This allows for using SFINAE partial specialization for DenseMapInfo.
In MLIR, this is particularly useful as it will allow for defining partial
specializations that support all Attribute, Op, and Type classes without
needing to specialize DenseMapInfo for each individual class.
Differential Revision: https://reviews.llvm.org/D113641
Module resolution is probably the most complex piece of lldb [citation
needed], with numerous levels of abstraction, each one implementing
various retry and fallback strategies.
It is also a very repetitive, with only small differences between
"host", "remote-and-connected" and "remote-but-not-(yet)-connected"
scenarios.
The goal of this patch (first in series) is to reduce the number of
abstractions, and deduplicate the code.
One of the reasons for this complexity is the tension between the desire
to offload the process of module resolution to the remote platform
instance (that's how most other platform methods work), and the desire
to keep it local to the outer platform class (its easier to subclass the
outer class, and it generally makes more sense).
This patch resolves that conflict in favour of doing everything in the
outer class. The gdb-remote (our only remote platform) implementation of
ResolveExecutable was not doing anything gdb-specific, and was rather
similar to the other implementations of that method (any divergence is
most likely the result of fixes not being applied everywhere rather than
intentional).
It does this by excising the remote platform out of the resolution
codepath. The gdb-remote implementation of ResolveExecutable is moved to
Platform::ResolveRemoteExecutable, and the (only) call site is
redirected to that. On its own, this does not achieve (much), but it
creates new opportunities for layer peeling and code sharing, since all
of the code now lives closer together.
Differential Revision: https://reviews.llvm.org/D113487
The GetSupportedArchitectureAtIndex pattern forces the use of
complicated patterns in both the implementations of the function and in
the various callers.
This patch creates a new method (GetSupportedArchitectures), which
returns a list (vector) of architectures. The
GetSupportedArchitectureAtIndex is kept in order to enable incremental
rollout. Base Platform class contains implementations of both of these
methods, using the other method as the source of truth. Platforms
without infinite stacks should implement at least one of them.
This patch also ports Linux, FreeBSD and NetBSD platforms to the new
API. A new helper function (CreateArchList) is added to simplify the
common task of creating a list of ArchSpecs with the same OS but
different architectures.
Differential Revision: https://reviews.llvm.org/D113608
[NFC] As part of using inclusive language within the llvm project, this patch
renames master plan to controlling plan in lldb.
Reviewed By: jingham
Differential Revision: https://reviews.llvm.org/D113019
This adds a specific unwind plan for AArch64 Linux sigreturn frames.
Previously we assumed that the fp would be valid here but it is not.
https://github.com/torvalds/linux/blob/master/arch/arm64/kernel/vdso/sigreturn.S
On Ubuntu Bionic it happened to point to an old frame info which meant
you got what looked like a correct backtrace. On Focal, the info is
completely invalid. (probably due to some code shuffling in libc)
This adds an UnwindPlan that knows that the sp in a sigreturn frame
points to an rt_sigframe from which we can offset to get saved
sp and pc values to backtrace correctly.
Based on LibUnwind's change: https://reviews.llvm.org/D90898
A new test is added that sets all compares the frames from the initial
signal catch to the handler break. Ensuring that the stack/frame pointer,
function name and register values match.
(this test is AArch64 Linux specific because it's the only one
with a specific unwind plan for this situation)
Fixes https://bugs.llvm.org/show_bug.cgi?id=52165
Reviewed By: omjavaid, labath
Differential Revision: https://reviews.llvm.org/D112069
Teach LLDB to understand INLINE and INLINE_ORIGIN records in breakpad.
They have the following formats:
```
INLINE inline_nest_level call_site_line call_site_file_num origin_num [address size]+
INLINE_ORIGIN origin_num name
```
`INLNIE_ORIGIN` is simply a string pool for INLINE so that we won't have
duplicated names for inlined functions and can show up anywhere in the symbol
file.
`INLINE` follows immediately after `FUNC` represents the ranges of momery
address that has functions inlined inside the function.
Differential Revision: https://reviews.llvm.org/D113330
It is surprisingly difficult to write a simple python script that
can reliably `import lldb` without failing, or crashing. I'm
currently resorting to convolutions like this:
def find_lldb(may_reexec=False):
if prefix := os.environ.get('LLDB_PYTHON_PREFIX'):
if os.path.realpath(prefix) != os.path.realpath(sys.prefix):
raise Exception("cannot import lldb.\n"
f" sys.prefix should be: {prefix}\n"
f" but it is: {sys.prefix}")
else:
line1, line2 = subprocess.run(
['lldb', '-x', '-b', '-o', 'script print(sys.prefix)'],
encoding='utf8', stdout=subprocess.PIPE,
check=True).stdout.strip().splitlines()
assert line1.strip() == '(lldb) script print(sys.prefix)'
prefix = line2.strip()
os.environ['LLDB_PYTHON_PREFIX'] = prefix
if sys.prefix != prefix:
if not may_reexec:
raise Exception(
"cannot import lldb.\n" +
f" This python, at {sys.prefix}\n"
f" does not math LLDB's python at {prefix}")
os.environ['LLDB_PYTHON_PREFIX'] = prefix
python_exe = os.path.join(prefix, 'bin', 'python3')
os.execl(python_exe, python_exe, *sys.argv)
lldb_path = subprocess.run(['lldb', '-P'],
check=True, stdout=subprocess.PIPE,
encoding='utf8').stdout.strip()
sys.path = [lldb_path] + sys.path
This patch aims to replace all that with:
#!/usr/bin/env lldb-python
import lldb
...
... by adding the following features:
* new command line option: --print-script-interpreter-info. This
prints language-specific information about the script interpreter
in JSON format.
* new tool (unix only): lldb-python which finds python and exec's it.
Reviewed By: JDevlieghere
Differential Revision: https://reviews.llvm.org/D112973
This patch adds a new `StructuredData::Dictionary` constructor that
takes a `StructuredData::ObjectSP` as an argument. This is used to pass
the opaque_ptr from the `SBStructuredData` used to initialize a
ScriptedProecss, to the `ProcessLaunchInfo` class.
This also updates `SBLaunchInfo::SetScriptedProcessDictionary` to
reflect the formentionned changes which solves the nullptr deref.
Differential Revision: https://reviews.llvm.org/D112107
Signed-off-by: Med Ismail Bennani <medismail.bennani@gmail.com>
Since a8b54834a1, there are two
distinct Windows path styles, `windows_backslash` (with the old
`windows` being an alias for it) and `windows_slash`.
4e4883e1f3 added helpers for
inspecting path styles.
The newly added windows_slash path style doesn't end up used in
LLDB yet anyway, as LLDB is quite decoupled from most of
llvm::sys::path and uses its own FileSpec class. To take it in
use, it could be hooked up in `FileSpec::Style::GetNativeStyle`
(in lldb/source/Utility/FileSpec.cpp) just like in the `real_style`
function in llvm/lib/Support/Path.cpp in
df0ba47c36.
It is not currently clear whether there's a real need for using
the Windows path style with forward slashes in LLDB (if there's any
other applications interacting with it, expecting that style), and
what other changes in LLDB are needed for that to work, but this
at least makes some of the checks more ready for the new style,
simplifying code a bit.
Differential Revision: https://reviews.llvm.org/D113255
This reverts commit 5fbcf67734.
ProcessDebugger is used in ProcessWindows and NativeProcessWindows.
I thought I was simplifying things by renaming to DoGetMemoryRegionInfo
in ProcessDebugger but the Native process side expects "GetMemoryRegionInfo".
Follow the pattern that WriteMemory uses. So:
* ProcessWindows::DoGetMemoryRegioninfo calls ProcessDebugger::GetMemoryRegionInfo
* NativeProcessWindows::GetMemoryRegionInfo does the same
On AArch64 we have various things using the non address bits
of pointers. This means when you lookup their containing region
you won't find it if you don't remove them.
This changes Process GetMemoryRegionInfo to a non virtual method
that uses the current ABI plugin to remove those bits. Then it
calls DoGetMemoryRegionInfo.
That function does the actual work and is virtual to be overriden
by Process implementations.
A test case is added that runs on AArch64 Linux using the top
byte ignore feature.
Reviewed By: omjavaid
Differential Revision: https://reviews.llvm.org/D102757
The amount of roundtrips between StringRefs, ConstStrings and std::strings is
getting a bit out of hand, this patch avoid the unnecessary roundtrips.
Reviewed By: wallace, aprantl
Differential Revision: https://reviews.llvm.org/D112863
This has no uses and the ValueObjectDynamicValue already tracks
its ownership through the parent it is passed when made. I can't
find any vestiges of the use of this API, maybe it was from some
earlier design?
Resetting the backing ivar was the only job the destructor did, so I
set that to default as well.
Differential Revision: https://reviews.llvm.org/D112677
Refactor ConnectionFileDescriptor to improve code reuse for different
types of sockets. Unify method naming.
While at it, remove some (now-)dead code from Socket.
Differential Revision: https://reviews.llvm.org/D112495
Android and other platforms make wide use of signals when running applications and this can slow down debug sessions. Tracking this statistic can help us to determine why a debug session is slow.
The new data appears inside each target object and reports the signal hit counts:
"signals": [
{
"SIGSTOP": 1
},
{
"SIGUSR1": 1
}
],
Differential Revision: https://reviews.llvm.org/D112683
This patch adds breakpoints to each target's statistics so we can track how long it takes to resolve each breakpoint. It also includes the structured data for each breakpoint so the exact breakpoint details are logged to allow for reproduction of slow resolving breakpoints. Each target gets a new "breakpoints" array that contains breakpoint details. Each breakpoint has "details" which is the JSON representation of a serialized breakpoint resolver and filter, "id" which is the breakpoint ID, and "resolveTime" which is the time in seconds it took to resolve the breakpoint. A snippet of the new data is shown here:
"targets": [
{
"breakpoints": [
{
"details": {...},
"id": 1,
"resolveTime": 0.00039291599999999999
},
{
"details": {...},
"id": 2,
"resolveTime": 0.00022679199999999999
}
],
"totalBreakpointResolveTime": 0.00061970799999999996
}
]
This provides full details on exactly how breakpoints were set and how long it took to resolve them.
Differential Revision: https://reviews.llvm.org/D112587
Refactor ConnectionFileDescriptor to improve code reuse for different
types of sockets. Unify method naming.
While at it, remove some (now-)dead code from Socket.
Differential Revision: https://reviews.llvm.org/D112495
The new key/value pairs that are added to each module's stats are:
"debugInfoByteSize": The size in bytes of debug info for each module.
"debugInfoIndexTime": The time in seconds that it took to index the debug info.
"debugInfoParseTime": The time in seconds that debug info had to be parsed.
At the top level we add up all of the debug info size, parse time and index time with the following keys:
"totalDebugInfoByteSize": The size in bytes of all debug info in all modules.
"totalDebugInfoIndexTime": The time in seconds that it took to index all debug info if it was indexed for all modules.
"totalDebugInfoParseTime": The time in seconds that debug info was parsed for all modules.
Differential Revision: https://reviews.llvm.org/D112501
Remove the port predicate from Socket and ConnectionFileDescriptor,
and move it to gdb-remote. It is specifically relevant to the threading
used inside gdb-remote and with the new port callback API, we can
reliably move it there. While at it, switch from the custom Predicate
to std::promise/std::future.
Differential Revision: https://reviews.llvm.org/D112357
Unify the listen and connect code inside lldb-server to use
ConnectionFileDescriptor uniformly rather than a mix of it and Acceptor.
This involves:
- adding a function to map legacy values of host:port parameter
(including legacy server URLs) into CFD-style URLs
- adding a callback to return "local socket id" (i.e. UNIX socket path
or TCP port number) between listen() and accept() calls in CFD
- adding a "unix-abstract-accept" scheme to CFD
As an additional advantage, this permits lldb-server to accept any URL
known to CFD including the new serial:// scheme. Effectively,
lldb-server can now listen on the serial port. Tests for connecting
over a pty are added to test that.
Differential Revision: https://reviews.llvm.org/D111964
Add a Communication::WriteAll() that resumes Write() if the initial call
did not write all data. Use it in GDBRemoteCommunication when sending
packets in order to fix handling partial writes (i.e. just resume/retry
them rather than erring out). This fixes LLDB failures when writing
large packets to a pty.
Differential Revision: https://reviews.llvm.org/D112169
Replace bool+by-ref argument with llvm::Optional, and move the common
implementation into HostInfoPOSIX. Based on my (simple) experiment,
the uname and the sysctl approach return the same value on MacOS, so
there's no need for a mac-specific implementation of this functionality.
Differential Revision: https://reviews.llvm.org/D112457
The new module stats adds the ability to measure the time it takes to parse and index the symbol tables for each module, and reports modules statistics in the output of "statistics dump" along with the path, UUID and triple of the module. The time it takes to parse and index the symbol tables are also aggregated into new top level key/value pairs at the target level.
Differential Revision: https://reviews.llvm.org/D112279
Now that AddRegister() is no longer used, remove it. While at it,
we can also make Finalize() protected as all supported API methods
call it internally.
Differential Revision: https://reviews.llvm.org/D111498
Use llvm::Optional<uint16_t> instead of int for port number
in UriParser::Parse(), and use llvm::None to indicate missing port
instead of a magic value of -1.
Differential Revision: https://reviews.llvm.org/D112309
This patch is a smaller version of a previous patch https://reviews.llvm.org/D110804.
This patch modifies the output of "statistics dump" to be able to get stats from the current target. It adds 3 new stats as well. The output of "statistics dump" is now emitted as JSON so that it can be used to track performance and statistics and the output could be used to populate a database that tracks performance. Sample output looks like:
(lldb) statistics dump
{
"expressionEvaluation": {
"failures": 0,
"successes": 0
},
"firstStopTime": 0.34164492800000001,
"frameVariable": {
"failures": 0,
"successes": 0
},
"launchOrAttachTime": 0.31969605400000001,
"targetCreateTime": 0.0040863039999999998
}
The top level keys are:
"expressionEvaluation" which replaces the previous stats that were emitted as plain text. This dictionary contains the success and fail counts.
"frameVariable" which replaces the previous stats for "frame variable" that were emitted as plain text. This dictionary contains the success and fail counts.
"targetCreateTime" contains the number of seconds it took to create the target and load dependent libraries (if they were enabled) and also will contain symbol preloading times if that setting is enabled.
"launchOrAttachTime" is the time it takes from when the launch/attach is initiated to when the first private stop occurs.
"firstStopTime" is the time in seconds that it takes to stop at the first stop that is presented to the user via the LLDB interface. This value will only have meaning if you set a known breakpoint or stop location in your code that you want to measure as a performance test.
This diff is also meant as a place to discuess what we want out of the "statistics dump" command before adding more funcionality. It is also meant to clean up the previous code that was storting statistics in a vector of numbers within the lldb_private::Target class.
Differential Revision: https://reviews.llvm.org/D111686
This patch deals with ObjectFile, ObjectContainer and OperatingSystem
plugins. I'll convert the other types in separate patches.
In order to enable piecemeal conversion, I am leaving some ConstStrings
in the lowest PluginManager layers. I'll convert those as the last step.
Differential Revision: https://reviews.llvm.org/D112061
Add a new serial:// protocol along with SerialPort that provides a new
API to open serial ports. The URL consists of serial device path
followed by URL-style options, e.g.:
serial:///dev/ttyS0?baud=115200&parity=even
If no options are provided, the serial port is only set to raw mode
and the other attributes remain unchanged. Attributes provided via
options are modified to the specified values. Upon closing the serial
port, its original attributes are restored.
Differential Revision: https://reviews.llvm.org/D111355
Add setters for common teletype properties to the Terminal class:
- SetRaw() to enable common raw mode options
- SetBaudRate() to set the baud rate
- SetStopBits() to select the number of stop bits
- SetParity() to control parity bit in the output
- SetHardwareControlFlow() to enable or disable hardware control flow
(if supported)
Differential Revision: https://reviews.llvm.org/D111030
