PE/COFF can use either MSVC or GNU (MinGW) ABI for C++ code, however
LLDB had defaulted to MSVC implicitly with no way to override it. This
causes issues when debugging modules built with the GNU ABI, sometimes
even crashes.
This changes the PE/COFF plugin to set the module triple according to
the default target triple used to build LLDB. If the default target
triple is Windows and a valid environment is specified, then this
environment will be used for the module spec. This not only works for
MSVC and GNU, but also other environments.
A new setting, `plugin.object-file.pe-coff.abi`, has been added to
allow overriding this default ABI.
* Fixes https://github.com/llvm/llvm-project/issues/50775
* Fixes https://github.com/mstorsjo/llvm-mingw/issues/226
* Fixes https://github.com/mstorsjo/llvm-mingw/issues/282
Reviewed By: omjavaid
Differential Revision: https://reviews.llvm.org/D127048
The specification of gnu-debuglink can be found at:
https://sourceware.org/gdb/onlinedocs/gdb/Separate-Debug-Files.html
The file CRC or the CRC value from the .gnu_debuglink section is now
used to calculate the module UUID as a fallback, to allow verifying that
the debug object does match the executable. Note that if a CodeView
build id exists, it still takes precedence. This works even for MinGW
builds because LLD writes a synthetic CodeView build id which does not
get stripped from the debug object.
The `Minidump/Windows/find-module` test also needs a fix by adding a
CodeView record to the exe to match the one in the minidump, otherwise
it fails due to the new UUID calculated from the file CRC.
Fixes https://github.com/llvm/llvm-project/issues/54344
Reviewed By: DavidSpickett
Differential Revision: https://reviews.llvm.org/D126367
1. If array element type is a tag decl, complete it.
2. Fix few places where `asTag` should be used instead of `asClass()`.
3. Handle the case that `PdbAstBuilder::CreateFunctionDecl` return nullptr mainly due to an existing workaround (`m_cxx_record_map`).
4. `FindMembersSize` should never return error as this would cause early exiting in `CVTypeVisitor::visitFieldListMemberStream` and then cause assertion failure.
5. In some pdbs from C++ runtime libraries have S_LPROC32 followed directly by S_LOCAL and the local variable location is a S_DEFRANGE_FRAMEPOINTER_REL. There is no information about base frame register in this case, ignoring it by returning RegisterId::NONE.
6. Add a TODO when S_DEFRANGE_SUBFIELD_REGISTER describes the variable location of a pointer type. For now, just ignoring it if the variable is pointer.
Adds a check to ensure that a process exists before attempting to get
its ABI to prevent lldb from crashing due to trying to read from page zero.
Differential revision: https://reviews.llvm.org/D127016
In order to avoid stranding the Objective-C runtime lock, we switched
from objc_copyRealizedClassList to its non locking variant
objc_copyRealizedClassList_nolock. Not taking the lock was relatively
safe because we run this expression on one thread only, but it was still
possible that someone was in the middle of modifying this list while we
were trying to read it. Worst case that would result in a crash in the
inferior without side-effects and we'd unwind and try again later.
With the introduction of macOS Ventura, we can use
objc_getRealizedClassList_trylock instead. It has semantics similar to
objc_copyRealizedClassList_nolock, but instead of not locking at all,
the function returns if the lock is already taken, which avoids the
aforementioned crash without stranding the Objective-C runtime lock.
Because LLDB gets to allocate the underlying memory we also avoid
stranding the malloc lock.
rdar://89373233
Differential revision: https://reviews.llvm.org/D127252
On macOS, a process will be launched with /usr/lib/dyld (the
dynamic linker) and the main binary by the kernel. The
first thing the standalone dyld will do is call into the dyld
in the shared cache image. This patch tracks the transition
between the dyld's at the very beginning of process startup.
In DynamicLoaderMacOS::NotifyBreakpointHit() there are two new
cases handled:
`dyld_image_dyld_moved` which is the launch /usr/lib/dyld indicating
that it is about call into the shared cache dyld ane evict itself.
lldb will remove the notification breakpoint it set, clear the binary
image list entirely, get the notification function pointer value out
of the dyld_all_image_infos struct (which is the notification fptr
in the to-be-run shared-cache dyld) and put an address breakpoint
there.
`dyld_notify_adding` is then called by shared-cache dyld, and we
detect this case by noticing that we have an empty binary image list,
normally impossibe, and treating this as if we'd just started a
process attach/launch.
Differential Revision: https://reviews.llvm.org/D127247
rdar://84222158
There are 3 places where we were using WASM_SEC_TAG as the "last" known
section type, which requires updating (or leaves a bug) when a new known
section type is added. Instead add a "last type" to the enum for this
purpose.
Differential Revision: https://reviews.llvm.org/D127164
It was putting the command the user typed, and then the resolved command in the
command history. That caused up-arrow not to work correctly when the regex command
was invoked from a Python-command. Plus it's just weird.
Differential Revision: https://reviews.llvm.org/D126789
Do not send SIGSTOP when requested to halt a process that's already
stopped. This results in the signal being queued for delivery once
the process is resumed, and unexpectedly stopping it again.
This is necessary for non-stop protocol patches to land.
Sponsored by: The FreeBSD Foundation
Differential Revision: https://reviews.llvm.org/D126770
This patch renames DW_ACCESS_to_AccessType function and move it to the abstract
DWARFASTParser, since there is no clang-specific code there. This is useful for
plugins other than Clang.
Reviewed By: shafik, bulbazord
Differential Revision: https://reviews.llvm.org/D114719
This patch moves ParseChildArrayInfo out of DWARFASTParserClang in order
to decouple Clang-specific logic from DWARFASTParser.
Reviewed By: clayborg
Differential Revision: https://reviews.llvm.org/D114668
Signed-off-by: Luís Ferreira <contact@lsferreira.net>
The function that was supposed to iterate over all the breakpoints sharing
BKPT_NAME stopped after the first one because of a reversed "if success"
condition.
Differential Revision: https://reviews.llvm.org/D126730
lldb will only backtrace a fixed number of stack frames, as a
last-ditch attempt to avoid a runaway looping backtrace. It's
unusual that anyone ends up depending on this final safety net in
years. I picked the original number of 300000 was picked by seeing
how many stack frames I could make in a small recursive function
on Darwin systems before using the default stack space. Checking
again today on a modern system, I can exceed this limit & lldb will
not show the original invocation of the recursing call. Double the
old value to cover this larger maximum possible stack frame count,
as a default value.
(`target.process.thread.max-backtrace-depth`)
so that they can be used to prime new Process runs. "process handle"
was also changed to populate the dummy target if there's no selected
target, so that the settings will get copied into new targets.
Differential Revision: https://reviews.llvm.org/D126259
A follow on to my patch for https://reviews.llvm.org/D126435
hit by an x86_64 linux bot; I assumed that a FileSpec had a
directory component and checked if the first character was a
'~'. This was not a valid assumption.
When reading source path remappings out of a dSYM, lldb currently
does tilde expansion -- expanding the tilde-username and checking
that the destination pathname exists, for each dSYM with the path
remappings. This cost happens during lldb's initial process launch
/ load, an especially perf-sensitive time. Inside Apple, we have
dSYMs with source path remappings pointing to NFS directories where
these extra stats for every dSYM can be very expensive if the network
is slow.
This patch instead keeps the source path mapping in the original
tilde-username terms and does the tilde expansion when we need
to read a specific source file from one of the modules. We'll
be stat'ing all of those inodes to load the source file anyway,
so the fact that we do the tilde expansion on every source file
we load, it doesn't cost us significantly.
Differential Revision: https://reviews.llvm.org/D126435
rdar://77091379
(cherry picked from commit c274b6e5830ea88d3f55d6dc1d2b99e38cf6595e)
When reading source path remappings out of a dSYM, lldb currently
does tilde expansion -- expanding the tilde-username and checking
that the destination pathname exists, for each dSYM with the path
remappings. This cost happens during lldb's initial process launch
/ load, an especially perf-sensitive time. Inside Apple, we have
dSYMs with source path remappings pointing to NFS directories where
these extra stats for every dSYM can be very expensive if the network
is slow.
This patch instead keeps the source path mapping in the original
tilde-username terms and does the tilde expansion when we need
to read a specific source file from one of the modules. We'll
be stat'ing all of those inodes to load the source file anyway,
so the fact that we do the tilde expansion on every source file
we load, it doesn't cost us significantly.
Differential Revision: https://reviews.llvm.org/D126435
rdar://77091379
NativePDB often assumes that all debug info are available.
This is one step to make it more pervasive.
Differential Revision: https://reviews.llvm.org/D125844
On Ubuntu 18.04 with GCC 7.5 Intel trace code fails to build due to
failure to convert from
lldb_private::process_linux::IntelPTPerThreadProcessTraceUP to
Expected<lldb_private::process_linux::IntelPTPerThreadProcessTraceUP>.
This commit explicitely marks those unique_ptr values as being moved
which fixes the conversion error.
Reviewed By: wallace
Differential Revision: https://reviews.llvm.org/D126402
Register positional argument details in `CommandObjectTargetModulesList`.
I recently learned that `image list` takes a module name, but the help info
does not indicate this. With this change, `help image list` will show that it
accepts zero or more module names.
This makes it easier to get info about specific modules, without having to
find/grep through the full image list.
Reviewed By: DavidSpickett
Differential Revision: https://reviews.llvm.org/D125154
Ensure there's a space between "utility" and "function", and also makes
it easier to grep/search for "utility function".
While making this change, I also re-formatted the other dlopen error messages
(with clang-format). This fix other instances of spaces missing between words,
and makes each of these strings fit a single line, making them greppable.
Differential Revision: https://reviews.llvm.org/D126078
This reverts commit a3c3482ceb529206b0ae4e7782e5496da5e0879d.
It broke LLDB API test TestBadAddressBreakpoints.py
Differential revision: https://reviews.llvm.org/D124731
When the string passed to PrintCommandOutput doesn't end with a newline,
`written` will exceed `size` and result in an lldbassert.
After 8e776bb660dda6c51ce7ca6cea641db1f47aa9cf we don't really need
written anymore and we can check whether `str` is empty instead. This
patch simplifies the code and removes the assert that's no longer
relevant.
Differential revision: https://reviews.llvm.org/D126081
When setting an address breakpoint using a non-section address in lldb
before having ever run the program, the binary itself is not considered
a module. As a result, the breakpoint is unresolved (and never gets
resolved subsequently).
This patch changes that behavior: as a last resort, the binary is
considered as a module when resolving a non-section address breakpoint.
Differential revision: https://reviews.llvm.org/D124731
A deployment target less than 10.13.4 causes an error saying that
'ptsname_r' is only available on macOS 10.13.4 or newer. The current
logic only checks if the symbol is available and doesn't account for the
deployment target. This patch fixes that by adding an availability
check.
Differential revision: https://reviews.llvm.org/D125995
This is off by default. If you get a result and that
memory has memory tags, when --show-tags is given you'll
see the tags inline with the memory content.
```
(lldb) memory read mte_buf mte_buf+64 --show-tags
<...>
0xfffff7ff8020: 00 00 00 00 00 00 00 00 0d f0 fe ca 00 00 00 00 ................ (tag: 0x2)
<...>
(lldb) memory find -e 0xcafef00d mte_buf mte_buf+64 --show-tags
data found at location: 0xfffff7ff8028
0xfffff7ff8028: 0d f0 fe ca 00 00 00 00 00 00 00 00 00 00 00 00 ................ (tags: 0x2 0x3)
0xfffff7ff8038: 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 ................ (tags: 0x3 0x4)
```
The logic for handling alignments is the same as for memory read
so in the above example because the line starts misaligned to the
granule it covers 2 granules.
Depends on D125089
Reviewed By: omjavaid
Differential Revision: https://reviews.llvm.org/D125090
This reverts commit 3e928c4b9dfb01efd2cb968795e605760828e873.
This fixes an issue seen on Windows where we did not properly
get the section names of regions if they overlapped. Windows
has regions like:
[0x00007fff928db000-0x00007fff949a0000) ---
[0x00007fff949a0000-0x00007fff949a1000) r-- PECOFF header
[0x00007fff949a0000-0x00007fff94a3d000) r-x .hexpthk
[0x00007fff949a0000-0x00007fff94a85000) r-- .rdata
[0x00007fff949a0000-0x00007fff94a88000) rw- .data
[0x00007fff949a0000-0x00007fff94a94000) r-- .pdata
[0x00007fff94a94000-0x00007fff95250000) ---
I assumed that you could just resolve the address and get the section
name using the start of the region but here you'd always get
"PECOFF header" because they all have the same start point.
The usual command repeating loop used the end address of the previous
region when requesting the next, or getting the section name.
So I've matched this in the --all scenario.
In the example above, somehow asking for the region at
0x00007fff949a1000 would get you a region that starts at
0x00007fff949a0000 but has a different end point. Using the load
address you get (what I assume is) the correct section name.
When the terminal window is too small, lldb would wrap progress messages
accross multiple lines which would break the progress event handling
code that is supposed to clear the message once the progress is completed.
This causes the progress message to remain on the screen, sometimes partially,
which can be confusing for the user.
To fix this issue, this patch trims the progress message to the terminal
width taking into account the progress counter leading the message for
finite progress events and also the trailing `...`.
rdar://91993836
Differential Revision: https://reviews.llvm.org/D124785
Signed-off-by: Med Ismail Bennani <medismail.bennani@gmail.com>
should not receive as exceptions (some will get converted to BSD
signals instead). This is really the only stable way to ensure that
a Mach exception gets converted to it's equivalent BSD signal. For
programs that rely on BSD signal handlers, this has to happen or you
can't even get the program to invoke the signal handler when under
the debugger.
This builds on a previous solution to this problem which required you
start debugserver with the -U flag. This was not very discoverable
and required lldb be the one to launch debugserver, which is not always
the case.
Differential Revision: https://reviews.llvm.org/D125434
This does 2 things:
* Moves it after the short options. Which makes sense given it's
a niche, default off option.
(if 2 files for one option seems a bit much, I am going to reuse
them for "memory find" later)
* Fixes the use of repeated commands. For example:
memory read buf --show-tags
<shows tags>
memory read
<shows tags>
Added tests for the repetition and updated existing help tests.
Reviewed By: omjavaid
Differential Revision: https://reviews.llvm.org/D125089
Previously if you read a code/data mask before there was a valid thread
you would get the top byte mask. This meant the value was "valid" as in,
don't read it again.
When using a corefile we ask for the data mask very early on and this
meant that later once you did have a thread it wouldn't read the
register to get the rest of the mask.
This fixes that and adds a corefile test generated from the same program
as in my previous change on this theme.
Depends on D118794
Reviewed By: omjavaid
Differential Revision: https://reviews.llvm.org/D122411
Non-address bits are not part of the virtual address in a pointer.
So they must be removed before passing to interfaces like ptrace.
Some of them we get way with not removing, like AArch64's top byte.
However this is only because of a hardware feature that ignores them.
This change updates all the Process/Target Read/Write memory methods
to remove non-address bits before using addresses.
Doing it in this way keeps lldb-server simple and also fixes the
memory caching when differently tagged pointers for the same location
are read.
Removing the bits is done at the ReadMemory level not DoReadMemory
because particualrly for process, many subclasses override DoReadMemory.
Tests have been added for read/write at the command and API level,
for process and target. This includes variants like
Read<sometype>FromMemory. Commands are tested to make sure we remove
at the command and API level.
"memory find" is not included because:
* There is no API for it.
* It already has its own address handling tests.
Software breakpoints do use these methods but they are not tested
here because there are bigger issues to fix with those. This will
happen in another change.
Reviewed By: omjavaid
Differential Revision: https://reviews.llvm.org/D118794
This adds an option to the memory region command
to print all regions at once. Like you can do by
starting at address 0 and repeating the command
manually.
memory region [-a] [<address-expression>]
(lldb) memory region --all
[0x0000000000000000-0x0000000000400000) ---
[0x0000000000400000-0x0000000000401000) r-x <...>/a.out PT_LOAD[0]
<...>
[0x0000fffffffdf000-0x0001000000000000) rw- [stack]
[0x0001000000000000-0xffffffffffffffff) ---
The output matches exactly what you'd get from
repeating the command. Including that it shows
unmapped areas between the mapped regions.
(this is why Process GetMemoryRegions is not
used, that skips unmapped areas)
Help text has been updated to show that you can have
an address or --all but not both.
Reviewed By: JDevlieghere
Differential Revision: https://reviews.llvm.org/D111791
GetDirtyPageList was being assigned to const & in most places anyway.
If you wanted to change the list you'd make a new one and call
SetDirtyPageList.
GetPageSize is just an int so no issues being const.
Differential Revision: https://reviews.llvm.org/D125786
