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83998 commits

Author SHA1 Message Date
H.J. Lu
b084df0b8d Optimize branches to non-weak symbols with visibility
Branches to global non-weak symbols defined in the same segment with
non-default visibility can be optimized the same way as branches to
local symbols.

gas/

	* config/tc-i386.c (elf_symbol_resolved_in_segment_p): New.
	(md_estimate_size_before_relax): Use it.

gas/testsuite/

	* gas/i386/i386.exp: Run relax-3 and x86-64-relax-2.
	* gas/i386/relax-3.d: New file.
	* gas/i386/relax-3.s: Likewise.
	* gas/i386/x86-64-relax-2.d: Likewise.
2015-05-07 09:19:16 -07:00
Gary Benson
1c56a84d9b Remove unused td_ta_map_id2thr code
linux-thread-db.c initializes td_ta_map_id2thr but never uses it.
This commit removes this dead code.

gdb/ChangeLog:

	* linux-thread-db.c (struct thread_db_info)
	<td_ta_map_id2thr_p>: Remove field.
	(try_thread_db_load_1): Remove initialization for the above.
2015-05-07 15:41:43 +01:00
Gary Benson
74850322e4 Remove unused td_thr_validate code
linux-thread-db.c initializes td_thr_validate but never uses it.
This commit removes this dead code.

gdb/ChangeLog:

	* linux-thread-db.c (struct thread_db_info)
	<td_thr_validate_p>: Remove field.
	(try_thread_db_load_1): Remove initialization for the above.
2015-05-07 14:52:59 +01:00
GDB Administrator
187032dbb8 Automatic date update in version.in 2015-05-07 00:00:08 +00:00
Jan Kratochvil
e26efa4066 compile: Support relocation to GNU-IFUNCs
Calling memcpy() could fail as memcpy() from libc is GNU-IFUNC.

gdb/ChangeLog
2015-05-06  Jan Kratochvil  <jan.kratochvil@redhat.com>

	* compile/compile-object-load.c (compile_object_load): Support
	mst_text_gnu_ifunc.
2015-05-06 20:59:19 +02:00
Jan Kratochvil
851c90917f Code cleanup: compile: Constify some parameters
gdb/ChangeLog
2015-05-06  Jan Kratochvil  <jan.kratochvil@redhat.com>

	* compile/compile.c (compile_to_object): Make the cmd_string parameter
	const.  Use new variables for the const compatibility.
	(eval_compile_command): Make the cmd_string parameter const.
	* compile/compile.h (eval_compile_command): Make the cmd_string
	parameter const.
2015-05-06 20:57:41 +02:00
Pedro Alves
80ad801e90 PR server/18081: gdbserver crashes when providing an unexisting binary
$ ./gdbserver :1234 blah
 Process blah created; pid = 16471
 Cannot exec blah: No such file or directory.

 Child exited with status 127
 Killing process(es): 16471
 ../../../../src/binutils-gdb/gdb/gdbserver/linux-low.c:920: A problem internal to GDBserver has been detected.
 kill_wait_lwp: Assertion `res > 0' failed.

GDBserver shouldn't even be trying to kill that process.  GDBserver
kills or detaches from all processes on exit, and due to a missing
mourn_inferior call, GDBserver tries to kill the process that it had
already seen exit.

Tested on x86_64 Fedora 20.  New test included.  I emulated what
Windows outputs by hacking an error call in linux_create_inferior.

gdb/gdbserver/ChangeLog:
2015-05-06  Pedro Alves  <palves@redhat.com>

	PR server/18081
	* server.c (start_inferior): If the process exits, mourn it.

gdb/testsuite/ChangeLog:
2015-05-06  Pedro Alves  <palves@redhat.com>

	PR server/18081
	* gdb.server/non-existing-program.exp: New file.
2015-05-06 18:50:03 +01:00
Joel Brobecker
f218b647aa Get rid of deprecated_init_ui_hook
This hook is no longer used, and can therefore be eliminated.

gdb/ChangeLog:

        * defs.h (deprecated_init_ui_hook): Delete.  Remove associated
        comment.
        * top.c (deprecated_init_ui_hook): Delete.
        (gdb_init): Remove handling of deprecated_init_ui_hook.
        * interps.c (clear_interpreter_hooks): Remove handling of
        deprecated_init_ui_hook.
        * main.c (captured_main): Update comment.
2015-05-06 10:48:59 -07:00
Joel Brobecker
b30a0bc387 Make the "info dll" command available on all platform.
The "info dll", an alias of the "info sharedlibrary" command, is
currently only defined in windows native versions. This patch makes
it universally available by moving the alias declaration to solib.c,
and adjusts the documentation accordingly.

Making it universally available has two benefits:
  - Windows users moving to a Unix platforms are still able to use
    the same command for getting the list of shared libraries;
  - Unix to Windows cross debuggers now provide that command also.

gdb/ChangeLog:

        * solib.c (_initialize_solib): Add "info dll" alias creation.
        * windows-nat.c (set_windows_aliases): Delete.
        (_initialize_windows_nat): Remove deprecated_init_ui_hook
        assignment.
        * NEWS: Add news entry about "info dll" now being available
        on all platforms.

gdb/doc/ChangeLog:

        * gdb.texinfo (Files): Add "info dll" documentation.
        (Cygwin Native): Remove "info dll" documentation.
2015-05-06 10:47:20 -07:00
Jose E. Marchesi
0d495746bb gas: typo in comment fixed.
gas/ChangeLog:

2015-05-06  Jose E. Marchesi  <jose.marchesi@oracle.com>

	* config/tc-sparc.c: Typo in comment fixed.
2015-05-06 09:28:22 -07:00
Jose E. Marchesi
9e85c798e3 gas: added tests for the sparc natural instructions.
gas/ChangeLog:

2015-05-06  Jose E. Marchesi  <jose.marchesi@oracle.com>

	* gas/sparc/natural-32.d: Test ldn, ldna, stn, stna, slln, srln,
	sran, casn, casna and clrn.
	* gas/sparc/natural-32.s: Likewise.
	* gas/sparc/natural.s: Likewise.
	* gas/sparc/natural.d: Likewise.
2015-05-06 09:27:52 -07:00
Jose E. Marchesi
f9911bebca gas: support for the sparc %ncc condition codes register.
gas/ChangeLog:

2015-05-06  Jose E. Marchesi  <jose.marchesi@oracle.com>

	* config/tc-sparc.c (sparc_ip): Support the %ncc "natural"
	condition codes
	* doc/c-sparc.texi (Sparc-Regs): Document %ncc.

gas/testsuite/ChangeLog:

2015-05-06  Jose E. Marchesi  <jose.marchesi@oracle.com>

	* gas/sparc/natural.s: New file.
	* gas/sparc/natural-32.s: Likewise.
	* gas/sparc/natural.d: Likewise.
	* gas/sparc/natural-32.d: Likewise.
	* gas/sparc/sparc.exp (sparc_elf_setup): Run the tests natural and
	natural-32.
2015-05-06 09:26:23 -07:00
Toni Spets
9ac47a43ff Skip discarded resource sections when building a PE resource table.
PR ld/18372
	* peXXigen.c (rsrc_process_section): Skip discarded resource
	sections.
2015-05-06 14:18:34 +01:00
Nick Clifton
ed1fcdd119 Update GAS documentation to note that dollar local labels are only supported on some targets.
* doc/as.texinfo (Dollar Local Labels): Note that these are only
	supported on some targets.
2015-05-06 13:13:10 +01:00
Renlin Li
448eb63d72 [AArch64] Record instruction alignment for .inst directive
2015-05-06  Renlin Li  <renlin.li@arm.com>

  gas/
    * config/tc-aarch64.c (mapping_state): Recording alignment before exit.

  gas/testsuite/
    * gas/aarch64/codealign_1.s: New.
    * gas/aarch64/codealign_1.d: New.
2015-05-06 12:18:19 +01:00
GDB Administrator
03bbcd1c7a Automatic date update in version.in 2015-05-06 00:00:09 +00:00
Joel Brobecker
7c5127443b Further document ada-lang.c::value_assign_to_component & fix whitespaces.
This patch improves the documentation of ada-lang.c's
value_assign_to_component to publish the fact that it also works
with not_lval values.

And touching this area of the code showed that there were a number
of whitespace issues, as well as a formatting issue of the main comment
(no leading '*' on each line). This patch fixes those while at it.

No functional change, however.

gdb/ChangeLog:

        * ada-lang.c (value_assign_to_component): Reformat and improve
        documentation. Remove all trailing spaces.
2015-05-05 11:21:10 -07:00
Joel Brobecker
0fa7fe506c out of line functions nested inside inline functions.
This patch improves the handling of out-of-line functions nested
inside functions that have been inlined.

Consider for instance a situation where function Foo_O224_021
has a function Child1 declared in it, which itself has a function
Child2 nested inside Child1. After compiling the program with
optimization on, Child1 gets inlined, but not Child2.

After inserting a breakpoint on Child2, and running the program
until reaching that breakpoint, we get the following backtrace:

    % gdb foo_o224_021
    (gdb) break foo_o224_021.child1.child2
    (gdb) run
    [...]
    Breakpoint 1, foo_o224_021 () at foo_o224_021.adb:28
    28          Child1;
    (gdb) bt
    #0  0x0000000000402400 in foo_o224_021 () at foo_o224_021.adb:28
    #1  0x00000000004027a4 in foo_o224_021.child1 () at foo_o224_021.adb:23
    #2  0x00000000004027a4 in foo_o224_021 () at foo_o224_021.adb:28

GDB reports the wrong function name for frame #0. We also get the same
kind of error in the "Breakpoint 1, foo_o224_021 () [...]" message.
In both cases, the function name should be foo_o224_021.child1.child2,
and the parameters should be "s=...".

What happens is that the inlined frame handling does not handle well
the case where an inlined function is calling an out-of-line function
which was declared inside the inlined function's scope.

In particular, looking first at the inlined-frame sniffer when applying
to frame #0:

        /* Calculate DEPTH, the number of inlined functions at this
           location.  */
        depth = 0;
        cur_block = frame_block;
        while (BLOCK_SUPERBLOCK (cur_block))
          {
            if (block_inlined_p (cur_block))
              depth++;
            cur_block = BLOCK_SUPERBLOCK (cur_block);
          }

What happens is that cur_block starts as the block associated
to child2, which is not inlined. We shoud be stopping here, but
instead, we keep walking the superblock chain, which takes us
all the way to Foo_O224_021's block, via Child2's block. And
since Child1 was inlined, we end up with a depth count of 1,
wrongly making GDB think that frame #0 is an inlined frame.

Same kind of issue inside skip_inline_frames.

The fix is to stop checking for inlined frames as soon as we see
a block corresponding to a function which is not inlined.  This is
the behavior we now obtain:

    (gdb) run
    [...]
    Breakpoint 1, foo_o224_021.child1.child2 (s=...) at foo_o224_021.adb:9
    9               function Child2 (S : String) return Boolean is
    (gdb) bt
    #0  0x0000000000402400 in foo_o224_021.child1.child2 (s=...)
        at foo_o224_021.adb:9
    #1  0x00000000004027a4 in foo_o224_021.child1 () at foo_o224_021.adb:23
    #2  0x00000000004027a4 in foo_o224_021 () at foo_o224_021.adb:28

gdb/ChangeLog:

        * inline-frame.c (inline_frame_sniffer, skip_inline_frames):
        Stop counting inlined frames as soon as an out-of-line function
        is found.

gdb/testsuite/ChangeLog:

        * gdb.ada/out_of_line_in_inlined.exp: Add run and "bt" tests.
2015-05-05 11:08:14 -07:00
Pierre-Marie de Rodat
3ea89b92fb DWARF: cannot break on out-of-line function nested inside inlined function.
Consider the following code, which defines a function, Child2,
which is itself nested inside Child1:

    procedure Foo_O224_021 is
        O1 : constant Object_Type := Get_Str ("Foo");
        procedure Child1 is
            O2 : constant Object_Type := Get_Str ("Foo");
            function Child2 (S : String) return Boolean is -- STOP
            begin
                for C of S loop
                    Do_Nothing (C);
                    if C = 'o' then
                        return True;
                    end if;
                end loop;
                return False;
            end Child2;
            R : Boolean;
        begin
            R := Child2 ("Foo");
            R := Child2 ("Bar");
            R := Child2 ("Foobar");
        end Child1;
    begin
        Child1;
    end Foo_O224_021;

On x86_64-linux, when compiled at -O2, GDB is unable to insert
a breakpoint on Child2:

    % gnatmake -g -O2 foo_o224_021
    % gdb foo_o224_021
    (gdb) b child2
    Function "child2" not defined.
    (gdb) b foo_o224_021.child1.child2
    Function "foo_o224_021.child1.child2" not defined.

The problem is caused by the fact that GDB did not create a symbol
for Child2, and this, in turn, is caused by the fact that the compiler
decided to inline Child1, but not Child2. The DWARF debugging info
first provides an abstract instance tree for Child1...

 <3><1b7b>: Abbrev Number: 29 (DW_TAG_subprogram)
    <1b7c>   DW_AT_name        : (indirect string, offset: 0x23f8): foo_o224_021__child1
    <1b82>   DW_AT_inline      : 1      (inlined)
    <1b83>   DW_AT_sibling     : <0x1c01>

... where that subprogram is given the DW_AT_inline attribute.
Inside that function there is a lexical block which has no PC
range (corresponding to the fact that this is the abstract tree):

 <4><1b87>: Abbrev Number: 30 (DW_TAG_lexical_block)

... inside which our subprogram Child2 is described:

 <5><1b92>: Abbrev Number: 32 (DW_TAG_subprogram)
    <1b93>   DW_AT_name        : (indirect string, offset: 0x2452): foo_o224_021__child1__child2
    <1b99>   DW_AT_type        : <0x1ab1>
    <1b9d>   DW_AT_low_pc      : 0x402300
    <1ba5>   DW_AT_high_pc     : 0x57
    [...]

Then, later on, we get the concrete instance tree, starting at:

 <3><1c5e>: Abbrev Number: 41 (DW_TAG_inlined_subroutine)
    <1c5f>   DW_AT_abstract_origin: <0x1b7b>
    <1c63>   DW_AT_entry_pc    : 0x4025fd
    <1c6b>   DW_AT_ranges      : 0x150

... which refers to Child1. One of that inlined subroutine children
is the concrete instance of the empty lexical block we saw above
(in the abstract instance tree), which gives the actual address
range for this inlined instance:

 <5><1c7a>: Abbrev Number: 43 (DW_TAG_lexical_block)
    <1c7b>   DW_AT_abstract_origin: <0x1b87>
    <1c7f>   DW_AT_ranges      : 0x180

This is the DIE which provides the context inside which we can
record Child2. But unfortunately, GDB does not take the abstract
origin into account when handling lexical blocks, causing it
to miss the fact that this block contains some symbols described
in the abstract instance tree. This is the first half of this patch:
modifying GDB to follow DW_AT_abstract_origin attributes for
lexical blocks.

But this not enough to fix the issue, as we're still unable to
break on Child2 with just that change. The second issue can be
traced to the way inherit_abstract_dies determines the list of
DIEs to inherit from. For that, it iterates over all the DIEs in
the concrete instance tree, and finds the list of DIEs from the
abstract instance tree that are not referenced from the concrete
instance tree. As it happens, there is one type of DIE in the
concrete instance tree which does reference Child2's DIE, but
in fact does otherwise define a concrete instance of the reference
DIE; that's (where <0x1b92> is Child2's DIE):

 <6><1d3c>: Abbrev Number: 35 (DW_TAG_GNU_call_site)
    <1d3d>   DW_AT_low_pc      : 0x4026a4
    <1d45>   DW_AT_abstract_origin: <0x1b92>

So, the second part of the patch is to modify inherit_abstract_dies
to ignore DW_TAG_GNU_call_site DIEs when iterating over the concrete
instance tree.

This patch also includes a testcase which can be used to reproduce
the issue. Unfortunately, for it to actually pass, a smal patch in
GCC is also necessary to make sure that GCC provides lexical blocks'
DW_AT_abstract_origin attributes from the concrete tree back to
the abstract tree. We hope to be able to submit and integrate that
patch in the GCC tree soon. Meanwhile, a setup_xfail has been added.

gdb/ChangeLog:

	2014-05-05  Pierre-Marie de Rodat  <derodat@adacore.com>
	* dwarf2read.c (inherit_abstract_dies): Skip
	DW_TAG_GNU_call_site dies while inheriting children of an
	abstract DIE into a scope.
	(read_lexical_block_scope): Inherit abstract DIE's for
	lexical scopes.

gdb/testsuite/ChangeLog:

        * gdb.ada/out_of_line_in_inlined: New testcase.
2015-05-05 11:06:09 -07:00
Joel Brobecker
2478d075da compare object sizes before comparing them with value_contents_eq
This is an issue which I noticed while working on trying to print
an array of variant records. For instance, trying to print "A1",
an array of elements whose size is variable, defined as follow
(see gdb.ada/var_rec_arr testcase):

   subtype Small_Type is Integer range 0 .. 10;
   type Record_Type (I : Small_Type := 0) is record
      S : String (1 .. I);
   end record;
   function Ident (R : Record_Type) return Record_Type;

   type Array_Type is array (Integer range <>) of Record_Type;

   A1 : Array_Type := (1 => (I => 0, S => <>),
                       2 => (I => 1, S => "A"),
                       3 => (I => 2, S => "AB"));

The debugger sometimes prints the array as follow:

    (gdb) print A1
    $1 = ((i => 0, s => ""), (i => 0, s => ""), (i => 0, s => ""))

The problem happens inside the part of the loop printing the array's
elements, while trying to count the number of consecutive elements
that have the same value (in order to replace them by the "<repeats
nnn times>" message when the number exceeds a threshold). In particular,
in ada-valprint.c::val_print_packed_array_elements:

  elttype = TYPE_TARGET_TYPE (type);
  eltlen = TYPE_LENGTH (check_typedef (elttype));

  while (...)
    {
          if (!value_contents_eq (v0, value_embedded_offset (v0),
                                  v1, value_embedded_offset (v1),
                                  eltlen))
            break;

The value comparison is performed using value_contents_eq but makes
the assumption that elttype is not dynamic, which is not always true.
In particular, in the case above, elttype is dynamic and therefore
its TYPE_LENGTH changes from element to element.

As it happens in this case, the eltlen is zero, which causes the call
to value_contents_eq to return true, and therefore GDB thinks all
3 elements of the array are equal.

This patch fixes the issue by making sure that both v0 and v1, which
are values whose type we expect to be resolved, have identical lengths.
If not, then the two elements of the array cannot possibly have the
same value and we do not even need to do the binary comparison.

Unfortunately, this is still not enough to get GDB to print the correct
value for our array, because the assumption that v0 and v1 have a type
which has been resolved is actually not met. So, the second part of
the patch modifies the function that constructed the values to make
sure dynamic types do get resolved.

gdb/ChangeLog:

        * ada-valprint.c (val_print_packed_array_elements): Delete
        variable "len".  Add a type-length check when comparing two
        consecutive elements of the array.  Use the element's actual
        length in call to value_contents_eq.
        * ada-lang.c (ada_value_primitive_packed_val): Always return
        a value whose type has been resolved.
2015-05-05 10:51:38 -07:00
Joel Brobecker
87b8eff03f testsuite/gdb.ada/var_rec_arr: New testcase.
gdb/testsuite/ChangeLog:

        * gdb.ada/var_rec_arr: New testcase.
2015-05-05 10:48:21 -07:00
Joel Brobecker
fc958966e4 GDB crash trying to subscript array of variant record.
Consider the following declarations:

   subtype Small_Type is Integer range 0 .. 10;
   type Record_Type (I : Small_Type := 0) is record
      S : String (1 .. I);
   end record;
   A2 : Array_Type := (1 => (I => 2, S => "AB"),
                       2 => (I => 1, S => "A"),
                       3 => (I => 0, S => <>));

Compiled with -fgnat-encodings=minimal, and trying to print
one element of our array, valgrind reports an invalid memory
access. On certain GNU/Linux boxes, malloc even reports it as
well, and causes GDB to crash.

    (gdb) print a2(1)
     *** glibc detected *** /[...]/gdb:
         malloc(): memory corruption: 0x0a30ba48 ***
    [crash]

The invalid memory access occurs because of a simple buffer
overflow in ada_value_primitive_packed_val. When this function
is called, it is given a bit_size of 128 (or 16 bytes), which
corresponds to the stride of our array. But the actual size of
each element depends on its value. In particular, A2(1) is a record
whose size is only 6 bytes.

What happens in our example is that we start building a new value
(v) where the element is to be unpacked, with any of its dynamic
properties getting resolved as well. We then unpack the data into
this value's buffer:

  unpacked = (unsigned char *) value_contents (v);
  [...]
  nsrc = len;
  [...]
  while (nsrc > 0)
    {
      [...]
          unpacked[targ] = accum & ~(~0L << HOST_CHAR_BIT);
          [...]
          targ += delta;
      [...]
      nsrc -= 1;
      [...]
    }

In the loop above, targ starts at zero (for LE architectures),
and len is 16. With delta being +1, we end up iterating 16 times,
writing 16 bytes into a 6-bytes buffer.

This patch fixes the issue by adjusting BIT_SIZE and recomputing
LEN after having resolved our type if the resolved type turns out
to be smaller than bit_size.

gdb/ChangeLog:

        * ada-lang.c (ada_value_primitive_packed_val): Recompute
        BIT_SIZE and LEN if the size of the resolved type is smaller
        than BIT_SIZE * HOST_CHAR_BIT.
2015-05-05 10:47:44 -07:00
Joel Brobecker
ca34b84ff6 [Ada] array of variant record subscripting
Consider the following (Ada) array...

   A1 : Array_Type := (1 => (I => 0, S => <>),
                       2 => (I => 1, S => "A"),
                       3 => (I => 2, S => "AB"));

... where Array_Type is declared as follow:

   subtype Small_Type is Integer range 0 .. 10;
   type Record_Type (I : Small_Type := 0) is record
      S : String (1 .. I);
   end record;
   type Array_Type is array (Integer range <>) of Record_Type;

Trying to print the value of each element individually does not
always work. Printing the value of the first one does:

(gdb) p a1(1)
    $1 = (i => 0, s => "")

But printing the value of the subsequent ones often does not.
For instance:

    (gdb) p a1(2)
    $2 = (i => 1, s => "")  <<<--- s should be "A"
    (gdb) p a1(3)
    $3 = (i => 2, s => "")  <<<--- s should be "AB"

I traced the problem to ada_value_primitive_packed_val,
which is trying to perform the array subscripting by
extracting the value of the corresponding array element
into a buffer where the contents is now byte-aligned.

The element type that ada_value_primitive_packed_val gets passed
is a dynamic type. As it happens, that dynamic type can get resolved
thanks to:

      v = value_at (type, value_address (obj));
      type = value_type (v);

However, obj represents the array, so the address given in the call
to value_at represents the value of the first element. As a result,
the solution of component S's upper bound always gets resolved based
on the value of component I in the  first element of the array, whose
value is 0, thus leading to GDB mistakely resolving the element type
where S's upper bound is always 0.

The proper fix would be to systematically resolve the element type
first. But, this requires us to extract-and-realign the element's
value so as to be able to pass it as "valaddr" to resolve_dynamic_type.
In the meantime, it's easy to make the situation a little better by
passing "value_address (obj) + offset" as the object address. This
only works when BIT_OFFSET is nul, but that should be the case when
the element type is anything but a scalar, which seems to be the only
situation where it seems important to resolve the type now. And we're
not that worse off otherwise.

But we'll try to find a better solution in a separate patch.

gdb/ChangeLog:

        * ada-lang.c (ada_value_primitive_packed_val): Use a more
        correct address in call to value_at.  Adjust call to
        value_address accordingly.
2015-05-05 10:46:42 -07:00
Joel Brobecker
62c67f3c1a [Ada] Resolve dynamic type before trying to print it.
This is another required step towards trying to print the value of
an array of variant records. For instance:

   A1 : Array_Type := (1 => (I => 0, S => <>),
                       2 => (I => 1, S => "A"),
                       3 => (I => 2, S => "AB"));

... where Array_Type is an array of records whose size is variable:

   subtype Small_Type is Integer range 0 .. 10;
   type Record_Type (I : Small_Type := 0) is record
      S : String (1 .. I);
   end record;
   type Array_Type is array (Integer range <>) of Record_Type;

What happens is that the ada-valprint modules gets passed an array
whose element type is not resolved yet (since each element of the
array needs to be resolved separately). the module then recurses,
and eventually gets called with the first element of the array.
But because the element hasn't been resolved yet, we end up having
trouble printing its value soon after.

This patch fixes the issue by calling resolve_dynamic_type before
trying to print it.

With this patch, GDB is finally able to print the complete value
for variable "A1":

     (gdb) p a1
     $1 = ((i => 0, s => ""), (i => 1, s => "A"), (i => 2, s => "AB"))

gdb/ChangeLog:

        * ada-valprint.c (ada_val_print_1): Resolve TYPE before trying
        to print it.
2015-05-05 10:46:12 -07:00
Joel Brobecker
c334512419 Add valaddr support in dynamic property resolution.
This is the second part of enhancing the debugger to print the value
of arrays of records whose size is variable when only standard DWARF
info is available (no GNAT encoding). For instance:

   subtype Small_Type is Integer range 0 .. 10;
   type Record_Type (I : Small_Type := 0) is record
      S : String (1 .. I);
   end record;
   type Array_Type is array (Integer range <>) of Record_Type;

   A1 : Array_Type := (1 => (I => 0, S => <>),
                       2 => (I => 1, S => "A"),
                       3 => (I => 2, S => "AB"));

Currently, GDB prints the following output:

        (gdb) p a1
        $1 = (

The error happens while the ada-valprint module is trying to print
the value of an element of our array. Because of the fact that
the array's element (type Record_Type) has a variant size, the DWARF
info for our array provide the array's stride:

     <1><749>: Abbrev Number: 10 (DW_TAG_array_type)
        <74a>   DW_AT_name        : (indirect string, offset: 0xb6d): pck__T18s
        <74e>   DW_AT_byte_stride : 16
        <74f>   DW_AT_type        : <0x6ea>

And because our array has a stride, ada-valprint treats it the same
way as packed arrays (see ada-valprint.c::ada_val_print_array):

  if (TYPE_FIELD_BITSIZE (type, 0) > 0)
    val_print_packed_array_elements (type, valaddr, offset_aligned,
                                     0, stream, recurse,
                                     original_value, options);

The first thing that we should notice in the call above is that
the "valaddr" buffer and the associated offset (OFFSET_ALIGNED)
is passed, but that the corresponding array's address is not.
This can be explained by looking inside val_print_packed_array_elements,
where we see that the function unpacks each element of our array from
the buffer alone (ada_value_primitive_packed_val), and then prints
the resulting artificial value instead:

      v0 = ada_value_primitive_packed_val (NULL, valaddr + offset,
                                           (i0 * bitsize) / HOST_CHAR_BIT,
                                           (i0 * bitsize) % HOST_CHAR_BIT,
                                           bitsize, elttype);

      [...]
              val_print (elttype, value_contents_for_printing (v0),
                         value_embedded_offset (v0), 0, stream,
                         recurse + 1, v0, &opts, current_language);

Of particular interest, here, is the fact that we call val_print
with a null address, which is OK, since we're providing a buffer
instead (value_contents_for_printing). Also, providing an address
might not always possible, since packing could place elements at
boundaries that are not byte-aligned.

Things go south when val_print tries to see if there is a pretty-printer
that could be applied. In particular, one of the first things that
the Python pretty-printer does is to create a value using our buffer,
and the given address, which in this case is null (see call to
value_from_contents_and_address in gdbpy_apply_val_pretty_printer).

value_from_contents_and_address, in turn immediately tries to resolve
the type, using the given address, which is null. But, because our
array element is a record containing an array whose bound is the value
of one of its elements (the "s" component), the debugging info for
the array's upper bound is a reference...

 <3><71a>: Abbrev Number: 7 (DW_TAG_subrange_type)
    <71b>   DW_AT_type        : <0x724>
    <71f>   DW_AT_upper_bound : <0x703>

... to component "i" of our record...

 <2><703>: Abbrev Number: 5 (DW_TAG_member)
    <704>   DW_AT_name        : i
    <706>   DW_AT_decl_file   : 2
    <707>   DW_AT_decl_line   : 6
    <708>   DW_AT_type        : <0x6d1>
    <70c>   DW_AT_data_member_location: 0

... where that component is located at offset 0 of the start
of the record. dwarf2_evaluate_property correctly determines
the offset where to load the value of the bound from, but then
tries to read that value from inferior memory using the address
that was given, which is null. See case PROP_ADDR_OFFSET in
dwarf2_evaluate_property:

        val = value_at (baton->offset_info.type,
                        pinfo->addr + baton->offset_info.offset);

This triggers a memory error, which then causes the printing to terminate.

Since there are going to be situations where providing an address
alone is not going to be sufficient (packed arrays where array elements
are not stored at byte boundaries), this patch fixes the issue by
enhancing the type resolution to take both address and data. This
follows the same principle as the val_print module, where both
address and buffer ("valaddr") can be passed as arguments. If the data
has already been fetched from inferior memory (or provided by the
debugging info in some form -- Eg a constant), then use that data
instead of reading it from inferior memory.

Note that this should also be a good step towards being able to handle
dynamic types whose value is stored outside of inferior memory
(Eg: in a register).

With this patch, GDB isn't able to print all of A1, but does perform
a little better:

    (gdb) p a1
    $1 = ((i => 0, s => , (i => 1, s => , (i => 2, s => )

There is another issue which is independent of this one, and will
therefore be patched separately.

gdb/ChangeLog:

        * dwarf2loc.h (struct property_addr_info): Add "valaddr" field.
        * dwarf2loc.c (dwarf2_evaluate_property): Add handling of
        pinfo->valaddr.
        * gdbtypes.h (resolve_dynamic_type): Add "valaddr" parameter.
        * gdbtypes.c (resolve_dynamic_struct): Set pinfo.valaddr.
        (resolve_dynamic_type_internal): Set pinfo.valaddr.
        Add handling of addr_stack->valaddr.
        (resolve_dynamic_type): Add "valaddr" parameter.
        Set pinfo.valaddr field.
        * ada-lang.c (ada_discrete_type_high_bound): Update call to
        resolve_dynamic_type.
        (ada_discrete_type_low_bound): Likewise.
        * findvar.c (default_read_var_value): Likewise.
        * value.c (value_from_contents_and_address): Likewise.
2015-05-05 10:43:35 -07:00
Joel Brobecker
75ea58593b preserve the bit stride when resolving an array type.
Consider the following (Ada) variable...

   A1 : Array_Type := (1 => (I => 0, S => <>),
                       2 => (I => 1, S => "A"),
                       3 => (I => 2, S => "AB"));

... where Array_Type is an array of records whose size is variable:

   subtype Small_Type is Integer range 0 .. 10;
   type Record_Type (I : Small_Type := 0) is record
      S : String (1 .. I);
   end record;
   type Array_Type is array (Integer range <>) of Record_Type;

Trying to print the value of this array currently results in the following
error:

    (gdb) p a1
    Cannot access memory at address 0x61c000

What happens in this case, is that the compiler describes our array
as an array with a specific stride (and bounds being static 1..3):

 <1><749>: Abbrev Number: 10 (DW_TAG_array_type)
    <74a>   DW_AT_name        : (indirect string, offset: 0xb6d): pck__T18s
    <74e>   DW_AT_byte_stride : 16
    <74f>   DW_AT_type        : <0x6ea>
 <2><757>: Abbrev Number: 11 (DW_TAG_subrange_type)
    <758>   DW_AT_type        : <0x75e>
    <75c>   DW_AT_upper_bound : 3

This is because we cannot use, in this case, the size of the record
to determine that stride, since the size of the record depends on
its contents. So the compiler helps us by providing that stride.

The problems start when trying to resolve that type. Because the elements
contained in that array type are dynamic, the array itself is considered
dynamic, and thus we end up creating a resolved version of that array.
And during that resolution, we were not handling the case where the array
had a stride. See gdbtypes.c::resolve_dynamic_array...

  return create_array_type (copy_type (type),
                            elt_type,
                            range_type);

As a result, we created an array whose stride was based on the size
of elt_type, which a record whose size isn't static and irrelevant
regardless.

This patch fixes is by calling create_array_type_with_stride instead.

As it happens, there is another issue for us to be able to print
the value of our array, but those are independent of this patch
and will be handled separately. For now, the patch allows us to
get rid of the first error, and the output is now:

     (gdb) p a1
     $1 = (

gdb/ChangeLog:

	* gdbtypes.c (resolve_dynamic_array): Use
	create_array_type_with_stride instead of create_array_type.
2015-05-05 10:42:07 -07:00
Renlin Li
c7ad08e6e5 [AARCH64] Positively emit symbols for alignment
2015-05-05  Renlin Li  <renlin.li@arm.com>

  gas/
    * config/tc-aarch64.c (aarch64_init_frag): Always generate mapping symbols.

  gas/testsuite/
    * gas/aarch64/mapping_5.d: New.
    * gas/aarch64/mapping_5.s: New.
    * gas/aarch64/mapping_6.d: New.
    * gas/aarch64/mapping_6.s: New.
2015-05-05 17:48:18 +01:00
Nick Clifton
837a17b36c Add support to the MSP430 linker for the automatic placement of code and data into either low or high memory regions.
gas	* config/tc-msp430.c (MAX_OP_LEN): Increase to 4096.
	(msp430_make_init_symbols): New function.
	(msp430_section): Call it.
	(msp430_frob_section): Likewise.

ld	* emulparams/msp430elf.sh (TEMPLATE_NAME): Change to msp430.
	* scripttempl/msp430.sc (.text): Add .lower.text and .either.text.
	(.data): Add .lower.data and .either.data.
	(.bss): Add .lower.bss and .either.bss.
	(.rodata): Add .lower.rodata and .either.rodata.
	* emultempl/msp430.em: New file.  Implements a new orphan
	placement algorithm that divides sections between lower and upper
	memory regions.
	* Makefile.am (emsp430elf.c): Depend upon msp430.em.
	*emsp430X.c): Likewise.
	* Makefine.in: Regenerate.
2015-05-05 13:38:00 +01:00
Max Filippov
b76f99d702 xtensa: optimize trampolines relaxation
Currently every fixup in the current segment is checked when relaxing
trampoline frag. This is very expensive. Make a searchable array of
fixups pointing at potentially oversized jumps at the beginning of every
relaxation pass and only check subset of this cache in the reach of
single jump from the trampoline frag currently being relaxed.

Original profile:

% time    self  children    called     name
-----------------------------------------
        370.16  593.38 12283048/12283048     relax_segment
  98.4  370.16  593.38 12283048         xtensa_relax_frag
         58.91  269.26 2691463834/2699602236     xtensa_insnbuf_from_chars
         68.35   68.17 811266668/813338977     S_GET_VALUE
         36.85   29.51 2684369246/2685538060     xtensa_opcode_decode
         28.34    8.84 2684369246/2685538060     xtensa_format_get_slot
         12.39    5.94 2691463834/2699775044     xtensa_format_decode
          0.03    4.60 4101109/4101109     relax_frag_for_align
          0.18    1.76  994617/994617      relax_frag_immed
          0.07    0.09 24556277/24851220     new_logical_line
          0.06    0.00 12283048/14067410     as_where
          0.04    0.00 7094588/15460506     xtensa_format_num_slots
          0.00    0.00       1/712477      xtensa_insnbuf_alloc
-----------------------------------------

Same data, after optimization:

% time    self  children    called     name
-----------------------------------------
          0.51    7.47 12283048/12283048     relax_segment
  58.0    0.51    7.47 12283048         xtensa_relax_frag
          0.02    4.08 4101109/4101109     relax_frag_for_align
          0.18    1.39  994617/994617      relax_frag_immed
          0.01    0.98     555/555         xtensa_cache_relaxable_fixups
          0.21    0.25 7094588/16693271     xtensa_insnbuf_from_chars
          0.06    0.12 24556277/24851220     new_logical_line
          0.06    0.00 7094588/15460506     xtensa_format_num_slots
          0.02    0.04 7094588/16866079     xtensa_format_decode
          0.05    0.00 12283048/14067410     as_where
          0.00    0.00       1/712477      xtensa_insnbuf_alloc
          0.00    0.00   93808/93808       xtensa_find_first_cached_fixup
-----------------------------------------

2015-05-02  Max Filippov  <jcmvbkbc@gmail.com>
gas/
	* config/tc-xtensa.c (cached_fixupS, fixup_cacheS): New typedefs.
	(struct cached_fixup, struct fixup_cache): New structures.
	(fixup_order, xtensa_make_cached_fixup),
	(xtensa_realloc_fixup_cache, xtensa_cache_relaxable_fixups),
	(xtensa_find_first_cached_fixup, xtensa_delete_cached_fixup),
	(xtensa_add_cached_fixup): New functions.
	(xtensa_relax_frag): Cache fixups pointing at potentially
	oversized jumps at the beginning of every relaxation pass. Only
	check subset of this cache in the reach of single jump from the
	trampoline frag currently being relaxed.
2015-05-05 07:57:33 +03:00
GDB Administrator
e1765cdae2 Automatic date update in version.in 2015-05-05 00:00:07 +00:00
GDB Administrator
44b3de870e Automatic date update in version.in 2015-05-04 00:00:08 +00:00
GDB Administrator
01a97082d0 Automatic date update in version.in 2015-05-03 00:00:07 +00:00
Cary Coutant
efc6fa128f Change Section_id type to use Relobj* instead of Object*.
2015-04-29  Cary Coutant  <cary@google.com>
	    Rafael Ávila de Espíndola <rafael.espindola@gmail.com>

gold/
	* gc.h (Garbage_collection::is_section_garbage): Change Object*
	to Relobj*.
	(Garbage_collection::add_reference): Likewise.
	(Garbage_collection::gc_process_relocs): Likewise. Don't push
	object/shndx pair onto *secvec for dynamic objects. Don't follow
	relocations pointing to dynamic objects for GC.
	* icf.cc (Icf::find_identical_sections): Change Object* to Relobj*.
	(Icf::unfold_section): Likewise.
	(Icf::is_section_folded): Likewise.
	(Icf::get_folded_section): Likewise.
	* icf.h: (Icf::get_folded_section): Likewise.
	(Icf::unfold_section): Likewise.
	(Icf::is_section_folded): Likewise.
	(Icf::section_has_function_pointers): Likewise.
	(Icf::set_section_has_function_pointers): Likewise.
	* object.h (Section_id): Likewise.
	(Const_section_id): Likewise.
	* output.cc (Output_section::update_section_layout): Likewise.
	* output.h: (Output_section_lookup_maps::find_relaxed_input_section):
	Likewise.
	* plugin.cc (update_section_order): Likewise.
	(unique_segment_for_sections): Likewise.
	* powerpc.cc (Powerpc_relobj::add_reference): Likewise.
	(Target_powerpc::do_gc_add_reference): Likewise.
	(Target_powerpc::gc_process_relocs): Likewise.
	(Target_powerpc::do_gc_add_reference): Likewise.
	* symtab.cc (Symbol_table::is_section_folded): Likewise.
	(Symbol_table::gc_mark_symbol): Likewise.
	* symtab.h: (Symbol_table::is_section_folded): Likewise.
	* target.h: (Sized_target::gc_add_reference): Likewise.
	(Sized_target::do_gc_add_reference): Likewise.
2015-05-02 08:43:27 -07:00
GDB Administrator
0138c3463d Automatic date update in version.in 2015-05-02 00:00:08 +00:00
DJ Delorie
d62de9aa69 Fix typos in previous patch.
* config/rl78-parse.y (MULU): Remove ISA_G14.
(MULH, DIVHU, DIVWU, MACHI, MACH): Update error strings.
2015-05-01 15:08:07 -04:00
H.J. Lu
f7d1355102 Sync filenames.h with gcc
Merge with gcc:
	2014-11-11  Anthony Brandon  <anthony.brandon@gmail.com>
		    Manuel López-Ibáñez  <manu@gcc.gnu.org>

	PR driver/36312
	* filenames.h: Add prototype for canonical_filename_eq.
2015-05-01 09:11:15 -07:00
H.J. Lu
e81d5d059b Configure zlib with --enable-host-shared for shared bfd
When bfd is configured as a shared library, we need to configure zlib
with --enable-host-shared since zlib is used by bfd.

	PR ld/18355
	* Makefile.def: Add extra_configure_flags to host zlib.
	* configure.ac (extra_host_zlib_configure_flags): New.  Set
	to --enable-host-shared When bfd is to be built as shared
	library.  AC_SUBST.
	* Makefile.in: Regenerated.
	* configure: Likewise.
2015-05-01 08:34:08 -07:00
H.J. Lu
00923338de Remove i386_elf_emit_arch_note
This x86 assembler patch:

https://sourceware.org/ml/binutils/2001-11/msg00344.html

generates a .note section for .arch directive so that GDB can tell which
architecture an i386 binary belongs:

https://sourceware.org/ml/binutils/2001-11/msg00271.html

However, x86 assembly code can have any instructions.  A .note section
doesn't help.  This patch removes it.

gas/

	* config/tc-i386.c (i386_elf_emit_arch_note): Removed.
	* config/tc-i386.h (md_end): Likewise.
	(i386_elf_emit_arch_note): Likewise.

gas/testsuite/

	* gas/i386/i386.exp: Run note.
	* gas/i386/note.d: New file.
	* gas/i386/note.s: Likewise.
2015-05-01 08:29:16 -07:00
H.J. Lu
b633b7258d Support ix86-*-elf*
bfd/

	* config.bfd: Support i[3-7]86-*-elf*.

gas/

	* configure.tgt: Support i386-*-elf*.
2015-05-01 05:02:30 -07:00
GDB Administrator
d6ad735147 Automatic date update in version.in 2015-05-01 00:00:08 +00:00
DJ Delorie
0952813b0b Make RL78 disassembler and simulator respect ISA for mul/div
[gas]
	* config/rl78-defs.h (rl78_isa_g10): New.
	(rl78_isa_g13): New.
	(rl78_isa_g14): New.
	* config/rl78-parse.y (ISA_G10): New.
	(ISA_G13): New.
	(ISA_G14): New.
	(MULHU, MULH, MULU, DIVHU, DIVWU, MACHU, MACH): Use them.
	* config/tc-rl78.c (rl78_isa_g10): New.
	(rl78_isa_g13): New.
	(rl78_isa_g14): New.

[gdb]
	* rl78-tdep.c (rl78_analyze_prologue): Pass RL78_ISA_DEFAULT to
	rl78_decode_opcode

[include]
	* dis-asm.h (print_insn_rl78_g10): New.
	(print_insn_rl78_g13): New.
	(print_insn_rl78_g14): New.
	(rl78_get_disassembler): New.
	* opcode/rl78.h (RL78_Dis_Isa): New.
	(rl78_decode_opcode): Add ISA parameter.

[opcodes]
	* disassemble.c (disassembler): Choose suitable disassembler based
	on E_ABI.
	* rl78-decode.opc (rl78_decode_opcode): Take ISA parameter.  Use
	it to decode mul/div insns.
	* rl78-decode.c: Regenerate.
	* rl78-dis.c (print_insn_rl78): Rename to...
	(print_insn_rl78_common): ...this, take ISA parameter.
	(print_insn_rl78): New.
	(print_insn_rl78_g10): New.
	(print_insn_rl78_g13): New.
	(print_insn_rl78_g14): New.
	(rl78_get_disassembler): New.

[sim]
	* rl78/cpu.c (g14_multiply): New.
	* rl78/cpu.h (g14_multiply): New.
	* rl78/load.c (rl78_load): Decode ISA completely.
	* rl78/main.c (main): Expand -M to include other ISAs.
	* rl78/rl78.c (decode_opcode): Decode based on ISA.
	* rl78/trace.c (rl78_disasm_fn): New.
	(sim_disasm_init): Reset it.
	(sim_disasm_one): Get correct disassembler for ISA.
2015-04-30 15:25:49 -04:00
H.J. Lu
b49f93f699 Use "else if" on cpu_arch_isa
* config/tc-i386.c (i386_target_format): Use "else if" on
	cpu_arch_isa.
2015-04-30 08:36:17 -07:00
Nick Clifton
153a27763c Fix handling of relocs for the MeP target.
bfd	PR 18317
	* elf32-mep.c (MEPREL): Use bfd_elf_generic_reloc instead of
	mep_reloc.
	(mep_reloc): Delete unused function.

bin	* readelf.c (get_machine_flags): Add description of MeP flags.

tests	* binutils-all/objdump.exp (cpus_expected): Add MeP CPU names.
2015-04-30 15:57:41 +01:00
H.J. Lu
914082d11b Undef elf_backend_post_process_headers for Solaris
* elf32-i386.c (elf_backend_post_process_headers): Undef for
	Solaris 2.
2015-04-30 06:52:34 -07:00
Nick Clifton
8b2d793ce5 GAS ARM: Warn if the user creates a symbol with the same name as an instruction.
PR gas/18347
gas	* config/tc-arm.c (md_undefined_symbol): Issue a warning message
	(if enabled) when the user creates a symbol with the same name as
	an ARM instruction.
	(flag_warn_syms): New static variable.
	(arm_opts): Add mwarn-syms and mno-warn-syms.
	* doc/c-arm.texi (ARM Options): Document the -m[no-]warn-syms
	options.

tests	* gas/arm/pr18347.s: New file: Test case.
	* gas/arm/pr18347.l: New file: Expected assembler output.
	* gas/arm/pr18347.d: New file: Test driver.
2015-04-30 11:17:55 +01:00
Nick Clifton
7ce98c164e Adds documentation of GAS's .zero directive.
PR gas/18353
	* doc/as.texinfo (Zero): Add documentation of the .zero pseudo-op.
2015-04-30 10:13:53 +01:00
Yao Qi
5fccc63539 Skip setting HW watchpoint if skip_hw_watchpoint_multi_tests in gdb.base/break-idempotent.exp
Hi,
I see this fails below on arm linux native testing and remote testing
with "set remote hardware-watchpoint-limit 1",

 rwatch global^M
 There are not enough available hardware resources for this watchpoint.^M
 (gdb) FAIL: gdb.base/break-idempotent.exp: always-inserted off: rwatch: twice: rwatch global

gdb.base/break-idempotent.exp sets two breakpoints/watchpoints on the
same address.  GDB isn't smart enough calculate these two HW
watchpoints can fit in one HW debug register, so the error message
above isn't necessary (there is one HW watchpoint register on arm).
Because target_ops interface can_use_hardware_watchpoint doesn't
pass enough information to the target backend.

Note that if I don't "set remote hardware-watchpoint-limit 1" in
remote testing, this test passes without fails.  However without
"set remote hardware-watchpoint-limit 1", many other watchpoint
tests fail.

This patch is to add a check to skip_hw_watchpoint_multi_tests
for rwatch and awatch.  We can add such check for watch as well,
but GDB is able to switch to software watchpoint if HW resource
isn't available, it doesn't cause any fail, I decide not to skip.

gdb/testsuite:

2015-04-30  Yao Qi  <yao.qi@linaro.org>

	* gdb.base/break-idempotent.exp: If
	skip_hw_watchpoint_multi_tests returns true, skip the tests
	on "rwatch" and "awatch".
2015-04-30 10:08:10 +01:00
Yao Qi
42d38f42dc Skip gdb.base/relativedebug.exp if libc doesn't have debug info
Hi,
I see the fail in gdb.base/relativedebug.exp on aarch64 box on which
glibc doesn't have debug info,

 bt^M
 #0 0x0000002000061a88 in raise () from /lib/aarch64-linux-gnu/libc.so.6^M
 #1 0x0000002000064efc in abort () from /lib/aarch64-linux-gnu/libc.so.6^M
 #2 0x0000000000400640 in handler (signo=14) at ../../../binutils-gdb/gdb/testsuite/gdb.base/relativedebug.c:25^M
 #3 <signal handler called>^M
 #4 0x00000020000cc478 in ?? () from /lib/aarch64-linux-gnu/libc.so.6^M
 #5 0x0000000000400664 in main () at ../../../binutils-gdb/gdb/testsuite/gdb.base/relativedebug.c:32^M
 (gdb) FAIL: gdb.base/relativedebug.exp: pause found in backtrace

if glibc has debug info, this test doesn't fail.

In sysdeps/unix/sysv/linux/generic/pause.c, __libc_pause calls
__syscall_pause,

  static int
  __syscall_pause (void)
  {
    sigset_t set;

    int rc =
      INLINE_SYSCALL (rt_sigprocmask, 4, SIG_BLOCK, NULL, &set, _NSIG / 8);
    if (rc == 0)
      rc = INLINE_SYSCALL (rt_sigsuspend, 2, &set, _NSIG / 8);

    return rc;
  }

  int
  __libc_pause (void)
  {
    if (SINGLE_THREAD_P)
      return __syscall_pause ();     <--- tail call

    int oldtype = LIBC_CANCEL_ASYNC ();

    int result = __syscall_pause ();

    LIBC_CANCEL_RESET (oldtype);

    return result;
  }

and GDB unwinder is confused by the GCC optimized code,

(gdb) disassemble pause
Dump of assembler code for function pause:
   0x0000007fb7f274c4 <+0>:     stp     x29, x30, [sp,#-32]!
   0x0000007fb7f274c8 <+4>:     mov     x29, sp
   0x0000007fb7f274cc <+8>:     adrp    x0, 0x7fb7fd2000
   0x0000007fb7f274d0 <+12>:    ldr     w0, [x0,#364]
   0x0000007fb7f274d4 <+16>:    stp     x19, x20, [sp,#16]
   0x0000007fb7f274d8 <+20>:    cbnz    w0, 0x7fb7f274e8 <pause+36>

   0x0000007fb7f274dc <+24>:    ldp     x19, x20, [sp,#16]
   0x0000007fb7f274e0 <+28>:    ldp     x29, x30, [sp],#32
   0x0000007fb7f274e4 <+32>:    b       0x7fb7f27434    <---- __syscall_pause

   0x0000007fb7f274e8 <+36>:    bl      0x7fb7f5e080

Note that the program stops in __syscall_pause, but its symbol is
stripped in glibc, so GDB doesn't know where the program stops.
__syscall_pause is a tail call in __libc_pause, so it returns to main
instead of __libc_pause.  As a result, the backtrace is like,

 #0  0x0000007fb7ebca88 in raise () from /lib/aarch64-linux-gnu/libc.so.6
 #1  0x0000007fb7ebfefc in abort () from /lib/aarch64-linux-gnu/libc.so.6
 #2  0x0000000000400640 in handler (signo=14) at ../../../binutils-gdb/gdb/testsuite/gdb.base/relativedebug.c:25
 #3  <signal handler called>
 #4  0x0000007fb7f27478 in ?? () from /lib/aarch64-linux-gnu/libc.so.6   <-- [in __syscall_pause]
 #5  0x0000000000400664 in main () at ../../../binutils-gdb/gdb/testsuite/gdb.base/relativedebug.c:32

looks GDB does nothing wrong here.  I looked back at the test case
gdb.base/relativedebug.exp, which was added
https://sourceware.org/ml/gdb-patches/2006-10/msg00305.html
This test was indented to test the problem that "backtraces no longer
display some libc functions" after separate debug info is installed.
IOW, it makes few sense to test against libc which doesn't have debug
info at all, such as my case.

This patch is to tweak the test case to catch the output of
"info shared", if "(*)" is found for libc.so, which means libc doesn't
have debug info, then skip the test.

gdb/testsuite:

2015-04-30  Yao Qi  <yao.qi@linaro.org>

	* gdb.base/relativedebug.exp: Invoke gdb command
	"info sharedlibrary", and if libc.so doesn't have debug info,
	skip the test.
2015-04-30 09:55:06 +01:00
GDB Administrator
97bf273d5d Automatic date update in version.in 2015-04-30 00:00:08 +00:00
Doug Evans
2ce1cdbf84 PR python/18285
gdb/ChangeLog:

	PR python/18285
	* NEWS: Document new gdb.XMethodWorker.get_result_type method.
	* eval.c (evaluate_subexp_standard) <OP_FUNCALL>: Handle
	EVAL_AVOID_SIDE_EFFECTS for xmethods.
	* extension-priv.h (struct extension_language_ops)
	<get_xmethod_result_type>: New member.
	* extension.c (get_xmethod_result_type): New function.
	* extension.h (get_xmethod_result_type): Declare.
	* python/py-xmethods.c (get_result_type_method_name): New static
	global.
	(py_get_result_type_method_name): Ditto.
	(gdbpy_get_xmethod_result_type): New function.
	(gdbpy_initialize_xmethods): Initialize py_get_result_type_method_name.
	* python/python-internal.h (gdbpy_get_xmethod_result_type): Declare.
	* python/python.c (python_extension_ops): Add
	gdbpy_get_xmethod_result_type.
	* python/lib/gdb/xmethod.py (XMethodWorker): Add get_result_type.
	* valarith.c (value_x_binop): Handle EVAL_AVOID_SIDE_EFFECTS for
	xmethods.
	(value_x_unop): Ditto.
	* value.c (result_type_of_xmethod): New function.
	* value.h (result_type_of_xmethod): Declare.

gdb/testsuite/ChangeLog:

	* gdb.python/py-xmethods.exp: Add ptype tests.
	* gdb.python/py-xmethods.py (E_method_char_worker): Add
	get_result_type method.

gdb/doc/ChangeLog:

	* python.texi (Xmethod API) <gdb.XMethodWorker.get_result_type>:
	Document.
	(Writing an Xmethod): Add get_result_type to example.
2015-04-29 13:24:21 -07:00