ifeq ($(CONFIG_SOC_NVIDIA_TEGRA210),y) CBOOTIMAGE_OPTS = --soc tegra210 bootblock-y += bootblock.c bootblock-y += bootblock_asm.S bootblock-y += clock.c bootblock-y += spi.c bootblock-y += i2c.c bootblock-y += dma.c bootblock-y += monotonic_timer.c bootblock-y += padconfig.c bootblock-y += power.c bootblock-y += funitcfg.c bootblock-y += ../tegra/gpio.c bootblock-y += ../tegra/i2c.c bootblock-y += ../tegra/pingroup.c bootblock-y += ../tegra/pinmux.c bootblock-y += ../tegra/apbmisc.c bootblock-y += ../tegra/usb.c bootblock-y += uart.c verstage-y += dma.c verstage-y += monotonic_timer.c verstage-y += spi.c verstage-y += padconfig.c verstage-y += funitcfg.c verstage-y += uart.c verstage-y += ../tegra/gpio.c verstage-y += ../tegra/i2c.c verstage-y += ../tegra/pinmux.c verstage-y += clock.c verstage-y += i2c.c romstage-y += romstage_asm.S romstage-y += addressmap.c romstage-y += cbmem.c romstage-y += ccplex.c romstage-y += clock.c romstage-y += cpu.c romstage-y += spi.c romstage-y += i2c.c romstage-y += dma.c romstage-y += monotonic_timer.c romstage-y += padconfig.c romstage-y += funitcfg.c romstage-y += romstage.c romstage-y += power.c romstage-y += ram_code.c ifneq ($(CONFIG_BOOTROM_SDRAM_INIT),y) romstage-y += sdram.c romstage-y += sdram_lp0.c endif romstage-y += ../tegra/gpio.c romstage-y += ../tegra/i2c.c romstage-y += ../tegra/pinmux.c romstage-y += ../tegra/usb.c romstage-y += uart.c ramstage-y += addressmap.c ramstage-y += cbmem.c ramstage-y += cpu.c ramstage-y += clock.c ramstage-$(CONFIG_MAINBOARD_DO_NATIVE_VGA_INIT) += dc.c ramstage-$(CONFIG_MAINBOARD_DO_DSI_INIT) += dsi.c ramstage-$(CONFIG_MAINBOARD_DO_DSI_INIT) += mipi_dsi.c ramstage-$(CONFIG_MAINBOARD_DO_DSI_INIT) += mipi.c ramstage-$(CONFIG_MAINBOARD_DO_DSI_INIT) += mipi-phy.c ramstage-$(CONFIG_MAINBOARD_DO_DSI_INIT) += ./jdi_25x18_display/panel-jdi-lpm102a188a.c ramstage-$(CONFIG_MAINBOARD_DO_SOR_INIT) += dp.c ramstage-$(CONFIG_MAINBOARD_DO_SOR_INIT) += sor.c ramstage-$(CONFIG_ARM64_USE_ARM_TRUSTED_FIRMWARE) += arm_tf.c ramstage-y += sdram_lp0.c ramstage-y += soc.c ramstage-y += spi.c ramstage-y += i2c.c ramstage-y += i2c6.c ramstage-y += ape.c ramstage-y += power.c ramstage-y += dma.c ramstage-y += monotonic_timer.c ramstage-y += padconfig.c ramstage-y += funitcfg.c ramstage-y += ram_code.c ramstage-y += ../tegra/apbmisc.c ramstage-y += ../tegra/gpio.c ramstage-y += ../tegra/i2c.c ramstage-y += ../tegra/pinmux.c ramstage-y += ramstage.c ramstage-y += mmu_operations.c ramstage-y += uart.c ramstage-y += ../tegra/usb.c ramstage-$(CONFIG_HAVE_MTC) += mtc.c ramstage-y += stage_entry.S rmodules_arm-y += monotonic_timer.c CPPFLAGS_common += -Isrc/soc/nvidia/tegra210/include/ # We want to grab the bootblock right before it goes into the image and wrap # it inside a BCT, but ideally we would do that without making special, one # use modifications to the main ARM Makefile. We do this in two ways. First, # we copy bootblock.elf to bootblock.raw.elf and allow the %.bin: %.elf # template rule to turn it into bootblock.raw.bin. This makes sure whatever # processing is supposed to happen to turn an .elf into a .bin happens. # # Second, we add our own rule for creating bootblock.bin from # bootblock.raw.bin which displaces the template rule. When other rules that # package up the image pull in bootblock.bin, it will be this wrapped version # instead of the raw bootblock. $(objcbfs)/bootblock.raw.elf: $(objcbfs)/bootblock.elf cp $< $@ $(obj)/generated/bct.bin: $(obj)/generated/bct.cfg $(CBOOTIMAGE) @printf " CBOOTIMAGE $(subst $(obj)/,,$(@))\n" $(CBOOTIMAGE) -gbct $(CBOOTIMAGE_OPTS) $< $@ BCT_BIN = $(obj)/generated/bct.bin BCT_WRAPPER = $(obj)/generated/bct.wrapper $(objcbfs)/bootblock.bin: $(objcbfs)/bootblock.raw.bin $(BCT_BIN) echo "Version = 1;" > $(BCT_WRAPPER) echo "Redundancy = 1;" >> $(BCT_WRAPPER) echo "Bctcopy = 1;" >> $(BCT_WRAPPER) echo "Bctfile = $(BCT_BIN);" >> $(BCT_WRAPPER) echo "BootLoader = $<,$(call loadaddr,bootblock),$(call loadaddr,bootblock),Complete;" >> $(BCT_WRAPPER) @printf " CBOOTIMAGE $(subst $(obj)/,,$(@))\n" $(CBOOTIMAGE) $(CBOOTIMAGE_OPTS) $(BCT_WRAPPER) $@ # We need to ensure that TZ memory has enough space to hold TTB and resident EL3 # components (including BL31 and Secure OS) ttb_size=$(shell printf "%d" $(CONFIG_TTB_SIZE_MB)) sec_size=$(shell printf "%d" $(CONFIG_SEC_COMPONENT_SIZE_MB)) req_tz_size=$(shell expr $(ttb_size) + $(sec_size)) tz_size=$(shell printf "%d" $(CONFIG_TRUSTZONE_CARVEOUT_SIZE_MB)) ifeq ($(shell test $(tz_size) -lt $(req_tz_size) && echo 1), 1) $(error "TRUSTZONE_CARVEOUT_SIZE_MB should be atleast as big as TTB_SIZE_MB + SEC_COMPONENT_SIZE_MB") endif # BL31 component is placed towards the end of 32-bit address space. This assumes # that TrustZone memory is placed at the end of 32-bit address space. Within the # TZ memory, we place BL31 and BL32(if available) towards the beginning and TTB # towards the end. Calculate TZDRAM_BASE i.e. base of BL31 component by: # 0x1000 = end of 32-bit address space in MiB # 0x1000 - $(CONFIG_TRUSTZONE_CARVEOUT_SIZE_MB) = start of TZ memory in MiB BL31_MAKEARGS += TZDRAM_BASE=$$(((0x1000 - $(CONFIG_TRUSTZONE_CARVEOUT_SIZE_MB)) << 20)) BL31_MAKEARGS += PLAT=tegra TARGET_SOC=t210 # MTC fw MTC_DIR = $(CONFIG_MTC_DIRECTORY) MTC_FILE = $(MTC_DIR)/$(CONFIG_MTC_FILE) MTC_FILE_CBFS = $(CONFIG_MTC_FILE) cbfs-files-$(CONFIG_HAVE_MTC) += $(MTC_FILE_CBFS) $(MTC_FILE_CBFS)-file := $(MTC_FILE) $(MTC_FILE_CBFS)-type := raw endif