Split out the common base of Linux hardware breakpoint/watchpoint
support for AArch64 into a Utility class, and use it to implement
the matching support on FreeBSD.
Differential Revision: https://reviews.llvm.org/D96548
We have a plugin.process.gdb-remote.packet-timeout setting, which can be
used to control how long the lldb client is willing to wait before
declaring the server side dead. Our test suite makes use of this
feature, and sets the setting value fairly high, as the low default
value can cause flaky tests, particularly on slower bots.
After fixing TestPlatformConnect (one of the few tests exercising the
remote platform capabilities of lldb) in 4b284b9ca, it immediately
started being flaky on the arm bots. It turns out this is because the
packet-timeout setting is not being applied to platform connections.
This patch makes the platform connections also respect the value of this
setting. It also adds a test which checks that the timeout value is
being honored.
Differential Revision: https://reviews.llvm.org/D97769
GDB remote protocol does not specify length of g packet for register read. It depends on remote to include all or exclude certain registers from g packet. In case a register or set of registers is not included as part of g packet then we should fall back to p packet for reading all registers excluded from g packet by remote. This patch adds support for above feature and adds a test-case for the same.
Reviewed By: labath
Differential Revision: https://reviews.llvm.org/D97498
This patch introduces Scripted Processes to lldb.
The goal, here, is to be able to attach in the debugger to fake processes
that are backed by script files (in Python, Lua, Swift, etc ...) and
inspect them statically.
Scripted Processes can be used in cooperative multithreading environments
like the XNU Kernel or other real-time operating systems, but it can
also help us improve the debugger testing infrastructure by writting
synthetic tests that simulates hard-to-reproduce process/thread states.
Although ScriptedProcess is not feature-complete at the moment, it has
basic execution capabilities and will improve in the following patches.
rdar://65508855
Differential Revision: https://reviews.llvm.org/D95713
Signed-off-by: Med Ismail Bennani <medismail.bennani@gmail.com>
Ensure that the llvm::Error instances are always considered handled
by replacing LLDB_LOG with LLDB_LOG_ERROR.
Differential Revision: https://reviews.llvm.org/D96558
The new FreeBSDRemote plugin has reached feature parity with the legacy
plugin, so we can finally remove the latter. The new plugin will
be renamed to FreeBSD in a separate commit to avoid confusion.
Differential Revision: https://reviews.llvm.org/D96555
Introduce a minimal support for the 32-bit powerpc platform. This
includes support for GPR and FPR registers. I also needed to add
software breakpoint opcode for PPC32/PPC64 (big endian), and to fix
offsets in RegisterInfos_powerpc.h (used only by FreeBSD register
context to be globally unique rather than relative to each struct).
Differential Revision: https://reviews.llvm.org/D95947
Introduce mips64 support to match the legacy FreeBSD plugin. Similarly
to the legacy plugin, the code does not support FPU registers at the
moment. The support for them will be submitted separately as it
requires changes to the register context shared by both plugins.
This also includes software single-stepping support that is moved from
the Linux plugin into a common Utility class. The FreeBSD code also
starts explicitly ignoring EINVAL from PT_CLEARSTEP since this is easier
to implement than checking whether hardware single-stepping were used.
Differential Revision: https://reviews.llvm.org/D95802
Native register descriptions in LLDB specify lldb register numbers in
value_regs and invalidate_regs lists. These register numbers may not
match with Process gdb-remote register numbers which are generated by
native process after counting all registers in its register sets.
It was coincidentally not causing any problems as we never came across
a native target with dynamically changing register sets and register
numbers generated by counter matched with LLDB native register numbers.
This came up while testing target AArch64 SVE which can choose register
sets based on underlying hardware.
This patch fixes this behavior and always tries to use remote register
numbers while reading/writing registers over gdb-remote protocol.
Reviewed By: labath
Differential Revision: https://reviews.llvm.org/D77043
This patch tries to improve memory-read from core files
(in order to improve disassembly functionality).
I am using RHEL 7.7 (linux kernel 3.10) and for a lot of cases,
I was not able to disassemble some functions from backtrace when
debugging crashes from core files. It outputs some dummy code.
The cause of the problem was the fact we are returning all the zeros
from ProcessElfCore::ReadMemory() that is being called within
Disassembler::ParseInstructions() and it disassembles some dummy
opcodes from the buffer returned. Therefore, we are removing zero
bytes filling (padding) completely.
Differential Revision: https://reviews.llvm.org/D93939
Introduce a NativeRegisterContextFreeBSD for 32-bit ARM platform.
This includes support for GPR + VFP registers as exposed by FreeBSD's
ptrace(2) API. Hardware breakpoints or watchpoints are not supported
due to missing kernel support. The code is roughly based on the arm64
context.
It also includes an override for GetSoftwareBreakpointTrapOpcode() based
on the matching code in the PlatformFreeBSD plugin.
Differential Revision: https://reviews.llvm.org/D95696
Introduce arm64 support in the FreeBSDRemote plugin. The code
is roughly based on Linux and reuses the same POSIX RegisterInfos
(but the buffers need to be a few bytes larger due to stricter struct
member alignment in FreeBSD structures -- luckily, they do not affect
the actual member offsets). It supports reading and writing
general-purpose and FPU registers. SVE and hardware watchpoint support
is missing due to the limitations of FreeBSD ptrace(2) API.
Differential Revision: https://reviews.llvm.org/D95297
Implements the required functions on gdb-remote so the '--include-existing' flag of process attach works correctly on Linux.
Reviewed By: labath, clayborg
Differential Revision: https://reviews.llvm.org/D94672
This patch builds on previously submitted SVE patches regarding expedited
register set and per thread register infos. (D82853 D82855 and D82857)
We need to resize SVE register based on value received in expedited list.
Also we need to resize SVE registers when we write vg register using
register write vg command. The resize will result in a updated offset
for all of fpr and sve register set. This offset will be configured
in native register context by RegisterInfoInterface and will also be
be updated on client side in GDBRemoteRegisterContext.
A follow up patch will provide a API test to verify this change.
Reviewed By: labath
Differential Revision: https://reviews.llvm.org/D82863
This patch pull offset calculation logic out of DynamicRegisterInfo::Finalize
into a separate function. We are going to call this function whenever we
update SVE register sizes.
Reviewed By: labath
Differential Revision: https://reviews.llvm.org/D94008
In gdb-remote process we have register infos defind as a refernce object of
GDBRemoteDynamicRegisterInfo class. In past register infos have remained
constant througout the life time of a process.
This has changed after AArch64 SVE support where register infos will have
per-thread configuration. SVE registers will have per-thread size and can
be updated while running. This patch aims to build up for that support by
changing GDBRemoteDynamicRegisterInfo reference to a shared pointer deinfed
per-thread.
Reviewed By: labath
Differential Revision: https://reviews.llvm.org/D82857
When a program maps one of its own modules for reading, and then
crashes, breakpad can emit two entries for that module in the
ModuleList. We have logic to identify this case by checking permissions
on mapped memory regions and report just the module with an executable
region. As currently written, though, the check is asymmetric -- the
entry with the executable region must be the second one encountered for
the preference to kick in.
This change makes the logic symmetric, so that the first-encountered
module will similarly be preferred if it has an executable region but
the second-encountered module does not. This happens for example when
the module in question is the executable itself, which breakpad likes to
report first -- we need to ignore the other entry for that module when
we see it later, even though it may be mapped at a lower virtual
address.
Reviewed By: clayborg
Differential Revision: https://reviews.llvm.org/D94629
The test was marked as remote-only, which means it was run ~never, and
accumulated various problems. This commit modifies the test to run
locally and includes a couple of other fixes necessary to make it run:
- moves the "invoke" method into the "Base" test class
- adds []'s around the IP address in a couple more places to make things
work with IPv6
The test is now marked as skipped when running the remote test suite. It
would be possible to make it run both locally and remotely, but this
would require writing a lot special logic for the remote case, and that
is not worth it.
This commit vAttachWait in lldb-server, so --waitfor can be used on
Linux
Reviewed By: labath, clayborg
Differential Revision: https://reviews.llvm.org/D93895
Copy changes, including:
- NativeProcessNetBSD::GetLoadedModuleFileSpec()
and NativeProcessNetBSD::GetFileLoadAddress() methods
- split x86 register sets by CPU extensions
- use offset/size-based register reading/writing
Differential Revision: https://reviews.llvm.org/D93541
As of Linux 5.10, the kernel may report either of the two following
crash reasons:
- SEGV_MTEAERR: async MTE tag check fault
- SEGV_MTESERR: sync MTE tag check fault
Teach LLDB about them.
Differential Revision: https://reviews.llvm.org/D93495
Use RegSetKind enum for register sets everything, rather than int.
Always spell it as 'RegSetKind', without unnecessary 'enum'. Add
missing switch case. While at it, use uint32_t for regnums
consistently.
Differential Revision: https://reviews.llvm.org/D93450
Replace the wrong code in GetRegisterSetCount() with a constant return.
The original code passed register index in place of register set index,
effectively getting always true. Correcting the code to check for
register set existence is not possible as LLDB supports only eliminating
last register sets. Just return the full number for now which should
be NFC.
Differential Revision: https://reviews.llvm.org/D93396
Explicitly consider the libraries reported on the initial rendezvous
breakpoint hit added. This is necessary on FreeBSD since the dynamic
loader issues only a single 'consistent' state rendezvous breakpoint hit
for all the libraries present in DT_NEEDED. It is also helpful on Linux
where it ensures that ld-linux is considered loaded as well
as the shared system libraries reported afterwards.
Reenable memory maps on FreeBSD since this fixed the issue triggered
by them.
Differential Revision: https://reviews.llvm.org/D92187
Copy the Linux implementation of GetLoadedModuleFileSpec()
and GetFileLoadAddress() into NativeProcessFreeBSD. This does not seem
to change anything at the moment but reducing the differences between
the plugins should help us in the long term.
Differential Revision: https://reviews.llvm.org/D92314
Explicitly consider the libraries reported on the initial eTakeSnapshot
action added, through adding them to the added soentry list
in DYLDRendezvous::SaveSOEntriesFromRemote(). This is necessary
on FreeBSD since the dynamic loader issues only a single 'consistent'
state rendezvous breakpoint hit for all the libraries present
in DT_NEEDED (while Linux issues an added-consistent event pair).
Reenable memory maps on FreeBSD since this fixed the issue triggered
by them.
Differential Revision: https://reviews.llvm.org/D92187
This patch carries forward our aim to remove offset field from qRegisterInfo
packets and XML register description. I have created a new function which
returns if offset fields are dynamic meaning client can calculate offset on
its own based on register number sequence and register size. For now this
function only returns true for NativeRegisterContextLinux_arm64 but we can
test this for other architectures and make it standard later.
As a consequence we do not send offset field from lldb-server (arm64 for now)
while other stubs dont have an offset field so it wont effect them for now.
On the client side we have replaced previous offset calculation algorithm
with a new scheme, where we sort all primary registers in increasing
order of remote regnum and then calculate offset incrementally.
This committ also includes a test to verify all of above functionality
on Arm64.
Reviewed By: labath
Differential Revision: https://reviews.llvm.org/D91241
This came up while putting together our new strategy to create g/G packets
in compliance with GDB RSP protocol where register offsets are calculated in
increasing order of register numbers without any unused spacing.
RegisterInfoPOSIX_arm64::GPR size was being calculated after alignment
correction to 8 bytes which meant there was a 4 bytes unused space between
last gpr (cpsr) and first vector register V. We have put LLVM_PACKED_START
decorator on RegisterInfoPOSIX_arm64::GPR to make sure single byte
alignment is enforced. Moreover we are now doing to use arm64 user_pt_regs
struct defined in ptrace.h for accessing ptrace user registers.
Reviewed By: labath
Differential Revision: https://reviews.llvm.org/D92063
This patch ovverides GetExpeditedRegisterSet for
NativeRegisterContextLinux_arm64 to send vector granule register in
expedited register set if SVE mode is selected.
Reviewed By: labath
Differential Revision: https://reviews.llvm.org/D82855
This patch adds capability to introduce a custom expedited register set
in gdb remote. Currently we send register set 0 as expedited register set
but for the case of AArch64 SVE we intend to send additional information
about SVE registers size/offset configuration which can be calculated
from vg register. Therefore we will expedited Vg register in case of
AArch64 is in SVE mode to speedup register configuration calculations.
Reviewed By: labath
Differential Revision: https://reviews.llvm.org/D82853
Previously we used UINT16_MAX to mean no port/no specifc
port. This leads to confusion because 65535 is a valid
port number.
Instead use an optional. If you want a specific port call
LaunchGDBServer as normal, otherwise pass an empty optional
and it will be set to the port that gets chosen.
(or left empty in the case where we fail to find a port)
Reviewed By: labath
Differential Revision: https://reviews.llvm.org/D92035
Previously if you did:
$ lldb-server platform --server <...> --min-gdbserver-port 12346
--max-gdbserver-port 12347
(meaning only use port 12346 for gdbservers)
Then tried to launch two gdbservers on the same connection,
the second one would return port 65535. Which is a real port
number but it actually means lldb-server didn't find one it was
allowed to use.
send packet: $qLaunchGDBServer;<...>
read packet: $pid:1919;port:12346;#c0
<...>
send packet: $qLaunchGDBServer;<...>
read packet: $pid:1927;port:65535;#c7
This situation should be an error even if port 65535 does happen
to be available on the current machine.
To fix this make PortMap it's own class within
GDBRemoteCommunicationServerPlatform.
This almost the same as the old typedef but for
GetNextAvailablePort() returning an llvm::Expected.
This means we have to handle not finding a port,
by returning an error packet.
Also add unit tests for this new PortMap class.
Reviewed By: labath
Differential Revision: https://reviews.llvm.org/D91634
This patch fixes a minor typo in RegisterContextPOSIXProcessMonitor_arm64
constructor where memset target was wrongly specified as m_fpr instead of
m_gpr_arm64.
Add a 'can_connect' parameter to Process plugin initialization, and use
it to filter plugins to these capable of remote connections. This is
used to prevent 'process connect' from picking up a plugin that can only
be used locally, e.g. the legacy FreeBSD plugin.
Differential Revision: https://reviews.llvm.org/D91810
Restore Linux-alike regset names for AVX/MPX registers
as TestLldbGdbServer seems to depend on them. At the same time, fix
TestRegisters to be aware that they are not available on FreeBSD
and NetBSD, at least until we figure out a better way of reporting
unsupported register sets.
Differential Revision: https://reviews.llvm.org/D91923
Translate between abridged and full ftag values in order to expose
the latter in the gdb-remote protocol while the former are used by
FXSAVE/XSAVE... This matches the gdb behavior.
The Shell/Register tests now rely on the new behavior, and therefore
are run on non-Darwin systems only. The Python (API) test relies
on the legacy behavior, and is run on Darwin only.
Differential Revision: https://reviews.llvm.org/D91504
This extends the "memory region" command to
show tagged regions on AArch64 Linux when the MTE
extension is enabled.
(lldb) memory region the_page
[0x0000fffff7ff8000-0x0000fffff7ff9000) rw-
memory tagging: enabled
This is done by adding an optional "flags" field to
the qMemoryRegion packet. The only supported flag is
"mt" but this can be extended.
This "mt" flag is read from /proc/{pid}/smaps on Linux,
other platforms will leave out the "flags" field.
Where this "mt" flag is received "memory region" will
show that it is enabled. If it is not or the target
doesn't support memory tagging, the line is not shown.
(since majority of the time tagging will not be enabled)
Testing is added for the existing /proc/{pid}/maps
parsing and the new smaps parsing.
Minidump parsing has been updated where needed,
though it only uses maps not smaps.
Target specific tests can be run with QEMU and I have
added MTE flags to the existing helper scripts.
Reviewed By: labath
Differential Revision: https://reviews.llvm.org/D87442