rust-raspberrypi-OS-tutorials/12_integrated_testing/Makefile

## SPDX-License-Identifier: MIT OR Apache-2.0
##
## Copyright (c) 2018-2021 Andre Richter <andre.o.richter@gmail.com>

include ../common/color.mk.in

##--------------------------------------------------------------------------------------------------
## Optional, user-provided configuration values
##--------------------------------------------------------------------------------------------------

# Default to the RPi3.
BSP ?= rpi3

# Default to a serial device name that is common in Linux.
DEV_SERIAL ?= /dev/ttyUSB0

# Optional integration test name.
ifdef TEST
    TEST_ARG = --test $(TEST)
else
    TEST_ARG = --test '*'
endif



##--------------------------------------------------------------------------------------------------
## Hardcoded configuration values
##--------------------------------------------------------------------------------------------------

# BSP-specific arguments.
ifeq ($(BSP),rpi3)
    TARGET            = aarch64-unknown-none-softfloat
    KERNEL_BIN        = kernel8.img
    QEMU_BINARY       = qemu-system-aarch64
    QEMU_MACHINE_TYPE = raspi3
    QEMU_RELEASE_ARGS = -serial stdio -display none
    QEMU_TEST_ARGS    = $(QEMU_RELEASE_ARGS) -semihosting
    OBJDUMP_BINARY    = aarch64-none-elf-objdump
    NM_BINARY         = aarch64-none-elf-nm
    READELF_BINARY    = aarch64-none-elf-readelf
    OPENOCD_ARG       = -f /openocd/tcl/interface/ftdi/olimex-arm-usb-tiny-h.cfg -f /openocd/rpi3.cfg
    JTAG_BOOT_IMAGE   = ../X1_JTAG_boot/jtag_boot_rpi3.img
    LINKER_FILE       = src/bsp/raspberrypi/link.ld
    RUSTC_MISC_ARGS   = -C target-cpu=cortex-a53
else ifeq ($(BSP),rpi4)
    TARGET            = aarch64-unknown-none-softfloat
    KERNEL_BIN        = kernel8.img
    QEMU_BINARY       = qemu-system-aarch64
    QEMU_MACHINE_TYPE =
    QEMU_RELEASE_ARGS = -serial stdio -display none
    QEMU_TEST_ARGS    = $(QEMU_RELEASE_ARGS) -semihosting
    OBJDUMP_BINARY    = aarch64-none-elf-objdump
    NM_BINARY         = aarch64-none-elf-nm
    READELF_BINARY    = aarch64-none-elf-readelf
    OPENOCD_ARG       = -f /openocd/tcl/interface/ftdi/olimex-arm-usb-tiny-h.cfg -f /openocd/rpi4.cfg
    JTAG_BOOT_IMAGE   = ../X1_JTAG_boot/jtag_boot_rpi4.img
    LINKER_FILE       = src/bsp/raspberrypi/link.ld
    RUSTC_MISC_ARGS   = -C target-cpu=cortex-a72
endif

QEMU_MISSING_STRING = "This board is not yet supported for QEMU."

# Export for build.rs.
export LINKER_FILE

KERNEL_ELF = target/$(TARGET)/release/kernel



##--------------------------------------------------------------------------------------------------
## Command building blocks
##--------------------------------------------------------------------------------------------------
RUSTFLAGS          = -C link-arg=-T$(LINKER_FILE) $(RUSTC_MISC_ARGS)
RUSTFLAGS_PEDANTIC = $(RUSTFLAGS) -D warnings -D missing_docs

FEATURES      = --features bsp_$(BSP)
COMPILER_ARGS = --target=$(TARGET) \
    $(FEATURES)                    \
    --release

RUSTC_CMD   = cargo rustc $(COMPILER_ARGS)
DOC_CMD     = cargo doc $(COMPILER_ARGS)
CLIPPY_CMD  = cargo clippy $(COMPILER_ARGS)
CHECK_CMD   = cargo check $(COMPILER_ARGS)
TEST_CMD    = cargo test $(COMPILER_ARGS)
OBJCOPY_CMD = rust-objcopy \
    --strip-all            \
    -O binary

EXEC_QEMU          = $(QEMU_BINARY) -M $(QEMU_MACHINE_TYPE)
EXEC_TEST_DISPATCH = ruby ../common/tests/dispatch.rb
EXEC_MINIPUSH      = ruby ../common/serial/minipush.rb

##------------------------------------------------------------------------------
## Dockerization
##------------------------------------------------------------------------------
DOCKER_IMAGE          = rustembedded/osdev-utils
DOCKER_CMD            = docker run -t --rm -v $(shell pwd):/work/tutorial -w /work/tutorial
DOCKER_CMD_INTERACT   = $(DOCKER_CMD) -i
DOCKER_ARG_DIR_COMMON = -v $(shell pwd)/../common:/work/common
DOCKER_ARG_DIR_JTAG   = -v $(shell pwd)/../X1_JTAG_boot:/work/X1_JTAG_boot
DOCKER_ARG_DEV        = --privileged -v /dev:/dev
DOCKER_ARG_NET        = --network host

DOCKER_QEMU  = $(DOCKER_CMD_INTERACT) $(DOCKER_IMAGE)
DOCKER_TOOLS = $(DOCKER_CMD) $(DOCKER_IMAGE)
DOCKER_TEST  = $(DOCKER_CMD) $(DOCKER_ARG_DIR_COMMON) $(DOCKER_IMAGE)
DOCKER_GDB   = $(DOCKER_CMD_INTERACT) $(DOCKER_ARG_NET) $(DOCKER_IMAGE)

# Dockerize commands, which require USB device passthrough, only on Linux.
ifeq ($(shell uname -s),Linux)
    DOCKER_CMD_DEV = $(DOCKER_CMD_INTERACT) $(DOCKER_ARG_DEV)

    DOCKER_CHAINBOOT = $(DOCKER_CMD_DEV) $(DOCKER_ARG_DIR_COMMON) $(DOCKER_IMAGE)
    DOCKER_JTAGBOOT  = $(DOCKER_CMD_DEV) $(DOCKER_ARG_DIR_COMMON) $(DOCKER_ARG_DIR_JTAG) $(DOCKER_IMAGE)
    DOCKER_OPENOCD   = $(DOCKER_CMD_DEV) $(DOCKER_ARG_NET) $(DOCKER_IMAGE)
else
    DOCKER_OPENOCD   = echo "Not yet supported on non-Linux systems."; \#
endif



##--------------------------------------------------------------------------------------------------
## Targets
##--------------------------------------------------------------------------------------------------
.PHONY: all $(KERNEL_ELF) $(KERNEL_BIN) doc qemu chainboot clippy clean readelf objdump nm check

all: $(KERNEL_BIN)

##------------------------------------------------------------------------------
## Build the kernel ELF
##------------------------------------------------------------------------------
$(KERNEL_ELF):
	$(call colorecho, "\nCompiling kernel - $(BSP)")
	@RUSTFLAGS="$(RUSTFLAGS_PEDANTIC)" $(RUSTC_CMD)

##------------------------------------------------------------------------------
## Build the stripped kernel binary
##------------------------------------------------------------------------------
$(KERNEL_BIN): $(KERNEL_ELF)
	@$(OBJCOPY_CMD) $(KERNEL_ELF) $(KERNEL_BIN)

##------------------------------------------------------------------------------
## Build the documentation
##------------------------------------------------------------------------------
doc:
	$(call colorecho, "\nGenerating docs")
	@$(DOC_CMD) --document-private-items --open

##------------------------------------------------------------------------------
## Run the kernel in QEMU
##------------------------------------------------------------------------------
ifeq ($(QEMU_MACHINE_TYPE),) # QEMU is not supported for the board.

qemu:
	$(call colorecho, "\n$(QEMU_MISSING_STRING)")

else # QEMU is supported.

qemu: $(KERNEL_BIN)
	$(call colorecho, "\nLaunching QEMU")
	@$(DOCKER_QEMU) $(EXEC_QEMU) $(QEMU_RELEASE_ARGS) -kernel $(KERNEL_BIN)

endif

##------------------------------------------------------------------------------
## Push the kernel to the real HW target
##------------------------------------------------------------------------------
chainboot: $(KERNEL_BIN)
	@$(DOCKER_CHAINBOOT) $(EXEC_MINIPUSH) $(DEV_SERIAL) $(KERNEL_BIN)

##------------------------------------------------------------------------------
## Run clippy
##------------------------------------------------------------------------------
clippy:
	@RUSTFLAGS="$(RUSTFLAGS_PEDANTIC)" $(CLIPPY_CMD)

##------------------------------------------------------------------------------
## Clean
##------------------------------------------------------------------------------
clean:
	rm -rf target $(KERNEL_BIN)

##------------------------------------------------------------------------------
## Run readelf
##------------------------------------------------------------------------------
readelf: $(KERNEL_ELF)
	$(call colorecho, "\nLaunching readelf")
	@$(DOCKER_TOOLS) $(READELF_BINARY) --headers $(KERNEL_ELF)

##------------------------------------------------------------------------------
## Run objdump
##------------------------------------------------------------------------------
objdump: $(KERNEL_ELF)
	$(call colorecho, "\nLaunching objdump")
	@$(DOCKER_TOOLS) $(OBJDUMP_BINARY) --disassemble --demangle \
                --section .text   \
                --section .rodata \
                --section .got    \
                $(KERNEL_ELF) | rustfilt

##------------------------------------------------------------------------------
## Run nm
##------------------------------------------------------------------------------
nm: $(KERNEL_ELF)
	$(call colorecho, "\nLaunching nm")
	@$(DOCKER_TOOLS) $(NM_BINARY) --demangle --print-size $(KERNEL_ELF) | sort | rustfilt

##------------------------------------------------------------------------------
## Helper target for rust-analyzer
##------------------------------------------------------------------------------
check:
	@RUSTFLAGS="$(RUSTFLAGS)" $(CHECK_CMD) --message-format=json



##--------------------------------------------------------------------------------------------------
## Debugging targets
##--------------------------------------------------------------------------------------------------
.PHONY: jtagboot openocd gdb gdb-opt0

##------------------------------------------------------------------------------
## Push the JTAG boot image to the real HW target
##------------------------------------------------------------------------------
jtagboot:
	@$(DOCKER_JTAGBOOT) $(EXEC_MINIPUSH) $(DEV_SERIAL) $(JTAG_BOOT_IMAGE)

##------------------------------------------------------------------------------
## Start OpenOCD session
##------------------------------------------------------------------------------
openocd:
	$(call colorecho, "\nLaunching OpenOCD")
	@$(DOCKER_OPENOCD) openocd $(OPENOCD_ARG)

##------------------------------------------------------------------------------
## Start GDB session
##------------------------------------------------------------------------------
gdb: RUSTC_MISC_ARGS += -C debuginfo=2
gdb-opt0: RUSTC_MISC_ARGS += -C debuginfo=2 -C opt-level=0
gdb gdb-opt0: $(KERNEL_ELF)
	$(call colorecho, "\nLaunching GDB")
	@$(DOCKER_GDB) gdb-multiarch -q $(KERNEL_ELF)



##--------------------------------------------------------------------------------------------------
## Testing targets
##--------------------------------------------------------------------------------------------------
.PHONY: test test_boot test_unit test_integration

ifeq ($(QEMU_MACHINE_TYPE),) # QEMU is not supported for the board.

test_boot test_unit test_integration test:
	$(call colorecho, "\n$(QEMU_MISSING_STRING)")

else # QEMU is supported.

##------------------------------------------------------------------------------
## Run boot test
##------------------------------------------------------------------------------
test_boot: $(KERNEL_BIN)
	$(call colorecho, "\nBoot test - $(BSP)")
	@$(DOCKER_TEST) $(EXEC_TEST_DISPATCH) $(EXEC_QEMU) $(QEMU_RELEASE_ARGS) -kernel $(KERNEL_BIN)

##------------------------------------------------------------------------------
## Helpers for unit and integration test targets
##------------------------------------------------------------------------------
define KERNEL_TEST_RUNNER
    #!/usr/bin/env bash

    TEST_ELF=$$(echo $$1 | sed -e 's/.*target/target/g')
    TEST_BINARY=$$(echo $$1.img | sed -e 's/.*target/target/g')

    $(OBJCOPY_CMD) $$TEST_ELF $$TEST_BINARY
    $(DOCKER_TEST) $(EXEC_TEST_DISPATCH) $(EXEC_QEMU) $(QEMU_TEST_ARGS) -kernel $$TEST_BINARY
endef

export KERNEL_TEST_RUNNER

define test_prepare
    @mkdir -p target
    @echo "$$KERNEL_TEST_RUNNER" > target/kernel_test_runner.sh
    @chmod +x target/kernel_test_runner.sh
endef

test_unit test_integration: FEATURES += --features test_build

##------------------------------------------------------------------------------
## Run unit test(s)
##------------------------------------------------------------------------------
test_unit:
	$(call colorecho, "\nCompiling unit test(s) - $(BSP)")
	$(call test_prepare)
	RUSTFLAGS="$(RUSTFLAGS_PEDANTIC)" $(TEST_CMD) --lib

##------------------------------------------------------------------------------
## Run integration test(s)
##------------------------------------------------------------------------------
test_integration:
	$(call colorecho, "\nCompiling integration test(s) - $(BSP)")
	$(call test_prepare)
	@RUSTFLAGS="$(RUSTFLAGS_PEDANTIC)" $(TEST_CMD) $(TEST_ARG)

test: test_boot test_unit test_integration

endif