On ARM we need to add a offset to the pc, if we read it
(ARM ARM (DDI 0100I) page A2-9). This fixes bugs in memory
trace generation and watchpoint recognition.
Change-Id: I1cfcb84af2abae7971869d2ce29d602648e2f020
Previously the code did not handle equivalence classes, which consist
only of one instruction (length 1). As these classes for example
come up at two consecutive read instructions, we have to handle them.
Change-Id: Ib9e475a782828a380dfc79f5b390ca9192f4b8e3
As we might need information of target instruction (in case of
checkpoint, etc.) this information is now added to the output
protobuf message.
Trace-Events are generated also for position zero, so this case is
also regarded.
Change-Id: I69ff4818e7f8d6771923802f65bf0aa1b81883c5
As we gain some degrees of freedom in choice of the specific
injection instruction offset, this can be used to minimize
navigational costs. This is a first approach towards pruning-aware
injection points.
To do so, we need to modify the sql query, which gets the pilots,
so we additionally join with the trace table to get begin and
end information for equivalence classes, which are feeded into
the creation of InjectionPoints.
Change-Id: I343b712dfcbed1299121f02eee9ce1b136a7ff15
As the InjectionPoint is considered to be a container for abstract
"points in time" which can be navigated to, not every object of
a InjectionPointHops needs a smart-hopping calculator.
Change-Id: I150a46cf79a2b9d8ddb2d24a6d89dc3d4246cdb3
As atoi caps the value of a unsigned int bigger than (2^31 - 1) other
than just letting it overflow to the corresponding negative value on
32Bit-integer machines, it must not be used for parsing to unsigned int.
TODO: Also apply this fix to all other unsigned values (in database)
which get parsed by atoi.
Change-Id: I96e29b14d36479ab6e567c527a40feb0b5fb14e5
As these tools work closely together with fail components, its
easiest, to build them in this context. As these tools don't
really matter for fail use, they might never be pushed to the
master branch.
Change-Id: I8c8bd80376d0475f08a531a995d829e85032371b
As openocd is able to read maximally 4-Byte sized chunks,
this will be done for performance improvement.
Change-Id: I79f85e580240f913b5a3d7b49bc0698390644ca8
If we halt in a watchpoint, we need to figure out, which one it was.
This will from now on be done by decoding the current instruction.
Change-Id: Ib62df0016c60044f2618af00e853b4373eb00bd7
As we want to use the cortex-m3 only for memory access, it should
always be halted. To achieve this, we need to halt it after every
reboot.
Change-Id: I5f0edf4986b65aea5a2aa59020247b9676de4dcb
Halting can now be done for cortex-a9 and cortex-m3 target with the halting
function which originally was only able to halt the cortex-a9 target.
Change-Id: I9ced64253405654c4155c8f776534bc7231387b2
As the cycle counter seems to be running forth, we need to halt it, to
get exact cycle count values.
Change-Id: Id85c052b88cec48b25ee0975ad47369587e08096
As we need hop chains to efficiently navigate to the injection
point on pandaboard, this campaign uses these. As we do not yet
have a component, which automatically navigates to a generic
InjectionPoint (API needs to be properly designed), we do this
explicitly.
Change-Id: I26ca6ebb3f05cde735f9641551a8ce5478e463f6
As for the pandaboard to navigate fast to the injection
instruction we need to deliver a hop chain to the fail-client,
this commit adds a generic wrapper for a injection point.
For now we have only the two options hop chain and instruction
offset, so it is activated via a cmake ON/OFF switch.
Change-Id: Ic01a07a30ac386d4316e6d6d271baf1549db966a
Single-stepping as in tracing sometimes fails in a long step-chain.
So we repeat the step until it really stepped. It can be observed, that
if openocd returns a step error, it never accidently steps nonetheless.
To ensure this behaviour, we could check for correct pc.
Change-Id: I05f82e2af0ca822cd6cd5571ffc3845f4e6a1d91
As non-gzipped trace-files cause the tool to always import zero events, the
input file is now openend as in the dump-trace tool, where opening non-gzipped
files obviously works fine.
Change-Id: If2575dbeb93ed657c7b8ddd9f14f41b5cc7bf7c6
Added opcode parser of the F.E.H.L.E.R-project for analysis of
memory access in mmu-abort handling, tracing, etc.
Change-Id: I5912fa4a4d51ee0501817c43bae05e87ac0e9b90
Added performance monitor hw-function cycle count.
Also fix for single-stepping exit, some additional register
exits and prevention of reboot failures.
Change-Id: I74196905dc39ecc14ae78366e7e1cb70ec7092f1
Polling of current target system state was done non-blocking until now.
Because of this, when the target was executing a longer time, the main-loop
was walked through several times and so unwanted state changes were
triggered. After this fix, the polling of execution state is blocking
in a while-loop until the target system hits any halting condition.
Also added some minor fixes
Change-Id: I4cbbef6eb6ff6ff8a3451affb8409a0df6a95fc5
Previously for correct termination, the PandaController called
the finish-function of the openocd wrapper, invoked a coroutine
switch and waited for the openocd wrapper to finish up and switch
coroutine again, so the PandaController could exit with correct
exitStatus. Now the openocd-wrapper directly exits with chosen
exit status.
Change-Id: I8d318a4143c53340896ccee4d059a0d79fdcfe89
In the OpenOCD config file for omap4460 an old definition of
Cortex-A9 CPUs was used. Without this fix, OpenOCD would not
start up.
Additionally this commit reduces the number of available Cortex-M
debug targets to one for the sake of simplicity.
Change-Id: Ic690bebd3d171ac0773bb0f1a8087ac96127fb6e
Normally OpenOCD reads all GP-Registers at halt, which is slow.
Restriction to only necessary Registers 1 and 15.
In the normal use case of OpenOCD this performance reduction does
not matter, because debugging does not need to be optimized for
performance. It just has to be faster than the human perception.
If we need to get the values of the registers 2 to 14, these are
fetched on demand per register.
Change-Id: I8587fbcc41c18722baebca1cec074188fe4cdebb
As the openocd-executable won't be needed, the main-function just
prints a warning, which should never be seen in fail context.
Change-Id: I8e5bbd00f152f68058f946b68201c0917db9ec9a
* If included by cpp-file, this will cause trouble. So it gets restricted
to use in c only.
* Prevent usage of "new" as variable name
* No redifinition of true and false, if included by C++
* Definition of bool fixed
Change-Id: Ic5403bd576afd9d2900a8ecfbcfdc50561ba0633
Including
* Main loop for controlling pandaboard
* Modification routines like setting halt conditions, reading
or writing Memory, Registers, etc.
* Timers
The *.hpp file is defined as *.hpp.in, because the absolute path to
config file must be set by CMake-Script (Will be introduced in later
commit)
Change-Id: I648df4916877dae550943bbb9b264b8d662689b7
With the recent updates to record one additional instruction at the trace
start, I broke memory-map handling (restrictMemoryAddresses() and
restrictInstructionAddresses()). This change repairs this functionality.
Change-Id: I0daf9f474d0efe3f8e30a168c0ccc1e993e7ddc6
Listens on a configurable SUT's global variable.
On read access a signal pattern value is calculated and sent back
to the SUT.
Currently, only a superimposable sine wave signal form is implemented.
Further signal forms can be implemented by inheriting from the
abstract SignalForm class.
Change-Id: I2e6cf49cd44797999691c9e9cf0c54dd3c96875e
Logs access to a given global variable of the SUT, given by
a symbol name, and outputs value when variable is written to file.
Format:
<Simulation time>;<Value of variable>
Change-Id: I81b581e571be4255a1a2200c41e7c16657ddfd3d
