- The DebugTransportModuleJtag is written in Verilog. It probably could be written in
Chisel except for some negative edge clocking requirement.
- For real implementations, the AsyncDebugBusTo/From is insufficient. This commit
includes cases where they are used, but because they are not reset asynchronously,
a Verilog 'AsyncMailbox' is used when p(AsyncDebug) is false.
- This commit differs significantly from the earlier attempt. Now, the
DTM and synchronizer is instantiated within Top, as it is a real piece of
hardware (vs. test infrastructure).
-TestHarness takes a parameter vs. creating an entirely new TestHarness class.
It does not make sense to instantiate TestHarness when p(IncludeJtagDTM) is false,
and it would not make sense to insantiate some other TestHarness if p(IncludeJtagDTM)
is true.
To build Verilog which includes the JtagDTM within Top:
make CONFIG=WithJtagDTM_...
To test using gdb->OpenOCD->jtag_vpi->Verilog:
First, install openocd (included in this commit)
./bootstrap
./configure --prefix=$OPENOCD --enable-jtag-vpi
make
make install
Then to run a simulation:
On a 32-bit core:
$(ROCKETCHIP)/riscv-tools/riscv-tests/debug/gdbserver.py \
--run ./simv-TestHarness-WithJtagDTM_... \
--cmd="$OPENOCD/bin/openocd --s $OPENOCD/share/openocd/scripts/" \
--freedom-e300-sim \
SimpleRegisterTest.test_s0
On a 64-bit core:
$(ROCKETCHIP)/riscv-tools/riscv-tests/debug/gdbserver.py \
--run ./simv-TestHarness-WithJtagDTM_... \
--cmd="$OPENOCD/bin/openocd --s $OPENOCD/share/openocd/scripts/" \
--freedom-u500-sim \
SimpleRegisterTest.test_s0
Initial cut
checkpoint which compiles and runs but there is some off-by-1 in the protocol
Debugging the clock crossing logic
checkpoint which works
Clean up the AsyncMailbox black box
This gets some leaf-level parameters out of the global parameterization,
better separating concerns. This commit also allows disabling the
M extension.
This is an unavoidably invasive commit, because it affects the unit tests
(which formerly exited using stop()), the test harness Verilog generator
(since it is no longer necessary), and the DRAM model (since it is no
longer connected). However, this should substantially reduce the effort
of building test harnesses in the future, since manual or semi-automatic
Verilog writing should no longer be necessary. Furthermore, there is now
very little duplication of effort between the Verilator and VCS test
harnesses.
This commit removes support for DRAMsim, which is a bit of an unfortunate
consequence. The main blocker is the lack of Verilog parameterization for
BlackBox. It would be straightforward to revive DRAMsim once support for
that feature is added to Chisel and FIRRTL. But that might not even be
necessary, as we move towards synthesizable DRAM models and FAME-1
transformations.
Until now, the number of L1 client channels was set statically in the
configuration. This static configuration also assumed the same number of
cached and uncached channels per tile. As we plan to move towards
heterogenous multicore systems, this restriction should be removed.
This commit changes the generator so that number of channels per tile
can be independently set (using cde.Parameters.alterPartial).
The OuterMemorySystem will dynamically compute the number of cached and
uncached channels by summing the number of each kind of channel per core.