esp-idf/components/fatfs/test_fatfs_host/Makefile
Sagar Bijwe fd7b794e81 FATFS support without wear levelling
This change allows readonly FATFS to be mounted without wear levelling
support. This will provide the customers a simple way to mount FATFS images
generated on host and flashed onto the chip during factory provisioning.
Since NVS encryption is not supported yet and NVS entry size is limited,
the change will provide an easy alternative for securing the provisioning data
by just marking FATFS parition as encrypted.
2018-06-16 16:02:35 +08:00

104 lines
2.7 KiB
Makefile

COMPONENT=fatfs
TEST_PROGRAM=test_$(COMPONENT)
#Expose as a library
COMPONENT_LIB=lib$(COMPONENT).a
#Use wear levelling and flash simulation
WEAR_LEVELLING=wear_levelling
WEAR_LEVELLING_DIR=../../$(WEAR_LEVELLING)
WEAR_LEVELLING_HOST_DIR=$(WEAR_LEVELLING_DIR)/test_wl_host
WEAR_LEVELLING_LIB=lib$(WEAR_LEVELLING).a
SPI_FLASH=spi_flash
SPI_FLASH_DIR=../../$(SPI_FLASH)
SPI_FLASH_SIM_DIR=$(SPI_FLASH_DIR)/sim
SPI_FLASH_LIB=lib$(SPI_FLASH).a
all: $(TEST_PROGRAM)
SOURCE_FILES = \
$(addprefix ../src/, \
diskio.c \
ff.c \
ffsystem.c \
ffunicode.c \
diskio_wl.c \
) \
$(addprefix ./stubs/, log/log.c)
TEST_SOURCE_FILES = \
test_fatfs.cpp \
main.cpp \
test_utils.c
INCLUDE_FLAGS = $(addprefix -I,\
../src \
. \
$(addprefix ./stubs/, \
driver/include \
freertos/include \
sdmmc/include \
log/include \
) \
$(SPI_FLASH_DIR)/include \
$(WEAR_LEVELLING_DIR)/include \
../../esp32/include \
../../../tools/catch \
)
GCOV ?= gcov
CPPFLAGS += $(INCLUDE_FLAGS) -D CONFIG_LOG_DEFAULT_LEVEL -g -m32
CFLAGS += -fprofile-arcs -ftest-coverage
CXXFLAGS += -std=c++11 -Wall -Werror -fprofile-arcs -ftest-coverage
LDFLAGS += -lstdc++ -fprofile-arcs -ftest-coverage
OBJ_FILES = $(filter %.o, $(SOURCE_FILES:.cpp=.o) $(SOURCE_FILES:.c=.o))
TEST_OBJ_FILES = $(filter %.o, $(TEST_SOURCE_FILES:.cpp=.o) $(TEST_SOURCE_FILES:.c=.o))
$(WEAR_LEVELLING_HOST_DIR)/$(WEAR_LEVELLING_LIB): force
$(MAKE) -C $(WEAR_LEVELLING_HOST_DIR) lib
$(SPI_FLASH_SIM_DIR)/$(SPI_FLASH_LIB): force
$(MAKE) -C $(SPI_FLASH_SIM_DIR) lib
force:
$(COMPONENT_LIB): $(OBJ_FILES)
$(AR) rcs $@ $^
lib: $(COMPONENT_LIB)
partition_table.bin: partition_table.csv
python ../../partition_table/gen_esp32part.py --verify $< $@
$(TEST_PROGRAM): lib $(TEST_OBJ_FILES) $(SPI_FLASH_SIM_DIR)/$(SPI_FLASH_LIB) $(WEAR_LEVELLING_HOST_DIR)/$(WEAR_LEVELLING_LIB) partition_table.bin
g++ $(LDFLAGS) -o $(TEST_PROGRAM) $(TEST_OBJ_FILES) -L$(abspath .) -l:$(COMPONENT_LIB) -L$(SPI_FLASH_SIM_DIR) -l:$(SPI_FLASH_LIB) -L$(WEAR_LEVELLING_HOST_DIR) -l:$(WEAR_LEVELLING_LIB) -g -m32
test: $(TEST_PROGRAM)
./$(TEST_PROGRAM)
COVERAGE_FILES = $(OBJ_FILES:.o=.gc*) $(TEST_OBJ_FILES:.o=.gc*)
$(COVERAGE_FILES): test
coverage.info: $(COVERAGE_FILES)
find ../ -name "*.gcno" -exec $(GCOV) -r -pb {} +
lcov --capture --directory ../ --no-external --output-file coverage.info --gcov-tool $(GCOV)
coverage_report: coverage.info
genhtml coverage.info --output-directory coverage_report
@echo "Coverage report is in coverage_report/index.html"
clean:
rm -f $(OBJ_FILES) $(TEST_OBJ_FILES) $(TEST_PROGRAM) $(COMPONENT_LIB) partition_table.bin
$(MAKE) -C $(WEAR_LEVELLING_HOST_DIR) clean
$(MAKE) -C $(SPI_FLASH_SIM_DIR) clean
rm -f $(COVERAGE_FILES) *.gcov
rm -rf coverage_report/
rm -f coverage.info
.PHONY: clean all test lib