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# Copyright 2022 Google LLC
#
# Licensed under the Apache License, Version 2.0 (the "License");
# you may not use this file except in compliance with the License.
# You may obtain a copy of the License at
#
# https://www.apache.org/licenses/LICENSE-2.0
#
# Unless required by applicable law or agreed to in writing, software
# distributed under the License is distributed on an "AS IS" BASIS,
# WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
# See the License for the specific language governing permissions and
# limitations under the License.
MATCHA_SRC_DIR := $(ROOTDIR)/hw/matcha
MATCHA_OUT_DIR := $(OUT)/matcha/hw
MATCHA_VERILATOR_TB := $(MATCHA_OUT_DIR)/sim-verilator/Vchip_sim_tb
MATCHA_TESTLOG_DIR := $(MATCHA_OUT_DIR)/test-log
MATCHA_FPGA_BINARY_DIR := $(MATCHA_OUT_DIR)/fpga_tests
MATCHA_FPGA_MATCHA_BINARY_DIR := $(MATCHA_FPGA_BINARY_DIR)/matcha
MATCHA_FPGA_KELVIN_BINARY_DIR := $(MATCHA_FPGA_BINARY_DIR)/kelvin
BOOT_ROM_ELF := boot_rom.elf
$(MATCHA_OUT_DIR):
mkdir -p $(MATCHA_OUT_DIR)
## Regenerate Matcha HW files frop IPs and top_matcha definition.
# This target uses Open Titan's autogen tools as well as the HW IPs to generate
# the system verilog files as well as the DV register definition cores and
# system verilog files. The source code is from both hw/opentitan-upstream and
# hw/matcha/, while the output is stored at out/matcha/hw.
#
# This is a dev-only target (not for CI), as it modifies the hw/matcha source
# tree with generated code.
matcha_hw_generate_all: | $(MATCHA_OUT_DIR)
$(MAKE) -C "$(MATCHA_SRC_DIR)/hw" all
## Build Matcha verilator testbench.
# This target builds the verilator testbench binary from hw/matcha using
# hw/opentitan-upstream as the library. The output is stored in
# out/matcha/hw/.
# This target is compute-intensive. Make sure you have a powerful enough machine
# to build it.
matcha_hw_verilator_sim: $(MATCHA_VERILATOR_TB)
# TODO(ykwang): Copy only needed files into matcha output directory.
# TODO(ykwang): Revise the structure of matcha output directory.
$(MATCHA_VERILATOR_TB): $(MATCHA_OUT_DIR) verilator
cd $(MATCHA_SRC_DIR) && \
bazel build //hw:verilator
cd $(MATCHA_SRC_DIR) && \
cp -rf --no-preserve=mode bazel-bin/hw/build.verilator_real/* "$(MATCHA_OUT_DIR)" && \
chmod +x "$(MATCHA_OUT_DIR)/sim-verilator/Vchip_sim_tb"
## Build Matcha FPGA Target for Nexus Board.
# This target builds the FPGA bit file from hw/matcha using
# hw/opentitan-upstream as the library. The output is stored in
# out/matcha/hw/.
# This target is compute-intensive. Make sure you have a powerful enough machine
# and Vivado suporting the latest UltraScale+ device to build it.
matcha_hw_fpga_nexus: | $(MATCHA_OUT_DIR)
cd $(MATCHA_SRC_DIR) && \
bazel build //hw/bitstream/vivado:fpga_nexus
cd $(MATCHA_SRC_DIR) && \
find bazel-bin/hw/bitstream/vivado/build.fpga_nexus/ -regex '.*.\(bit\|mmi\)' \
-exec cp -f '{}' "$(MATCHA_OUT_DIR)" \;
$(MATCHA_TESTLOG_DIR):
mkdir -p $(MATCHA_TESTLOG_DIR)
## Build Matcha sw artifacts
#
# Checks the matcha sw code integrity for targets not covered by the verilator
# tests.
#
matcha_sw_all: | $(MATCHA_OUT_DIR)
cd $(MATCHA_SRC_DIR) && \
bazel build --define DISABLE_VERILATOR_BUILD=true --build_tag_filters="-kelvin_fpga" \
//sw/device/...
cd $(MATCHA_SRC_DIR) && \
find "bazel-out/" \( -type f -name "*.elf" -o -name "*.bin" -o -name "*.vmem" \) \
-exec cp -f --parents "{}" "$(MATCHA_OUT_DIR)" \;
$(MATCHA_FPGA_MATCHA_BINARY_DIR):
mkdir -p $(MATCHA_FPGA_MATCHA_BINARY_DIR)
## Build test binaries that run on FPGA
matcha_fpga_tests: | $(MATCHA_FPGA_MATCHA_BINARY_DIR)
cd $(MATCHA_SRC_DIR) && \
bazel query //sw/device/tests/... \
| grep 'fpga_nexus' \
| egrep '_bin$$' \
| grep -v '/smc:' \
| grep -v 'kelvin' \
| grep -v 'example_test_from_rom_rom_prog_fpga_nexus_bin' \
| xargs bazel build
cd $(MATCHA_SRC_DIR) && \
find 'bazel-out/' \
-type f \
\( -wholename "*ST-*/*fpga_nexus.elf" -o -wholename "*ST-*/*fpga_nexus.bin" \) \
-exec cp -f '{}' "$(MATCHA_FPGA_MATCHA_BINARY_DIR)" \;
$(MATCHA_FPGA_KELVIN_BINARY_DIR):
mkdir -p "$(MATCHA_FPGA_KELVIN_BINARY_DIR)"
## Build Matcha Kelvin SW FPGA test artifacts
#
# Build kelvin artifacts and package it in a tarball and ready for use on the FPGA
# The output is at out/matcha/hw/fpga_tests/kelvin
#
matcha_kelvin_fpga_tarballs: kelvin_sw | $(MATCHA_FPGA_KELVIN_BINARY_DIR)
cd $(MATCHA_SRC_DIR) && \
bazel build --define DISABLE_VERILATOR_BUILD=true \
@kelvin-binary//...
# Copy the tarballs and sc binary to out/.
cd $(MATCHA_SRC_DIR) && \
find "bazel-out/" -type f -wholename "*fastbuild-*/sw/device/tests/kelvin/fpga_tests/kelvin_test_sc_extflash_fpga_nexus.bin" |\
xargs -I {} cp -f {} "$(MATCHA_FPGA_KELVIN_BINARY_DIR)"
cd $(MATCHA_SRC_DIR) && \
find "bazel-bin/external/kelvin-binary" -name "*.tar" |\
xargs -I {} cp -f {} "$(MATCHA_FPGA_KELVIN_BINARY_DIR)"
## Build opentitantool for matcha FPGA tests
opentitantool_pkg: | $(MATCHA_OUT_DIR)
cd $(MATCHA_SRC_DIR) && \
bazel build //sw:opentitantool_pkg
cd $(MATCHA_SRC_DIR) && \
cp -f bazel-bin/sw/opentitantool_pkg.tar.gz $(MATCHA_OUT_DIR)
## Build and run matcha verilator test suite
#
matcha_hw_verilator_tests: verilator | $(MATCHA_TESTLOG_DIR)
cd $(MATCHA_SRC_DIR) && \
bazel test --test_output=errors --test_timeout=180,600,1800,3600 \
--local_test_jobs=HOST_CPUS*0.25 \
--//hw:make_options=-j,16 \
//sw/device/tests:verilator_test_suite
cd $(MATCHA_SRC_DIR) && cp -rf "bazel-testlogs/sw" "$(MATCHA_TESTLOG_DIR)"
## Build the boot ROM image
#
# This builds the HW boot rom executable for simulation.
# Source is in hw/matcha, while output is placed in
# out/matcha/hw/
multihart_boot_rom: | $(MATCHA_OUT_DIR)
cd $(MATCHA_SRC_DIR) && \
bazel build --config=riscv32 //sw/device/lib/testing/test_rom:test_rom_no_otp_fpga_nexus.elf
cd $(MATCHA_SRC_DIR) && \
find "bazel-out/" -wholename "*test_rom/test_rom_no_otp_fpga_nexus.elf" \
-exec cp -f '{}' "$(MATCHA_OUT_DIR)/$(BOOT_ROM_ELF)" \;
## Clean Matcha HW artifact
matcha_hw_clean:
rm -rf $(MATCHA_OUT_DIR)
cd $(MATCHA_SRC_DIR) && \
bazel clean --expunge
## Build the spi_passthough binary
#
# This builds the spi_passthrough_fpga_nexus.bin binary that can be used to
# write flash tarballs to the nexus SPI boot flash. The binary will be copied
# to out/spi_passthrough_fpga_nexus.bin
spi_passthrough: | $(OUT)
cd $(MATCHA_SRC_DIR) && \
bazel build --define DISABLE_VERILATOR_BUILD=true \
sw/device/examples/spi_passthrough
find "$(MATCHA_SRC_DIR)/bazel-out/" -type f -wholename "*fastbuild-*/sw/device/examples/spi_passthrough/spi_passthrough_fpga_nexus.bin" |\
xargs -I '{}' cp -f '{}' "$(OUT)"
## Fetch latest Nexus bitstream and matching opentitantool
latest_bitstream: | $(OUT)
curl https://storage.googleapis.com/shodan-public-artifacts/nexus-bitstream_latest.tar.gz -o $(OUT)/nexus-bitstream.tar.gz
tar -C $(OUT) -xf $(OUT)/nexus-bitstream.tar.gz
tar -C $(OUT) -xf $(OUT)/results/fpga_nexus_smoketest.tar.gz
curl https://storage.googleapis.com/shodan-public-artifacts/opentitantool_pkg_latest.tar.gz -o $(OUT)/opentitantool_pkg.tar.gz
tar -C $(OUT) -xf $(OUT)/opentitantool_pkg.tar.gz
.PHONY:: matcha_hw_verilator_sim matcha_hw_clean matcha_hw_verilator_tests
.PHONY:: matcha_sw_all opentitantool_pkg
.PHONY:: matcha_hw_fpga_nexus matcha_kelvin_fpga_tarballs
.PHONY:: multihart_boot_rom
.PHONY:: spi_passthrough
.PHONY:: latest_bitstream