// This is a generated file! Please edit source .ksy file and use kaitai-struct-compiler to rebuild #include "intel_acbp_v2.h" #include "../kaitai/exceptions.h" intel_acbp_v2_t::intel_acbp_v2_t(kaitai::kstream* p__io, kaitai::kstruct* p__parent, intel_acbp_v2_t* p__root) : kaitai::kstruct(p__io) { m__parent = p__parent; m__root = this; (void)p__root; m_elements = nullptr; m_key_signature = nullptr; _read(); } void intel_acbp_v2_t::_read() { m_structure_id = static_cast(m__io->read_u8le()); if (!(structure_id() == intel_acbp_v2_t::STRUCTURE_IDS_ACBP)) { throw kaitai::validation_not_equal_error(intel_acbp_v2_t::STRUCTURE_IDS_ACBP, structure_id(), _io(), std::string("/seq/0")); } m_version = m__io->read_u1(); { uint8_t _ = version(); if (!(_ >= 32)) { throw kaitai::validation_expr_error(version(), _io(), std::string("/seq/1")); } } m_header_specific = m__io->read_u1(); m_total_size = m__io->read_u2le(); if (!(total_size() == 20)) { throw kaitai::validation_not_equal_error(20, total_size(), _io(), std::string("/seq/3")); } m_key_signature_offset = m__io->read_u2le(); m_bpm_revision = m__io->read_u1(); m_bp_svn = m__io->read_u1(); m_acm_svn = m__io->read_u1(); m_reserved = m__io->read_u1(); m_nem_data_size = m__io->read_u2le(); m_elements = std::unique_ptr>>(new std::vector>()); { int i = 0; acbp_element_t* _; do { _ = new acbp_element_t(m__io, this, m__root); m_elements->push_back(std::move(std::unique_ptr(_))); i++; } while (!( ((_->header()->total_size() == 0) || (_->header()->structure_id() == intel_acbp_v2_t::STRUCTURE_IDS_PMSG)) )); } m_key_signature = std::unique_ptr(new key_signature_t(m__io, this, m__root)); } intel_acbp_v2_t::~intel_acbp_v2_t() { _clean_up(); } void intel_acbp_v2_t::_clean_up() { } intel_acbp_v2_t::acbp_element_t::acbp_element_t(kaitai::kstream* p__io, intel_acbp_v2_t* p__parent, intel_acbp_v2_t* p__root) : kaitai::kstruct(p__io) { m__parent = p__parent; m__root = p__root; m_header = nullptr; m_ibbs_body = nullptr; m_pmda_body = nullptr; _read(); } void intel_acbp_v2_t::acbp_element_t::_read() { m_header = std::unique_ptr(new header_t(m__io, this, m__root)); n_ibbs_body = true; if ( ((header()->structure_id() == intel_acbp_v2_t::STRUCTURE_IDS_IBBS) && (header()->total_size() >= 12)) ) { n_ibbs_body = false; m_ibbs_body = std::unique_ptr(new ibbs_body_t(m__io, this, m__root)); } n_pmda_body = true; if ( ((header()->structure_id() == intel_acbp_v2_t::STRUCTURE_IDS_PMDA) && (header()->total_size() >= 12)) ) { n_pmda_body = false; m_pmda_body = std::unique_ptr(new pmda_body_t(m__io, this, m__root)); } n_generic_body = true; if ( ((header()->structure_id() != intel_acbp_v2_t::STRUCTURE_IDS_IBBS) && (header()->structure_id() != intel_acbp_v2_t::STRUCTURE_IDS_PMDA) && (header()->total_size() >= 12)) ) { n_generic_body = false; m_generic_body = m__io->read_bytes((header()->total_size() - 12)); } } intel_acbp_v2_t::acbp_element_t::~acbp_element_t() { _clean_up(); } void intel_acbp_v2_t::acbp_element_t::_clean_up() { if (!n_ibbs_body) { } if (!n_pmda_body) { } if (!n_generic_body) { } } intel_acbp_v2_t::key_signature_t::key_signature_t(kaitai::kstream* p__io, intel_acbp_v2_t* p__parent, intel_acbp_v2_t* p__root) : kaitai::kstruct(p__io) { m__parent = p__parent; m__root = p__root; m_public_key = nullptr; m_signature = nullptr; _read(); } void intel_acbp_v2_t::key_signature_t::_read() { m_version = m__io->read_u1(); m_key_id = m__io->read_u2le(); m_public_key = std::unique_ptr(new public_key_t(m__io, this, m__root)); m_sig_scheme = m__io->read_u2le(); m_signature = std::unique_ptr(new signature_t(m__io, this, m__root)); } intel_acbp_v2_t::key_signature_t::~key_signature_t() { _clean_up(); } void intel_acbp_v2_t::key_signature_t::_clean_up() { } intel_acbp_v2_t::signature_t::signature_t(kaitai::kstream* p__io, intel_acbp_v2_t::key_signature_t* p__parent, intel_acbp_v2_t* p__root) : kaitai::kstruct(p__io) { m__parent = p__parent; m__root = p__root; _read(); } void intel_acbp_v2_t::signature_t::_read() { m_version = m__io->read_u1(); m_size_bits = m__io->read_u2le(); m_hash_algorithm_id = m__io->read_u2le(); m_signature = m__io->read_bytes((size_bits() / 8)); } intel_acbp_v2_t::signature_t::~signature_t() { _clean_up(); } void intel_acbp_v2_t::signature_t::_clean_up() { } intel_acbp_v2_t::ibb_segment_t::ibb_segment_t(kaitai::kstream* p__io, intel_acbp_v2_t::ibbs_body_t* p__parent, intel_acbp_v2_t* p__root) : kaitai::kstruct(p__io) { m__parent = p__parent; m__root = p__root; _read(); } void intel_acbp_v2_t::ibb_segment_t::_read() { m_reserved = m__io->read_u2le(); m_flags = m__io->read_u2le(); m_base = m__io->read_u4le(); m_size = m__io->read_u4le(); } intel_acbp_v2_t::ibb_segment_t::~ibb_segment_t() { _clean_up(); } void intel_acbp_v2_t::ibb_segment_t::_clean_up() { } intel_acbp_v2_t::public_key_t::public_key_t(kaitai::kstream* p__io, intel_acbp_v2_t::key_signature_t* p__parent, intel_acbp_v2_t* p__root) : kaitai::kstruct(p__io) { m__parent = p__parent; m__root = p__root; _read(); } void intel_acbp_v2_t::public_key_t::_read() { m_version = m__io->read_u1(); m_size_bits = m__io->read_u2le(); m_exponent = m__io->read_u4le(); m_modulus = m__io->read_bytes((size_bits() / 8)); } intel_acbp_v2_t::public_key_t::~public_key_t() { _clean_up(); } void intel_acbp_v2_t::public_key_t::_clean_up() { } intel_acbp_v2_t::hash_t::hash_t(kaitai::kstream* p__io, kaitai::kstruct* p__parent, intel_acbp_v2_t* p__root) : kaitai::kstruct(p__io) { m__parent = p__parent; m__root = p__root; _read(); } void intel_acbp_v2_t::hash_t::_read() { m_hash_algorithm_id = m__io->read_u2le(); m_len_hash = m__io->read_u2le(); m_hash = m__io->read_bytes(len_hash()); } intel_acbp_v2_t::hash_t::~hash_t() { _clean_up(); } void intel_acbp_v2_t::hash_t::_clean_up() { } intel_acbp_v2_t::header_t::header_t(kaitai::kstream* p__io, intel_acbp_v2_t::acbp_element_t* p__parent, intel_acbp_v2_t* p__root) : kaitai::kstruct(p__io) { m__parent = p__parent; m__root = p__root; _read(); } void intel_acbp_v2_t::header_t::_read() { m_structure_id = static_cast(m__io->read_u8le()); m_version = m__io->read_u1(); m_header_specific = m__io->read_u1(); m_total_size = m__io->read_u2le(); } intel_acbp_v2_t::header_t::~header_t() { _clean_up(); } void intel_acbp_v2_t::header_t::_clean_up() { } intel_acbp_v2_t::pmda_entry_v3_t::pmda_entry_v3_t(kaitai::kstream* p__io, intel_acbp_v2_t::pmda_body_t* p__parent, intel_acbp_v2_t* p__root) : kaitai::kstruct(p__io) { m__parent = p__parent; m__root = p__root; m_hash = nullptr; _read(); } void intel_acbp_v2_t::pmda_entry_v3_t::_read() { m_entry_id = m__io->read_u4le(); m_base = m__io->read_u4le(); m_size = m__io->read_u4le(); m_total_entry_size = m__io->read_u2le(); m_version = m__io->read_u2le(); m_hash = std::unique_ptr(new hash_t(m__io, this, m__root)); } intel_acbp_v2_t::pmda_entry_v3_t::~pmda_entry_v3_t() { _clean_up(); } void intel_acbp_v2_t::pmda_entry_v3_t::_clean_up() { } intel_acbp_v2_t::ibbs_body_t::ibbs_body_t(kaitai::kstream* p__io, intel_acbp_v2_t::acbp_element_t* p__parent, intel_acbp_v2_t* p__root) : kaitai::kstruct(p__io) { m__parent = p__parent; m__root = p__root; m_post_ibb_digest = nullptr; m_ibb_digests = nullptr; m_obb_digest = nullptr; m_reserved2 = nullptr; m_ibb_segments = nullptr; _read(); } void intel_acbp_v2_t::ibbs_body_t::_read() { m_reserved0 = m__io->read_u1(); m_set_number = m__io->read_u1(); m_reserved1 = m__io->read_u1(); m_pbet_value = m__io->read_u1(); m_flags = m__io->read_u4le(); m_mch_bar = m__io->read_u8le(); m_vtd_bar = m__io->read_u8le(); m_dma_protection_base0 = m__io->read_u4le(); m_dma_protection_limit0 = m__io->read_u4le(); m_dma_protection_base1 = m__io->read_u8le(); m_dma_protection_limit1 = m__io->read_u8le(); m_post_ibb_digest = std::unique_ptr(new hash_t(m__io, this, m__root)); m_ibb_entry_point = m__io->read_u4le(); m_ibb_digests_size = m__io->read_u2le(); m_num_ibb_digests = m__io->read_u2le(); m_ibb_digests = std::unique_ptr>>(new std::vector>()); const int l_ibb_digests = num_ibb_digests(); for (int i = 0; i < l_ibb_digests; i++) { m_ibb_digests->push_back(std::move(std::unique_ptr(new hash_t(m__io, this, m__root)))); } m_obb_digest = std::unique_ptr(new hash_t(m__io, this, m__root)); m_reserved2 = std::unique_ptr>(new std::vector()); const int l_reserved2 = 3; for (int i = 0; i < l_reserved2; i++) { m_reserved2->push_back(std::move(m__io->read_u1())); } m_num_ibb_segments = m__io->read_u1(); m_ibb_segments = std::unique_ptr>>(new std::vector>()); const int l_ibb_segments = num_ibb_segments(); for (int i = 0; i < l_ibb_segments; i++) { m_ibb_segments->push_back(std::move(std::unique_ptr(new ibb_segment_t(m__io, this, m__root)))); } } intel_acbp_v2_t::ibbs_body_t::~ibbs_body_t() { _clean_up(); } void intel_acbp_v2_t::ibbs_body_t::_clean_up() { } intel_acbp_v2_t::pmda_body_t::pmda_body_t(kaitai::kstream* p__io, intel_acbp_v2_t::acbp_element_t* p__parent, intel_acbp_v2_t* p__root) : kaitai::kstruct(p__io) { m__parent = p__parent; m__root = p__root; m_entries = nullptr; _read(); } void intel_acbp_v2_t::pmda_body_t::_read() { m_reserved = m__io->read_u2le(); m_total_size = m__io->read_u2le(); m_version = m__io->read_u4le(); if (!(version() == 3)) { throw kaitai::validation_not_equal_error(3, version(), _io(), std::string("/types/pmda_body/seq/2")); } m_num_entries = m__io->read_u4le(); m_entries = std::unique_ptr>>(new std::vector>()); const int l_entries = num_entries(); for (int i = 0; i < l_entries; i++) { m_entries->push_back(std::move(std::unique_ptr(new pmda_entry_v3_t(m__io, this, m__root)))); } } intel_acbp_v2_t::pmda_body_t::~pmda_body_t() { _clean_up(); } void intel_acbp_v2_t::pmda_body_t::_clean_up() { }