This patch adds memory writing capabilities to the Scripted Process plugin.
This allows to user to get a target address and a memory buffer on the
python scripted process implementation that the user can make processing
on before performing the actual write.
This will also be used to write trap instruction to a real process
memory to set a breakpoint.
Signed-off-by: Med Ismail Bennani <medismail.bennani@gmail.com>
The goal of the simple patch is to clean-up the scripted process
interface by removing methods that were introduced with the interface
originally, but that were never really implemented (get_thread_with_id &
get_registers_for_thread).
This patch also changes `get_memory_region_containing_address` to have a
base implementation (that retunrs `None`), instead of forcing the user
to override it in their derived class.
Signed-off-by: Med Ismail Bennani <medismail.bennani@gmail.com>
This patch should address a bug when a user have multiple scripted
processes in the same debugging session.
In order for the scripted process plugin to be able to call into the
scripted object instance methods to fetch the necessary data to
reconstruct its state, the scripted process plugin calls into a
scripted process interface, that has a reference to the created script
object instance.
However, prior to this patch, we only had a single instance of the
scripted process interface, living the script interpreter. So every time
a new scripted process plugin was created, it would overwrite the script
object instance that was held by the single scripted process interface
in the script interpreter.
That would cause all the method calls made to the scripted process
interface to be dispatched by the last instanciated script object
instance, which is wrong.
In order to prevent that, this patch moves the scripted process
interface reference to be help by the scripted process plugin itself.
rdar://104882562
Differential Revision: https://reviews.llvm.org/D143308
Signed-off-by: Med Ismail Bennani <medismail.bennani@gmail.com>
This patch introduces a new `GetScriptedImplementation` method to the
SBProcess class in the SBAPI. It will allow users of Scripted Processes to
fetch the scripted implementation object from to script interpreter to be
able to interact with it directly (without having to go through lldb).
This allows to user to perform action that are not specified in the
scripted process interface, like calling un-specified methods, but also
to enrich the implementation, by passing it complex objects.
Differential Revision: https://reviews.llvm.org/D143236
Signed-off-by: Med Ismail Bennani <medismail.bennani@gmail.com>
This patch introduces both the Scripted Platform python base
implementation and an example for it.
The base implementation is embedded in lldb python module under
`lldb.plugins.scripted_platform`.
This patch also refactor the various SWIG methods to create scripted
objects into a single method, that is now shared between the Scripted
Platform, Process and Thread. It also replaces the target argument by a
execution context object.
Differential Revision: https://reviews.llvm.org/D139250
Signed-off-by: Med Ismail Bennani <medismail.bennani@gmail.com>
This patch improves the ScriptedPythonInterface::Dispatch method to
support passing lldb_private types to the python implementation.
This will allow, for instance, the Scripted Process python implementation
to report errors when reading memory back to lldb.
To do so, the Dispatch method will transform the private types in the
parameter pack into `PythonObject`s to be able to pass them down to the
python methods.
Then, if the call succeeded, the transformed arguments will be converted
back to their original type and re-assigned in the parameter pack, to
ensure pointers and references behaviours are preserved.
This patch also updates various scripted process python class and tests
to reflect this change.
rdar://100030995
Differential Revision: https://reviews.llvm.org/D134033
Signed-off-by: Med Ismail Bennani <medismail.bennani@gmail.com>
This patch adds the ability for ScriptedThread to load artificial stack
frames. To do so, the interpreter instance can create a list that will
contain the frame index and its pc address.
Then, when the Scripted Process plugin stops, it will refresh its
Scripted Threads state by invalidating their register context and load
to list from the interpreter object and reconstruct each frame.
This patch also removes all of the default implementation for
`get_stackframes` from the derived ScriptedThread classes, and add the
interface code for the Scripted Thread Interface.
rdar://88721095
Differential Revision: https://reviews.llvm.org/D119388
Signed-off-by: Med Ismail Bennani <medismail.bennani@gmail.com>
This patch updates `dummy_scripted_process.py` to report the dummy
thread correctly to reflect the changes introduced by `d3e0f7e`.
Signed-off-by: Med Ismail Bennani <medismail.bennani@gmail.com>
This patch changes the `ScriptedThread` initializer in couple of ways:
- It replaces the `SBTarget` parameter by a `SBProcess` (pointing to the
`ScriptedProcess` that "owns" the `ScriptedThread`).
- It adds a reference to the `ScriptedProcessInfo` Dictionary, to pass
arbitrary user-input to the `ScriptedThread`.
This patch also fixes the SWIG bindings methods that call the
`ScriptedProcess` and `ScriptedThread` initializers by passing all the
arguments to the appropriate `PythonCallable` object.
Differential Revision: https://reviews.llvm.org/D112046
Signed-off-by: Med Ismail Bennani <medismail.bennani@gmail.com>
This patch adds support for memory regions in Scripted Processes.
This is necessary to read the stack memory region in order to
reconstruct each stackframe of the program.
In order to do so, this patch makes some changes to the SBAPI, namely:
- Add a new constructor for `SBMemoryRegionInfo` that takes arguments
such as the memory region name, address range, permissions ...
This is used when reading memory at some address to compute the offset
in the binary blob provided by the user.
- Add a `GetMemoryRegionContainingAddress` method to `SBMemoryRegionInfoList`
to simplify the access to a specific memory region.
With these changes, lldb is now able to unwind the stack and reconstruct
each frame. On top of that, reloading the target module at offset 0 allows
lldb to symbolicate the `ScriptedProcess` using debug info, similarly to an
ordinary Process.
To test this, I wrote a simple program with multiple function calls, ran it in
lldb, stopped at a leaf function and read the registers values and copied
the stack memory into a binary file. These are then used in the python script.
Differential Revision: https://reviews.llvm.org/D108953
Signed-off-by: Med Ismail Bennani <medismail.bennani@gmail.com>
