Source file isa_helper.ml
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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 =
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
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
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)
| _ ->
Errors.not_yet_implemented "incomplete architecture definition"