package binsec
Semantic analysis of binary executables
Install
dune-project
Dependency
Authors
-
AAdel Djoudi
-
BBenjamin Farinier
-
CChakib Foulani
-
DDorian Lesbre
-
FFrédéric Recoules
-
GGuillaume Girol
-
JJosselin Feist
-
LLesly-Ann Daniel
-
MMahmudul Faisal Al Ameen
-
MManh-Dung Nguyen
-
MMathéo Vergnolle
-
MMathilde Ollivier
-
MMatthieu Lemerre
-
NNicolas Bellec
-
OOlivier Nicole
-
RRichard Bonichon
-
RRobin David
-
SSébastien Bardin
-
SSoline Ducousso
-
TTa Thanh Dinh
-
YYaëlle Vinçont
-
YYanis Sellami
Maintainers
Sources
binsec-0.11.0.tbz
sha256=4cf70a0367fef6f33ee3165f05255914513ea0539b94ddfef0bd46fc9b42fa8a
sha512=cd67a5b7617f661a7786bef0c828ee55307cef5260dfecbb700a618be795d81b1ac49fc1a18c4904fd2eb8a182dc862b0159093028651e78e7dc743f5babf9e3
doc/src/binsec_kernel_isa/isa_helper.ml.html
Source file isa_helper.ml
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2022 2023 2024 2025 2026 2027 2028 2029 2030 2031 2032 2033 2034 2035 2036 2037 2038 2039 2040 2041 2042 2043 2044 2045 2046 2047 2048 2049 2050 2051 2052 2053 2054 2055 2056 2057 2058 2059 2060 2061 2062 2063 2064 2065 2066 2067 2068 2069 2070 2071 2072 2073 2074 2075 2076 2077 2078 2079 2080 2081 2082 2083 2084 2085 2086 2087 2088 2089 2090 2091 2092 2093 2094 2095 2096 2097 2098 2099 2100 2101 2102 2103 2104 2105 2106 2107 2108 2109 2110 2111 2112 2113 2114 2115 2116 2117 2118 2119 2120 2121 2122 2123 2124 2125 2126 2127 2128 2129 2130 2131 2132 2133 2134 2135 2136 2137 2138 2139 2140 2141 2142 2143 2144 2145 2146 2147(**************************************************************************) (* This file is part of BINSEC. *) (* *) (* Copyright (C) 2016-2026 *) (* CEA (Commissariat à l'énergie atomique et aux énergies *) (* alternatives) *) (* *) (* you can redistribute it and/or modify it under the terms of the GNU *) (* Lesser General Public License as published by the Free Software *) (* Foundation, version 2.1. *) (* *) (* It is distributed in the hope that it will be useful, *) (* but WITHOUT ANY WARRANTY; without even the implied warranty of *) (* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the *) (* GNU Lesser General Public License for more details. *) (* *) (* See the GNU Lesser General Public License version 2.1 *) (* for more details (enclosed in the file licenses/LGPLv2.1). *) (* *) (**************************************************************************) open Basic_types.Integers module type ARCH = sig val get_defs : unit -> (string * Dba.LValue.t) list val get_return_address : unit -> Dba.Expr.t val get_arg : ?syscall:bool -> int -> Dba.Expr.t val get_ret : ?syscall:bool -> unit -> Dba.LValue.t val make_return : ?value:Dba.Expr.t -> unit -> Dhunk.t val get_stack_pointer : unit -> Dba.Var.t * Bitvector.t val get_shortlived_flags : unit -> Dba.Var.t list val get_dwarf_register : int -> Dba.Expr.t val core : Loader_elf.Img.t -> Virtual_address.t * (Dba.Var.t * Dba.Expr.t) list val max_instruction_len : Size.Byte.t end module X86 : ARCH = struct let info = Dba.Var.Tag.Register let eax = Dba.Var.create "eax" ~bitsize:Size.Bit.bits32 ~tag:info and ebx = Dba.Var.create "ebx" ~bitsize:Size.Bit.bits32 ~tag:info and ecx = Dba.Var.create "ecx" ~bitsize:Size.Bit.bits32 ~tag:info and edx = Dba.Var.create "edx" ~bitsize:Size.Bit.bits32 ~tag:info and edi = Dba.Var.create "edi" ~bitsize:Size.Bit.bits32 ~tag:info and esi = Dba.Var.create "esi" ~bitsize:Size.Bit.bits32 ~tag:info and esp = Dba.Var.create "esp" ~bitsize:Size.Bit.bits32 ~tag:info and ebp = Dba.Var.create "ebp" ~bitsize:Size.Bit.bits32 ~tag:info let cs = Dba.Var.create "cs" ~bitsize:Size.Bit.bits16 ~tag:info and ds = Dba.Var.create "ds" ~bitsize:Size.Bit.bits16 ~tag:info and es = Dba.Var.create "es" ~bitsize:Size.Bit.bits16 ~tag:info and fs = Dba.Var.create "fs" ~bitsize:Size.Bit.bits16 ~tag:info and fs_base = Dba.Var.create "fs_base" ~bitsize:Size.Bit.bits32 ~tag:info and gs = Dba.Var.create "gs" ~bitsize:Size.Bit.bits16 ~tag:info and gs_base = Dba.Var.create "gs_base" ~bitsize:Size.Bit.bits32 ~tag:info and ss = Dba.Var.create "ss" ~bitsize:Size.Bit.bits16 ~tag:info let stx = Array.init 8 (fun x -> Dba.Var.create (Format.sprintf "st%d" x) ~bitsize:Size.Bit.bits80 ~tag:info) let mmx = Array.init 8 (fun x -> Dba.Var.create (Format.sprintf "mm%d" x) ~bitsize:Size.Bit.bits64 ~tag:info) let xmmx = Array.init 8 (fun x -> Dba.Var.create (Format.sprintf "xmm%d" x) ~bitsize:Size.Bit.bits128 ~tag:info) let xmm0 = Array.get xmmx 0 and xmm1 = Array.get xmmx 1 and xmm2 = Array.get xmmx 2 and xmm3 = Array.get xmmx 3 and xmm4 = Array.get xmmx 4 and xmm5 = Array.get xmmx 5 and xmm6 = Array.get xmmx 6 and xmm7 = Array.get xmmx 7 let info = Dba.Var.Tag.Flag let cf = Dba.Var.create "CF" ~bitsize:Size.Bit.bits1 ~tag:info and pf = Dba.Var.create "PF" ~bitsize:Size.Bit.bits1 ~tag:info and af = Dba.Var.create "AF" ~bitsize:Size.Bit.bits1 ~tag:info and zf = Dba.Var.create "ZF" ~bitsize:Size.Bit.bits1 ~tag:info and sf = Dba.Var.create "SF" ~bitsize:Size.Bit.bits1 ~tag:info and tf = Dba.Var.create "TF" ~bitsize:Size.Bit.bits1 ~tag:info and if' = Dba.Var.create "IF" ~bitsize:Size.Bit.bits1 ~tag:info and df = Dba.Var.create "DF" ~bitsize:Size.Bit.bits1 ~tag:info and of' = Dba.Var.create "OF" ~bitsize:Size.Bit.bits1 ~tag:info and iopl = Dba.Var.create "IOPL" ~bitsize:Size.Bit.bits2 ~tag:info and nt = Dba.Var.create "NT" ~bitsize:Size.Bit.bits1 ~tag:info and rf = Dba.Var.create "RF" ~bitsize:Size.Bit.bits1 ~tag:info and vm = Dba.Var.create "VM" ~bitsize:Size.Bit.bits1 ~tag:info and ac = Dba.Var.create "AC" ~bitsize:Size.Bit.bits1 ~tag:info and vif = Dba.Var.create "VIF" ~bitsize:Size.Bit.bits1 ~tag:info and vip = Dba.Var.create "VIP" ~bitsize:Size.Bit.bits1 ~tag:info and id = Dba.Var.create "ID" ~bitsize:Size.Bit.bits1 ~tag:info let defs = [ ("eax", Dba.LValue.v eax); ("ebx", Dba.LValue.v ebx); ("ecx", Dba.LValue.v ecx); ("edx", Dba.LValue.v edx); ("edi", Dba.LValue.v edi); ("esi", Dba.LValue.v esi); ("esp", Dba.LValue.v esp); ("ebp", Dba.LValue.v ebp); ("al", Dba.LValue.restrict eax 0 7); ("ah", Dba.LValue.restrict eax 8 15); ("ax", Dba.LValue.restrict eax 0 15); ("bl", Dba.LValue.restrict ebx 0 7); ("bh", Dba.LValue.restrict ebx 8 15); ("bx", Dba.LValue.restrict ebx 0 15); ("cl", Dba.LValue.restrict ecx 0 7); ("ch", Dba.LValue.restrict ecx 8 15); ("cx", Dba.LValue.restrict ecx 0 15); ("dl", Dba.LValue.restrict edx 0 7); ("dh", Dba.LValue.restrict edx 8 15); ("dx", Dba.LValue.restrict edx 0 15); ("di", Dba.LValue.restrict edi 0 15); ("si", Dba.LValue.restrict esi 0 15); ("sp", Dba.LValue.restrict esp 0 15); ("bp", Dba.LValue.restrict ebp 0 15); ("cs", Dba.LValue.v cs); ("ds", Dba.LValue.v ds); ("es", Dba.LValue.v es); ("fs", Dba.LValue.v fs); ("gs", Dba.LValue.v gs); ("ss", Dba.LValue.v ss); ("fs_base", Dba.LValue.v fs_base); ("gs_base", Dba.LValue.v gs_base); ("CF", Dba.LValue.v cf); ("PF", Dba.LValue.v pf); ("AF", Dba.LValue.v af); ("ZF", Dba.LValue.v zf); ("SF", Dba.LValue.v sf); ("TF", Dba.LValue.v tf); ("IF", Dba.LValue.v if'); ("DF", Dba.LValue.v df); ("OF", Dba.LValue.v of'); ("IOPL", Dba.LValue.v iopl); ("NT", Dba.LValue.v nt); ("RF", Dba.LValue.v rf); ("VM", Dba.LValue.v vm); ("AC", Dba.LValue.v ac); ("VIF", Dba.LValue.v vif); ("VIP", Dba.LValue.v vip); ("ID", Dba.LValue.v id); ("xmm0", Dba.LValue.restrict xmm0 0 127); ("xmm1", Dba.LValue.restrict xmm1 0 127); ("xmm2", Dba.LValue.restrict xmm2 0 127); ("xmm3", Dba.LValue.restrict xmm3 0 127); ("xmm4", Dba.LValue.restrict xmm4 0 127); ("xmm5", Dba.LValue.restrict xmm5 0 127); ("xmm6", Dba.LValue.restrict xmm6 0 127); ("xmm7", Dba.LValue.restrict xmm7 0 127); ] let shortlived_flags = [ cf; pf; af; zf; sf; of' ] let get_shortlived_flags () = shortlived_flags let get_defs () = defs let notes img = Array.fold_left (fun (entrypoint, defs) note -> match note with | { Loader_elf.Note.name = "CORE"; kind = 1; offset = at; _ } -> let cursor = Loader_elf.Img.cursor ~at img in Reader.advance cursor 0x48; let rebx = Dba.Expr.constant (Reader.Read.bv32 cursor) in let recx = Dba.Expr.constant (Reader.Read.bv32 cursor) in let redx = Dba.Expr.constant (Reader.Read.bv32 cursor) in let resi = Dba.Expr.constant (Reader.Read.bv32 cursor) in let redi = Dba.Expr.constant (Reader.Read.bv32 cursor) in let rebp = Dba.Expr.constant (Reader.Read.bv32 cursor) in let reax = Dba.Expr.constant (Reader.Read.bv32 cursor) in let rds = Dba.Expr.constant (Reader.Read.bv16 cursor) in Reader.advance cursor 2; let res = Dba.Expr.constant (Reader.Read.bv16 cursor) in Reader.advance cursor 2; let rfs = Dba.Expr.constant (Reader.Read.bv16 cursor) in Reader.advance cursor 2; let rgs = Dba.Expr.constant (Reader.Read.bv16 cursor) in Reader.advance cursor 2; Reader.advance cursor 4; let entrypoint = Virtual_address.of_bigint (Uint32.to_bigint (Reader.Read.u32 cursor)) in let rcs = Dba.Expr.constant (Reader.Read.bv16 cursor) in Reader.advance cursor 2; let eflags = Uint32.to_int (Reader.Read.u32 cursor) in let rcf = Dba.Expr.constant (Bitvector.of_int ~size:1 ((eflags lsr 0) land 0b1)) and rpf = Dba.Expr.constant (Bitvector.of_int ~size:1 ((eflags lsr 2) land 0b1)) and raf = Dba.Expr.constant (Bitvector.of_int ~size:1 ((eflags lsr 4) land 0b1)) and rzf = Dba.Expr.constant (Bitvector.of_int ~size:1 ((eflags lsr 6) land 0b1)) and rsf = Dba.Expr.constant (Bitvector.of_int ~size:1 ((eflags lsr 7) land 0b1)) and rtf = Dba.Expr.constant (Bitvector.of_int ~size:1 ((eflags lsr 8) land 0b1)) and rif = Dba.Expr.constant (Bitvector.of_int ~size:1 ((eflags lsr 9) land 0b1)) and rdf = Dba.Expr.constant (Bitvector.of_int ~size:1 ((eflags lsr 10) land 0b1)) and rof = Dba.Expr.constant (Bitvector.of_int ~size:1 ((eflags lsr 11) land 0b1)) and riopl = Dba.Expr.constant (Bitvector.of_int ~size:2 ((eflags lsr 12) land 0b11)) and rnt = Dba.Expr.constant (Bitvector.of_int ~size:1 ((eflags lsr 14) land 0b1)) and rrf = Dba.Expr.constant (Bitvector.of_int ~size:1 ((eflags lsr 16) land 0b1)) and rvm = Dba.Expr.constant (Bitvector.of_int ~size:1 ((eflags lsr 17) land 0b1)) and rac = Dba.Expr.constant (Bitvector.of_int ~size:1 ((eflags lsr 18) land 0b1)) and rvif = Dba.Expr.constant (Bitvector.of_int ~size:1 ((eflags lsr 19) land 0b1)) and rvip = Dba.Expr.constant (Bitvector.of_int ~size:1 ((eflags lsr 20) land 0b1)) and rid = Dba.Expr.constant (Bitvector.of_int ~size:1 ((eflags lsr 21) land 0b1)) in let resp = Dba.Expr.constant (Reader.Read.bv32 cursor) in let rss = Dba.Expr.constant (Bitvector.of_int ~size:16 (Uint32.to_int (Reader.Read.u32 cursor))) in ( entrypoint, List.rev_append [ (ebx, rebx); (ecx, recx); (edx, redx); (esi, resi); (edi, redi); (ebp, rebp); (eax, reax); (esp, resp); (ds, rds); (es, res); (fs, rfs); (gs, rgs); (cs, rcs); (ss, rss); (cf, rcf); (pf, rpf); (af, raf); (zf, rzf); (sf, rsf); (tf, rtf); (if', rif); (df, rdf); (of', rof); (iopl, riopl); (nt, rnt); (rf, rrf); (vm, rvm); (ac, rac); (vif, rvif); (vip, rvip); (id, rid); ] defs ) | { Loader_elf.Note.name = "CORE"; kind = 2; offset = at; _ } -> let cursor = Loader_elf.Img.cursor ~at img in Reader.advance cursor 0xa0; ( entrypoint, List.fold_left (fun defs reg -> (reg, Dba.Expr.constant (Reader.Read.read cursor 16)) :: defs) defs [ xmm0; xmm1; xmm2; xmm3; xmm4; xmm5; xmm6; xmm7 ] ) | { Loader_elf.Note.name = "PIN"; kind = 0; offset = at; _ } -> let cursor = Loader_elf.Img.cursor ~at img in let rgs_base = Dba.Expr.constant (Reader.Read.bv32 cursor) in (entrypoint, (gs_base, rgs_base) :: defs) | _ -> (entrypoint, defs)) (Virtual_address.create 0, []) (Loader_elf.notes img) let core = notes let ret = Dba.LValue.v eax let esp_l = Dba.LValue.v esp and esp_r = Dba.Expr.v esp and eax_l = Dba.LValue.v eax and ebx_r = Dba.Expr.v ebx and ecx_r = Dba.Expr.v ecx and edx_r = Dba.Expr.v edx and esi_r = Dba.Expr.v esi and edi_r = Dba.Expr.v edi and ebp_r = Dba.Expr.v ebp and four = Dba.Expr.constant (Bitvector.of_int ~size:32 4) let return_address = Dba.Expr.load Size.Byte.four LittleEndian esp_r let get_return_address () = return_address let get_arg ?(syscall = false) i = if syscall then match i with | 0 -> ebx_r | 1 -> ecx_r | 2 -> edx_r | 3 -> esi_r | 4 -> edi_r | 5 -> ebp_r | _ -> raise (Invalid_argument "syscall") else Dba.Expr.load Size.Byte.four LittleEndian (Dba.Expr.add esp_r (Dba.Expr.constant (Bitvector.of_int ~size:32 (4 * (i + 1))))) let get_ret ?syscall:_ () = ret let void_return = Dhunk.init 2 (function | 0 -> Dba.Instr.assign esp_l (Dba.Expr.add esp_r four) 1 | _ -> Dba.Instr.dynamic_jump ~tag:Return (Dba.Expr.load Size.Byte.four LittleEndian (Dba.Expr.sub esp_r four))) and val_return value = Dhunk.init 3 (function | 0 -> Dba.Instr.assign eax_l value 1 | 1 -> Dba.Instr.assign esp_l (Dba.Expr.add esp_r four) 2 | _ -> Dba.Instr.dynamic_jump ~tag:Return (Dba.Expr.load Size.Byte.four LittleEndian (Dba.Expr.sub esp_r four))) let make_return ?value () = match (value : Dba.Expr.t option) with | None -> void_return | Some (Var v) when Dba.Var.equal v eax -> void_return | Some value -> val_return value let get_stack_pointer () = (esp, Bitvector.of_int32 0xfff00000l) let max_instruction_len = Size.Byte.fifteen let eax_r = Dba.Expr.v eax and eip_r = Dba.Expr.var "eip" 32 (* note that eip is not used nor updated by the DBA semantics -- do not use it outside of debug information *) and es_r = Dba.Expr.v es and cs_r = Dba.Expr.v cs and ss_r = Dba.Expr.v ss and ds_r = Dba.Expr.v ds and fs_r = Dba.Expr.v fs and gs_r = Dba.Expr.v gs and stx_r = Array.map Dba.Expr.v stx and mmx_r = Array.map Dba.Expr.v mmx and xmmx_r = Array.map Dba.Expr.v xmmx let get_dwarf_register = function | 0 -> eax_r | 1 -> ecx_r | 2 -> edx_r | 3 -> ebx_r | 4 -> esp_r | 5 -> ebp_r | 6 -> esi_r | 7 -> edi_r | 8 -> eip_r | (11 | 12 | 13 | 14 | 15 | 16 | 17 | 18) as x -> Array.get stx_r (x - 11) | (21 | 22 | 23 | 24 | 25 | 26 | 27 | 28) as x -> Array.get xmmx_r (x - 21) | (29 | 30 | 31 | 32 | 33 | 34 | 35 | 36) as x -> Array.get mmx_r (x - 29) | 40 -> es_r | 41 -> cs_r | 42 -> ss_r | 43 -> ds_r | 44 -> fs_r | 45 -> gs_r | n -> Isa_logger.fatal "unable to map integer %d to a known DWARF register" n end module AMD64 : ARCH = struct let info = Dba.Var.Tag.Register let rax = Dba.Var.create "rax" ~bitsize:Size.Bit.bits64 ~tag:info and rbx = Dba.Var.create "rbx" ~bitsize:Size.Bit.bits64 ~tag:info and rcx = Dba.Var.create "rcx" ~bitsize:Size.Bit.bits64 ~tag:info and rdx = Dba.Var.create "rdx" ~bitsize:Size.Bit.bits64 ~tag:info and rdi = Dba.Var.create "rdi" ~bitsize:Size.Bit.bits64 ~tag:info and rsi = Dba.Var.create "rsi" ~bitsize:Size.Bit.bits64 ~tag:info and rsp = Dba.Var.create "rsp" ~bitsize:Size.Bit.bits64 ~tag:info and rbp = Dba.Var.create "rbp" ~bitsize:Size.Bit.bits64 ~tag:info and r8 = Dba.Var.create "r8" ~bitsize:Size.Bit.bits64 ~tag:info and r9 = Dba.Var.create "r9" ~bitsize:Size.Bit.bits64 ~tag:info and r10 = Dba.Var.create "r10" ~bitsize:Size.Bit.bits64 ~tag:info and r11 = Dba.Var.create "r11" ~bitsize:Size.Bit.bits64 ~tag:info and r12 = Dba.Var.create "r12" ~bitsize:Size.Bit.bits64 ~tag:info and r13 = Dba.Var.create "r13" ~bitsize:Size.Bit.bits64 ~tag:info and r14 = Dba.Var.create "r14" ~bitsize:Size.Bit.bits64 ~tag:info and r15 = Dba.Var.create "r15" ~bitsize:Size.Bit.bits64 ~tag:info let cs = Dba.Var.create "cs" ~bitsize:Size.Bit.bits16 ~tag:info and ds = Dba.Var.create "ds" ~bitsize:Size.Bit.bits16 ~tag:info and es = Dba.Var.create "es" ~bitsize:Size.Bit.bits16 ~tag:info and fs = Dba.Var.create "fs" ~bitsize:Size.Bit.bits16 ~tag:info and gs = Dba.Var.create "gs" ~bitsize:Size.Bit.bits16 ~tag:info and ss = Dba.Var.create "ss" ~bitsize:Size.Bit.bits16 ~tag:info and fs_base = Dba.Var.create "fs_base" ~bitsize:Size.Bit.bits64 ~tag:info and gs_base = Dba.Var.create "gs_base" ~bitsize:Size.Bit.bits64 ~tag:info let ymm0 = Dba.Var.create "ymm0" ~bitsize:Size.Bit.bits256 ~tag:info and ymm1 = Dba.Var.create "ymm1" ~bitsize:Size.Bit.bits256 ~tag:info and ymm2 = Dba.Var.create "ymm2" ~bitsize:Size.Bit.bits256 ~tag:info and ymm3 = Dba.Var.create "ymm3" ~bitsize:Size.Bit.bits256 ~tag:info and ymm4 = Dba.Var.create "ymm4" ~bitsize:Size.Bit.bits256 ~tag:info and ymm5 = Dba.Var.create "ymm5" ~bitsize:Size.Bit.bits256 ~tag:info and ymm6 = Dba.Var.create "ymm6" ~bitsize:Size.Bit.bits256 ~tag:info and ymm7 = Dba.Var.create "ymm7" ~bitsize:Size.Bit.bits256 ~tag:info and ymm8 = Dba.Var.create "ymm8" ~bitsize:Size.Bit.bits256 ~tag:info and ymm9 = Dba.Var.create "ymm9" ~bitsize:Size.Bit.bits256 ~tag:info and ymm10 = Dba.Var.create "ymm10" ~bitsize:Size.Bit.bits256 ~tag:info and ymm11 = Dba.Var.create "ymm11" ~bitsize:Size.Bit.bits256 ~tag:info and ymm12 = Dba.Var.create "ymm12" ~bitsize:Size.Bit.bits256 ~tag:info and ymm13 = Dba.Var.create "ymm13" ~bitsize:Size.Bit.bits256 ~tag:info and ymm14 = Dba.Var.create "ymm14" ~bitsize:Size.Bit.bits256 ~tag:info and ymm15 = Dba.Var.create "ymm15" ~bitsize:Size.Bit.bits256 ~tag:info let info = Dba.Var.Tag.Flag let cf = Dba.Var.create "cf" ~bitsize:Size.Bit.bits1 ~tag:info and pf = Dba.Var.create "pf" ~bitsize:Size.Bit.bits1 ~tag:info and af = Dba.Var.create "af" ~bitsize:Size.Bit.bits1 ~tag:info and zf = Dba.Var.create "zf" ~bitsize:Size.Bit.bits1 ~tag:info and sf = Dba.Var.create "sf" ~bitsize:Size.Bit.bits1 ~tag:info and tf = Dba.Var.create "tf" ~bitsize:Size.Bit.bits1 ~tag:info and if' = Dba.Var.create "if" ~bitsize:Size.Bit.bits1 ~tag:info and df = Dba.Var.create "df" ~bitsize:Size.Bit.bits1 ~tag:info and of' = Dba.Var.create "of" ~bitsize:Size.Bit.bits1 ~tag:info and iopl = Dba.Var.create "iopl" ~bitsize:Size.Bit.bits2 ~tag:info and nt = Dba.Var.create "nt" ~bitsize:Size.Bit.bits1 ~tag:info and rf = Dba.Var.create "rf" ~bitsize:Size.Bit.bits1 ~tag:info and vm = Dba.Var.create "vm" ~bitsize:Size.Bit.bits1 ~tag:info and ac = Dba.Var.create "ac" ~bitsize:Size.Bit.bits1 ~tag:info and vif' = Dba.Var.create "vif" ~bitsize:Size.Bit.bits1 ~tag:info and vip = Dba.Var.create "vip" ~bitsize:Size.Bit.bits1 ~tag:info and id = Dba.Var.create "id" ~bitsize:Size.Bit.bits1 ~tag:info let defs = [ ("rax", Dba.LValue.v rax); ("rbx", Dba.LValue.v rbx); ("rcx", Dba.LValue.v rcx); ("rdx", Dba.LValue.v rdx); ("rdi", Dba.LValue.v rdi); ("rsi", Dba.LValue.v rsi); ("rsp", Dba.LValue.v rsp); ("rbp", Dba.LValue.v rbp); ("r8", Dba.LValue.v r8); ("r9", Dba.LValue.v r9); ("r10", Dba.LValue.v r10); ("r11", Dba.LValue.v r11); ("r12", Dba.LValue.v r12); ("r13", Dba.LValue.v r13); ("r14", Dba.LValue.v r14); ("r15", Dba.LValue.v r15); ("eax", Dba.LValue.restrict rax 0 31); ("ebx", Dba.LValue.restrict rbx 0 31); ("ecx", Dba.LValue.restrict rcx 0 31); ("edx", Dba.LValue.restrict rdx 0 31); ("edi", Dba.LValue.restrict rdi 0 31); ("esi", Dba.LValue.restrict rsi 0 31); ("esp", Dba.LValue.restrict rsp 0 31); ("ebp", Dba.LValue.restrict rbp 0 31); ("r8d", Dba.LValue.restrict r8 0 31); ("r9d", Dba.LValue.restrict r9 0 31); ("r10d", Dba.LValue.restrict r10 0 31); ("r11d", Dba.LValue.restrict r11 0 31); ("r12d", Dba.LValue.restrict r12 0 31); ("r13d", Dba.LValue.restrict r13 0 31); ("r14d", Dba.LValue.restrict r14 0 31); ("r15d", Dba.LValue.restrict r15 0 31); ("al", Dba.LValue.restrict rax 0 7); ("ah", Dba.LValue.restrict rax 8 15); ("ax", Dba.LValue.restrict rax 0 15); ("bl", Dba.LValue.restrict rbx 0 7); ("bh", Dba.LValue.restrict rbx 8 15); ("bx", Dba.LValue.restrict rbx 0 15); ("cl", Dba.LValue.restrict rcx 0 7); ("ch", Dba.LValue.restrict rcx 8 15); ("cx", Dba.LValue.restrict rcx 0 15); ("dl", Dba.LValue.restrict rdx 0 7); ("dh", Dba.LValue.restrict rdx 8 15); ("dx", Dba.LValue.restrict rdx 0 15); ("dil", Dba.LValue.restrict rdi 0 7); ("di", Dba.LValue.restrict rdi 0 15); ("sil", Dba.LValue.restrict rsi 0 7); ("si", Dba.LValue.restrict rsi 0 15); ("spl", Dba.LValue.restrict rsp 0 7); ("sp", Dba.LValue.restrict rsp 0 15); ("bpl", Dba.LValue.restrict rbp 0 7); ("bp", Dba.LValue.restrict rbp 0 15); ("r8w", Dba.LValue.restrict r8 0 31); ("r9w", Dba.LValue.restrict r9 0 31); ("r10w", Dba.LValue.restrict r10 0 15); ("r11w", Dba.LValue.restrict r11 0 15); ("r12w", Dba.LValue.restrict r12 0 15); ("r13w", Dba.LValue.restrict r13 0 15); ("r14w", Dba.LValue.restrict r14 0 15); ("r15w", Dba.LValue.restrict r15 0 15); ("r8b", Dba.LValue.restrict r8 0 7); ("r9b", Dba.LValue.restrict r9 0 7); ("r10b", Dba.LValue.restrict r10 0 7); ("r11b", Dba.LValue.restrict r11 0 7); ("r12b", Dba.LValue.restrict r12 0 7); ("r13b", Dba.LValue.restrict r13 0 7); ("r14b", Dba.LValue.restrict r14 0 7); ("r15b", Dba.LValue.restrict r15 0 7); ("cs", Dba.LValue.v cs); ("ds", Dba.LValue.v ds); ("es", Dba.LValue.v es); ("fs", Dba.LValue.v fs); ("gs", Dba.LValue.v gs); ("ss", Dba.LValue.v ss); ("fs_base", Dba.LValue.v fs_base); ("gs_base", Dba.LValue.v gs_base); ("ymm0", Dba.LValue.v ymm0); ("ymm1", Dba.LValue.v ymm1); ("ymm2", Dba.LValue.v ymm2); ("ymm3", Dba.LValue.v ymm3); ("ymm4", Dba.LValue.v ymm4); ("ymm5", Dba.LValue.v ymm5); ("ymm6", Dba.LValue.v ymm6); ("ymm7", Dba.LValue.v ymm7); ("ymm8", Dba.LValue.v ymm8); ("ymm9", Dba.LValue.v ymm9); ("ymm10", Dba.LValue.v ymm10); ("ymm11", Dba.LValue.v ymm11); ("ymm12", Dba.LValue.v ymm12); ("ymm13", Dba.LValue.v ymm13); ("ymm14", Dba.LValue.v ymm14); ("ymm15", Dba.LValue.v ymm15); ("xmm0", Dba.LValue.restrict ymm0 0 127); ("xmm1", Dba.LValue.restrict ymm1 0 127); ("xmm2", Dba.LValue.restrict ymm2 0 127); ("xmm3", Dba.LValue.restrict ymm3 0 127); ("xmm4", Dba.LValue.restrict ymm4 0 127); ("xmm5", Dba.LValue.restrict ymm5 0 127); ("xmm6", Dba.LValue.restrict ymm6 0 127); ("xmm7", Dba.LValue.restrict ymm7 0 127); ("xmm8", Dba.LValue.restrict ymm8 0 127); ("xmm9", Dba.LValue.restrict ymm9 0 127); ("xmm10", Dba.LValue.restrict ymm10 0 127); ("xmm11", Dba.LValue.restrict ymm11 0 127); ("xmm12", Dba.LValue.restrict ymm12 0 127); ("xmm13", Dba.LValue.restrict ymm13 0 127); ("xmm14", Dba.LValue.restrict ymm14 0 127); ("xmm15", Dba.LValue.restrict ymm15 0 127); ("cf", Dba.LValue.v cf); ("pf", Dba.LValue.v pf); ("af", Dba.LValue.v af); ("zf", Dba.LValue.v zf); ("sf", Dba.LValue.v sf); ("tf", Dba.LValue.v tf); ("if", Dba.LValue.v if'); ("df", Dba.LValue.v df); ("of", Dba.LValue.v of'); ("iopl", Dba.LValue.v iopl); ("nt", Dba.LValue.v nt); ("rf", Dba.LValue.v rf); ("vm", Dba.LValue.v vm); ("ac", Dba.LValue.v ac); ("vif", Dba.LValue.v vif'); ("vip", Dba.LValue.v vip); ("id", Dba.LValue.v id); ] let shortlived_flags = [ cf; pf; af; zf; sf; of' ] let get_shortlived_flags () = shortlived_flags let get_defs () = defs let ymmx = [ ymm0; ymm1; ymm2; ymm3; ymm4; ymm5; ymm6; ymm7; ymm8; ymm9; ymm10; ymm11; ymm12; ymm13; ymm14; ymm15; ] let notes img = let entrypoint, defs, lymmx, hymmx = Array.fold_left (fun ((entrypoint, defs, lymmx, hymmx) as result) -> function | { Loader_elf.Note.name = "CORE"; kind = 1; offset = at; _ } -> let cursor = Loader_elf.Img.cursor ~at img in Reader.advance cursor 0x70; let vr15 = Dba.Expr.constant (Reader.Read.bv64 cursor) in let vr14 = Dba.Expr.constant (Reader.Read.bv64 cursor) in let vr13 = Dba.Expr.constant (Reader.Read.bv64 cursor) in let vr12 = Dba.Expr.constant (Reader.Read.bv64 cursor) in let vrbp = Dba.Expr.constant (Reader.Read.bv64 cursor) in let vrbx = Dba.Expr.constant (Reader.Read.bv64 cursor) in let vr11 = Dba.Expr.constant (Reader.Read.bv64 cursor) in let vr10 = Dba.Expr.constant (Reader.Read.bv64 cursor) in let vr9 = Dba.Expr.constant (Reader.Read.bv64 cursor) in let vr8 = Dba.Expr.constant (Reader.Read.bv64 cursor) in let vrax = Dba.Expr.constant (Reader.Read.bv64 cursor) in let vrcx = Dba.Expr.constant (Reader.Read.bv64 cursor) in let vrdx = Dba.Expr.constant (Reader.Read.bv64 cursor) in let vrsi = Dba.Expr.constant (Reader.Read.bv64 cursor) in let vrdi = Dba.Expr.constant (Reader.Read.bv64 cursor) in Reader.advance cursor 8; let vrip = Virtual_address.of_bitvector (Reader.Read.bv64 cursor) in let vcs = Dba.Expr.constant (Reader.Read.bv16 cursor) in Reader.advance cursor 6; let rflags_15_0 = Uint16.to_int (Reader.Read.u16 cursor) in let rflags_31_16 = Uint16.to_int (Reader.Read.u16 cursor) in Reader.advance cursor 4; let vrsp = Dba.Expr.constant (Reader.Read.bv64 cursor) in let vss = Dba.Expr.constant (Reader.Read.bv16 cursor) in Reader.advance cursor 6; let vfs_base = Dba.Expr.constant (Reader.Read.bv64 cursor) in let vgs_base = Dba.Expr.constant (Reader.Read.bv64 cursor) in let vds = Dba.Expr.constant (Reader.Read.bv16 cursor) in Reader.advance cursor 6; let ves = Dba.Expr.constant (Reader.Read.bv16 cursor) in Reader.advance cursor 6; let vfs = Dba.Expr.constant (Reader.Read.bv16 cursor) in Reader.advance cursor 6; let vgs = Dba.Expr.constant (Reader.Read.bv16 cursor) in Reader.advance cursor 6; let vcf = Dba.Expr.constant (Bitvector.of_int ~size:1 ((rflags_15_0 lsr 0) land 0b1)) and vpf = Dba.Expr.constant (Bitvector.of_int ~size:1 ((rflags_15_0 lsr 2) land 0b1)) and vaf = Dba.Expr.constant (Bitvector.of_int ~size:1 ((rflags_15_0 lsr 4) land 0b1)) and vzf = Dba.Expr.constant (Bitvector.of_int ~size:1 ((rflags_15_0 lsr 6) land 0b1)) and vsf = Dba.Expr.constant (Bitvector.of_int ~size:1 ((rflags_15_0 lsr 7) land 0b1)) and vtf = Dba.Expr.constant (Bitvector.of_int ~size:1 ((rflags_15_0 lsr 8) land 0b1)) and vif = Dba.Expr.constant (Bitvector.of_int ~size:1 ((rflags_15_0 lsr 9) land 0b1)) and vdf = Dba.Expr.constant (Bitvector.of_int ~size:1 ((rflags_15_0 lsr 10) land 0b1)) and vof = Dba.Expr.constant (Bitvector.of_int ~size:1 ((rflags_15_0 lsr 11) land 0b1)) and viopl = Dba.Expr.constant (Bitvector.of_int ~size:2 ((rflags_15_0 lsr 12) land 0b11)) and vnt = Dba.Expr.constant (Bitvector.of_int ~size:1 ((rflags_15_0 lsr 14) land 0b1)) and vrf = Dba.Expr.constant (Bitvector.of_int ~size:1 ((rflags_31_16 lsr 0) land 0b1)) and vvm = Dba.Expr.constant (Bitvector.of_int ~size:1 ((rflags_31_16 lsr 1) land 0b1)) and vac = Dba.Expr.constant (Bitvector.of_int ~size:1 ((rflags_31_16 lsr 2) land 0b1)) and vvif = Dba.Expr.constant (Bitvector.of_int ~size:1 ((rflags_31_16 lsr 3) land 0b1)) and vvip = Dba.Expr.constant (Bitvector.of_int ~size:1 ((rflags_31_16 lsr 4) land 0b1)) and vid = Dba.Expr.constant (Bitvector.of_int ~size:1 ((rflags_31_16 lsr 5) land 0b1)) in ( vrip, List.rev_append [ (r15, vr15); (r14, vr14); (r13, vr13); (r12, vr12); (r11, vr11); (r10, vr10); (r9, vr9); (r8, vr8); (rbx, vrbx); (rcx, vrcx); (rdx, vrdx); (rsi, vrsi); (rdi, vrdi); (rbp, vrbp); (rax, vrax); (rsp, vrsp); (ds, vds); (es, ves); (fs, vfs); (gs, vgs); (cs, vcs); (ss, vss); (fs_base, vfs_base); (gs_base, vgs_base); (cf, vcf); (pf, vpf); (af, vaf); (zf, vzf); (sf, vsf); (tf, vtf); (if', vif); (df, vdf); (of', vof); (iopl, viopl); (nt, vnt); (rf, vrf); (vm, vvm); (ac, vac); (vif', vvif); (vip, vvip); (id, vid); ] defs, lymmx, hymmx ) | { Loader_elf.Note.name = "CORE"; kind = 2; offset = at; _ } -> let cursor = Loader_elf.Img.cursor ~at img in Reader.advance cursor 0xa0; ( entrypoint, defs, List.map (fun _ -> Dba.Expr.constant (Reader.Read.read cursor 16)) ymmx, hymmx ) | { Loader_elf.Note.name = "LINUX"; kind = 0x202; offset = at; _ } -> let cursor = Loader_elf.Img.cursor ~at img in Reader.advance cursor 0x200; let component = Uint16.to_int (Reader.Peek.u16 cursor) in let hymmx = if component land 0b00000100 <> 0 then ( Reader.advance cursor 0x40; List.map (fun _ -> Dba.Expr.constant (Reader.Read.read cursor 16)) ymmx) else hymmx in let lymmx = if component land 0b00000010 <> 0 then ( let cursor = Loader_elf.Img.cursor ~at img in Reader.advance cursor 0xa0; List.map (fun _ -> Dba.Expr.constant (Reader.Read.read cursor 16)) ymmx) else lymmx in (entrypoint, defs, lymmx, hymmx) | _ -> result) (Virtual_address.create 0, [], [], []) (Loader_elf.notes img) in let vymmx = match (hymmx, lymmx) with | [], [] -> [] | _, [] -> List.map (fun h -> Dba.Expr.(append h (zeros 128))) hymmx | [], _ -> List.map (fun l -> Dba.Expr.uext 256 l) lymmx | _, _ -> List.map2 (fun h l -> Dba.Expr.append h l) hymmx lymmx in ( entrypoint, if vymmx <> [] then List.fold_left2 (fun defs r v -> (r, v) :: defs) defs ymmx vymmx else defs ) let core = notes let ret = Dba.LValue.v rax let rsp_l = Dba.LValue.v rsp and rsp_r = Dba.Expr.v rsp and rax_l = Dba.LValue.v rax and rax_r = Dba.Expr.v rax and rbx_r = Dba.Expr.v rbx and rbp_r = Dba.Expr.v rbp and rdi_r = Dba.Expr.v rdi and rsi_r = Dba.Expr.v rsi and rdx_r = Dba.Expr.v rdx and rcx_r = Dba.Expr.v rcx and r8_r = Dba.Expr.v r8 and r9_r = Dba.Expr.v r9 and r10_r = Dba.Expr.v r10 and r11_r = Dba.Expr.v r11 and r12_r = Dba.Expr.v r12 and r13_r = Dba.Expr.v r13 and r14_r = Dba.Expr.v r14 and r15_r = Dba.Expr.v r15 and eight = Dba.Expr.constant (Bitvector.of_int ~size:64 8) let return_address = Dba.Expr.load Size.Byte.eight LittleEndian rsp_r let get_return_address () = return_address let get_arg ?(syscall = false) i = if syscall then match i with | 0 -> rdi_r | 1 -> rsi_r | 2 -> rdx_r | 3 -> r10_r | 4 -> r8_r | 5 -> r9_r | _ -> raise (Invalid_argument "syscall") else match i with | 0 -> rdi_r | 1 -> rsi_r | 2 -> rdx_r | 3 -> rcx_r | 4 -> r8_r | 5 -> r9_r | i -> Dba.Expr.load Size.Byte.eight LittleEndian (Dba.Expr.add rsp_r (Dba.Expr.constant (Bitvector.of_int ~size:64 (8 * (i - 5))))) let get_ret ?syscall:_ () = ret let void_return = Dhunk.init 2 (function | 0 -> Dba.Instr.assign rsp_l (Dba.Expr.add rsp_r eight) 1 | _ -> Dba.Instr.dynamic_jump ~tag:Return (Dba.Expr.load Size.Byte.eight LittleEndian (Dba.Expr.sub rsp_r eight))) and val_return value = Dhunk.init 3 (function | 0 -> Dba.Instr.assign rax_l value 1 | 1 -> Dba.Instr.assign rsp_l (Dba.Expr.add rsp_r eight) 2 | _ -> Dba.Instr.dynamic_jump ~tag:Return (Dba.Expr.load Size.Byte.eight LittleEndian (Dba.Expr.sub rsp_r eight))) let make_return ?value () = match (value : Dba.Expr.t option) with | None -> void_return | Some (Var v) when Dba.Var.equal v rax -> void_return | Some value -> val_return value let get_stack_pointer () = (rsp, Bitvector.of_int64 0x7fff000000000000L) let get_dwarf_register = function | 0 -> rax_r | 1 -> rdx_r | 2 -> rcx_r | 3 -> rbx_r | 4 -> rsi_r | 5 -> rdi_r | 6 -> rbp_r | 7 -> rsp_r | 8 -> r8_r | 9 -> r9_r | 10 -> r10_r | 11 -> r11_r | 12 -> r12_r | 13 -> r13_r | 14 -> r14_r | 15 -> r15_r | n -> Isa_logger.fatal "unable to map integer %d to a known DWARF register" n let max_instruction_len = Size.Byte.fifteen end module ARM : ARCH = struct let info = Dba.Var.Tag.Register let rx = Array.init 11 (fun i -> Dba.Var.create (Format.sprintf "r%d" i) ~bitsize:Size.Bit.bits32 ~tag:info) let r0 = Array.get rx 0 and r1 = Array.get rx 1 and r2 = Array.get rx 2 and r3 = Array.get rx 3 and r4 = Array.get rx 4 and r5 = Array.get rx 5 and r6 = Array.get rx 6 and r7 = Array.get rx 7 and r8 = Array.get rx 8 and r9 = Array.get rx 9 and r10 = Array.get rx 10 and r11 = Dba.Var.create "fp" ~bitsize:Size.Bit.bits32 ~tag:info and r12 = Dba.Var.create "ip" ~bitsize:Size.Bit.bits32 ~tag:info and r13 = Dba.Var.create "sp" ~bitsize:Size.Bit.bits32 ~tag:info and r14 = Dba.Var.create "lr" ~bitsize:Size.Bit.bits32 ~tag:info and r15 = Dba.Var.create "pc" ~bitsize:Size.Bit.bits32 ~tag:info (* note that pc is not used nor updated by the DBA semantics -- do not use it outside of debug information *) let dx = Array.init 32 (fun i -> Dba.Var.create (Format.sprintf "d%d" i) ~bitsize:Size.Bit.bits64 ~tag:info) let info = Dba.Var.Tag.Flag let n = Dba.Var.create "n" ~bitsize:Size.Bit.bits1 ~tag:info and z = Dba.Var.create "z" ~bitsize:Size.Bit.bits1 ~tag:info and c = Dba.Var.create "c" ~bitsize:Size.Bit.bits1 ~tag:info and v = Dba.Var.create "v" ~bitsize:Size.Bit.bits1 ~tag:info and t = Dba.Var.create "t" ~bitsize:Size.Bit.bits1 ~tag:info let defs = [ ("r0", Dba.LValue.v r0); ("r1", Dba.LValue.v r1); ("r2", Dba.LValue.v r2); ("r3", Dba.LValue.v r3); ("r4", Dba.LValue.v r4); ("r5", Dba.LValue.v r5); ("r6", Dba.LValue.v r6); ("r7", Dba.LValue.v r7); ("r8", Dba.LValue.v r8); ("r9", Dba.LValue.v r9); ("r10", Dba.LValue.v r10); ("r11", Dba.LValue.v r11); ("r12", Dba.LValue.v r12); ("r13", Dba.LValue.v r13); ("r14", Dba.LValue.v r14); ("r15", Dba.LValue.v r15); ("fp", Dba.LValue.v r11); ("ip", Dba.LValue.v r12); ("sp", Dba.LValue.v r13); ("lr", Dba.LValue.v r14); ("pc", Dba.LValue.v r15); ("n", Dba.LValue.v n); ("z", Dba.LValue.v z); ("c", Dba.LValue.v c); ("v", Dba.LValue.v v); ("t", Dba.LValue.v t); ] let get_shortlived_flags () = [] let core img = Array.fold_left (fun ((entrypoint, defs) as result) -> function | { Loader_elf.Note.name = "CORE"; kind = 1; offset = at; _ } -> let cursor = Loader_elf.Img.cursor ~at img in Reader.advance cursor 0x48; let vr0 = Dba.Expr.constant (Reader.Read.bv32 cursor) in let vr1 = Dba.Expr.constant (Reader.Read.bv32 cursor) in let vr2 = Dba.Expr.constant (Reader.Read.bv32 cursor) in let vr3 = Dba.Expr.constant (Reader.Read.bv32 cursor) in let vr4 = Dba.Expr.constant (Reader.Read.bv32 cursor) in let vr5 = Dba.Expr.constant (Reader.Read.bv32 cursor) in let vr6 = Dba.Expr.constant (Reader.Read.bv32 cursor) in let vr7 = Dba.Expr.constant (Reader.Read.bv32 cursor) in let vr8 = Dba.Expr.constant (Reader.Read.bv32 cursor) in let vr9 = Dba.Expr.constant (Reader.Read.bv32 cursor) in let vr10 = Dba.Expr.constant (Reader.Read.bv32 cursor) in let vr11 = Dba.Expr.constant (Reader.Read.bv32 cursor) in let vr12 = Dba.Expr.constant (Reader.Read.bv32 cursor) in let vsp = Dba.Expr.constant (Reader.Read.bv32 cursor) in let vlr = Dba.Expr.constant (Reader.Read.bv32 cursor) in let vpc = Virtual_address.of_bitvector (Reader.Read.bv32 cursor) in Reader.advance cursor 3; let spsr_31_24 = Uint8.to_int (Reader.Read.u8 cursor) in let vn = Dba.Expr.constant (Bitvector.of_int ~size:1 ((spsr_31_24 lsr 7) land 0b1)) and vz = Dba.Expr.constant (Bitvector.of_int ~size:1 ((spsr_31_24 lsr 6) land 0b1)) and vc = Dba.Expr.constant (Bitvector.of_int ~size:1 ((spsr_31_24 lsr 5) land 0b1)) and vv = Dba.Expr.constant (Bitvector.of_int ~size:1 ((spsr_31_24 lsr 4) land 0b1)) in ( vpc, List.rev_append [ (r0, vr0); (r1, vr1); (r2, vr2); (r3, vr3); (r4, vr4); (r5, vr5); (r6, vr6); (r7, vr7); (r8, vr8); (r9, vr9); (r10, vr10); (r11, vr11); (r12, vr12); (r13, vsp); (r14, vlr); (n, vn); (z, vz); (c, vc); (v, vv); ] defs ) | { Loader_elf.Note.name = "LINUX"; kind = 0x400; offset = at; _ } -> let cursor = Loader_elf.Img.cursor ~at img in ( entrypoint, Array.fold_left (fun defs d -> (d, Dba.Expr.constant (Reader.Read.read cursor 8)) :: defs) defs dx ) | _ -> result) (Virtual_address.create 0, []) (Loader_elf.notes img) let get_defs () = defs let r0_l = Dba.LValue.v r0 and r0_r = Dba.Expr.v r0 and r1_r = Dba.Expr.v r1 and r2_r = Dba.Expr.v r2 and r3_r = Dba.Expr.v r3 and r13_r = Dba.Expr.v r13 and r14_r = Dba.Expr.v r14 and r15_r = Dba.Expr.v r15 let ret = r0_l let get_return_address () = r14_r let get_arg ?(syscall = false) i = if syscall then Errors.not_yet_implemented "syscall"; match i with | 0 -> r0_r | 1 -> r1_r | 2 -> r2_r | 3 -> r3_r | i -> Dba.Expr.load Size.Byte.four LittleEndian (Dba.Expr.add r13_r (Dba.Expr.constant (Bitvector.of_int ~size:32 (4 * (i - 4))))) let get_ret ?syscall:_ () = ret let void_return = Dhunk.singleton (Dba.Instr.dynamic_jump ~tag:Return r14_r) and val_return value = Dhunk.init 2 (function | 0 -> Dba.Instr.assign r0_l value 1 | _ -> Dba.Instr.dynamic_jump ~tag:Return r14_r) let make_return ?value () = match (value : Dba.Expr.t option) with | None -> void_return | Some (Var v) when Dba.Var.equal v r0 -> void_return | Some value -> val_return value let get_stack_pointer () = (r13, Bitvector.of_int32 0xfff00000l) let rx_r = Array.map Dba.Expr.v rx and sl_r = Dba.Expr.v r10 and fp_r = Dba.Expr.v r11 and ip_r = Dba.Expr.v r12 let get_dwarf_register = function | (0 | 1 | 2 | 3 | 4 | 5 | 6 | 7 | 8 | 9) as n -> Array.get rx_r n | 10 -> sl_r | 11 -> fp_r | 12 -> ip_r | 13 -> r13_r | 14 -> r14_r | 15 -> r15_r | n -> Isa_logger.fatal "unable to map integer %d to a known expression" n let max_instruction_len = Size.Byte.four end module AARCH64 : ARCH = struct let info = Dba.Var.Tag.Register let rx = Array.init 31 (fun i -> Dba.Var.create (Format.sprintf "x%d" i) ~bitsize:Size.Bit.bits64 ~tag:info) let x0 = Array.get rx 0 and x1 = Array.get rx 1 and x2 = Array.get rx 2 and x3 = Array.get rx 3 and x4 = Array.get rx 4 and x5 = Array.get rx 5 and x6 = Array.get rx 6 and x7 = Array.get rx 7 and x8 = Array.get rx 8 and x9 = Array.get rx 9 and x10 = Array.get rx 10 and x11 = Array.get rx 11 and x12 = Array.get rx 12 and x13 = Array.get rx 13 and x14 = Array.get rx 14 and x15 = Array.get rx 15 and x16 = Array.get rx 16 and x17 = Array.get rx 17 and x18 = Array.get rx 18 and x19 = Array.get rx 19 and x20 = Array.get rx 20 and x21 = Array.get rx 21 and x22 = Array.get rx 22 and x23 = Array.get rx 23 and x24 = Array.get rx 24 and x25 = Array.get rx 25 and x26 = Array.get rx 26 and x27 = Array.get rx 27 and x28 = Array.get rx 28 and x29 = Array.get rx 29 and x30 = Array.get rx 30 and sp = Dba.Var.create "sp" ~bitsize:Size.Bit.bits64 ~tag:info let info = Dba.Var.Tag.Flag let n = Dba.Var.create "n" ~bitsize:Size.Bit.bits1 ~tag:info and z = Dba.Var.create "z" ~bitsize:Size.Bit.bits1 ~tag:info and c = Dba.Var.create "c" ~bitsize:Size.Bit.bits1 ~tag:info and v = Dba.Var.create "v" ~bitsize:Size.Bit.bits1 ~tag:info let info = Dba.Var.Tag.Register let qx = Array.init 32 (fun i -> Dba.Var.create (Format.sprintf "q%d" i) ~bitsize:Size.Bit.bits128 ~tag:info) let q0 = Array.get qx 0 and q1 = Array.get qx 1 and q2 = Array.get qx 2 and q3 = Array.get qx 3 and q4 = Array.get qx 4 and q5 = Array.get qx 5 and q6 = Array.get qx 6 and q7 = Array.get qx 7 and q8 = Array.get qx 8 and q9 = Array.get qx 9 and q10 = Array.get qx 10 and q11 = Array.get qx 11 and q12 = Array.get qx 12 and q13 = Array.get qx 13 and q14 = Array.get qx 14 and q15 = Array.get qx 15 and q16 = Array.get qx 16 and q17 = Array.get qx 17 and q18 = Array.get qx 18 and q19 = Array.get qx 19 and q20 = Array.get qx 20 and q21 = Array.get qx 21 and q22 = Array.get qx 22 and q23 = Array.get qx 23 and q24 = Array.get qx 24 and q25 = Array.get qx 25 and q26 = Array.get qx 26 and q27 = Array.get qx 27 and q28 = Array.get qx 28 and q29 = Array.get qx 29 and q30 = Array.get qx 30 and q31 = Array.get qx 31 let defs = [ ("r0", Dba.LValue.v x0); ("r1", Dba.LValue.v x1); ("r2", Dba.LValue.v x2); ("r3", Dba.LValue.v x3); ("r4", Dba.LValue.v x4); ("r5", Dba.LValue.v x5); ("r6", Dba.LValue.v x6); ("r7", Dba.LValue.v x7); ("r8", Dba.LValue.v x8); ("r9", Dba.LValue.v x9); ("r10", Dba.LValue.v x10); ("r11", Dba.LValue.v x11); ("r12", Dba.LValue.v x12); ("r13", Dba.LValue.v x13); ("r14", Dba.LValue.v x14); ("r15", Dba.LValue.v x15); ("r16", Dba.LValue.v x16); ("r17", Dba.LValue.v x17); ("r18", Dba.LValue.v x18); ("r19", Dba.LValue.v x19); ("r20", Dba.LValue.v x20); ("r21", Dba.LValue.v x21); ("r22", Dba.LValue.v x22); ("r23", Dba.LValue.v x23); ("r24", Dba.LValue.v x24); ("r25", Dba.LValue.v x25); ("r26", Dba.LValue.v x26); ("r27", Dba.LValue.v x27); ("r28", Dba.LValue.v x28); ("r29", Dba.LValue.v x29); ("r30", Dba.LValue.v x30); ("x0", Dba.LValue.v x0); ("x1", Dba.LValue.v x1); ("x2", Dba.LValue.v x2); ("x3", Dba.LValue.v x3); ("x4", Dba.LValue.v x4); ("x5", Dba.LValue.v x5); ("x6", Dba.LValue.v x6); ("x7", Dba.LValue.v x7); ("x8", Dba.LValue.v x8); ("x9", Dba.LValue.v x9); ("x10", Dba.LValue.v x10); ("x11", Dba.LValue.v x11); ("x12", Dba.LValue.v x12); ("x13", Dba.LValue.v x13); ("x14", Dba.LValue.v x14); ("x15", Dba.LValue.v x15); ("x16", Dba.LValue.v x16); ("x17", Dba.LValue.v x17); ("x18", Dba.LValue.v x18); ("x19", Dba.LValue.v x19); ("x20", Dba.LValue.v x20); ("x21", Dba.LValue.v x21); ("x22", Dba.LValue.v x22); ("x23", Dba.LValue.v x23); ("x24", Dba.LValue.v x24); ("x25", Dba.LValue.v x25); ("x26", Dba.LValue.v x26); ("x27", Dba.LValue.v x27); ("x28", Dba.LValue.v x28); ("x29", Dba.LValue.v x29); ("x30", Dba.LValue.v x30); ("sp", Dba.LValue.v sp); ("w0", Dba.LValue.restrict x0 0 31); ("w1", Dba.LValue.restrict x1 0 31); ("w2", Dba.LValue.restrict x2 0 31); ("w3", Dba.LValue.restrict x3 0 31); ("w4", Dba.LValue.restrict x4 0 31); ("w5", Dba.LValue.restrict x5 0 31); ("w6", Dba.LValue.restrict x6 0 31); ("w7", Dba.LValue.restrict x7 0 31); ("w8", Dba.LValue.restrict x8 0 31); ("w9", Dba.LValue.restrict x9 0 31); ("w10", Dba.LValue.restrict x10 0 31); ("w11", Dba.LValue.restrict x11 0 31); ("w12", Dba.LValue.restrict x12 0 31); ("w13", Dba.LValue.restrict x13 0 31); ("w14", Dba.LValue.restrict x14 0 31); ("w15", Dba.LValue.restrict x15 0 31); ("w16", Dba.LValue.restrict x16 0 31); ("w17", Dba.LValue.restrict x17 0 31); ("w18", Dba.LValue.restrict x18 0 31); ("w19", Dba.LValue.restrict x19 0 31); ("w20", Dba.LValue.restrict x20 0 31); ("w21", Dba.LValue.restrict x21 0 31); ("w22", Dba.LValue.restrict x22 0 31); ("w23", Dba.LValue.restrict x23 0 31); ("w24", Dba.LValue.restrict x24 0 31); ("w25", Dba.LValue.restrict x25 0 31); ("w26", Dba.LValue.restrict x26 0 31); ("w27", Dba.LValue.restrict x27 0 31); ("w28", Dba.LValue.restrict x28 0 31); ("w29", Dba.LValue.restrict x29 0 31); ("w30", Dba.LValue.restrict x30 0 31); ("n", Dba.LValue.v n); ("z", Dba.LValue.v z); ("c", Dba.LValue.v c); ("v", Dba.LValue.v v); ("q0", Dba.LValue.v q0); ("q1", Dba.LValue.v q1); ("q2", Dba.LValue.v q2); ("q3", Dba.LValue.v q3); ("q4", Dba.LValue.v q4); ("q5", Dba.LValue.v q5); ("q6", Dba.LValue.v q6); ("q7", Dba.LValue.v q7); ("q8", Dba.LValue.v q8); ("q9", Dba.LValue.v q9); ("q10", Dba.LValue.v q10); ("q11", Dba.LValue.v q11); ("q12", Dba.LValue.v q12); ("q13", Dba.LValue.v q13); ("q14", Dba.LValue.v q14); ("q15", Dba.LValue.v q15); ("q16", Dba.LValue.v q16); ("q17", Dba.LValue.v q17); ("q18", Dba.LValue.v q18); ("q19", Dba.LValue.v q19); ("q20", Dba.LValue.v q20); ("q21", Dba.LValue.v q21); ("q22", Dba.LValue.v q22); ("q23", Dba.LValue.v q23); ("q24", Dba.LValue.v q24); ("q25", Dba.LValue.v q25); ("q26", Dba.LValue.v q26); ("q27", Dba.LValue.v q27); ("q28", Dba.LValue.v q28); ("q29", Dba.LValue.v q29); ("q30", Dba.LValue.v q30); ("q31", Dba.LValue.v q31); ("d0", Dba.LValue.restrict q0 0 63); ("d1", Dba.LValue.restrict q1 0 63); ("d2", Dba.LValue.restrict q2 0 63); ("d3", Dba.LValue.restrict q3 0 63); ("d4", Dba.LValue.restrict q4 0 63); ("d5", Dba.LValue.restrict q5 0 63); ("d6", Dba.LValue.restrict q6 0 63); ("d7", Dba.LValue.restrict q7 0 63); ("d8", Dba.LValue.restrict q8 0 63); ("d9", Dba.LValue.restrict q9 0 63); ("d10", Dba.LValue.restrict q10 0 63); ("d11", Dba.LValue.restrict q11 0 63); ("d12", Dba.LValue.restrict q12 0 63); ("d13", Dba.LValue.restrict q13 0 63); ("d14", Dba.LValue.restrict q14 0 63); ("d15", Dba.LValue.restrict q15 0 63); ("d16", Dba.LValue.restrict q16 0 63); ("d17", Dba.LValue.restrict q17 0 63); ("d18", Dba.LValue.restrict q18 0 63); ("d19", Dba.LValue.restrict q19 0 63); ("d20", Dba.LValue.restrict q20 0 63); ("d21", Dba.LValue.restrict q21 0 63); ("d22", Dba.LValue.restrict q22 0 63); ("d23", Dba.LValue.restrict q23 0 63); ("d24", Dba.LValue.restrict q24 0 63); ("d25", Dba.LValue.restrict q25 0 63); ("d26", Dba.LValue.restrict q26 0 63); ("d27", Dba.LValue.restrict q27 0 63); ("d28", Dba.LValue.restrict q28 0 63); ("d29", Dba.LValue.restrict q29 0 63); ("d30", Dba.LValue.restrict q30 0 63); ("d31", Dba.LValue.restrict q31 0 63); ("s0", Dba.LValue.restrict q0 0 31); ("s1", Dba.LValue.restrict q1 0 31); ("s2", Dba.LValue.restrict q2 0 31); ("s3", Dba.LValue.restrict q3 0 31); ("s4", Dba.LValue.restrict q4 0 31); ("s5", Dba.LValue.restrict q5 0 31); ("s6", Dba.LValue.restrict q6 0 31); ("s7", Dba.LValue.restrict q7 0 31); ("s8", Dba.LValue.restrict q8 0 31); ("s9", Dba.LValue.restrict q9 0 31); ("s10", Dba.LValue.restrict q10 0 31); ("s11", Dba.LValue.restrict q11 0 31); ("s12", Dba.LValue.restrict q12 0 31); ("s13", Dba.LValue.restrict q13 0 31); ("s14", Dba.LValue.restrict q14 0 31); ("s15", Dba.LValue.restrict q15 0 31); ("s16", Dba.LValue.restrict q16 0 31); ("s17", Dba.LValue.restrict q17 0 31); ("s18", Dba.LValue.restrict q18 0 31); ("s19", Dba.LValue.restrict q19 0 31); ("s20", Dba.LValue.restrict q20 0 31); ("s21", Dba.LValue.restrict q21 0 31); ("s22", Dba.LValue.restrict q22 0 31); ("s23", Dba.LValue.restrict q23 0 31); ("s24", Dba.LValue.restrict q24 0 31); ("s25", Dba.LValue.restrict q25 0 31); ("s26", Dba.LValue.restrict q26 0 31); ("s27", Dba.LValue.restrict q27 0 31); ("s28", Dba.LValue.restrict q28 0 31); ("s29", Dba.LValue.restrict q29 0 31); ("s30", Dba.LValue.restrict q30 0 31); ("s31", Dba.LValue.restrict q31 0 31); ("h0", Dba.LValue.restrict q0 0 15); ("h1", Dba.LValue.restrict q1 0 15); ("h2", Dba.LValue.restrict q2 0 15); ("h3", Dba.LValue.restrict q3 0 15); ("h4", Dba.LValue.restrict q4 0 15); ("h5", Dba.LValue.restrict q5 0 15); ("h6", Dba.LValue.restrict q6 0 15); ("h7", Dba.LValue.restrict q7 0 15); ("h8", Dba.LValue.restrict q8 0 15); ("h9", Dba.LValue.restrict q9 0 15); ("h10", Dba.LValue.restrict q10 0 15); ("h11", Dba.LValue.restrict q11 0 15); ("h12", Dba.LValue.restrict q12 0 15); ("h13", Dba.LValue.restrict q13 0 15); ("h14", Dba.LValue.restrict q14 0 15); ("h15", Dba.LValue.restrict q15 0 15); ("h16", Dba.LValue.restrict q16 0 15); ("h17", Dba.LValue.restrict q17 0 15); ("h18", Dba.LValue.restrict q18 0 15); ("h19", Dba.LValue.restrict q19 0 15); ("h20", Dba.LValue.restrict q20 0 15); ("h21", Dba.LValue.restrict q21 0 15); ("h22", Dba.LValue.restrict q22 0 15); ("h23", Dba.LValue.restrict q23 0 15); ("h24", Dba.LValue.restrict q24 0 15); ("h25", Dba.LValue.restrict q25 0 15); ("h26", Dba.LValue.restrict q26 0 15); ("h27", Dba.LValue.restrict q27 0 15); ("h28", Dba.LValue.restrict q28 0 15); ("h29", Dba.LValue.restrict q29 0 15); ("h30", Dba.LValue.restrict q30 0 15); ("h31", Dba.LValue.restrict q31 0 15); ("b0", Dba.LValue.restrict q0 0 7); ("b1", Dba.LValue.restrict q1 0 7); ("b2", Dba.LValue.restrict q2 0 7); ("b3", Dba.LValue.restrict q3 0 7); ("b4", Dba.LValue.restrict q4 0 7); ("b5", Dba.LValue.restrict q5 0 7); ("b6", Dba.LValue.restrict q6 0 7); ("b7", Dba.LValue.restrict q7 0 7); ("b8", Dba.LValue.restrict q8 0 7); ("b9", Dba.LValue.restrict q9 0 7); ("b10", Dba.LValue.restrict q10 0 7); ("b11", Dba.LValue.restrict q11 0 7); ("b12", Dba.LValue.restrict q12 0 7); ("b13", Dba.LValue.restrict q13 0 7); ("b14", Dba.LValue.restrict q14 0 7); ("b15", Dba.LValue.restrict q15 0 7); ("b16", Dba.LValue.restrict q16 0 7); ("b17", Dba.LValue.restrict q17 0 7); ("b18", Dba.LValue.restrict q18 0 7); ("b19", Dba.LValue.restrict q19 0 7); ("b20", Dba.LValue.restrict q20 0 7); ("b21", Dba.LValue.restrict q21 0 7); ("b22", Dba.LValue.restrict q22 0 7); ("b23", Dba.LValue.restrict q23 0 7); ("b24", Dba.LValue.restrict q24 0 7); ("b25", Dba.LValue.restrict q25 0 7); ("b26", Dba.LValue.restrict q26 0 7); ("b27", Dba.LValue.restrict q27 0 7); ("b28", Dba.LValue.restrict q28 0 7); ("b29", Dba.LValue.restrict q29 0 7); ("b30", Dba.LValue.restrict q30 0 7); ("b31", Dba.LValue.restrict q31 0 7); ] let get_shortlived_flags () = [] let core img = Array.fold_left (fun ((entrypoint, defs) as result) -> function | { Loader_elf.Note.name = "CORE"; kind = 1; offset = at; _ } -> let cursor = Loader_elf.Img.cursor ~at img in Reader.advance cursor 0x70; let vx0 = Dba.Expr.constant (Reader.Read.bv64 cursor) in let vx1 = Dba.Expr.constant (Reader.Read.bv64 cursor) in let vx2 = Dba.Expr.constant (Reader.Read.bv64 cursor) in let vx3 = Dba.Expr.constant (Reader.Read.bv64 cursor) in let vx4 = Dba.Expr.constant (Reader.Read.bv64 cursor) in let vx5 = Dba.Expr.constant (Reader.Read.bv64 cursor) in let vx6 = Dba.Expr.constant (Reader.Read.bv64 cursor) in let vx7 = Dba.Expr.constant (Reader.Read.bv64 cursor) in let vx8 = Dba.Expr.constant (Reader.Read.bv64 cursor) in let vx9 = Dba.Expr.constant (Reader.Read.bv64 cursor) in let vx10 = Dba.Expr.constant (Reader.Read.bv64 cursor) in let vx11 = Dba.Expr.constant (Reader.Read.bv64 cursor) in let vx12 = Dba.Expr.constant (Reader.Read.bv64 cursor) in let vx13 = Dba.Expr.constant (Reader.Read.bv64 cursor) in let vx14 = Dba.Expr.constant (Reader.Read.bv64 cursor) in let vx15 = Dba.Expr.constant (Reader.Read.bv64 cursor) in let vx16 = Dba.Expr.constant (Reader.Read.bv64 cursor) in let vx17 = Dba.Expr.constant (Reader.Read.bv64 cursor) in let vx18 = Dba.Expr.constant (Reader.Read.bv64 cursor) in let vx19 = Dba.Expr.constant (Reader.Read.bv64 cursor) in let vx20 = Dba.Expr.constant (Reader.Read.bv64 cursor) in let vx21 = Dba.Expr.constant (Reader.Read.bv64 cursor) in let vx22 = Dba.Expr.constant (Reader.Read.bv64 cursor) in let vx23 = Dba.Expr.constant (Reader.Read.bv64 cursor) in let vx24 = Dba.Expr.constant (Reader.Read.bv64 cursor) in let vx25 = Dba.Expr.constant (Reader.Read.bv64 cursor) in let vx26 = Dba.Expr.constant (Reader.Read.bv64 cursor) in let vx27 = Dba.Expr.constant (Reader.Read.bv64 cursor) in let vx28 = Dba.Expr.constant (Reader.Read.bv64 cursor) in let vx29 = Dba.Expr.constant (Reader.Read.bv64 cursor) in let vx30 = Dba.Expr.constant (Reader.Read.bv64 cursor) in let vsp = Dba.Expr.constant (Reader.Read.bv64 cursor) in let vpc = Virtual_address.of_bitvector (Reader.Read.bv64 cursor) in Reader.advance cursor 3; let spsr_31_24 = Uint8.to_int (Reader.Read.u8 cursor) in let vn = Dba.Expr.constant (Bitvector.of_int ~size:1 ((spsr_31_24 lsr 7) land 0b1)) and vz = Dba.Expr.constant (Bitvector.of_int ~size:1 ((spsr_31_24 lsr 6) land 0b1)) and vc = Dba.Expr.constant (Bitvector.of_int ~size:1 ((spsr_31_24 lsr 5) land 0b1)) and vv = Dba.Expr.constant (Bitvector.of_int ~size:1 ((spsr_31_24 lsr 4) land 0b1)) in ( vpc, List.rev_append [ (x0, vx0); (x1, vx1); (x2, vx2); (x3, vx3); (x4, vx4); (x5, vx5); (x6, vx6); (x7, vx7); (x8, vx8); (x9, vx9); (x10, vx10); (x11, vx11); (x12, vx12); (x13, vx13); (x14, vx14); (x15, vx15); (x16, vx16); (x17, vx17); (x18, vx18); (x19, vx19); (x20, vx20); (x21, vx21); (x22, vx22); (x23, vx23); (x24, vx24); (x25, vx25); (x26, vx26); (x27, vx27); (x28, vx28); (x29, vx29); (x30, vx30); (sp, vsp); (n, vn); (z, vz); (c, vc); (v, vv); ] defs ) | { Loader_elf.Note.name = "CORE"; kind = 2; offset = at; _ } -> let cursor = Loader_elf.Img.cursor ~at img in ( entrypoint, Array.fold_left (fun defs q -> (q, Dba.Expr.constant (Reader.Read.read cursor 16)) :: defs) defs qx ) | _ -> result) (Virtual_address.create 0, []) (Loader_elf.notes img) let get_defs () = defs let x0_l = Dba.LValue.v x0 and x0_r = Dba.Expr.v x0 and x1_r = Dba.Expr.v x1 and x2_r = Dba.Expr.v x2 and x3_r = Dba.Expr.v x3 and x4_r = Dba.Expr.v x4 and x5_r = Dba.Expr.v x5 and x6_r = Dba.Expr.v x6 and x7_r = Dba.Expr.v x7 and x30_r = Dba.Expr.v x30 and sp_r = Dba.Expr.v sp let ret = x0_l let get_return_address () = x30_r let get_arg ?(syscall = false) i = if syscall then Errors.not_yet_implemented "syscall"; match i with | 0 -> x0_r | 1 -> x1_r | 2 -> x2_r | 3 -> x3_r | 4 -> x4_r | 5 -> x5_r | 6 -> x6_r | 7 -> x7_r | i -> Dba.Expr.load Size.Byte.four LittleEndian (Dba.Expr.add sp_r (Dba.Expr.constant (Bitvector.of_int ~size:64 (8 * (i - 8))))) let get_ret ?syscall:_ () = ret let void_return = Dhunk.singleton (Dba.Instr.dynamic_jump ~tag:Return x30_r) and val_return value = Dhunk.init 2 (function | 0 -> Dba.Instr.assign x0_l value 1 | _ -> Dba.Instr.dynamic_jump ~tag:Return x30_r) let make_return ?value () = match (value : Dba.Expr.t option) with | None -> void_return | Some (Var v) when Dba.Var.equal v x0 -> void_return | Some value -> val_return value let rx_r = Array.map Dba.Expr.v rx and pc_r = Dba.Expr.var "pc" 64 let get_dwarf_register = function | ( 0 | 1 | 2 | 3 | 4 | 5 | 6 | 7 | 8 | 9 | 10 | 11 | 12 | 13 | 14 | 15 | 16 | 17 | 18 | 19 | 20 | 21 | 22 | 23 | 24 | 25 | 26 | 27 | 28 | 29 | 30 ) as n -> Array.get rx_r n | 31 -> sp_r | 32 -> pc_r | n -> Isa_logger.fatal "unable to map integer %d to a known expression" n let get_stack_pointer () = (sp, Bitvector.of_int64 0x7fff000000000000L) let max_instruction_len = Size.Byte.four end module PPC64 : ARCH = struct let rx = Array.init 32 (fun i -> Dba.Var.create (Format.sprintf "r%d" i) ~bitsize:Size.Bit.bits64 ~tag:Register) let reg = Array.get rx let ctr = Dba.Var.create "ctr" ~bitsize:Size.Bit.bits64 ~tag:Register let lr = Dba.Var.create "lr" ~bitsize:Size.Bit.bits64 ~tag:Register let xer = Dba.Var.create "xer" ~bitsize:Size.Bit.bits64 ~tag:Register let crx = Array.init 32 (fun i -> let n = i / 4 in let c = match i mod 4 with 0 -> "lt" | 1 -> "gt" | 2 -> "eq" | _ -> "so" in Dba.Var.create (Format.sprintf "cr%d%s" n c) ~bitsize:Size.Bit.bits1 ~tag:Flag) let defs = let push : (string * Dba.LValue.t) list -> Dba.Var.t -> (string * Dba.LValue.t) list = fun defs ({ name; _ } as r) -> (name, Dba.LValue.v r) :: defs in Array.fold_left push (Array.fold_left push [ ("ctr", Dba.LValue.v ctr); ("lr", Dba.LValue.v lr); ("xer", Dba.LValue.v xer); ] crx) rx let get_shortlived_flags () = [] let core img = Array.fold_left (fun ((_, defs) as result) -> function | { Loader_elf.Note.name = "CORE"; kind = 1; offset = at; _ } -> let cursor = Loader_elf.Img.cursor ~at img in let push : (Dba.Var.t * Dba.Expr.t) list -> Dba.Var.t -> (Dba.Var.t * Dba.Expr.t) list = fun acc r -> (r, Dba.Expr.constant (Reader.Read.bv64 cursor)) :: acc in Reader.advance cursor 0x70; let defs = Array.fold_left push defs rx in let vpc = Virtual_address.of_bitvector (Reader.Read.bv64 cursor) in Reader.advance cursor 0x10; let defs = push defs ctr in let defs = push defs lr in let defs = push defs xer in let ccr = Reader.Read.bv64 cursor in let defs = Array_utils.fold_lefti (fun i acc cr -> (cr, Dba.Expr.constant (Bitvector.extract ~hi:i ~lo:i ccr)) :: acc) defs crx in (vpc, defs) | _ -> result) (Virtual_address.create 0, []) (Loader_elf.notes img) let get_defs () = defs let r3_l = Dba.LValue.v (reg 3) and r3_r = Dba.Expr.v (reg 3) and r4_r = Dba.Expr.v (reg 4) and r5_r = Dba.Expr.v (reg 5) and r6_r = Dba.Expr.v (reg 6) and r7_r = Dba.Expr.v (reg 7) and r8_r = Dba.Expr.v (reg 8) and r9_r = Dba.Expr.v (reg 9) and r10_r = Dba.Expr.v (reg 10) and lr_r = Dba.Expr.v lr and r1_r = Dba.Expr.v (reg 1) let ret = r3_l let get_return_address () = lr_r let get_arg ?(syscall = false) i = if syscall then Errors.not_yet_implemented "syscall"; match i with | 0 -> r3_r | 1 -> r4_r | 2 -> r5_r | 3 -> r6_r | 4 -> r7_r | 5 -> r8_r | 6 -> r9_r | 7 -> r10_r | i -> Dba.Expr.load Size.Byte.four LittleEndian (Dba.Expr.add r1_r (Dba.Expr.constant (Bitvector.of_int ~size:64 (8 * (i - 8))))) let get_ret ?syscall:_ () = ret let void_return = Dhunk.singleton (Dba.Instr.dynamic_jump ~tag:Return lr_r) and val_return value = Dhunk.init 2 (function | 0 -> Dba.Instr.assign r3_l value 1 | _ -> Dba.Instr.dynamic_jump ~tag:Return lr_r) let make_return ?value () = match (value : Dba.Expr.t option) with | None -> void_return | Some (Var v) when Dba.Var.equal v (reg 3) -> void_return | Some value -> val_return value let get_stack_pointer () = (reg 1, Bitvector.of_int64 0x7fff000000000000L) let get_dwarf_register _ = Errors.not_yet_implemented "PPC64 dwarf mapping" let max_instruction_len = Size.Byte.four end module RISCV (C : sig val size : int end) : ARCH = struct let registers = Array.map (fun name -> Dba.Var.create name ~bitsize:(Size.Bit.create C.size) ~tag:Dba.Var.Tag.Register) [| "ra"; "sp"; "gp"; "tp"; "t0"; "t1"; "t2"; "s0"; "s1"; "a0"; "a1"; "a2"; "a3"; "a4"; "a5"; "a6"; "a7"; "s2"; "s3"; "s4"; "s5"; "s6"; "s7"; "s8"; "s9"; "s10"; "s11"; "t3"; "t4"; "t5"; "t6"; |] let reg i = Array.get registers (i - 1) let defs = Array.to_list (Array.map (fun (var : Dba.Var.t) -> (var.name, Dba.LValue.v var)) registers) let get_shortlived_flags () = [] let get_defs () = defs let core img = Array.fold_left (fun ((_, defs) as result) -> function | { Loader_elf.Note.name = "CORE"; kind = 1; offset = at; size } -> let cursor = Loader_elf.Img.cursor ~at img in let offset, read, entsz = if C.size = 32 then (0x48, Reader.Read.bv32, 4) else (0x70, Reader.Read.bv64, 8) in Reader.advance cursor offset; let vpc = Virtual_address.of_bitvector (read cursor) in let rec loop n i acc = if i = n then acc else loop n (i + 1) ((reg i, Dba.Expr.constant (read cursor)) :: acc) in (vpc, loop (max (((size - offset) / entsz) - 2) 31) 1 defs) | _ -> result) (Virtual_address.create 0, []) (Loader_elf.notes img) let a0 = reg 10 let a0_l = Dba.LValue.v a0 and a0_r = Dba.Expr.v a0 and a1_r = Dba.Expr.v (reg 11) and a2_r = Dba.Expr.v (reg 12) and a3_r = Dba.Expr.v (reg 13) and a4_r = Dba.Expr.v (reg 14) and a5_r = Dba.Expr.v (reg 15) and a6_r = Dba.Expr.v (reg 16) and a7_r = Dba.Expr.v (reg 17) and ra_r = Dba.Expr.v (reg 1) and sp_r = Dba.Expr.v (reg 2) let bytesize = Size.Byte.create (C.size / 8) let ret = a0_l let get_return_address () = ra_r let get_arg ?(syscall = false) i = if syscall then Errors.not_yet_implemented "syscall"; match i with | 0 -> a0_r | 1 -> a1_r | 2 -> a2_r | 3 -> a3_r | 4 -> a4_r | 5 -> a5_r | 6 -> a6_r | 7 -> a7_r | i -> Dba.Expr.load bytesize LittleEndian (Dba.Expr.add sp_r (Dba.Expr.constant (Bitvector.of_int ~size:C.size (C.size / 8 * (i - 8))))) let get_ret ?syscall:_ () = ret let void_return = Dhunk.singleton (Dba.Instr.dynamic_jump ~tag:Return ra_r) and val_return value = Dhunk.init 2 (function | 0 -> Dba.Instr.assign a0_l value 1 | _ -> Dba.Instr.dynamic_jump ~tag:Return ra_r) let make_return ?value () = match (value : Dba.Expr.t option) with | None -> void_return | Some (Var v) when Dba.Var.equal v a0 -> void_return | Some value -> val_return value let get_stack_pointer () = ( reg 2, match C.size with | 32 -> Bitvector.of_int32 0xfff00000l | 64 -> Bitvector.of_int64 0x7fff000000000000L | _ -> raise (Errors.not_yet_implemented "incomplete architecture definition") ) let get_dwarf_register _ = Errors.not_yet_implemented "RISCV dwarf mapping" let max_instruction_len = Size.Byte.four end module RISCV32 = RISCV (struct let size = 32 end) module RISCV64 = RISCV (struct let size = 64 end) module SPARCV8 : ARCH = struct let info = Dba.Var.Tag.Register let rr = Array.init 32 (fun i -> Dba.Var.create (Format.sprintf "%c%d" (String.get "goli" (i / 8)) (i mod 8)) ~bitsize:Size.Bit.bits32 ~tag:info) let r0 = Array.get rr 0 and r1 = Array.get rr 1 and r2 = Array.get rr 2 and r3 = Array.get rr 3 and r4 = Array.get rr 4 and r5 = Array.get rr 5 and r6 = Array.get rr 6 and r7 = Array.get rr 7 and r8 = Array.get rr 8 and r9 = Array.get rr 9 and r10 = Array.get rr 10 and r11 = Array.get rr 11 and r12 = Array.get rr 12 and r13 = Array.get rr 13 and r14 = Array.get rr 14 and r15 = Array.get rr 15 and r16 = Array.get rr 16 and r17 = Array.get rr 17 and r18 = Array.get rr 18 and r19 = Array.get rr 19 and r20 = Array.get rr 20 and r21 = Array.get rr 21 and r22 = Array.get rr 22 and r23 = Array.get rr 23 and r24 = Array.get rr 24 and r25 = Array.get rr 25 and r26 = Array.get rr 26 and r27 = Array.get rr 27 and r28 = Array.get rr 28 and r29 = Array.get rr 29 and r30 = Array.get rr 30 and r31 = Array.get rr 31 let info = Dba.Var.Tag.Flag let n = Dba.Var.create "n" ~bitsize:Size.Bit.bits1 ~tag:info and z = Dba.Var.create "z" ~bitsize:Size.Bit.bits1 ~tag:info and c = Dba.Var.create "c" ~bitsize:Size.Bit.bits1 ~tag:info and v = Dba.Var.create "v" ~bitsize:Size.Bit.bits1 ~tag:info let defs = [ ("r0", Dba.LValue.v r0); ("r1", Dba.LValue.v r1); ("r2", Dba.LValue.v r2); ("r3", Dba.LValue.v r3); ("r4", Dba.LValue.v r4); ("r5", Dba.LValue.v r5); ("r6", Dba.LValue.v r6); ("r7", Dba.LValue.v r7); ("r8", Dba.LValue.v r8); ("r9", Dba.LValue.v r9); ("r10", Dba.LValue.v r10); ("r11", Dba.LValue.v r11); ("r12", Dba.LValue.v r12); ("r13", Dba.LValue.v r13); ("r14", Dba.LValue.v r14); ("r15", Dba.LValue.v r15); ("r16", Dba.LValue.v r16); ("r17", Dba.LValue.v r17); ("r18", Dba.LValue.v r18); ("r19", Dba.LValue.v r19); ("r20", Dba.LValue.v r20); ("r21", Dba.LValue.v r21); ("r22", Dba.LValue.v r22); ("r23", Dba.LValue.v r23); ("r24", Dba.LValue.v r24); ("r25", Dba.LValue.v r25); ("r26", Dba.LValue.v r26); ("r27", Dba.LValue.v r27); ("r28", Dba.LValue.v r28); ("r29", Dba.LValue.v r29); ("r30", Dba.LValue.v r30); ("r31", Dba.LValue.v r31); ("g0", Dba.LValue.v r0); ("g1", Dba.LValue.v r1); ("g2", Dba.LValue.v r2); ("g3", Dba.LValue.v r3); ("g4", Dba.LValue.v r4); ("g5", Dba.LValue.v r5); ("g6", Dba.LValue.v r6); ("g7", Dba.LValue.v r7); ("o0", Dba.LValue.v r8); ("o1", Dba.LValue.v r9); ("o2", Dba.LValue.v r10); ("o3", Dba.LValue.v r11); ("o4", Dba.LValue.v r12); ("o5", Dba.LValue.v r13); ("o6", Dba.LValue.v r14); ("o7", Dba.LValue.v r15); ("l0", Dba.LValue.v r16); ("l1", Dba.LValue.v r17); ("l2", Dba.LValue.v r18); ("l3", Dba.LValue.v r19); ("l4", Dba.LValue.v r20); ("l5", Dba.LValue.v r21); ("l6", Dba.LValue.v r22); ("l7", Dba.LValue.v r23); ("i0", Dba.LValue.v r24); ("i1", Dba.LValue.v r25); ("i2", Dba.LValue.v r26); ("i3", Dba.LValue.v r27); ("i4", Dba.LValue.v r28); ("i5", Dba.LValue.v r29); ("i6", Dba.LValue.v r30); ("i7", Dba.LValue.v r31); ("sp", Dba.LValue.v r14); ("fp", Dba.LValue.v r30); ("n", Dba.LValue.v n); ("z", Dba.LValue.v z); ("c", Dba.LValue.v c); ("v", Dba.LValue.v v); ] let get_shortlived_flags () = [] let core _ = Errors.not_yet_implemented "SPARC core" let get_defs () = defs let o0_l = Dba.LValue.v r8 and o0_r = Dba.Expr.v r8 and o1_r = Dba.Expr.v r9 and o2_r = Dba.Expr.v r10 and o3_r = Dba.Expr.v r11 and o4_r = Dba.Expr.v r12 and o5_r = Dba.Expr.v r13 and sp = r14 let ret = o0_l let return_address = Dba.Expr.add (Dba.Expr.v r15) (Dba.Expr.constant (Bitvector.of_int ~size:32 8)) let get_return_address () = return_address let get_arg ?(syscall = false) i = if syscall then Errors.not_yet_implemented "syscall"; match i with | 0 -> o0_r | 1 -> o1_r | 2 -> o2_r | 3 -> o3_r | 4 -> o4_r | 5 -> o5_r | _ -> Errors.not_yet_implemented "SPARC calling convention" let get_ret ?syscall:_ () = ret let void_return = Dhunk.singleton (Dba.Instr.dynamic_jump ~tag:Return return_address) and val_return value = Dhunk.init 2 (function | 0 -> Dba.Instr.assign o0_l value 1 | _ -> Dba.Instr.dynamic_jump ~tag:Return return_address) let make_return ?value () = match (value : Dba.Expr.t option) with | None -> void_return | Some (Var v) when Dba.Var.equal v r8 -> void_return | Some value -> val_return value let get_dwarf_register _ = Errors.not_yet_implemented "SPARC DWARF register mapping" let get_stack_pointer () = (sp, Bitvector.of_int64 0x7fff000000000000L) let max_instruction_len = Size.Byte.four end module Z80 : ARCH = struct let defs = let add r l = let name = Z80_arch.name r in let lval = Z80_arch.lval r in (name, lval) :: (String.lowercase_ascii name, lval) :: l in Array.fold_right add Z80_arch.registers16 (Array.fold_right add Z80_arch.registers8 (Array.fold_right add Z80_arch.flags [])) let get_shortlived_flags () = [] let get_defs () = defs let get_return_address () = Errors.not_yet_implemented "Z80 calling convention" let get_arg ?syscall:_ _ = Errors.not_yet_implemented "Z80 calling convention" let get_ret ?syscall:_ () = Errors.not_yet_implemented "Z80 calling convention" let make_return ?value:_ () = Errors.not_yet_implemented "Z80 calling convention" let get_stack_pointer () = Errors.not_yet_implemented "Z80 definitions" let get_dwarf_register _ = Errors.not_yet_implemented "Z80 dwarf mapping" let core _ = Errors.not_yet_implemented "Z80 core" let max_instruction_len = Size.Byte.four end module Unknown : ARCH = struct let err = Invalid_argument "unknown architecture" let get_shortlived_flags () = raise err let get_defs () = raise err let get_return_address () = raise err let get_arg ?syscall:_ _ = raise err let get_ret ?syscall:_ () = raise err let make_return ?value:_ () = raise err let get_stack_pointer () = raise err let get_dwarf_register _ = raise err let core _ = raise err let max_instruction_len = Size.Byte.one end let get : Machine.t -> (module ARCH) = function | Unknown -> (module Unknown) | X86 { bits = `x32 } -> (module X86) | X86 { bits = `x64 } -> (module AMD64) | ARM { rev = `v7 _; endianness = LittleEndian } -> (module ARM) | ARM { rev = `v8; endianness = LittleEndian } -> (module AARCH64) | PPC { bits = `x64; _ } -> (module PPC64) | RISCV { bits = `x32 } -> (module RISCV32) | RISCV { bits = `x64 } -> (module RISCV64) | SPARC { rev = `v8 } -> (module SPARCV8) | Z80 -> (module Z80) | _ -> (* TODO *) Errors.not_yet_implemented "incomplete architecture definition"