
    std::vector<uint8_t>* m_reserved;
    uint8_t m_km_version;
    uint8_t m_km_svn;
    uint8_t m_km_id;
    uint16_t m_fpf_hash_algorithm_id;
    uint16_t m_num_km_hashes;
    std::vector<km_hash_t*>* m_km_hashes;
    key_signature_t* m_key_signature;
    intel_keym_v2_t* m__root;
    kaitai::kstruct* m__parent;

public:
    header_t* header() const { return m_header; }
    uint16_t key_signature_offset() const { return m_key_signature_offset; }
    std::vector<uint8_t>* reserved() const { return m_reserved; }
    uint8_t km_version() const { return m_km_version; }
    uint8_t km_svn() const { return m_km_svn; }
    uint8_t km_id() const { return m_km_id; }
    uint16_t fpf_hash_algorithm_id() const { return m_fpf_hash_algorithm_id; }
    uint16_t num_km_hashes() const { return m_num_km_hashes; }
    std::vector<km_hash_t*>* km_hashes() const { return m_km_hashes; }
    key_signature_t* key_signature() const { return m_key_signature; }
    intel_keym_v2_t* _root() const { return m__root; }
    kaitai::kstruct* _parent() const { return m__parent; }
};

#endif  // INTEL_KEYM_V2_H_
Kaitai-based Intel ACM and BootGuard parsers As the first step towards automated parsing, this change set replaces outdated BootGuard-related parsers with shiny new KaitaiStruct-based ones. It also does the following: - improves Intel FIT definitions by using the relevant specification - adds sha1, sha384, sha512 and sm3 digest implementations - updates LZMA SDK to v22.01 - moves GUIDs out of include files to prevent multiple instantiations - enforces C++11 - adds Kaitai-based parsers for Intel FIT, BootGuard v1 and BootGuard v2 structures - makes many small refactorings here, there and everywhere 2022-08-29 02:23:38 -04:00			`#ifndef INTEL_KEYM_V2_H_`
			`#define INTEL_KEYM_V2_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>`
			`#include <vector>`

			`#if KAITAI_STRUCT_VERSION < 9000L`
			`#error "Incompatible Kaitai Struct C++/STL API: version 0.9 or later is required"`
			`#endif`

			`class intel_keym_v2_t : public kaitai::kstruct {`

			`public:`
			`class key_signature_t;`
			`class km_hash_t;`
			`class signature_t;`
			`class public_key_t;`
			`class header_t;`

			`enum structure_ids_t {`
			`STRUCTURE_IDS_KEYM = 6872296602200661855LL`
			`};`

			`enum km_usage_flags_t {`
			`KM_USAGE_FLAGS_BOOT_POLICY_MANIFEST = 1,`
			`KM_USAGE_FLAGS_FIT_PATCH_MANIFEST = 2,`
			`KM_USAGE_FLAGS_ACM_MANIFEST = 4,`
			`KM_USAGE_FLAGS_SDEV = 8`
			`};`

			`intel_keym_v2_t(kaitai::kstream* p__io, kaitai::kstruct* p__parent = 0, intel_keym_v2_t* p__root = 0);`

			`private:`
			`void _read();`
			`void _clean_up();`

			`public:`
			`~intel_keym_v2_t();`

			`class key_signature_t : public kaitai::kstruct {`

			`public:`

			`key_signature_t(kaitai::kstream* p__io, intel_keym_v2_t* p__parent = 0, intel_keym_v2_t* p__root = 0);`

			`private:`
			`void _read();`
			`void _clean_up();`

			`public:`
			`~key_signature_t();`

			`private:`
			`uint8_t m_version;`
			`uint16_t m_key_id;`
			`public_key_t* m_public_key;`
			`uint16_t m_sig_scheme;`
			`signature_t* m_signature;`
			`intel_keym_v2_t* m__root;`
			`intel_keym_v2_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; }`
			`uint16_t sig_scheme() const { return m_sig_scheme; }`
			`signature_t* signature() const { return m_signature; }`
			`intel_keym_v2_t* _root() const { return m__root; }`
			`intel_keym_v2_t* _parent() const { return m__parent; }`
			`};`

			`class km_hash_t : public kaitai::kstruct {`

			`public:`

			`km_hash_t(kaitai::kstream* p__io, intel_keym_v2_t* p__parent = 0, intel_keym_v2_t* p__root = 0);`

			`private:`
			`void _read();`
			`void _clean_up();`

			`public:`
			`~km_hash_t();`

			`private:`
			`uint64_t m_usage_flags;`
			`uint16_t m_hash_algorithm_id;`
			`uint16_t m_len_hash;`
			`std::string m_hash;`
			`intel_keym_v2_t* m__root;`
			`intel_keym_v2_t* m__parent;`

			`public:`
			`uint64_t usage_flags() const { return m_usage_flags; }`
			`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_keym_v2_t* _root() const { return m__root; }`
			`intel_keym_v2_t* _parent() const { return m__parent; }`
			`};`

			`class signature_t : public kaitai::kstruct {`

			`public:`

			`signature_t(kaitai::kstream* p__io, intel_keym_v2_t::key_signature_t* p__parent = 0, intel_keym_v2_t* p__root = 0);`

			`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_keym_v2_t* m__root;`
			`intel_keym_v2_t::key_signature_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_keym_v2_t* _root() const { return m__root; }`
			`intel_keym_v2_t::key_signature_t* _parent() const { return m__parent; }`
			`};`

			`class public_key_t : public kaitai::kstruct {`

			`public:`

			`public_key_t(kaitai::kstream* p__io, intel_keym_v2_t::key_signature_t* p__parent = 0, intel_keym_v2_t* p__root = 0);`

			`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_keym_v2_t* m__root;`
			`intel_keym_v2_t::key_signature_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_keym_v2_t* _root() const { return m__root; }`
			`intel_keym_v2_t::key_signature_t* _parent() const { return m__parent; }`
			`};`

			`class header_t : public kaitai::kstruct {`

			`public:`

			`header_t(kaitai::kstream* p__io, intel_keym_v2_t* p__parent = 0, intel_keym_v2_t* p__root = 0);`

			`private:`
			`void _read();`
			`void _clean_up();`

			`public:`
			`~header_t();`

			`private:`
			`structure_ids_t m_structure_id;`
			`uint8_t m_version;`
			`uint8_t m_header_specific;`
			`uint16_t m_total_size;`
			`intel_keym_v2_t* m__root;`
			`intel_keym_v2_t* m__parent;`

			`public:`
			`structure_ids_t structure_id() const { return m_structure_id; }`
			`uint8_t version() const { return m_version; }`
			`uint8_t header_specific() const { return m_header_specific; }`
			`uint16_t total_size() const { return m_total_size; }`
			`intel_keym_v2_t* _root() const { return m__root; }`
			`intel_keym_v2_t* _parent() const { return m__parent; }`
			`};`

			`private:`
			`header_t* m_header;`
			`uint16_t m_key_signature_offset;`
			`std::vector<uint8_t>* m_reserved;`
			`uint8_t m_km_version;`
			`uint8_t m_km_svn;`
			`uint8_t m_km_id;`
			`uint16_t m_fpf_hash_algorithm_id;`
			`uint16_t m_num_km_hashes;`
			`std::vector<km_hash_t> m_km_hashes;`
			`key_signature_t* m_key_signature;`
			`intel_keym_v2_t* m__root;`
			`kaitai::kstruct* m__parent;`

			`public:`
			`header_t* header() const { return m_header; }`
			`uint16_t key_signature_offset() const { return m_key_signature_offset; }`
			`std::vector<uint8_t>* reserved() const { return m_reserved; }`
			`uint8_t km_version() const { return m_km_version; }`
			`uint8_t km_svn() const { return m_km_svn; }`
			`uint8_t km_id() const { return m_km_id; }`
			`uint16_t fpf_hash_algorithm_id() const { return m_fpf_hash_algorithm_id; }`
			`uint16_t num_km_hashes() const { return m_num_km_hashes; }`
			`std::vector<km_hash_t> km_hashes() const { return m_km_hashes; }`
			`key_signature_t* key_signature() const { return m_key_signature; }`
			`intel_keym_v2_t* _root() const { return m__root; }`
			`kaitai::kstruct* _parent() const { return m__parent; }`
			`};`

			`#endif // INTEL_KEYM_V2_H_`