package linksem
A formalisation of the core ELF and DWARF file formats written in Lem
Install
Dune Dependency
Authors
Maintainers
Sources
0.8.tar.gz
md5=2075c56715539b3b8f54ae65cc808b8c
sha512=f7c16e4036a1440a6a8d13707a43f0f9f9db0c68489215f948cc300b6a164dba5bf852e58f89503e9d9f38180ee658d9478156ca1a1ef64d6861eec5f9cf43d2
doc/src/linksem_zarith/harness_interface.ml.html
Source file harness_interface.ml
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1022 1023 1024 1025 1026 1027 1028 1029 1030 1031 1032 1033 1034 1035 1036 1037 1038 1039 1040 1041 1042 1043 1044 1045 1046 1047 1048 1049 1050 1051 1052 1053 1054 1055 1056 1057 1058 1059 1060 1061 1062 1063 1064 1065 1066 1067 1068 1069 1070 1071 1072 1073 1074 1075 1076 1077 1078 1079 1080 1081 1082 1083 1084 1085 1086 1087 1088 1089 1090 1091 1092 1093 1094 1095 1096 1097 1098 1099 1100 1101 1102 1103 1104 1105 1106 1107 1108 1109 1110 1111 1112 1113 1114 1115 1116 1117 1118 1119 1120 1121 1122 1123 1124 1125 1126 1127 1128 1129 1130 1131 1132 1133 1134 1135 1136 1137 1138 1139 1140 1141 1142 1143 1144 1145 1146 1147 1148 1149 1150 1151 1152 1153 1154 1155 1156 1157 1158 1159 1160 1161 1162 1163 1164 1165 1166 1167 1168 1169 1170 1171 1172 1173 1174 1175 1176 1177 1178 1179 1180 1181(*Generated by Lem from adaptors/harness_interface.lem.*) open Lem_basic_classes open Lem_bool open Lem_function open Lem_maybe open Lem_num open Lem_string open Byte_sequence open Error open Hex_printing open Missing_pervasives open Show open Default_printing open Endianness open String_table open Elf_dynamic open Elf_file open Elf_header open Elf_program_header_table open Elf_relocation open Elf_section_header_table open Elf_symbol_table open Elf_types_native_uint open Gnu_ext_dynamic open Gnu_ext_section_header_table open Gnu_ext_section_to_segment_mapping open Gnu_ext_symbol_versioning (*val concatS' : list string -> string -> string*) let rec concatS' ss accum:string= ((match ss with | [] -> accum | s::ss -> concatS' ss (accum^s) )) (*val concatS : list string -> string*) let concatS ss:string= (concatS' ss "") (*val harness_string_of_elf32_file_header : elf32_header -> string*) let harness_string_of_elf32_file_header hdr:string= (unlines [ "ELF Header:" ; (" Magic:" ^ (" " ^ unsafe_hex_string_of_uc_list (hdr.elf32_ident))) ; (" Class:" ^ (" " ^ string_of_elf_file_class (get_elf32_file_class hdr))) ; (" Data:" ^ (" " ^ string_of_elf_data_encoding (get_elf32_data_encoding hdr))) ; (" Version:" ^ (" " ^ string_of_elf_version_number (get_elf32_version_number hdr))) ; (" OS/ABI:" ^ (" " ^ string_of_elf_osabi_version ((fun y->"Architecture defined")) (get_elf32_osabi hdr))) ; (" ABI Version:" ^ (" " ^ Nat_big_num.to_string (get_elf32_abi_version hdr))) ; (" Type:" ^ (" " ^ string_of_elf_file_type default_os_specific_print default_proc_specific_print (Uint32_wrapper.to_bigint hdr.elf32_type))) ; (" Machine:" ^ (" " ^ string_of_elf_machine_architecture (Uint32_wrapper.to_bigint hdr.elf32_machine))) ; (" Version:" ^ (" " ^ ("0x" ^ unsafe_hex_string_of_natural 1 (Uint32_wrapper.to_bigint hdr.elf32_version)))) ; (" Entry point address:" ^ (" " ^ ("0x" ^ unsafe_hex_string_of_natural 1 (Uint32_wrapper.to_bigint hdr.elf32_entry)))) ; (" Start of program headers:" ^ (" " ^ (Uint32_wrapper.to_string hdr.elf32_phoff ^ " (bytes into file)"))) ; (" Start of section headers:" ^ (" " ^ (Uint32_wrapper.to_string hdr.elf32_shoff ^ " (bytes into file)"))) ; (" Flags:" ^ (" " ^ ("0x" ^ unsafe_hex_string_of_natural 1 (Uint32_wrapper.to_bigint hdr.elf32_flags)))) ; (" Size of this header:" ^ (" " ^ (Uint32_wrapper.to_string hdr.elf32_ehsize ^ " (bytes)"))) ; (" Size of program headers:" ^ (" " ^ (Uint32_wrapper.to_string hdr.elf32_phentsize ^ " (bytes)"))) ; (" Number of program headers:" ^ (" " ^ Uint32_wrapper.to_string hdr.elf32_phnum)) ; (" Size of section headers:" ^ (" " ^ (Uint32_wrapper.to_string hdr.elf32_shentsize ^ " (bytes)"))) ; (" Number of section headers:" ^ (" " ^ Uint32_wrapper.to_string hdr.elf32_shnum)) ; (" Section header string table index:" ^ (" " ^ Uint32_wrapper.to_string hdr.elf32_shstrndx)) ]) (*val harness_string_of_elf64_file_header : elf64_header -> string*) let harness_string_of_elf64_file_header hdr:string= (unlines [ "ELF Header:" ; (" Magic:" ^ (" " ^ unsafe_hex_string_of_uc_list (hdr.elf64_ident))) ; (" Class:" ^ (" " ^ string_of_elf_file_class (get_elf64_file_class hdr))) ; (" Data:" ^ (" " ^ string_of_elf_data_encoding (get_elf64_data_encoding hdr))) ; (" Version:" ^ (" " ^ string_of_elf_version_number (get_elf64_version_number hdr))) ; (" OS/ABI:" ^ (" " ^ string_of_elf_osabi_version ((fun y->"Architecture defined")) (get_elf64_osabi hdr))) ; (" ABI Version:" ^ (" " ^ Nat_big_num.to_string (get_elf64_abi_version hdr))) ; (" Type:" ^ (" " ^ string_of_elf_file_type default_os_specific_print default_proc_specific_print (Uint32_wrapper.to_bigint hdr.elf64_type))) ; (" Machine:" ^ (" " ^ string_of_elf_machine_architecture (Uint32_wrapper.to_bigint hdr.elf64_machine))) ; (" Version:" ^ (" " ^ ("0x" ^ unsafe_hex_string_of_natural 1 (Uint32_wrapper.to_bigint hdr.elf64_version)))) ; (" Entry point address:" ^ (" " ^ ("0x" ^ unsafe_hex_string_of_natural 1 (Ml_bindings.nat_big_num_of_uint64 hdr.elf64_entry)))) ; (" Start of program headers:" ^ (" " ^ (Uint64_wrapper.to_string hdr.elf64_phoff ^ " (bytes into file)"))) ; (" Start of section headers:" ^ (" " ^ (Uint64_wrapper.to_string hdr.elf64_shoff ^ " (bytes into file)"))) ; (" Flags:" ^ (" " ^ ("0x" ^ unsafe_hex_string_of_natural 1 (Uint32_wrapper.to_bigint hdr.elf64_flags)))) ; (" Size of this header:" ^ (" " ^ (Uint32_wrapper.to_string hdr.elf64_ehsize ^ " (bytes)"))) ; (" Size of program headers:" ^ (" " ^ (Uint32_wrapper.to_string hdr.elf64_phentsize ^ " (bytes)"))) ; (" Number of program headers:" ^ (" " ^ Uint32_wrapper.to_string hdr.elf64_phnum)) ; (" Size of section headers:" ^ (" " ^ (Uint32_wrapper.to_string hdr.elf64_shentsize ^ " (bytes)"))) ; (" Number of section headers:" ^ (" " ^ Uint32_wrapper.to_string hdr.elf64_shnum)) ; (" Section header string table index:" ^ (" " ^ Uint32_wrapper.to_string hdr.elf64_shstrndx)) ]) (*val harness_string_of_elf32_program_header_table_entry : (natural -> string) -> (natural -> string) -> byte_sequence -> elf32_program_header_table_entry -> string*) let harness_string_of_elf32_program_header_table_entry os proc bs0 pent:string= (let typ = (string_of_segment_type os proc (Uint32_wrapper.to_bigint pent.elf32_p_type)) in let typ_s = (let len = (Nat_num.nat_monus 15 (String.length typ)) in if len <= 0 then "" else concatS (replicate0 (Nat_big_num.of_int len) " ")) in concatS [ " " ; typ ; typ_s ; ("0x" ^ unsafe_hex_string_of_natural 6 (Uint32_wrapper.to_bigint pent.elf32_p_offset)) ; " " ; ("0x" ^ unsafe_hex_string_of_natural 8 (Uint32_wrapper.to_bigint pent.elf32_p_vaddr)) ; " " ; ("0x" ^ unsafe_hex_string_of_natural 8 (Uint32_wrapper.to_bigint pent.elf32_p_paddr)) ; " " ; ("0x" ^ unsafe_hex_string_of_natural 5 (Uint32_wrapper.to_bigint pent.elf32_p_filesz)) ; " " ; ("0x" ^ unsafe_hex_string_of_natural 5 (Uint32_wrapper.to_bigint pent.elf32_p_memsz)) ; " " ; string_of_elf_segment_permissions (Uint32_wrapper.to_bigint pent.elf32_p_flags) ; " " ; ("0x" ^ unsafe_hex_string_of_natural 1 (Uint32_wrapper.to_bigint pent.elf32_p_align)) ] ^ (if Nat_big_num.equal (Uint32_wrapper.to_bigint pent.elf32_p_type) elf_pt_interp then (match Elf_program_header_table.get_elf32_requested_interpreter pent bs0 with | Fail f -> "\n [Requesting program interpreter: " ^ (f ^ "]") | Success s -> "\n [Requesting program interpreter: " ^ (s ^ "]") ) else "")) (*val harness_string_of_elf64_program_header_table_entry : (natural -> string) -> (natural -> string) -> byte_sequence -> elf64_program_header_table_entry -> string*) let harness_string_of_elf64_program_header_table_entry os proc bs0 pent:string= (let typ = (string_of_segment_type os proc (Uint32_wrapper.to_bigint pent.elf64_p_type)) in let typ_s = (let len = (Nat_num.nat_monus 15 (String.length typ)) in if len <= 0 then "" else concatS (replicate0 (Nat_big_num.of_int len) " ")) in concatS [ " " ; typ ; typ_s ; ("0x" ^ unsafe_hex_string_of_natural 6 (Uint64_wrapper.to_bigint pent.elf64_p_offset)) ; " " ; ("0x" ^ unsafe_hex_string_of_natural 16 (Ml_bindings.nat_big_num_of_uint64 pent.elf64_p_vaddr)) ; " " ; ("0x" ^ unsafe_hex_string_of_natural 16 (Ml_bindings.nat_big_num_of_uint64 pent.elf64_p_paddr)) ; " " ; ("0x" ^ unsafe_hex_string_of_natural 6 (Ml_bindings.nat_big_num_of_uint64 pent.elf64_p_filesz)) ; " " ; ("0x" ^ unsafe_hex_string_of_natural 6 (Ml_bindings.nat_big_num_of_uint64 pent.elf64_p_memsz)) ; " " ; string_of_elf_segment_permissions (Uint32_wrapper.to_bigint pent.elf64_p_flags) ; " " ; ("0x" ^ unsafe_hex_string_of_natural 1 (Ml_bindings.nat_big_num_of_uint64 pent.elf64_p_align)) ] ^ (if Nat_big_num.equal (Uint32_wrapper.to_bigint pent.elf64_p_type) elf_pt_interp then (match Elf_program_header_table.get_elf64_requested_interpreter pent bs0 with | Fail f -> "\n [Requesting program interpreter: " ^ (f ^ "]") | Success s -> "\n [Requesting program interpreter: " ^ (s ^ "]") ) else "")) (*val harness_string_of_efl32_pht : (natural -> string) -> (natural -> string) -> elf32_program_header_table -> byte_sequence -> string*) let harness_string_of_elf32_pht os proc pht bs0:string= (" Type Offset VirtAddr PhysAddr FileSiz MemSiz Flg Align\n" ^ unlines (Lem_list.map (harness_string_of_elf32_program_header_table_entry os proc bs0) pht)) (*val harness_string_of_efl64_pht : (natural -> string) -> (natural -> string) -> elf64_program_header_table -> byte_sequence -> string*) let harness_string_of_elf64_pht os proc pht bs0:string= (" Type Offset VirtAddr PhysAddr FileSiz MemSiz Flg Align\n" ^ unlines (Lem_list.map (harness_string_of_elf64_program_header_table_entry os proc bs0) pht)) (*val harness_string_of_elf32_segment_section_mappings : elf32_header -> elf32_program_header_table -> elf32_section_header_table -> string_table -> string*) let harness_string_of_elf32_segment_section_mappings hdr pht sht stbl:string= (let map1 = (Lem_list.mapi (fun i -> fun pent -> let mapping = ((match get_elf32_section_to_segment_mapping hdr sht pent elf32_section_in_segment stbl with | Fail err -> [("ERR: " ^ err)] | Success mp -> intercalate " " mp )) in let str = (let temp = (concatS mapping) in if temp = "" then temp else temp ^ " ") in concatS [ (" " ^ Ml_bindings.hex_string_of_nat_pad2 i) ; " " ; str ] ) pht) in concatS (intercalate "\n" map1)) (*val harness_string_of_elf64_segment_section_mappings : elf64_header -> elf64_program_header_table -> elf64_section_header_table -> string_table -> string*) let harness_string_of_elf64_segment_section_mappings hdr pht sht stbl:string= (let map1 = (Lem_list.mapi (fun i -> fun pent -> let mapping = ((match get_elf64_section_to_segment_mapping hdr sht pent elf64_section_in_segment stbl with | Fail err -> [("ERR: " ^ err)] | Success mp -> intercalate " " mp )) in let str = (let temp = (concatS mapping) in if temp = "" then temp else temp ^ " ") in concatS [ (" " ^ Ml_bindings.hex_string_of_nat_pad2 i) ; " " ; str ] ) pht) in concatS (intercalate "\n" map1)) (*val harness_string_of_elf32_program_headers : (natural -> string) -> (natural -> string) -> elf32_header -> elf32_program_header_table -> elf32_section_header_table -> string_table -> byte_sequence -> string*) let harness_string_of_elf32_program_headers os proc hdr pht sht stbl bs0:string= (let pht_len = (List.length pht) in if pht_len = 0 then "\nThere are no program headers in this file." else unlines [ "" ; ("Elf file type is " ^ string_of_elf_file_type default_os_specific_print default_proc_specific_print (Uint32_wrapper.to_bigint hdr.elf32_type)) ; ("Entry point " ^ ("0x" ^ unsafe_hex_string_of_natural 1 (Uint32_wrapper.to_bigint hdr.elf32_entry))) ; ("There are " ^ (Stdlib.string_of_int (List.length pht) ^ (" program headers, starting at offset " ^ Uint32_wrapper.to_string hdr.elf32_phoff))) ; "" ; "Program Headers:" ; harness_string_of_elf32_pht os proc pht bs0 ; "" ; " Section to Segment mapping:" ; " Segment Sections..." ; harness_string_of_elf32_segment_section_mappings hdr pht sht stbl ]) (*val harness_string_of_elf64_program_headers : (natural -> string) -> (natural -> string) -> elf64_header -> elf64_program_header_table -> elf64_section_header_table -> string_table -> byte_sequence -> string*) let harness_string_of_elf64_program_headers os proc hdr pht sht stbl bs0:string= (let pht_len = (List.length pht) in if pht_len = 0 then "\nThere are no program headers in this file." else unlines [ "" ; ("Elf file type is " ^ string_of_elf_file_type default_os_specific_print default_proc_specific_print (Uint32_wrapper.to_bigint hdr.elf64_type)) ; ("Entry point " ^ ("0x" ^ unsafe_hex_string_of_natural 1 (Ml_bindings.nat_big_num_of_uint64 hdr.elf64_entry))) ; ("There are " ^ (Stdlib.string_of_int (List.length pht) ^ (" program headers, starting at offset " ^ Uint64_wrapper.to_string hdr.elf64_phoff))) ; "" ; "Program Headers:" ; harness_string_of_elf64_pht os proc pht bs0 ; "" ; " Section to Segment mapping:" ; " Segment Sections..." ; harness_string_of_elf64_segment_section_mappings hdr pht sht stbl ]) (*val harness_sht32_flag_legend : string*) let harness_sht32_flag_legend:string= "\nKey to Flags: W (write), A (alloc), X (execute), M (merge), S (strings) I (info), L (link order), G (group), T (TLS), E (exclude), x (unknown) O (extra OS processing required) o (OS specific), p (processor specific)" (*val harness_sht64_flag_legend : natural -> string*) let harness_sht64_flag_legend mach:string= (if Nat_big_num.equal mach elf_ma_x86_64 || (Nat_big_num.equal mach elf_ma_l10m || Nat_big_num.equal mach elf_ma_k10m) then "\nKey to Flags: W (write), A (alloc), X (execute), M (merge), S (strings), l (large) I (info), L (link order), G (group), T (TLS), E (exclude), x (unknown) O (extra OS processing required) o (OS specific), p (processor specific)" else "\nKey to Flags: W (write), A (alloc), X (execute), M (merge), S (strings) I (info), L (link order), G (group), T (TLS), E (exclude), x (unknown) O (extra OS processing required) o (OS specific), p (processor specific)") (*val harness_string_of_elf32_sht : (natural -> string) -> (natural -> string) -> (natural -> string) -> elf32_section_header_table -> string_table -> string*) let harness_string_of_elf32_sht os proc usr sht stbl:string= (" [Nr] Name Type Addr Off Size ES Flg Lk Inf Al\n" ^ unlines (Lem_list.mapi (fun i -> fun sec -> let is = (let temp = (Stdlib.string_of_int i) in if String.length temp = 1 then " " ^ temp else temp) in let str = (" [" ^ (is ^ "]")) in let ((gap : string), name1) = ((match String_table.get_string_at (Uint32_wrapper.to_bigint sec.elf32_sh_name) stbl with | Fail err -> ("", ("ERR " ^ err)) | Success nm -> if Nat_big_num.equal (Uint32_wrapper.to_bigint sec.elf32_sh_type) sht_null then let gap = (List.fold_right (^) (Missing_pervasives.replicate0( (Nat_big_num.of_int 17)) " ") " ") in (gap, "") else let glen = (Nat_big_num.of_int ( Nat_num.nat_monus 17 (String.length nm))) in let gap = (List.fold_right (^) (Missing_pervasives.replicate0 glen " ") " ") in (gap, nm) )) in let str = (str ^ (" " ^ (name1 ^ gap))) in let typ = (string_of_section_type os proc usr (Uint32_wrapper.to_bigint sec.elf32_sh_type)) in let str = (str ^ typ) in let (gap, addr) = (let mx = (Nat_big_num.of_int ( Nat_num.nat_monus 15 (String.length typ))) in let gap = (List.fold_right (^) (Missing_pervasives.replicate0 mx " ") " ") in (gap, unsafe_hex_string_of_natural 8 (Uint32_wrapper.to_bigint sec.elf32_sh_addr))) in let str = (str ^ (gap ^ addr)) in let off = (unsafe_hex_string_of_natural 6 (Uint32_wrapper.to_bigint sec.elf32_sh_offset)) in let str = (str ^ (" " ^ off)) in let size2 = (unsafe_hex_string_of_natural 6 (Uint32_wrapper.to_bigint sec.elf32_sh_size)) in let str = (str ^ (" " ^ size2)) in let es = (unsafe_hex_string_of_natural 2 (Uint32_wrapper.to_bigint sec.elf32_sh_entsize)) in let str = (str ^ (" " ^ es)) in let flg = (string_of_section_flags os proc (Uint32_wrapper.to_bigint sec.elf32_sh_flags)) in let str = (str ^ (" " ^ flg)) in let (gap, lnk) = (let l = (Nat_big_num.to_string (Uint32_wrapper.to_bigint sec.elf32_sh_link)) in let gp = (Nat_big_num.of_int ( Nat_num.nat_monus 2 (String.length l))) in let gp = (List.fold_right (^) (replicate0 gp " ") " ") in (gp, l)) in let str = (str ^ (gap ^ lnk)) in let (gap, info) = (let i = (Nat_big_num.to_string (Uint32_wrapper.to_bigint sec.elf32_sh_info)) in let gp = (Nat_big_num.of_int ( Nat_num.nat_monus 3 (String.length i))) in let gp = (List.fold_right (^) (replicate0 gp " ") " ") in (gp, i)) in let str = (str ^ (gap ^ info)) in let (gap, align) = (let a = (Nat_big_num.to_string (Uint32_wrapper.to_bigint sec.elf32_sh_addralign)) in let gp = (Nat_big_num.of_int ( Nat_num.nat_monus 2 (String.length a))) in let gp = (List.fold_right (^) (replicate0 gp " ") " ") in (gp, a)) in let str = (str ^ (gap ^ align)) in str) sht)) (*val harness_string_of_elf64_sht : (natural -> string) -> (natural -> string) -> (natural -> string) -> elf64_section_header_table -> string_table -> string*) let harness_string_of_elf64_sht os proc usr sht stbl:string= (" [Nr] Name Type Address Off Size ES Flg Lk Inf Al\n" ^ unlines (Lem_list.mapi (fun i -> fun sec -> let is = (let temp = (Stdlib.string_of_int i) in if String.length temp = 1 then " " ^ temp else temp) in let str = (" [" ^ (is ^ "]")) in let ((gap : string), name1) = ((match String_table.get_string_at (Uint32_wrapper.to_bigint sec.elf64_sh_name) stbl with | Fail err -> ("", ("ERR " ^ err)) | Success nm -> if Nat_big_num.equal (Uint32_wrapper.to_bigint sec.elf64_sh_type) sht_null then let gap = (List.fold_right (^) (Missing_pervasives.replicate0( (Nat_big_num.of_int 17)) " ") " ") in (gap, "") else let glen = (Nat_big_num.of_int ( Nat_num.nat_monus 17 (String.length nm))) in let gap = (List.fold_right (^) (Missing_pervasives.replicate0 glen " ") " ") in (gap, nm) )) in let str = (str ^ (" " ^ (name1 ^ gap))) in let typ = (string_of_section_type os proc usr (Uint32_wrapper.to_bigint sec.elf64_sh_type)) in let str = (str ^ typ) in let (gap, addr) = (let mx = (Nat_big_num.of_int ( Nat_num.nat_monus 15 (String.length typ))) in let gap = (List.fold_right (^) (Missing_pervasives.replicate0 mx " ") " ") in (gap, unsafe_hex_string_of_natural 16 (Ml_bindings.nat_big_num_of_uint64 sec.elf64_sh_addr))) in let str = (str ^ (gap ^ addr)) in let off = (unsafe_hex_string_of_natural 6 (Uint64_wrapper.to_bigint sec.elf64_sh_offset)) in let str = (str ^ (" " ^ off)) in let size2 = (unsafe_hex_string_of_natural 6 (Ml_bindings.nat_big_num_of_uint64 sec.elf64_sh_size)) in let str = (str ^ (" " ^ size2)) in let es = (unsafe_hex_string_of_natural 2 (Ml_bindings.nat_big_num_of_uint64 sec.elf64_sh_entsize)) in let str = (str ^ (" " ^ es)) in let flg = (string_of_section_flags os proc (Ml_bindings.nat_big_num_of_uint64 sec.elf64_sh_flags)) in let str = (str ^ (" " ^ flg)) in let (gap, lnk) = (let l = (Nat_big_num.to_string (Uint32_wrapper.to_bigint sec.elf64_sh_link)) in let gp = (Nat_big_num.of_int ( Nat_num.nat_monus 2 (String.length l))) in let gp = (List.fold_right (^) (replicate0 gp " ") " ") in (gp, l)) in let str = (str ^ (gap ^ lnk)) in let (gap, info) = (let i = (Nat_big_num.to_string (Uint32_wrapper.to_bigint sec.elf64_sh_info)) in let gp = (Nat_big_num.of_int ( Nat_num.nat_monus 3 (String.length i))) in let gp = (List.fold_right (^) (replicate0 gp " ") " ") in (gp, i)) in let str = (str ^ (gap ^ info)) in let (gap, align) = (let a = (Nat_big_num.to_string (Ml_bindings.nat_big_num_of_uint64 sec.elf64_sh_addralign)) in let gp = (Nat_big_num.of_int ( Nat_num.nat_monus 2 (String.length a))) in let gp = (List.fold_right (^) (replicate0 gp " ") " ") in (gp, a)) in let str = (str ^ (gap ^ align)) in str) sht)) (*val harness_string_of_elf32_section_headers : (natural -> string) -> (natural -> string) -> (natural -> string) -> elf32_header -> elf32_section_header_table -> string_table -> string*) let harness_string_of_elf32_section_headers os proc usr hdr sht stbl:string= (unlines [ ("There are " ^ (Stdlib.string_of_int (List.length sht) ^ (" section headers, starting at offset 0x" ^ (unsafe_hex_string_of_natural 0 (Uint32_wrapper.to_bigint hdr.elf32_shoff) ^ ":")))) ; "" ; "Section Headers:" ; harness_string_of_elf32_sht os proc usr sht stbl ] ^ harness_sht32_flag_legend) (*val harness_string_of_elf64_section_headers : (natural -> string) -> (natural -> string) -> (natural -> string) -> elf64_header -> elf64_section_header_table -> string_table -> string*) let harness_string_of_elf64_section_headers os proc usr hdr sht stbl:string= (unlines [ ("There are " ^ (Stdlib.string_of_int (List.length sht) ^ (" section headers, starting at offset 0x" ^ (unsafe_hex_string_of_natural 0 (Uint64_wrapper.to_bigint hdr.elf64_shoff) ^ ":")))) ; "" ; "Section Headers:" ; harness_string_of_elf64_sht os proc usr sht stbl ] ^ harness_sht64_flag_legend (Uint32_wrapper.to_bigint hdr.elf64_machine)) (*val harness_string_of_elf32_reloc_entry : (natural -> string) -> elf32_section_header_table -> elf32_symbol_table -> string_table -> string_table -> elf32_relocation -> string*) let harness_string_of_elf32_reloc_entry os sht symtab stbl sechdr_stbl rel:string= (let off = (Uint32_wrapper.to_bigint rel.elf32_r_offset) in let inf = (Uint32_wrapper.to_bigint rel.elf32_r_info) in let typ = (Missing_pervasives.unsafe_string_take( (Nat_big_num.of_int 22)) (os( (Nat_big_num.of_int 0)))) in (* FIXME *) let typs = (let len = (Nat_big_num.of_int ( Nat_num.nat_monus 22 (String.length typ))) in concatS (replicate0 len " ")) in let idx1 =( (Nat_big_num.of_int 0)) in (* FIXME *) (match Lem_list.list_index symtab (Nat_big_num.to_int idx1) with | None -> "harness_string_of_elf32_reloc_entry: Nothing returned" | Some sym1 -> let (nm, value, symtyp, secthdr) = ((match Lem_list.list_index symtab (Nat_big_num.to_int idx1) with | None -> (stn_undef, (Nat_big_num.of_int 0), (Nat_big_num.of_int 0), (Nat_big_num.of_int 0)) | Some sym1 -> (Uint32_wrapper.to_bigint sym1.elf32_st_name, Uint32_wrapper.to_bigint sym1.elf32_st_value, get_elf32_symbol_type sym1, Uint32_wrapper.to_bigint sym1.elf32_st_shndx) )) in if Nat_big_num.equal symtyp stt_section then let vlu = (" " ^ unsafe_hex_string_of_natural 8 value) in let nm = ((match Lem_list.list_index sht (Nat_big_num.to_int secthdr) with | None -> "XXX" | Some shdr -> (match String_table.get_string_at (Uint32_wrapper.to_bigint shdr.elf32_sh_name) sechdr_stbl with | Fail f -> f | Success n -> n ) )) in concatS [ unsafe_hex_string_of_natural 8 off ; " " ; unsafe_hex_string_of_natural 8 inf ; " " ; typ ; typs ; vlu ; " " ; nm ] else if Nat_big_num.equal nm stn_undef then concatS [ unsafe_hex_string_of_natural 8 off ; " " ; unsafe_hex_string_of_natural 8 inf ; " " ; typ ; typs ] else let vlu = (" " ^ unsafe_hex_string_of_natural 8 (Uint32_wrapper.to_bigint sym1.elf32_st_value)) in let nm = ((match String_table.get_string_at nm stbl with | Fail f -> f | Success n -> n )) in concatS [ unsafe_hex_string_of_natural 8 off ; " " ; unsafe_hex_string_of_natural 8 inf ; " " ; typ ; typs ; vlu ; " " ; nm ] )) (*val harness_string_of_elf64_reloc_a_entry : (natural -> string) -> elf64_symbol_table -> elf64_section_header_table -> string_table -> string_table -> elf64_relocation_a -> string*) let harness_string_of_elf64_reloc_a_entry os symtab sht stbl sechdr_stbl rel:string= (let off = (Ml_bindings.nat_big_num_of_uint64 rel.elf64_ra_offset) in let inf = (Ml_bindings.nat_big_num_of_uint64 rel.elf64_ra_info) in let add = (Nat_big_num.of_int64 rel.elf64_ra_addend) in let typ = (Missing_pervasives.unsafe_string_take( (Nat_big_num.of_int 22)) (os( (Nat_big_num.of_int 0)))) in (*FIXME *) let typs = (let len = (Nat_big_num.of_int ( Nat_num.nat_monus 22 (String.length typ))) in concatS (replicate0 len " ")) in let idx1 =( (Nat_big_num.of_int 0)) in (* FIXME *) let (nm, value, symtyp, secthdr) = ((match Lem_list.list_index symtab (Nat_big_num.to_int idx1) with | None -> (stn_undef, (Nat_big_num.of_int 0), (Nat_big_num.of_int 0), (Nat_big_num.of_int 0)) | Some sym1 -> (Uint32_wrapper.to_bigint sym1.elf64_st_name, Ml_bindings.nat_big_num_of_uint64 sym1.elf64_st_value, get_elf64_symbol_type sym1, Uint32_wrapper.to_bigint sym1.elf64_st_shndx) )) in if Nat_big_num.equal symtyp stt_section then let vlu = (" " ^ unsafe_hex_string_of_natural 16 value) in let nm = ((match Lem_list.list_index sht (Nat_big_num.to_int secthdr) with | None -> "XXX" | Some shdr -> (match String_table.get_string_at (Uint32_wrapper.to_bigint shdr.elf64_sh_name) sechdr_stbl with | Fail f -> f | Success n -> n ) )) in concatS [ unsafe_hex_string_of_natural 16 off ; " " ; unsafe_hex_string_of_natural 16 inf ; " " ; typ ; typs ; vlu ; " " ; nm ; " + " ; Ml_bindings.hex_string_of_big_int_no_padding add ] else if Nat_big_num.equal nm stn_undef then concatS [ unsafe_hex_string_of_natural 16 off ; " " ; unsafe_hex_string_of_natural 16 inf ; " " ; typ ; typs ; " " ; Ml_bindings.hex_string_of_big_int_no_padding add ] else let vlu = (" " ^ unsafe_hex_string_of_natural 16 value) in let nm = ((match String_table.get_string_at nm stbl with | Fail f -> f | Success n -> n )) in concatS [ unsafe_hex_string_of_natural 16 off ; " " ; unsafe_hex_string_of_natural 16 inf ; " " ; typ ; typs ; vlu ; " " ; nm ; " + " ; Ml_bindings.hex_string_of_big_int_no_padding add ]) (*val harness_string_of_elf32_relocs' : endianness -> (natural -> string) -> elf32_file -> elf32_section_header_table -> elf32_section_header_table -> string_table -> string_table -> byte_sequence -> string*) let harness_string_of_elf32_relocs' endian os f1 sht_relocs sht shdr stbl bs0:string= (let rels = (bind (mapM (fun ent -> let off = (Uint32_wrapper.to_bigint ent.elf32_sh_offset) in let siz = (Uint32_wrapper.to_bigint ent.elf32_sh_size) in let lnk = (Uint32_wrapper.to_bigint ent.elf32_sh_link) in bind (Byte_sequence.offset_and_cut off siz bs0) (fun rels -> bind (Elf_relocation.read_elf32_relocation_section' endian rels) (fun sect -> bind (Elf_file.get_elf32_symbol_table_by_index f1 lnk) (fun symtab -> return (sect, ent, symtab)))) ) sht_relocs) (mapM (fun (rels, ent, symtab) -> let nm = (Uint32_wrapper.to_bigint ent.elf32_sh_name) in let off = (unsafe_hex_string_of_natural 0 (Uint32_wrapper.to_bigint ent.elf32_sh_offset)) in let len = (Stdlib.string_of_int (List.length rels)) in bind (String_table.get_string_at nm shdr) (fun nm -> let hdr = ("Relocation section '" ^ (nm ^ ("' at offset 0x" ^ (off ^ (" contains " ^ (len ^ " entries:\n")))))) in let ttl = " Offset Info Type Sym. Value Symbol's Name\n" in let body = (concatS (intercalate "\n" (Lem_list.map (harness_string_of_elf32_reloc_entry os sht symtab stbl shdr) rels))) in return (hdr ^ (ttl ^ body)))))) in (match rels with | Fail err -> err | Success s -> concatS (intercalate "\n\n" s) )) (*val harness_string_of_elf64_relocs' : endianness -> (natural -> string) -> elf64_file -> elf64_section_header_table -> elf64_section_header_table -> string_table -> string_table -> byte_sequence -> string*) let harness_string_of_elf64_relocs' endian os f1 reloc_sht sht shdr stbl bs0:string= (let rels = (bind (mapM (fun ent -> let off = (Uint64_wrapper.to_bigint ent.elf64_sh_offset) in let siz = (Ml_bindings.nat_big_num_of_uint64 ent.elf64_sh_size) in let lnk = (Uint32_wrapper.to_bigint ent.elf64_sh_link) in bind (Byte_sequence.offset_and_cut off siz bs0) (fun rels -> bind (Elf_relocation.read_elf64_relocation_a_section' endian rels) (fun sect -> bind (Elf_file.get_elf64_symbol_table_by_index f1 lnk) (fun symtab -> return (sect, ent, symtab)))) ) reloc_sht) (mapM (fun (rels, ent, symtab) -> let nm = (Uint32_wrapper.to_bigint ent.elf64_sh_name) in let off = (unsafe_hex_string_of_natural 0 (Uint64_wrapper.to_bigint ent.elf64_sh_offset)) in let len = (Stdlib.string_of_int (List.length rels)) in bind (String_table.get_string_at nm shdr) (fun nm -> let hdr = ("Relocation section '" ^ (nm ^ ("' at offset 0x" ^ (off ^ (" contains " ^ (len ^ " entries:\n")))))) in let ttl = " Offset Info Type Symbol's Value Symbol's Name + Addend\n" in let body = (concatS (intercalate "\n" (Lem_list.map (harness_string_of_elf64_reloc_a_entry os symtab sht stbl shdr) rels))) in return (hdr ^ (ttl ^ body)))))) in (match rels with | Fail err -> err | Success s -> concatS (intercalate "\n\n" s) )) (*val harness_string_of_elf32_relocs : elf32_file -> (natural -> string) -> byte_sequence -> string*) let harness_string_of_elf32_relocs f1 os bs0:string= (let hdr = (f1.elf32_file_header) in let sht = (f1.elf32_file_section_header_table) in let endian = (get_elf32_header_endianness hdr) in let rel_secs = (List.filter (fun x -> x.elf32_sh_type = Uint32_wrapper.of_bigint sht_rel) sht) in if List.length rel_secs = 0 then "\nThere are no relocations in this file." else (match get_elf32_file_symbol_string_table f1 with | Fail err -> err | Success stbl -> (match get_elf32_file_section_header_string_table f1 with | Fail err -> err | Success shdr -> "\n" ^ harness_string_of_elf32_relocs' endian os f1 rel_secs sht shdr stbl bs0 ) )) (*val harness_string_of_elf64_relocs : elf64_file -> (natural -> string) -> byte_sequence -> string*) let harness_string_of_elf64_relocs f1 os bs0:string= (let hdr = (f1.elf64_file_header) in let sht = (f1.elf64_file_section_header_table) in let endian = (get_elf64_header_endianness hdr) in let rel_secs = (List.filter (fun x -> x.elf64_sh_type = Uint32_wrapper.of_bigint sht_rela) sht) in if List.length rel_secs = 0 then "\nThere are no relocations in this file." else (match get_elf64_file_symbol_string_table f1 with | Fail err -> err | Success stbl -> (match get_elf64_file_section_header_string_table f1 with | Fail err -> err | Success shdr -> "\n" ^ harness_string_of_elf64_relocs' endian os f1 rel_secs sht shdr stbl bs0 ) )) (*val harness_string_of_elf32_symbol_table_entry : nat -> (natural -> string) -> (natural -> string) -> byte_sequence -> string_table -> elf32_symbol_table_entry -> string*) let harness_string_of_elf32_symbol_table_entry num os proc bs0 stbl ent:string= (let vlu = (unsafe_hex_string_of_natural 8 (Uint32_wrapper.to_bigint ent.elf32_st_value)) in let siz = (Nat_big_num.to_string (Uint32_wrapper.to_bigint ent.elf32_st_size)) in let siz_pad = (let pad = (Nat_num.nat_monus 5 (String.length siz)) in if pad = 0 then "" else concatS (replicate0 (Nat_big_num.of_int pad) " ")) in let typ = (string_of_symbol_type (get_elf32_symbol_type ent) os proc) in let bnd = (string_of_symbol_binding (get_elf32_symbol_binding ent) os proc) in let bnd_pad = (let pad = (Nat_num.nat_monus 6 (String.length typ)) in if pad = 0 then "" else concatS (replicate0 (Nat_big_num.of_int pad) " ")) in let vis = (string_of_symbol_visibility (Uint32_wrapper.to_bigint ent.elf32_st_other)) in let vis_pad = (let pad = (Nat_num.nat_monus 6 (String.length bnd)) in if pad = 0 then "" else concatS (replicate0 (Nat_big_num.of_int pad) " ")) in let ndx = (let tmp = (Uint32_wrapper.to_bigint ent.elf32_st_shndx) in if Nat_big_num.equal tmp shn_undef then "UND" else if Nat_big_num.equal tmp shn_abs then "ABS" else Nat_big_num.to_string tmp) in let ndx_pad = (let pad = (Nat_num.nat_monus 3 (String.length ndx)) in if pad = 0 then "" else concatS (replicate0 (Nat_big_num.of_int pad) " ")) in let nm = (let idx1 = (Uint32_wrapper.to_bigint ent.elf32_st_name) in if Nat_big_num.equal idx1( (Nat_big_num.of_int 0)) then "" else (match String_table.get_string_at idx1 stbl with | Fail err -> err | Success s -> s )) in let sym1 = "" in let num = (let temp = (Stdlib.string_of_int num) in let pad = (Nat_num.nat_monus 3 (String.length temp)) in if pad = 0 then temp else let spcs = (concatS (replicate0 (Nat_big_num.of_int pad) " ")) in spcs ^ temp) in concatS [ " " ; (num ^ ":") ; " " ; vlu ; " " ; siz_pad; siz ; " " ; typ ; " " ; bnd_pad; bnd ; " " ; vis_pad; vis ; " " ; ndx_pad; ndx ; " " ; nm ; sym1 ]) (*val harness_string_of_elf32_syms' : endianness -> (natural -> string) -> (natural -> string) -> elf32_file -> elf32_section_header_table -> elf32_section_header_table -> string_table -> byte_sequence -> string*) let harness_string_of_elf32_syms' endian os proc f1 filtered_sht sht shdr bs0:string= (let rels = (bind (mapM (fun ent -> let off = (Uint32_wrapper.to_bigint ent.elf32_sh_offset) in let siz = (Uint32_wrapper.to_bigint ent.elf32_sh_size) in let lnk = (Uint32_wrapper.to_bigint ent.elf32_sh_link) in let typ = (Uint32_wrapper.to_bigint ent.elf32_sh_type) in bind (Byte_sequence.offset_and_cut off siz bs0) (fun syms -> bind (Elf_symbol_table.read_elf32_symbol_table endian syms) (fun sect -> bind (Elf_file.get_elf32_string_table_by_index f1 lnk) (fun strtab -> return (sect, ent, strtab, typ)))) ) filtered_sht) (fun sects -> mapM (fun (syms, ent, strtab, typ) -> let nm = (Uint32_wrapper.to_bigint ent.elf32_sh_name) in let len = (Stdlib.string_of_int (List.length syms)) in bind (String_table.get_string_at nm shdr) (fun nm -> let hdr = ("Symbol table '" ^ (nm ^ ("' contains " ^ (len ^ " entries:\n")))) in let ttl = " Num: Value Size Type Bind Vis Ndx Name\n" in let body = (concatS (intercalate "\n" (Lem_list.mapi (fun n -> harness_string_of_elf32_symbol_table_entry n os proc bs0 strtab) syms))) in return (hdr ^ (ttl ^ body)))) sects)) in (match rels with | Fail err -> err | Success s -> concatS (intercalate "\n\n" s) )) (*val harness_string_of_elf32_syms : elf32_file -> (natural -> string) -> (natural -> string) -> byte_sequence -> string*) let harness_string_of_elf32_syms f1 os proc bs0:string= (let hdr = (f1.elf32_file_header) in let sht = (f1.elf32_file_section_header_table) in let endian = (get_elf32_header_endianness hdr) in let sym_secs = (List.filter (fun x -> (x.elf32_sh_type = Uint32_wrapper.of_bigint sht_dynsym) || (x.elf32_sh_type = Uint32_wrapper.of_bigint sht_symtab)) sht) in if List.length sym_secs = 0 then "\nThere are no symbols in this file." else (match get_elf32_file_section_header_string_table f1 with | Fail err -> err | Success shdr -> "\n" ^ harness_string_of_elf32_syms' endian os proc f1 sym_secs sht shdr bs0 )) (*val harness_string_of_elf64_symbol_table_entry : nat -> (natural -> string) -> (natural -> string) -> string_table -> elf64_symbol_table_entry -> string*) let harness_string_of_elf64_symbol_table_entry num os proc stbl ent:string= (let vlu = (unsafe_hex_string_of_natural 16 (Ml_bindings.nat_big_num_of_uint64 ent.elf64_st_value)) in let siz = (Nat_big_num.to_string (Ml_bindings.nat_big_num_of_uint64 ent.elf64_st_size)) in let siz_pad = (let pad = (Nat_num.nat_monus 5 (String.length siz)) in if pad = 0 then "" else concatS (replicate0 (Nat_big_num.of_int pad) " ")) in let typ = (string_of_symbol_type (get_elf64_symbol_type ent) os proc) in let bnd = (string_of_symbol_binding (get_elf64_symbol_binding ent) os proc) in let bnd_pad = (let pad = (Nat_num.nat_monus 8 (String.length typ)) in if pad = 0 then "" else concatS (replicate0 (Nat_big_num.of_int pad) " ")) in let vis = (string_of_symbol_visibility (Uint32_wrapper.to_bigint ent.elf64_st_other)) in let vis_pad = (let pad = (Nat_num.nat_monus 6 (String.length bnd)) in if pad = 0 then "" else concatS (replicate0 (Nat_big_num.of_int pad) " ")) in let ndx = (let tmp = (Uint32_wrapper.to_bigint ent.elf64_st_shndx) in if Nat_big_num.equal tmp shn_undef then "UND" else if Nat_big_num.equal tmp shn_abs then "ABS" else Nat_big_num.to_string tmp) in let ndx_pad = (let pad = (Nat_num.nat_monus 3 (String.length ndx)) in if pad = 0 then "" else concatS (replicate0 (Nat_big_num.of_int pad) " ")) in let nm = (let idx1 = (Uint32_wrapper.to_bigint ent.elf64_st_name) in if Nat_big_num.equal idx1( (Nat_big_num.of_int 0)) then "" else (match String_table.get_string_at idx1 stbl with | Fail err -> err | Success s -> s )) in let num = (let temp = (Stdlib.string_of_int num) in let pad = (Nat_num.nat_monus 3 (String.length temp)) in if pad = 0 then temp else let spcs = (concatS (replicate0 (Nat_big_num.of_int pad) " ")) in spcs ^ temp) in concatS [ " " ; (num ^ ":") ; " " ; vlu ; " " ; siz_pad; siz ; " " ; typ ; bnd_pad; bnd ; " " ; vis_pad; vis ; " " ; ndx_pad; ndx ; " " ; nm ]) (*val harness_string_of_elf64_syms' : endianness -> (natural -> string) -> (natural -> string) -> elf64_file -> elf64_section_header_table -> elf64_section_header_table -> string_table -> byte_sequence -> string*) let harness_string_of_elf64_syms' endian os proc f1 filtered_sht sht shdr bs0:string= (let rels = (bind (mapM (fun ent -> let off = (Uint64_wrapper.to_bigint ent.elf64_sh_offset) in let siz = (Ml_bindings.nat_big_num_of_uint64 ent.elf64_sh_size) in let lnk = (Uint32_wrapper.to_bigint ent.elf64_sh_link) in let typ = (Uint32_wrapper.to_bigint ent.elf64_sh_type) in bind (Byte_sequence.offset_and_cut off siz bs0) (fun syms -> bind (Elf_symbol_table.read_elf64_symbol_table endian syms) (fun sect -> bind (Elf_file.get_elf64_string_table_by_index f1 lnk) (fun strtab -> return (sect, ent, strtab, typ)))) ) filtered_sht) (mapM (fun (syms, ent, strtab, typ) -> let nm = (Uint32_wrapper.to_bigint ent.elf64_sh_name) in let len = (Stdlib.string_of_int (List.length syms)) in bind (String_table.get_string_at nm shdr) (fun nm -> let hdr = ("Symbol table '" ^ (nm ^ ("' contains " ^ (len ^ " entries:\n")))) in let ttl = " Num: Value Size Type Bind Vis Ndx Name\n" in let body = (concatS (intercalate "\n" (Lem_list.mapi (fun n -> harness_string_of_elf64_symbol_table_entry n os proc strtab) syms))) in return (hdr ^ (ttl ^ body)))))) in (match rels with | Fail err -> err | Success s -> concatS (intercalate "\n\n" s) )) (*val harness_string_of_elf64_syms : elf64_file -> (natural -> string) -> (natural -> string) -> byte_sequence -> string*) let harness_string_of_elf64_syms f1 os proc bs0:string= (let hdr = (f1.elf64_file_header) in let sht = (f1.elf64_file_section_header_table) in let endian = (get_elf64_header_endianness hdr) in let sym_secs = (List.filter (fun x -> (x.elf64_sh_type = Uint32_wrapper.of_bigint sht_dynsym) || (x.elf64_sh_type = Uint32_wrapper.of_bigint sht_symtab)) sht) in if List.length sym_secs = 0 then "\nThere are no symbols in this file." else (match get_elf64_file_section_header_string_table f1 with | Fail err -> err | Success shdr -> "\n" ^ harness_string_of_elf64_syms' endian os proc f1 sym_secs sht shdr bs0 )) (* convenient symbol table extractor for read-dwarf *) (* val read_dwarf_symbol_table_of_elf64_syms' : endianness -> (natural -> string) -> (natural -> string) -> elf64_file -> elf64_section_header_table -> elf64_section_header_table -> string_table -> byte_sequence -> list (string * natural) let {ocaml} read_dwarf_symbol_table_of_elf64_syms' endian os proc f1 filtered_sht sht shdr bs0 = let rels = mapM (fun ent -> let off = natural_of_elf64_off ent.elf64_sh_offset in let siz = natural_of_elf64_xword ent.elf64_sh_size in let lnk = natural_of_elf64_word ent.elf64_sh_link in let typ = natural_of_elf64_word ent.elf64_sh_type in Byte_sequence.offset_and_cut off siz bs0 >>= fun syms -> Elf_symbol_table.read_elf64_symbol_table endian syms >>= fun sect -> Elf_file.get_elf64_string_table_by_index f1 lnk >>= fun strtab -> return (sect, ent, strtab, typ) ) filtered_sht >>= mapM (fun (syms, ent, strtab, typ) -> let nm = natural_of_elf64_word ent.elf64_sh_name in let len = show (List.length syms) in String_table.get_string_at nm shdr >>= fun nm -> let hdr = "Symbol table '" ^ nm ^ "' contains " ^ len ^ " entries:\n" in let ttl = " Num: Value Size Type Bind Vis Ndx Name\n" in let body = concatS (intercalate "\n" (List.mapi (fun n -> read_dwarf_symbol_table_of_elf64_symbol_table_entry n os proc strtab) syms)) in return (hdr ^ ttl ^ body)) in match rels with | Fail err -> err | Success s -> concatS (intercalate "\n\n" s) end val read_dwarf_symbol_table_of_elf64_syms : elf64_file -> (natural -> string) -> (natural -> string) -> byte_sequence -> string let {ocaml} read_dwarf_symbol_table_of_elf64_syms f1 os proc bs0 = let hdr = f1.elf64_file_header in let sht = f1.elf64_file_section_header_table in let endian = get_elf64_header_endianness hdr in let sym_secs = List.filter (fun x -> x.elf64_sh_type = elf64_word_of_natural sht_dynsym || x.elf64_sh_type = elf64_word_of_natural sht_symtab) sht in if List.length sym_secs = 0 then [] (*"\nThere are no symbols in this file."*) else match get_elf64_file_section_header_string_table f1 with | Fail err -> err | Success shdr -> (* "\n" ^ *) read_dwarf_symbol_table_of_elf64_syms' endian os proc f1 sym_secs sht shdr bs0 end *) (* end *) (*val string_of_unix_time : natural -> string*) (*val string_of_dyn_value : forall 'addr 'size. dyn_value 'addr 'size -> ('addr -> string) -> ('size -> string) -> string*) let string_of_dyn_value dyn addr size2:string= ((match dyn with | Address a -> addr a | Size s -> size2 s | FName f -> f | Path p -> p | SOName f -> "Library soname: [" ^ (f ^ "]") | RPath p -> "Library rpath: [" ^ (p ^ "]") | RunPath p -> "Library runpath: [" ^ (p ^ "]") | Flags f -> string_of_dt_flag f | Flags1 f -> "Flags: " ^ gnu_string_of_dt_flag_1 f | Ignored -> "" | Checksum s -> "0x" ^ unsafe_hex_string_of_natural 0 s | Library l -> "Shared library: [" ^ (l ^ "]") | Numeric n -> Nat_big_num.to_string n | RelType r -> string_of_rel_type r | Timestamp t -> Ml_bindings.string_of_unix_time t | Null -> "0x0" )) (*val string_of_elf32_dyn_value : elf32_dyn_value -> string*) let string_of_elf32_dyn_value dyn:string= (string_of_dyn_value dyn (fun a -> "0x" ^ unsafe_hex_string_of_natural 0 (Uint32_wrapper.to_bigint a)) (fun s -> Uint32_wrapper.to_string s ^ " (bytes)")) (*val string_of_elf64_dyn_value : elf64_dyn_value -> string*) let string_of_elf64_dyn_value dyn:string= (string_of_dyn_value dyn (fun a -> "0x" ^ unsafe_hex_string_of_natural 0 (Ml_bindings.nat_big_num_of_uint64 a)) (fun s -> Uint64_wrapper.to_string s ^ " (bytes)")) (*val harness_string_of_elf32_dyn_entry : bool -> elf32_dyn -> (natural -> bool) -> (natural -> string) -> (elf32_dyn -> string_table -> error elf32_dyn_value) -> (elf32_dyn -> string_table -> error elf32_dyn_value) -> string_table -> string*) let harness_string_of_elf32_dyn_entry dyn typ os_dyn proc_dyn stbl:string= (let tag = (unsafe_hex_string_of_natural 8 (Nat_big_num.abs (Nat_big_num.of_int32 dyn.elf32_dyn_tag))) in let typ = ("(" ^ (typ (Nat_big_num.abs (Nat_big_num.of_int32 dyn.elf32_dyn_tag)) ^ ")")) in let vlu = ((match get_value_of_elf32_dyn shared_object dyn os_additional_tags os_dyn proc_dyn stbl with | Fail f -> f | Success v -> string_of_elf32_dyn_value v )) in let vlu_pad = (let pad = (Nat_num.nat_monus 29 (String.length typ)) in if pad = 0 then "" else let reps = (replicate0 (Nat_big_num.of_int pad) " ") in concatS reps) in concatS [ " " ; ("0x" ^ tag) ; " " ; typ ; vlu_pad; vlu ]) (*val harness_string_of_elf32_dynamic_section' : elf32_file -> elf32_program_header_table_entry -> byte_sequence -> (natural -> bool) -> (natural -> error tag_correspondence) -> (natural -> error tag_correspondence) -> (natural -> string) -> (elf32_dyn -> string_table -> error elf32_dyn_value) -> (elf32_dyn -> string_table -> error elf32_dyn_value) -> string*) let harness_string_of_elf32_dynamic_section' f1 dyn bs0 os_additional_ranges os proc os_print os_dyn proc_dyn:string= (let endian = (get_elf32_header_endianness f1.elf32_file_header) in let sht = (f1.elf32_file_section_header_table) in let off = (Uint32_wrapper.to_bigint dyn.elf32_p_offset) in let siz = (Uint32_wrapper.to_bigint dyn.elf32_p_filesz) in let = (is_elf32_shared_object_file f1.elf32_file_header) in let res = (bind (Byte_sequence.offset_and_cut off siz bs0) (fun rel -> bind (obtain_elf32_dynamic_section_contents f1 os_additional_ranges os proc bs0) (fun dyns -> bind (get_string_table_of_elf32_dyn_section endian dyns sht bs0) (fun stbl -> return (Lem_list.map (fun x -> harness_string_of_elf32_dyn_entry shared_object x os_additional_ranges os_print os_dyn proc_dyn stbl) dyns))))) in (match res with | Fail f -> f | Success s -> let off = (unsafe_hex_string_of_natural 0 off) in let entries = (Stdlib.string_of_int (List.length s)) in concatS [ "\n" ; ("Dynamic section at offset 0x" ^ (off ^ (" contains " ^ (entries ^ " entries:\n")))) ; " Tag Type Name/Value\n" ; concatS (intercalate "\n" s) ] )) (*val harness_string_of_elf32_dynamic_section : elf32_file -> byte_sequence -> (natural -> bool) -> (natural -> error tag_correspondence) -> (natural -> error tag_correspondence) -> (natural -> string) -> (elf32_dyn -> string_table -> error elf32_dyn_value) -> (elf32_dyn -> string_table -> error elf32_dyn_value) -> string*) let harness_string_of_elf32_dynamic_section f1 bs0 os_additional_ranges os proc os_print os_dyn proc_dyn:string= (let pht = (f1.elf32_file_program_header_table) in let dyn = (List.filter (fun x -> x.elf32_p_type = Uint32_wrapper.of_bigint elf_pt_dynamic ) pht) in let print_msg = (is_elf32_shared_object_file f1.elf32_file_header || is_elf32_executable_file f1.elf32_file_header) in (match dyn with | [] -> if print_msg then "\nThere is no dynamic section in this file." else "" | [x] -> harness_string_of_elf32_dynamic_section' f1 x bs0 os_additional_ranges os proc os_print os_dyn proc_dyn | _ -> "Multiple dynamic sections detected." )) (*val harness_string_of_elf64_dyn_entry : bool -> elf64_dyn -> (natural -> bool) -> (natural -> string) -> (elf64_dyn -> string_table -> error elf64_dyn_value) -> (elf64_dyn -> string_table -> error elf64_dyn_value) -> string_table -> string*) let harness_string_of_elf64_dyn_entry dyn os_additional_ranges typ os_dyn proc_dyn stbl:string= (let tag = (unsafe_hex_string_of_natural 16 (Nat_big_num.abs (Nat_big_num.of_int64 dyn.elf64_dyn_tag))) in let typ = ("(" ^ (typ (Nat_big_num.abs (Nat_big_num.of_int64 dyn.elf64_dyn_tag)) ^ ")")) in let vlu = ((match get_value_of_elf64_dyn shared_object dyn os_additional_ranges os_dyn proc_dyn stbl with | Fail f -> f | Success v -> string_of_elf64_dyn_value v )) in let vlu_pad = (let pad = (Nat_num.nat_monus 21 (String.length typ)) in if pad = 0 then "" else let reps = (replicate0 (Nat_big_num.of_int pad) " ") in concatS reps) in concatS [ " " ; ("0x" ^ tag) ; " " ; typ ; vlu_pad; vlu ]) (*val harness_string_of_elf64_dynamic_section' : elf64_file -> elf64_program_header_table_entry -> byte_sequence -> (natural -> bool) -> (natural -> error tag_correspondence) -> (natural -> error tag_correspondence) -> (natural -> string) -> (elf64_dyn -> string_table -> error elf64_dyn_value) -> (elf64_dyn -> string_table -> error elf64_dyn_value) -> string*) let harness_string_of_elf64_dynamic_section' f1 dyn bs0 os_additional_ranges os proc os_print os_dyn proc_dyn:string= (let endian = (get_elf64_header_endianness f1.elf64_file_header) in let sht = (f1.elf64_file_section_header_table) in let off = (Uint64_wrapper.to_bigint dyn.elf64_p_offset) in let siz = (Ml_bindings.nat_big_num_of_uint64 dyn.elf64_p_filesz) in let = (is_elf64_shared_object_file f1.elf64_file_header) in let res = (bind (Byte_sequence.offset_and_cut off siz bs0) (fun rel -> bind (obtain_elf64_dynamic_section_contents f1 os_additional_ranges os proc bs0) (fun dyns -> bind (get_string_table_of_elf64_dyn_section endian dyns sht bs0) (fun stbl -> return (Lem_list.map (fun x -> harness_string_of_elf64_dyn_entry shared_object x os_additional_ranges os_print os_dyn proc_dyn stbl) dyns))))) in (match res with | Fail f -> f | Success s -> let off = (unsafe_hex_string_of_natural 0 off) in let entries = (Stdlib.string_of_int (List.length s)) in concatS [ "\n" ; ("Dynamic section at offset 0x" ^ (off ^ (" contains " ^ (entries ^ " entries:\n")))) ; " Tag Type Name/Value\n" ; concatS (intercalate "\n" s) ] )) (*val harness_string_of_elf64_dynamic_section : elf64_file -> byte_sequence -> (natural -> bool) -> (natural -> error tag_correspondence) -> (natural -> error tag_correspondence) -> (natural -> string) -> (elf64_dyn -> string_table -> error elf64_dyn_value) -> (elf64_dyn -> string_table -> error elf64_dyn_value) -> string*) let harness_string_of_elf64_dynamic_section f1 bs0 os_additional_ranges os proc os_print os_dyn proc_dyn:string= (let pht = (f1.elf64_file_program_header_table) in let print_msg = (is_elf64_shared_object_file f1.elf64_file_header || is_elf64_executable_file f1.elf64_file_header) in let dyn = (List.filter (fun x -> x.elf64_p_type = Uint32_wrapper.of_bigint elf_pt_dynamic ) pht) in (match dyn with | [] -> if print_msg then "\nThere is no dynamic section in this file." else "" | [x] -> harness_string_of_elf64_dynamic_section' f1 x bs0 os_additional_ranges os proc os_print os_dyn proc_dyn | _ -> "Multiple dynamic sections detected." ))