PR tree-optimization/85699
[official-gcc.git] / gcc / ada / vxaddr2line.adb
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1 ------------------------------------------------------------------------------
2 -- --
3 -- GNAT COMPILER COMPONENTS --
4 -- --
5 -- V X A D D R 2 L I N E --
6 -- --
7 -- B o d y --
8 -- --
9 -- Copyright (C) 2002-2018, AdaCore --
10 -- --
11 -- GNAT is free software; you can redistribute it and/or modify it under --
12 -- terms of the GNU General Public License as published by the Free Soft- --
13 -- ware Foundation; either version 3, or (at your option) any later ver- --
14 -- sion. GNAT is distributed in the hope that it will be useful, but WITH- --
15 -- OUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY --
16 -- or FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License --
17 -- for more details. You should have received a copy of the GNU General --
18 -- Public License distributed with GNAT; see file COPYING3. If not, go to --
19 -- http://www.gnu.org/licenses for a complete copy of the license. --
20 -- --
21 -- GNAT was originally developed by the GNAT team at New York University. --
22 -- Extensive contributions were provided by Ada Core Technologies Inc. --
23 -- --
24 ------------------------------------------------------------------------------
26 -- This program is meant to be used with vxworks to compute symbolic
27 -- backtraces on the host from non-symbolic backtraces obtained on the target.
29 -- The basic idea is to automate the computation of the necessary address
30 -- adjustments prior to calling addr2line when the application has only been
31 -- partially linked on the host.
33 -- Variants for various targets are supported, and the command line should
34 -- be like :
36 -- <target>-addr2line [-a <target_arch>] <exe_file> <ref_address>
37 -- <backtrace addresses>
39 -- Where:
40 -- <target_arch> :
41 -- selects the target architecture. In the absence of this parameter the
42 -- default variant is chosen based on the Detect_Arch result. Generally,
43 -- this parameter will only be used if vxaddr2line is recompiled manually.
44 -- Otherwise, the command name will always be of the form:
45 -- <target>-vxaddr2line
46 -- where there is no ambiguity on the target's architecture.
48 -- <exe_file> :
49 -- The name of the partially linked binary file for the application.
51 -- <ref_address> :
52 -- Runtime address (on the target) of a reference symbol you choose. This
53 -- name must match the value of the Ref_Symbol variable declared below.
54 -- A symbol with a small offset from the beginning of the text segment is
55 -- better, so "adainit" is a good choice.
57 -- <backtrace addresses> :
58 -- The call chain addresses you obtained at run time on the target and
59 -- for which you want a symbolic association.
61 -- TO ADD A NEW ARCHITECTURE add an appropriate value to Architecture type
62 -- (in a format <host>_<target>), and then an appropriate value to Config_List
63 -- array
65 with Ada.Text_IO; use Ada.Text_IO;
66 with Ada.Command_Line; use Ada.Command_Line;
67 with Ada.Strings.Fixed; use Ada.Strings.Fixed;
68 with Interfaces; use Interfaces;
70 with GNAT.OS_Lib; use GNAT.OS_Lib;
71 with GNAT.Directory_Operations; use GNAT.Directory_Operations;
72 with GNAT.Expect; use GNAT.Expect;
73 with GNAT.Regpat; use GNAT.Regpat;
75 procedure VxAddr2Line is
77 package Unsigned_64_IO is new Modular_IO (Unsigned_64);
78 -- Instantiate Modular_IO to have Put
80 Ref_Symbol : constant String := "adainit";
81 -- This is the name of the reference symbol whose runtime address must
82 -- be provided as the <ref_address> argument.
84 -- All supported architectures
85 type Architecture is
86 (LINUX_AARCH64,
87 LINUX_ARM,
88 LINUX_E500V2,
89 LINUX_I586,
90 LINUX_POWERPC,
91 LINUX_POWERPC64,
92 LINUX_X86_64,
93 WINDOWS_AARCH64,
94 WINDOWS_ARM,
95 WINDOWS_E500V2,
96 WINDOWS_I586,
97 WINDOWS_POWERPC,
98 WINDOWS_POWERPC64,
99 WINDOWS_X86_64);
101 type Arch_Record is record
102 Addr2line_Binary : String_Access;
103 -- Name of the addr2line utility to use
105 Nm_Binary : String_Access;
106 -- Name of the host nm utility, which will be used to find out the
107 -- offset of the reference symbol in the text segment of the partially
108 -- linked executable.
110 Addr_Digits_To_Skip : Integer;
111 -- When addresses such as 0xfffffc0001dfed50 are provided, for instance
112 -- on ALPHA, indicate the number of leading digits that can be ignored,
113 -- which will avoid computational overflows. Typically only useful when
114 -- 64bit addresses are provided.
116 Bt_Offset_From_Call : Unsigned_64;
117 -- Offset from a backtrace address to the address of the corresponding
118 -- call instruction. This should always be 0, except on platforms where
119 -- the backtrace addresses actually correspond to return and not call
120 -- points. In such cases, a negative value is most likely.
121 end record;
123 -- Configuration for each of the architectures
124 Arch_List : array (Architecture'Range) of Arch_Record :=
125 (LINUX_AARCH64 =>
126 (Addr2line_Binary => null,
127 Nm_Binary => null,
128 Addr_Digits_To_Skip => 0,
129 Bt_Offset_From_Call => -2),
130 LINUX_ARM =>
131 (Addr2line_Binary => null,
132 Nm_Binary => null,
133 Addr_Digits_To_Skip => 0,
134 Bt_Offset_From_Call => -2),
135 LINUX_E500V2 =>
136 (Addr2line_Binary => null,
137 Nm_Binary => null,
138 Addr_Digits_To_Skip => 0,
139 Bt_Offset_From_Call => -4),
140 LINUX_I586 =>
141 (Addr2line_Binary => null,
142 Nm_Binary => null,
143 Addr_Digits_To_Skip => 0,
144 Bt_Offset_From_Call => -2),
145 LINUX_POWERPC =>
146 (Addr2line_Binary => null,
147 Nm_Binary => null,
148 Addr_Digits_To_Skip => 0,
149 Bt_Offset_From_Call => -4),
150 LINUX_POWERPC64 =>
151 (Addr2line_Binary => null,
152 Nm_Binary => null,
153 Addr_Digits_To_Skip => 0,
154 Bt_Offset_From_Call => -4),
155 LINUX_X86_64 =>
156 (Addr2line_Binary => null,
157 Nm_Binary => null,
158 Addr_Digits_To_Skip => 0,
159 Bt_Offset_From_Call => -2),
160 WINDOWS_AARCH64 =>
161 (Addr2line_Binary => null,
162 Nm_Binary => null,
163 Addr_Digits_To_Skip => 0,
164 Bt_Offset_From_Call => -2),
165 WINDOWS_ARM =>
166 (Addr2line_Binary => null,
167 Nm_Binary => null,
168 Addr_Digits_To_Skip => 0,
169 Bt_Offset_From_Call => -2),
170 WINDOWS_E500V2 =>
171 (Addr2line_Binary => null,
172 Nm_Binary => null,
173 Addr_Digits_To_Skip => 0,
174 Bt_Offset_From_Call => -4),
175 WINDOWS_I586 =>
176 (Addr2line_Binary => null,
177 Nm_Binary => null,
178 Addr_Digits_To_Skip => 0,
179 Bt_Offset_From_Call => -2),
180 WINDOWS_POWERPC =>
181 (Addr2line_Binary => null,
182 Nm_Binary => null,
183 Addr_Digits_To_Skip => 0,
184 Bt_Offset_From_Call => -4),
185 WINDOWS_POWERPC64 =>
186 (Addr2line_Binary => null,
187 Nm_Binary => null,
188 Addr_Digits_To_Skip => 0,
189 Bt_Offset_From_Call => -4),
190 WINDOWS_X86_64 =>
191 (Addr2line_Binary => null,
192 Nm_Binary => null,
193 Addr_Digits_To_Skip => 0,
194 Bt_Offset_From_Call => -2)
197 -- Current architecture
198 Cur_Arch : Architecture;
200 -- State of architecture detection
201 Detect_Success : Boolean := False;
203 -----------------------
204 -- Local subprograms --
205 -----------------------
207 procedure Error (Msg : String);
208 pragma No_Return (Error);
209 -- Prints the message and then terminates the program
211 procedure Usage;
212 -- Displays the short help message and then terminates the program
214 function Get_Reference_Offset return Unsigned_64;
215 -- Computes the static offset of the reference symbol by calling nm
217 function Get_Value_From_Hex_Arg (Arg : Natural) return Unsigned_64;
218 -- Threats the argument number Arg as a C-style hexadecimal literal
219 -- and returns its integer value
221 function Hex_Image (Value : Unsigned_64) return String_Access;
222 -- Returns access to a string that contains hexadecimal image of Value
224 -- Separate functions that provide build-time customization:
226 procedure Detect_Arch;
227 -- Saves in Cur_Arch the current architecture, based on the name of
228 -- vxaddr2line instance and properties of the host. Detect_Success is False
229 -- if detection fails
231 -----------------
232 -- Detect_Arch --
233 -----------------
235 procedure Detect_Arch is
236 Name : constant String := Base_Name (Command_Name);
237 Proc : constant String :=
238 Name (Name'First .. Index (Name, "-") - 1);
239 Target : constant String :=
240 Name (Name'First .. Index (Name, "vxaddr2line") - 1);
242 begin
243 Detect_Success := False;
245 if Proc = "" then
246 return;
247 end if;
249 -- Let's detect a Linux or Windows host.
250 if Directory_Separator = '/' then
251 Cur_Arch := Architecture'Value ("linux_" & Proc);
252 else
253 Cur_Arch := Architecture'Value ("windows_" & Proc);
254 end if;
256 if Arch_List (Cur_Arch).Addr2line_Binary = null then
257 Arch_List (Cur_Arch).Addr2line_Binary := new String'
258 (Target & "addr2line");
259 end if;
260 if Arch_List (Cur_Arch).Nm_Binary = null then
261 Arch_List (Cur_Arch).Nm_Binary := new String'
262 (Target & "nm");
263 end if;
265 Detect_Success := True;
267 exception
268 when others =>
269 return;
270 end Detect_Arch;
272 -----------
273 -- Error --
274 -----------
276 procedure Error (Msg : String) is
277 begin
278 Put_Line (Msg);
279 OS_Exit (1);
280 raise Program_Error;
281 end Error;
283 --------------------------
284 -- Get_Reference_Offset --
285 --------------------------
287 function Get_Reference_Offset return Unsigned_64 is
288 Nm_Cmd : constant String_Access :=
289 Locate_Exec_On_Path (Arch_List (Cur_Arch).Nm_Binary.all);
291 Nm_Args : constant Argument_List :=
292 (new String'("-P"),
293 new String'(Argument (1)));
295 Forever : aliased String := "^@@@@";
296 Reference : aliased String := Ref_Symbol & "\s+\S\s+([\da-fA-F]+)";
298 Pd : Process_Descriptor;
299 Result : Expect_Match;
301 begin
302 -- If Nm is not found, abort
304 if Nm_Cmd = null then
305 Error ("Couldn't find " & Arch_List (Cur_Arch).Nm_Binary.all);
306 end if;
308 Non_Blocking_Spawn
309 (Pd, Nm_Cmd.all, Nm_Args, Buffer_Size => 0, Err_To_Out => True);
311 -- Expect a string containing the reference symbol
313 Expect (Pd, Result,
314 Regexp_Array'(1 => Reference'Unchecked_Access),
315 Timeout => -1);
317 -- If we are here, the pattern was matched successfully
319 declare
320 Match_String : constant String := Expect_Out_Match (Pd);
321 Matches : Match_Array (0 .. 1);
322 Value : Unsigned_64;
324 begin
325 Match (Reference, Match_String, Matches);
326 Value := Unsigned_64'Value
327 ("16#"
328 & Match_String (Matches (1).First .. Matches (1).Last) & "#");
330 -- Expect a string that will never be emitted, so that the
331 -- process can be correctly terminated (with Process_Died)
333 Expect (Pd, Result,
334 Regexp_Array'(1 => Forever'Unchecked_Access),
335 Timeout => -1);
337 exception
338 when Process_Died =>
339 return Value;
340 end;
342 -- We cannot get here
344 raise Program_Error;
346 exception
347 when Invalid_Process =>
348 Error ("Could not spawn a process " & Nm_Cmd.all);
350 when others =>
352 -- The process died without matching the reference symbol or the
353 -- format wasn't recognized.
355 Error ("Unexpected output from " & Nm_Cmd.all);
356 end Get_Reference_Offset;
358 ----------------------------
359 -- Get_Value_From_Hex_Arg --
360 ----------------------------
362 function Get_Value_From_Hex_Arg (Arg : Natural) return Unsigned_64 is
363 Cur_Arg : constant String := Argument (Arg);
364 Offset : Natural;
366 begin
367 -- Skip "0x" prefix if present
369 if Cur_Arg'Length > 2 and then Cur_Arg (1 .. 2) = "0x" then
370 Offset := 3;
371 else
372 Offset := 1;
373 end if;
375 -- Add architecture-specific offset
377 Offset := Offset + Arch_List (Cur_Arch).Addr_Digits_To_Skip;
379 -- Convert to value
381 return Unsigned_64'Value
382 ("16#" & Cur_Arg (Offset .. Cur_Arg'Last) & "#");
384 exception
385 when Constraint_Error =>
387 Error ("Can't parse backtrace address '" & Cur_Arg & "'");
388 raise;
389 end Get_Value_From_Hex_Arg;
391 ---------------
392 -- Hex_Image --
393 ---------------
395 function Hex_Image (Value : Unsigned_64) return String_Access is
396 Result : String (1 .. 20);
397 Start_Pos : Natural;
399 begin
400 Unsigned_64_IO.Put (Result, Value, 16);
401 Start_Pos := Index (Result, "16#") + 3;
402 return new String'(Result (Start_Pos .. Result'Last - 1));
403 end Hex_Image;
405 -----------
406 -- Usage --
407 -----------
409 procedure Usage is
410 begin
411 Put_Line ("Usage : " & Base_Name (Command_Name)
412 & " <executable> <"
413 & Ref_Symbol & " offset on target> <addr1> ...");
415 OS_Exit (1);
416 end Usage;
418 Ref_Static_Offset, Ref_Runtime_Address, Bt_Address : Unsigned_64;
420 Addr2line_Cmd : String_Access;
422 Addr2line_Args : Argument_List (1 .. 501);
423 -- We expect that there won't be more than 500 backtrace frames
425 Addr2line_Args_Count : Natural;
427 Success : Boolean;
429 -- Start of processing for VxAddr2Line
431 begin
433 Detect_Arch;
435 -- There should be at least two arguments
437 if Argument_Count < 2 then
438 Usage;
439 end if;
441 -- Enforce HARD LIMIT There should be at most 501 arguments. Why 501???
443 if Argument_Count > 501 then
444 Error ("Too many backtrace frames");
445 end if;
447 -- Do we have a valid architecture?
449 if not Detect_Success then
450 Put_Line ("Couldn't detect the architecture");
451 return;
452 end if;
454 Addr2line_Cmd :=
455 Locate_Exec_On_Path (Arch_List (Cur_Arch).Addr2line_Binary.all);
457 -- If Addr2line is not found, abort
459 if Addr2line_Cmd = null then
460 Error ("Couldn't find " & Arch_List (Cur_Arch).Addr2line_Binary.all);
461 end if;
463 -- The first argument specifies the image file. Check if it exists
465 if not Is_Regular_File (Argument (1)) then
466 Error ("Couldn't find the executable " & Argument (1));
467 end if;
469 -- The second argument specifies the reference symbol runtime address.
470 -- Let's parse and store it
472 Ref_Runtime_Address := Get_Value_From_Hex_Arg (2);
474 -- Run nm command to get the reference symbol static offset
476 Ref_Static_Offset := Get_Reference_Offset;
478 -- Build addr2line parameters. First, the standard part
480 Addr2line_Args (1) := new String'("--exe=" & Argument (1));
481 Addr2line_Args_Count := 1;
483 -- Now, append to this the adjusted backtraces in arguments 4 and further
485 for J in 3 .. Argument_Count loop
487 -- Basically, for each address in the runtime backtrace ...
489 -- o We compute its offset relatively to the runtime address of the
490 -- reference symbol,
492 -- and then ...
494 -- o We add this offset to the static one for the reference symbol in
495 -- the executable to find the executable offset corresponding to the
496 -- backtrace address.
498 Bt_Address := Get_Value_From_Hex_Arg (J);
500 Bt_Address :=
501 Bt_Address - Ref_Runtime_Address
502 + Ref_Static_Offset
503 + Arch_List (Cur_Arch).Bt_Offset_From_Call;
505 Addr2line_Args_Count := Addr2line_Args_Count + 1;
506 Addr2line_Args (Addr2line_Args_Count) := Hex_Image (Bt_Address);
507 end loop;
509 -- Run the resulting command
511 Spawn (Addr2line_Cmd.all,
512 Addr2line_Args (1 .. Addr2line_Args_Count), Success);
514 if not Success then
515 Error ("Couldn't spawn " & Addr2line_Cmd.all);
516 end if;
518 exception
519 when others =>
521 -- Mask all exceptions
523 return;
524 end VxAddr2Line;