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authorSimon Marchi <simon.marchi@polymtl.ca>2022-09-29 16:14:40 -0400
committerSimon Marchi <simon.marchi@efficios.com>2022-10-11 13:52:18 -0400
commit82d23ca811ab365217fdc9bda215e23adb5e4a30 (patch)
treeb02efe54c8d3eb47f780605eff20dac625e8eace /gdb/linux-tdep.c
parent343c2cbd8577101a8057d1459810ff983d07943c (diff)
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gdb: fix auxv caching
There's a flaw in the interaction of the auxv caching and the fact that target_auxv_search allows reading auxv from an arbitrary target_ops (passed in as a parameter). This has consequences as explained in this thread: https://inbox.sourceware.org/gdb-patches/20220719144542.1478037-1-luis.machado@arm.com/ In summary, when loading an AArch64 core file with MTE support by passing the executable and core file names directly to GDB, we see the MTE info: $ ./gdb -nx --data-directory=data-directory -q aarch64-mte-gcore aarch64-mte-gcore.core ... Program terminated with signal SIGSEGV, Segmentation fault Memory tag violation while accessing address 0x0000ffff8ef5e000 Allocation tag 0x1 Logical tag 0x0. #0 0x0000aaaade3d0b4c in ?? () (gdb) But if we do it as two separate commands (file and core) we don't: $ ./gdb -nx --data-directory=data-directory -q -ex "file aarch64-mte-gcore" -ex "core aarch64-mte-gcore.core" ... Program terminated with signal SIGSEGV, Segmentation fault. #0 0x0000aaaade3d0b4c in ?? () (gdb) The problem with the latter is that auxv data gets improperly cached between the two commands. When executing the file command, auxv gets first queried here, when loading the executable: #0 target_auxv_search (ops=0x55555b842400 <exec_ops>, match=0x9, valp=0x7fffffffc5d0) at /home/simark/src/binutils-gdb/gdb/auxv.c:383 #1 0x0000555557e576f2 in svr4_exec_displacement (displacementp=0x7fffffffc8c0) at /home/simark/src/binutils-gdb/gdb/solib-svr4.c:2482 #2 0x0000555557e594d1 in svr4_relocate_main_executable () at /home/simark/src/binutils-gdb/gdb/solib-svr4.c:2878 #3 0x0000555557e5989e in svr4_solib_create_inferior_hook (from_tty=1) at /home/simark/src/binutils-gdb/gdb/solib-svr4.c:2933 #4 0x0000555557e6e49f in solib_create_inferior_hook (from_tty=1) at /home/simark/src/binutils-gdb/gdb/solib.c:1253 #5 0x0000555557f33e29 in symbol_file_command (args=0x7fffffffe01c "aarch64-mte-gcore", from_tty=1) at /home/simark/src/binutils-gdb/gdb/symfile.c:1655 #6 0x00005555573319c3 in file_command (arg=0x7fffffffe01c "aarch64-mte-gcore", from_tty=1) at /home/simark/src/binutils-gdb/gdb/exec.c:555 #7 0x0000555556e47185 in do_simple_func (args=0x7fffffffe01c "aarch64-mte-gcore", from_tty=1, c=0x612000047740) at /home/simark/src/binutils-gdb/gdb/cli/cli-decode.c:95 #8 0x0000555556e551c9 in cmd_func (cmd=0x612000047740, args=0x7fffffffe01c "aarch64-mte-gcore", from_tty=1) at /home/simark/src/binutils-gdb/gdb/cli/cli-decode.c:2543 #9 0x00005555580e63fd in execute_command (p=0x7fffffffe02c "e", from_tty=1) at /home/simark/src/binutils-gdb/gdb/top.c:692 #10 0x0000555557771913 in catch_command_errors (command=0x5555580e55ad <execute_command(char const*, int)>, arg=0x7fffffffe017 "file aarch64-mte-gcore", from_tty=1, do_bp_actions=true) at /home/simark/src/binutils-gdb/gdb/main.c:513 #11 0x0000555557771fba in execute_cmdargs (cmdarg_vec=0x7fffffffd570, file_type=CMDARG_FILE, cmd_type=CMDARG_COMMAND, ret=0x7fffffffd230) at /home/simark/src/binutils-gdb/gdb/main.c:608 #12 0x00005555577755ac in captured_main_1 (context=0x7fffffffda10) at /home/simark/src/binutils-gdb/gdb/main.c:1299 #13 0x0000555557775c2d in captured_main (data=0x7fffffffda10) at /home/simark/src/binutils-gdb/gdb/main.c:1320 #14 0x0000555557775cc2 in gdb_main (args=0x7fffffffda10) at /home/simark/src/binutils-gdb/gdb/main.c:1345 #15 0x00005555568bdcbe in main (argc=10, argv=0x7fffffffdba8) at /home/simark/src/binutils-gdb/gdb/gdb.c:32 Here, target_auxv_search is called on the inferior's target stack. The target stack only contains the exec target, so the query returns empty auxv data. This gets cached for that inferior in `auxv_inferior_data`. In its constructor (before it is pushed to the inferior's target stack), the core_target needs to identify the right target description from the core, and for that asks the gdbarch to read a target description from the core file. Because some implementations of gdbarch_core_read_description (such as AArch64's) need to read auxv data from the core in order to determine the right target description, the core_target passes a pointer to itself, allowing implementations to call target_auxv_search it. However, because we have previously cached (empty) auxv data for that inferior, target_auxv_search searched that cached (empty) auxv data, not auxv data read from the core. Remember that this data was obtained by reading auxv on the inferior's target stack, which only contained an exec target. The problem I see is that while target_auxv_search offers the flexibility of reading from an arbitrary (passed as an argument) target, the caching doesn't do the distinction of which target is being queried, and where the cached data came from. So, you could read auxv from a target A, it gets cached, then you try to read auxv from a target B, and it returns the cached data from target A. That sounds wrong. In our case, we expect to read different auxv data from the core target than what we have read from the target stack earlier, so it doesn't make sense to hit the cache in this case. To fix this, I propose splitting the code paths that read auxv data from an inferior's target stack and those that read from a passed-in target. The code path that reads from the target stack will keep caching, whereas the one that reads from a passed-in target won't. And since, searching in auxv data is independent from where this data came from, split the "read" part from the "search" part. From what I understand, auxv caching was introduced mostly to reduce latency on remote connections, when doing many queries. With the change I propose, only the queries done while constructing the core_target end up not using cached auxv data. This is fine, because there are just a handful of queries max, done at this point, and reading core files is local. The changes to auxv functions are: - Introduce 2 target_read_auxv functions. One reads from an explicit target_ops and doesn't do caching (to be used in gdbarch_core_read_description context). The other takes no argument, reads from the current inferior's target stack (it looks just like a standard target function wrapper) and does caching. The first target_read_auxv actually replaces get_auxv_inferior_data, since it became a trivial wrapper around it. - Change the existing target_auxv_search to not read auxv data from the target, but to accept it as a parameter (a gdb::byte_vector). This function doesn't care where the data came from, it just searches in it. It still needs to take a target_ops and gdbarch to know how to parse auxv entries. - Add a convenience target_auxv_search overload that reads auxv data from the inferior's target stack and searches in it. This overload is useful to replace the exist target_auxv_search calls that passed the `current_inferior ()->top_target ()` target and keep the call sites short. - Modify parse_auxv to accept a target_ops and gdbarch to use for parsing entries. Not strictly related to the rest of this change, but it seems like a good change in the context. Changes in architecture-specific files (tdep and nat): - In linux-tdep, linux_get_hwcap and linux_get_hwcap2 get split in two, similar to target_auxv_search. One version receives auxv data, target and arch as parameters. The other gets everything from the current inferior. The latter is for convenience, to avoid making call sites too ugly. - Call sites of linux_get_hwcap and linux_get_hwcap2 are adjusted to use either of the new versions. The call sites in gdbarch_core_read_description context explicitly read auxv data from the passed-in target and call the linux_get_hwcap{,2} function with parameters. Other call sites use the versions without parameters. - Same idea for arm_fbsd_read_description_auxv. - Call sites of target_auxv_search that passed `current_inferior ()->top_target ()` are changed to use the target_auxv_search overload that works in the current inferior. Reviewed-By: John Baldwin <jhb@FreeBSD.org> Reviewed-By: Luis Machado <luis.machado@arm.com> Change-Id: Ib775a220cf1e76443fb7da2fdff8fc631128fe66
Diffstat (limited to 'gdb/linux-tdep.c')
-rw-r--r--gdb/linux-tdep.c58
1 files changed, 42 insertions, 16 deletions
diff --git a/gdb/linux-tdep.c b/gdb/linux-tdep.c
index adf5180..dccb45d 100644
--- a/gdb/linux-tdep.c
+++ b/gdb/linux-tdep.c
@@ -417,10 +417,9 @@ int
linux_is_uclinux (void)
{
CORE_ADDR dummy;
- target_ops *target = current_inferior ()->top_target ();
- return (target_auxv_search (target, AT_NULL, &dummy) > 0
- && target_auxv_search (target, AT_PAGESZ, &dummy) == 0);
+ return (target_auxv_search (AT_NULL, &dummy) > 0
+ && target_auxv_search (AT_PAGESZ, &dummy) == 0);
}
static int
@@ -2379,8 +2378,7 @@ linux_vsyscall_range_raw (struct gdbarch *gdbarch, struct mem_range *range)
char filename[100];
long pid;
- if (target_auxv_search (current_inferior ()->top_target (),
- AT_SYSINFO_EHDR, &range->start) <= 0)
+ if (target_auxv_search (AT_SYSINFO_EHDR, &range->start) <= 0)
return 0;
/* It doesn't make sense to access the host's /proc when debugging a
@@ -2570,8 +2568,7 @@ linux_displaced_step_location (struct gdbarch *gdbarch)
local-store address and is thus not usable as displaced stepping
location. The auxiliary vector gets us the PowerPC-side entry
point address instead. */
- if (target_auxv_search (current_inferior ()->top_target (),
- AT_ENTRY, &addr) <= 0)
+ if (target_auxv_search (AT_ENTRY, &addr) <= 0)
throw_error (NOT_SUPPORTED_ERROR,
_("Cannot find AT_ENTRY auxiliary vector entry."));
@@ -2658,13 +2655,15 @@ linux_displaced_step_restore_all_in_ptid (inferior *parent_inf, ptid_t ptid)
per_inferior->disp_step_bufs->restore_in_ptid (ptid);
}
-/* See linux-tdep.h. */
+/* Helper for linux_get_hwcap and linux_get_hwcap2. */
-CORE_ADDR
-linux_get_hwcap (struct target_ops *target)
+static CORE_ADDR
+linux_get_hwcap_helper (const gdb::optional<gdb::byte_vector> &auxv,
+ target_ops *target, gdbarch *gdbarch, CORE_ADDR match)
{
CORE_ADDR field;
- if (target_auxv_search (target, AT_HWCAP, &field) != 1)
+ if (!auxv.has_value ()
+ || target_auxv_search (*auxv, target, gdbarch, match, &field) != 1)
return 0;
return field;
}
@@ -2672,12 +2671,39 @@ linux_get_hwcap (struct target_ops *target)
/* See linux-tdep.h. */
CORE_ADDR
-linux_get_hwcap2 (struct target_ops *target)
+linux_get_hwcap (const gdb::optional<gdb::byte_vector> &auxv,
+ target_ops *target, gdbarch *gdbarch)
{
- CORE_ADDR field;
- if (target_auxv_search (target, AT_HWCAP2, &field) != 1)
- return 0;
- return field;
+ return linux_get_hwcap_helper (auxv, target, gdbarch, AT_HWCAP);
+}
+
+/* See linux-tdep.h. */
+
+CORE_ADDR
+linux_get_hwcap ()
+{
+ return linux_get_hwcap (target_read_auxv (),
+ current_inferior ()->top_target (),
+ current_inferior ()->gdbarch);
+}
+
+/* See linux-tdep.h. */
+
+CORE_ADDR
+linux_get_hwcap2 (const gdb::optional<gdb::byte_vector> &auxv,
+ target_ops *target, gdbarch *gdbarch)
+{
+ return linux_get_hwcap_helper (auxv, target, gdbarch, AT_HWCAP2);
+}
+
+/* See linux-tdep.h. */
+
+CORE_ADDR
+linux_get_hwcap2 ()
+{
+ return linux_get_hwcap2 (target_read_auxv (),
+ current_inferior ()->top_target (),
+ current_inferior ()->gdbarch);
}
/* Display whether the gcore command is using the