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This commit is part of a series to share more of the x86 target description creation code between GDB and gdbserver. Unlike previous commits which were mostly refactoring, this commit is the first that makes a real change, though that change should mostly be for gdbserver; I've largely adopted the "GDB" way of doing things for gdbserver, and this fixes a real gdbserver bug. On a x86-64 Linux target, running the test: gdb.server/connect-with-no-symbol-file.exp results in two core files being created. Both of these core files are from the inferior process, created after gdbserver has detached. In this test a gdbserver process is started and then, after gdbserver has started, but before GDB attaches, we either delete the inferior executable, or change its permissions so it can't be read. Only after doing this do we attempt to connect with GDB. As GDB connects to gdbserver, gdbserver attempts to figure out the target description so that it can send the description to GDB, this involves a call to x86_linux_read_description. In x86_linux_read_description one of the first things we do is try to figure out if the process is 32-bit or 64-bit. To do this we look up the executable via the thread-id, and then attempt to read the architecture size from the executable. This isn't going to work if the executable has been deleted, or is no longer readable. And so, as we can't read the executable, we default to an i386 target and use an i386 target description. A consequence of using an i386 target description is that addresses are assumed to be 32-bits. Here's an example session that shows the problems this causes. This is run on an x86-64 machine, and the test binary (xx.x) is a standard 64-bit x86-64 binary: shell_1$ gdbserver --once localhost :54321 /tmp/xx.x shell_2$ gdb -q (gdb) set sysroot (gdb) shell chmod 000 /tmp/xx.x (gdb) target remote :54321 Remote debugging using :54321 warning: /tmp/xx.x: Permission denied. 0xf7fd3110 in ?? () (gdb) show architecture The target architecture is set to "auto" (currently "i386"). (gdb) p/x $pc $1 = 0xf7fd3110 (gdb) info proc mappings process 2412639 Mapped address spaces: Start Addr End Addr Size Offset Perms objfile 0x400000 0x401000 0x1000 0x0 r--p /tmp/xx.x 0x401000 0x402000 0x1000 0x1000 r-xp /tmp/xx.x 0x402000 0x403000 0x1000 0x2000 r--p /tmp/xx.x 0x403000 0x405000 0x2000 0x2000 rw-p /tmp/xx.x 0xf7fcb000 0xf7fcf000 0x4000 0x0 r--p [vvar] 0xf7fcf000 0xf7fd1000 0x2000 0x0 r-xp [vdso] 0xf7fd1000 0xf7fd3000 0x2000 0x0 r--p /usr/lib64/ld-2.30.so 0xf7fd3000 0xf7ff3000 0x20000 0x2000 r-xp /usr/lib64/ld-2.30.so 0xf7ff3000 0xf7ffb000 0x8000 0x22000 r--p /usr/lib64/ld-2.30.so 0xf7ffc000 0xf7ffe000 0x2000 0x2a000 rw-p /usr/lib64/ld-2.30.so 0xf7ffe000 0xf7fff000 0x1000 0x0 rw-p 0xfffda000 0xfffff000 0x25000 0x0 rw-p [stack] 0xff600000 0xff601000 0x1000 0x0 r-xp [vsyscall] (gdb) info inferiors Num Description Connection Executable * 1 process 2412639 1 (remote :54321) (gdb) shell cat /proc/2412639/maps 00400000-00401000 r--p 00000000 fd:03 45907133 /tmp/xx.x 00401000-00402000 r-xp 00001000 fd:03 45907133 /tmp/xx.x 00402000-00403000 r--p 00002000 fd:03 45907133 /tmp/xx.x 00403000-00405000 rw-p 00002000 fd:03 45907133 /tmp/xx.x 7ffff7fcb000-7ffff7fcf000 r--p 00000000 00:00 0 [vvar] 7ffff7fcf000-7ffff7fd1000 r-xp 00000000 00:00 0 [vdso] 7ffff7fd1000-7ffff7fd3000 r--p 00000000 fd:00 143904 /usr/lib64/ld-2.30.so 7ffff7fd3000-7ffff7ff3000 r-xp 00002000 fd:00 143904 /usr/lib64/ld-2.30.so 7ffff7ff3000-7ffff7ffb000 r--p 00022000 fd:00 143904 /usr/lib64/ld-2.30.so 7ffff7ffc000-7ffff7ffe000 rw-p 0002a000 fd:00 143904 /usr/lib64/ld-2.30.so 7ffff7ffe000-7ffff7fff000 rw-p 00000000 00:00 0 7ffffffda000-7ffffffff000 rw-p 00000000 00:00 0 [stack] ffffffffff600000-ffffffffff601000 r-xp 00000000 00:00 0 [vsyscall] (gdb) Notice the difference between the mappings reported via GDB and those reported directly from the kernel via /proc/PID/maps, the addresses of every mapping is clamped to 32-bits for GDB, while the kernel reports real 64-bit addresses. Notice also that the $pc value is a 32-bit value. It appears to be within one of the mappings reported by GDB, but is outside any of the mappings reported from the kernel. And this is where the problem arises. When gdbserver detaches from the inferior we pass the inferior the address from which it should resume. Due to the 32/64 bit confusion we tell the inferior to resume from the 32-bit $pc value, which is not within any valid mapping, and so, as soon as the inferior resumes, it segfaults. If we look at how GDB (not gdbserver) figures out its target description then we see an interesting difference. GDB doesn't try to read the executable. Instead GDB uses ptrace to query the thread's state, and uses this to figure out the if the thread is 32 or 64 bit. If we update gdbserver to do it the "GDB" way then the above problem is resolved, gdbserver now sees the process as 64-bit, and when we detach from the inferior we give it the correct 64-bit address, and the inferior no longer segfaults. Now, I could just update the gdbserver code, but better, I think, to share one copy of the code between GDB and gdbserver in gdb/nat/. That is what this commit does. The cores of x86_linux_read_description from gdbserver and x86_linux_nat_target::read_description from GDB are moved into a new file gdb/nat/x86-linux-tdesc.c and combined into a single function x86_linux_tdesc_for_tid which is called from each location. This new function does things mostly the GDB way, some changes are needed to allow for the sharing; we now take some pointers for where the shared code can cache the xcr0 and xsave layout values. Another thing to note about this commit is how the functions i386_linux_read_description and amd64_linux_read_description are handled. For now I've left these function as implemented separately in GDB and gdbserver. I've moved the declarations of these functions into gdb/arch/{i386,amd64}-linux-tdesc.h, but the implementations are left where they are. A later commit in this series will make these functions shared too, but doing this is not trivial, so I've left that for a separate commit. Merging the declarations as I've done here ensures that everyone implements the function to the same API, and once these functions are shared (in a later commit) we'll want a shared declaration anyway. Reviewed-By: Felix Willgerodt <felix.willgerodt@intel.com> Acked-By: John Baldwin <jhb@FreeBSD.org>
38 lines
1.4 KiB
C++
38 lines
1.4 KiB
C++
/* i387-specific utility functions, for the remote server for GDB.
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Copyright (C) 2000-2024 Free Software Foundation, Inc.
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This file is part of GDB.
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This program is free software; you can redistribute it and/or modify
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it under the terms of the GNU General Public License as published by
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the Free Software Foundation; either version 3 of the License, or
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(at your option) any later version.
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This program is distributed in the hope that it will be useful,
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but WITHOUT ANY WARRANTY; without even the implied warranty of
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MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
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GNU General Public License for more details.
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You should have received a copy of the GNU General Public License
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along with this program. If not, see <http://www.gnu.org/licenses/>. */
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#ifndef GDBSERVER_I387_FP_H
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#define GDBSERVER_I387_FP_H
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struct x86_xsave_layout;
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void i387_cache_to_fsave (struct regcache *regcache, void *buf);
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void i387_fsave_to_cache (struct regcache *regcache, const void *buf);
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void i387_cache_to_fxsave (struct regcache *regcache, void *buf);
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void i387_fxsave_to_cache (struct regcache *regcache, const void *buf);
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void i387_cache_to_xsave (struct regcache *regcache, void *buf);
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void i387_xsave_to_cache (struct regcache *regcache, const void *buf);
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/* Set the XSAVE mask and fetch the XSAVE layout via CPUID. */
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std::pair<uint64_t *, x86_xsave_layout *> i387_get_xsave_storage ();
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#endif /* GDBSERVER_I387_FP_H */
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