| Age | Commit message (Collapse) | Author | Files | Lines |
|---|
|
In commit 83c79df86bf4 I removed configure tests for strtoull among
other library functions part of C99, but didn't remove what is now
dead code.
* bfd.c (bfd_scan_vma): Delete fall-back for strtoull.
|
|
The ld lexer converts strings to integers without overflow checking,
so I don't think there is any problem in truncating an integer that
exceeds the size of a bfd_vma rather than using (bfd_vma) -1.
PR 31120
* ldlex.l: Don't use bfd_scan_vma for integer conversion, use
strtoull.
|
|
Since the particularity of "th.vsetvli" was not taken into account in the
initial support patches for XTheadVector, the program operation failed
due to instruction coding errors. According to T-Head SPEC ([1]), the
"vsetvl" in the XTheadVector extension consists of SEW, LMUL and EDIV,
which is quite different from the "V" extension. Therefore, we cannot
simply reuse the processing of vsetvl in V extension.
We have set up tens of thousands of test cases to ensure that no
further encoding issues are there, and and execute all compiled test
files on real HW and make sure they don't trigger SIGILL.
Ref:
[1] https://github.com/T-head-Semi/thead-extension-spec/releases/download/2.3.0/xthead-2023-11-10-2.3.0.pdf
Co-developed-by: Lifang Xia <lifang_xia@linux.alibaba.com>
Co-developed-by: Christoph Müllner <christoph.muellner@vrull.eu>
gas/ChangeLog:
* config/tc-riscv.c (validate_riscv_insn): Add handling for
th.vsetvli.
(my_getThVsetvliExpression): New function.
(riscv_ip): Likewise.
* testsuite/gas/riscv/x-thead-vector.d: Likewise.
* testsuite/gas/riscv/x-thead-vector.s: Likewise.
include/ChangeLog:
* opcode/riscv.h (OP_MASK_XTHEADVLMUL): New macro.
(OP_SH_XTHEADVLMUL): Likewise.
(OP_MASK_XTHEADVSEW): Likewise.
(OP_SH_XTHEADVSEW): Likewise.
(OP_MASK_XTHEADVEDIV): Likewise.
(OP_SH_XTHEADVEDIV): Likewise.
(OP_MASK_XTHEADVTYPE_RES): Likewise.
(OP_SH_XTHEADVTYPE_RES): Likewise.
opcodes/ChangeLog:
* riscv-dis.c (print_insn_args): Likewise.
* riscv-opc.c: Likewise.
|
|
|
|
On aarch64-linux, I run into:
...
FAIL: gdb.base/annota1.exp: backtrace from shlibrary (timeout)
...
due to the PAC marker showing up:
...
^Z^Zframe-address^M
0x000000000041025c [PAC]^M
^Z^Zframe-address-end^M
...
In the docs the marker is documented as follows:
...
When GDB is debugging the AArch64 architecture, and the program is using the
v8.3-A feature Pointer Authentication (PAC), then whenever the link register
$lr is pointing to an PAC function its value will be masked. When GDB prints
a backtrace, any addresses that required unmasking will be postfixed with the
marker [PAC]. When using the MI, this is printed as part of the addr_flags
field.
...
Update the test-case to allow the PAC marker.
Likewise in a few other test-cases.
While we're at it, rewrite the affected pattern pat_begin in annota1.exp into
a more readable form. Likewise for the corresponding pat_end.
Tested on aarch64-linux.
Approved-By: Luis Machado <luis.machado@arm.com>
PR testsuite/31202
Bug: https://sourceware.org/bugzilla/show_bug.cgi?id=31202
|
|
Adds two new external authors to etc/update-copyright.py to cover
bfd/ax_tls.m4, and adds gprofng to dirs handled automatically, then
updates copyright messages as follows:
1) Update cgen/utils.scm emitted copyrights.
2) Run "etc/update-copyright.py --this-year" with an extra external
author I haven't committed, 'Kalray SA.', to cover gas testsuite
files (which should have their copyright message removed).
3) Build with --enable-maintainer-mode --enable-cgen-maint=yes.
4) Check out */po/*.pot which we don't update frequently.
|
|
Brings in:
commit 28ea239c53a2d5d8800c472bc2452eaa16e37af2 config.sub: Remove windows-gnu
commit a6976af01b0c6206561782183a0db42124b19f7b config.sub: recognise ARM64EC machine type
commit 4e60c54be77f743ff8018ab58fb36fd8bc055e2a config.sub: allow aarch64c-unknown-freebsd
commit e4786449e1c26716e3f9ea182caf472e4dbc96e0 config.guess: invoke "uname -p" from PATH for non-arm FreeBSD
commit 021155df7fad97a5ae1baa354e15a03ea14500b4 config.guess: Detect Android (as opposed to GNU/Linux)
commit 6c78704d542cebfb56d17474fe9f8395e9defb94 config.sub: add javascript-*-ghcjs
commit 2a7c4b64d4aec5c3a8a975625f0f8c369d365667 testsuite: add coverage for vendor-clobbering
commit 39c49ea712cba8ae6613ef85ab22fe7c552b48b0 config.sub: Systematize parsing of machine code formats
commit d4e37b5868ef910e3e52744c34408084bb13051c config.sub: Handle arbitrary MIPS CPU names
commit af8d803a82436779d35ea389888788c78677804e config.guess (aarch64:Linux:*:*): Detect 32-bit ABI
commit 602766470c886df7ae07bcfd7dcf532f0783d3e0 Add KVX MPPA detection
commit be68d790b6bc7dd84982fa6760f1448e92849e63 config.sub: Add Apple tvOS and watchOS
commit 998ba1414387b4ce1a519be234e1609bc7912e0c config.sub: Accept $cpu-$vendor-none-{coff,elf}
|
|
With old "medium" code model, we call a function with a pair of PCALAU12I
and JIRL instructions. The assembler produces something like:
8: 1a00000c pcalau12i $t0, 0
8: R_LARCH_PCALA_HI20 g
c: 4c000181 jirl $ra, $t0, 0
c: R_LARCH_PCALA_LO12 g
The linker generates a "PLT entry" for data without any diagnostic.
If "g" is a data symbol and ld with -shared option, it may load two
instructions in the PLT.
Without -shared option, loongarch_elf_adjust_dynamic_symbol can delete PLT
entry.
For R_LARCH_PCALA_HI20 relocation, linker only generate PLT entry for STT_FUNC
and STT_GNU_IFUNC symbols.
|
|
This commits changes how errors are reported from the expression
parser. Previously, parser errors were reported like this:
(gdb) p a1 +}= 432
A syntax error in expression, near `}= 432'.
(gdb) p a1 +
A syntax error in expression, near `'.
The first case is fine, a user can figure out what's going wrong, but
the second case is a little confusing; as the error occurred at the
end of the expression GDB just reports the empty string to the user.
After this commit the first case is unchanged, but the second case now
reports like this:
(gdb) p a1 +
A syntax error in expression, near the end of `a1 +'.
Which I think is clearer. There is a possible issue if the expression
being parsed is very long, GDB will repeat the whole expression. But
this issue already exists in the standard case; if the error occurs
early in a long expression GDB will repeat everything after the syntax
error. So I've not worried about this case in my new code either,
which keeps things simpler.
I did consider trying to have multi-line errors here, in the style
that gcc produces, with some kind of '~~~~~^' marker on the second
line to indicate where the error occurred; but I rejected this due to
the places in GDB where we catch an error and repackage the message
within some longer string, I don't think multi-line error messages
would work well in that case. At a minimum it would require some
significant work in order to make all our error handling multi-line
aware.
I've added a couple of extra tests in gdb.base/exprs.exp.
Approved-By: John Baldwin <jhb@FreeBSD.org>
|
|
Many (all?) of the expression parsers implement yyerror to handle
parser errors, and all of these functions are basically identical.
This commit adds a new parser_state::parse_error() function, which
implements the common error handling code, this function can then be
called from all the different yyerror functions.
The benefit of this is that (in a future commit) I can improve the
error output, and all the expression parsers will benefit.
This commit is pure refactoring though, and so, there should be no
user visible changes after this commit.
Approved-By: John Baldwin <jhb@FreeBSD.org>
|
|
While working on a later commit in this series I realised that the
error() function doesn't support output styling. Due to the way that
output from error() calls is passed around within the exception
object and often combined with other output, it's not immediately
obvious to me if we should be trying to support styling in this
context or not.
On inspection, I found one place in GDB where we apparently try to
apply styling within the error() output (in procfs.c). I suspect this
error() call might not be tested.
Rather than try to implement styling in the error() output, right now
I'm proposing to just remove the attempt to style error() output.
This doesn't mean that someone shouldn't add error() styling in the
future, but right now, I'm not planning to do that, I just wanted to
fix this in passing.
Approved-By: John Baldwin <jhb@FreeBSD.org>
|
|
The loongarch*-elf target does not support SHARED and PIE, so this
target is skipped for some tests that require these options.
|
|
Suppose we want to use la.got to generate 32 pcrel and
32 abs instruction sequences respectively. According to
the existing conditions, to generate 32 pcrel sequences
use -mabi=ilp32*, and to generate 32 abs use -mabi=ilp32*
and -mla-global-with-abs.
Due to the fact that the conditions for generating 32 abs
also satisfy 32 pcrel, using -mabi=ilp32* and -mla-global-with-abs
will result in only generating instruction sequences of 32 pcrel.
By modifying the conditions for macro expansion and adjusting
the matching order of macro instructions, it is ensured that
the correct sequence of instructions can be generated.
|
|
|
|
The common igen code was forked from the ppc long ago. The filter
module is still pretty similar in API, so we can unfork them with
a little bit of effort.
The filter.c module is still here because of the unique it_is API.
The common igen code doesn't seem to have an equiv API as this only
operates on two strings and not an actual filter object, and it's
easy enough to leave behind to unfork the rest.
|
|
The common igen code was forked from the ppc long ago. The lf module
is still pretty similar in API, so we can unfork them with a little
bit of effort.
Some of the generated ppc code is now slightly different, but that's
because of fixes the common igen code has gained, but not the ppc igen
code (e.g. fixing of #line numbers).
The ppc code retains lf_print__c_code because the common igen code
rewrote the logic to a new table.c API. Let's delay that in the ppc
code to at least unfork all this code.
|
|
Add standard multiple inclusion protection, and add a few missing
local includes when one header uses another. This isn't complete,
but fixes some short comings seen when merging the ppc igen.
|
|
The common sim-endian is a forked & updated version of the ppc code.
Fortunately, they didn't diverge from the basic APIs, so they are
still compatible, which means we can just delete the ppc version now
that the build env is merged at the top-level.
|
|
This is a bit redundant for most ports as they go through sim-basics.h
which always includes sim-types.h before including sim-endian.h, but in
order to unify ppc's sim-endian code, we need this include here. Plus,
it's the directly we generally want to go to get away from one header
that defines all APIs and causes hard to untangle dependencies.
|
|
The common/ code has macros with the same name but different behavior:
it's for declaring integer constants as 64-bit, not for casting them.
Rename ppc's local variant since it's only used in this file in order
to avoid conflicts.
|
|
This will make it easier to share common/ code that rely on these
additional defines.
|
|
|
|
Minor reduction in boilerplate here. No real functional changes.
|
|
Now that all ports have been merged to the top-level, we no longer need
this framework to pass settings down to sub-makefiles. Delete it all.
|
|
This removes all recursive makes from the ppc port.
|
|
No port relies on this anymore, so we can scrub it all.
|
|
The objects are still compiled in the subdir, but the creation of the
archive itself is in the top-level. This is a required step before we
can move compilation itself up, and makes it easier to review.
The downside is that each object compile is a recursive make instead of
a single one. It adds some overhead, so it's not great, but it shouldn't
be a big deal. This will go away once compilation is hoisted up.
|
|
|
|
|
|
|
|
Currently GDB when executing in reverse over multiple statements in a single
line of source code, GDB stops in the middle of the line. Thus requiring
multiple commands to reach the previous line. GDB should stop at the first
instruction of the line, not in the middle of the line.
The following description of the incorrect behavior was taken from an
earlier message by Pedro Alves <pedro@palves.net>:
https://sourceware.org/pipermail/gdb-patches/2023-January/196110.html
---------------------------------
The source line looks like:
func1 (); func2 ();
in the test case:
(gdb) list 1
1 void func1 ()
2 {
3 }
4
5 void func2 ()
6 {
7 }
8
9 int main ()
10 {
11 func1 (); func2 ();
12 }
compiled with:
$ gcc reverse.c -o reverse -g3 -O0
$ gcc -v
...
gcc version 11.3.0 (Ubuntu 11.3.0-1ubuntu1~22.04)
Now let's debug it with target record, using current gdb git master
(f3d8ae90b236),
$ gdb ~/reverse
GNU gdb (GDB) 14.0.50.20230124-git
...
Reading symbols from /home/pedro/reverse...
(gdb) start
Temporary breakpoint 1 at 0x1147: file reverse.c, line 11.
Starting program: /home/pedro/reverse
[Thread debugging using libthread_db enabled]
Using host libthread_db library "/lib/x86_64-linux-gnu/libthread_db.so.1".
Temporary breakpoint 1, main () at reverse.c:11
11 func1 (); func2 ();
(gdb) record
(gdb) disassemble /s
Dump of assembler code for function main:
reverse.c:
10 {
0x000055555555513f <+0>: endbr64
0x0000555555555143 <+4>: push %rbp
0x0000555555555144 <+5>: mov %rsp,%rbp
11 func1 (); func2 ();
=> 0x0000555555555147 <+8>: mov $0x0,%eax
0x000055555555514c <+13>: call 0x555555555129 <func1>
0x0000555555555151 <+18>: mov $0x0,%eax
0x0000555555555156 <+23>: call 0x555555555134 <func2>
0x000055555555515b <+28>: mov $0x0,%eax
12 }
0x0000555555555160 <+33>: pop %rbp
0x0000555555555161 <+34>: ret
End of assembler dump.
(gdb) n
12 }
So far so good, a "next" stepped over the whole of line 11 and stopped at
line 12.
Let's confirm where we are now:
(gdb) disassemble /s
Dump of assembler code for function main:
reverse.c:
10 {
0x000055555555513f <+0>: endbr64
0x0000555555555143 <+4>: push %rbp
0x0000555555555144 <+5>: mov %rsp,%rbp
11 func1 (); func2 ();
0x0000555555555147 <+8>: mov $0x0,%eax
0x000055555555514c <+13>: call 0x555555555129 <func1>
0x0000555555555151 <+18>: mov $0x0,%eax
0x0000555555555156 <+23>: call 0x555555555134 <func2>
0x000055555555515b <+28>: mov $0x0,%eax
12 }
=> 0x0000555555555160 <+33>: pop %rbp
0x0000555555555161 <+34>: ret
End of assembler dump.
Good, we're at the first instruction of line 12.
Now let's undo the "next", with "reverse-next":
(gdb) reverse-next
11 func1 (); func2 ();
Seemingly stopped at line 11. Let's see exactly where:
(gdb) disassemble /s
Dump of assembler code for function main:
reverse.c:
10 {
0x000055555555513f <+0>: endbr64
0x0000555555555143 <+4>: push %rbp
0x0000555555555144 <+5>: mov %rsp,%rbp
11 func1 (); func2 ();
0x0000555555555147 <+8>: mov $0x0,%eax
0x000055555555514c <+13>: call 0x555555555129 <func1>
=> 0x0000555555555151 <+18>: mov $0x0,%eax
0x0000555555555156 <+23>: call 0x555555555134 <func2>
0x000055555555515b <+28>: mov $0x0,%eax
12 }
0x0000555555555160 <+33>: pop %rbp
0x0000555555555161 <+34>: ret
End of assembler dump.
(gdb)
And lo, we stopped in the middle of line 11! That is a bug, we should have
stepped back all the way to the beginning of the line. The "reverse-next"
should have fully undone the prior "next" command.
--------------------
This patch fixes the incorrect GDB behavior by ensuring that GDB stops at
the first instruction in the line.
The test case gdb.reverse/func-map-to-same-line.exp is added to testsuite
to verify this fix when the line table information is and is not available.
|
|
When running GDB's testsuite on aarch64-linux/Ubuntu 20.04 (also spotted on
the ppc backend), there are failures in gdb.reverse/solib-precsave.exp and
gdb.reverse/solib-reverse.exp.
The failure happens around the following code:
38 b[1] = shr2(17); /* middle part two */
40 b[0] = 6; b[1] = 9; /* generic statement, end part two */
42 shr1 ("message 1\n"); /* shr1 one */
Normal execution:
- step from line 38 will land on line 40.
- step from line 40 will land on line 42.
Reverse execution:
- step from line 42 will land on line 40.
- step from line 40 will land on line 40.
- step from line 40 will land on line 38.
The problem here is that line 40 contains two contiguous but distinct
PC ranges in the line table, like so:
Line 40 - [0x7ec ~ 0x7f4]
Line 40 - [0x7f4 ~ 0x7fc]
The two distinct ranges are generated because GCC started outputting source
column information, which GDB doesn't take into account at the moment.
When stepping forward from line 40, we skip both of these ranges and land on
line 42. When stepping backward from line 42, we stop at the start PC of the
second (or first, going backwards) range of line 40.
Since we've reached ecs->event_thread->control.step_range_start, we stop
stepping backwards.
The above issues were fixed by introducing a new function that looks for
adjacent PC ranges for the same line, until we notice a line change. Then
we take that as the start PC of the range. The new start PC for the range
is used for the control.step_range_start when setting up a step range.
The test case gdb.reverse/map-to-same-line.exp is added to test the fix
for the above reverse step issues.
Patch has been tested on PowerPC, X86 and AArch64 with no regressions.
|
|
This patch adds two new options to gdb_compile to specify if the compile
should or should not generate the line table information. The
options are supported on clang and gcc version 7 and newer.
Patch has been tested on PowerPC with both gcc and clang.
|
|
This commit adds a mechanism for GDB to detect the linetable opcode
DW_LNS_set_epilogue_begin. This opcode is set by compilers to indicate
that a certain instruction marks the point where the frame is destroyed.
While the standard allows for multiple points marked with epilogue_begin
in the same function, for performance reasons, the function that
searches for the epilogue address will only find the last address that
sets this flag for a given block.
This commit also changes amd64_stack_frame_destroyed_p_1 to attempt to
use the epilogue begin directly, and only if an epilogue can't be found
will it attempt heuristics based on the current instruction.
Finally, this commit also changes the dwarf assembler to be able to emit
epilogue-begin instructions, to make it easier to test this patch
Approved-By: Tom Tromey <tom@tromey.com>
|
|
|
|
|
|
Invoke ppc's igen from the top-level like we do for all other ports.
|
|
Now that the ppc configure script is just namespaced options, we can
move it to ppc/acinclude.m4 and include it directly in the top-level
configure script and kill off the last subdir configure script.
|
|
To prepare for moving these into the top-level configure, namespace
then with the port name like we do with all other ports.
|
|
Switch from ad-hoc $silent checks & echo calls to standard
AC_MSG_CHECKING & AC_MSG_RESULT calls. Also delete pointless
variable setting after calling AC_MSG_ERROR.
|
|
|
|
|
|
Since we rely on the top-level config.h now, the defines.h generation
step should live here too.
|
|
Now that the ppc script only checks configure options and sets up
variables in the Makefile from those, delete all the compile related
logic to greatly simplify the configure script.
|
|
Now that everything has moved to the top-level, we can drop the
custom ppc config.h and reuse the common one.
|
|
The common sim code doesn't snoop in gdb/, and the ppc code doesn't
need to either. Any common code we pull from gnulib/ now only.
|
|
This is the last compile-time logic in the ppc subdir.
|
|
This macro replaces the AC_MSG_CHECKING+AC_CACHE_VAL+AC_MSG_RESULT
which reduces the boilerplate in here a little bit.
|
|
This covers a lot of the AC_MSG_CHECKING+AC_TRY_COMPILE+AC_MSG_RESULT
boilerplate and matches what we do in the top-level platform checks.
|
|
Move the defines from explicit -D options to config.h defines to simplify
the build and make it easier to move to the top-level configure.
|
