u-boot/drivers/Makefile

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# SPDX-License-Identifier: GPL-2.0+
obj-$(CONFIG_$(SPL_TPL_)CLK) += clk/
obj-$(CONFIG_$(SPL_TPL_)DM) += core/
obj-$(CONFIG_$(SPL_TPL_)DRIVERS_MISC_SUPPORT) += misc/ sysreset/ firmware/
obj-$(CONFIG_$(SPL_TPL_)I2C_SUPPORT) += i2c/
obj-$(CONFIG_$(SPL_TPL_)LED) += led/
obj-$(CONFIG_$(SPL_TPL_)MMC_SUPPORT) += mmc/
obj-$(CONFIG_$(SPL_TPL_)NAND_SUPPORT) += mtd/nand/
obj-$(CONFIG_$(SPL_TPL_)PHY) += phy/
obj-$(CONFIG_$(SPL_TPL_)PINCTRL) += pinctrl/
obj-$(CONFIG_$(SPL_TPL_)RAM) += ram/
obj-$(CONFIG_$(SPL_TPL_)SERIAL_SUPPORT) += serial/
obj-$(CONFIG_$(SPL_TPL_)SPI_FLASH_SUPPORT) += mtd/spi/
obj-$(CONFIG_$(SPL_TPL_)SPI_SUPPORT) += spi/
obj-$(CONFIG_$(SPL_TPL_)TIMER) += timer/
ifndef CONFIG_TPL_BUILD
ifdef CONFIG_SPL_BUILD
obj-$(CONFIG_SPL_BOOTCOUNT_LIMIT) += bootcount/
obj-$(CONFIG_SPL_CPU_SUPPORT) += cpu/
obj-$(CONFIG_SPL_CRYPTO_SUPPORT) += crypto/
obj-$(CONFIG_SPL_GPIO_SUPPORT) += gpio/
obj-$(CONFIG_SPL_MPC8XXX_INIT_DDR_SUPPORT) += ddr/fsl/
obj-$(CONFIG_ARMADA_38X) += ddr/marvell/a38x/
obj-$(CONFIG_ARMADA_XP) += ddr/marvell/axp/
obj-$(CONFIG_ALTERA_SDRAM) += ddr/altera/
obj-$(CONFIG_SPL_POWER_SUPPORT) += power/ power/pmic/
obj-$(CONFIG_SPL_POWER_SUPPORT) += power/regulator/
obj-$(CONFIG_SPL_DM_RESET) += reset/
obj-$(CONFIG_SPL_MTD_SUPPORT) += mtd/
obj-$(CONFIG_SPL_ONENAND_SUPPORT) += mtd/onenand/
spl: Lightweight UBI and UBI fastmap support Booting a payload out of NAND FLASH from the SPL is a crux today, as it requires hard partioned FLASH. Not a brilliant idea with the reliability of todays NAND FLASH chips. The upstream UBI + UBI fastmap implementation which is about to brought to u-boot is too heavy weight for SPLs as it provides way more functionality than needed for a SPL and does not even fit into the restricted SPL areas which are loaded from the SoC boot ROM. So this provides a fast and lightweight implementation of UBI scanning and UBI fastmap attach. The scan and logical to physical block mapping code is developed from scratch, while the fastmap implementation is lifted from the linux kernel source and stripped down to fit the SPL needs. The text foot print on the board which I used for development is: 6854 0 0 6854 1abd drivers/mtd/ubispl/built-in.o Attaching a NAND chip with 4096 physical eraseblocks (4 blocks are reserved for the SPL) takes: In full scan mode: 1172ms In fastmap mode: 95ms The code requires quite some storage. The largest and unknown part of it is the number of fastmap blocks to read. Therefor the data structure is not put into the BSS. The code requires a pointer to free memory handed in which is initialized by the UBI attach code itself. See doc/README.ubispl for further information on how to use it. This shares the ubi-media.h and crc32 implementation of drivers/mtd/ubi There is no way to share the fastmap code, as UBISPL only utilizes the slightly modified functions ubi_attach_fastmap() and ubi_scan_fastmap() from the original kernel ubi fastmap implementation. Signed-off-by: Thomas Gleixner <tglx@linutronix.de> Signed-off-by: Ladislav Michl <ladis@linux-mips.org> Acked-by: Heiko Schocher <hs@denx.de> Reviewed-by: Tom Rini <trini@konsulko.com>
2016-07-12 18:28:12 +00:00
obj-$(CONFIG_SPL_UBI) += mtd/ubispl/
obj-$(CONFIG_SPL_DMA_SUPPORT) += dma/
obj-$(CONFIG_SPL_ETH_SUPPORT) += net/
obj-$(CONFIG_SPL_ETH_SUPPORT) += net/phy/
obj-$(CONFIG_SPL_USB_ETHER) += net/phy/
obj-$(CONFIG_SPL_PCI_SUPPORT) += pci/
obj-$(CONFIG_SPL_PCH_SUPPORT) += pch/
obj-$(CONFIG_SPL_RTC_SUPPORT) += rtc/
obj-$(CONFIG_SPL_MUSB_NEW_SUPPORT) += usb/musb-new/
obj-$(CONFIG_SPL_USB_GADGET_SUPPORT) += usb/gadget/
obj-$(CONFIG_SPL_USB_GADGET_SUPPORT) += usb/gadget/udc/
obj-$(CONFIG_SPL_DFU_SUPPORT) += dfu/
obj-$(CONFIG_SPL_WATCHDOG_SUPPORT) += watchdog/
obj-$(CONFIG_SPL_USB_HOST_SUPPORT) += usb/host/
obj-$(CONFIG_OMAP_USB_PHY) += usb/phy/
obj-$(CONFIG_SPL_SATA_SUPPORT) += ata/ scsi/
obj-$(CONFIG_SPL_USB_HOST_SUPPORT) += block/
obj-$(CONFIG_SPL_MMC_SUPPORT) += block/
obj-$(CONFIG_SPL_FPGA_SUPPORT) += fpga/
obj-$(CONFIG_SPL_THERMAL) += thermal/
endif
endif
ifdef CONFIG_TPL_BUILD
obj-$(CONFIG_TPL_MPC8XXX_INIT_DDR_SUPPORT) += ddr/fsl/
endif
ifeq ($(CONFIG_SPL_BUILD)$(CONFIG_TPL_BUILD),)
dm: adc: add simple ADC uclass implementation This commit adds: - new uclass id: UCLASS_ADC - new uclass driver: drivers/adc/adc-uclass.c The new uclass's API allows for ADC operation on: * single-channel with channel selection by a number * multti-channel with channel selection by bit mask ADC uclass's functions: * single-channel: - adc_start_channel() - start channel conversion - adc_channel_data() - get conversion data - adc_channel_single_shot() - start/get conversion data * multi-channel: - adc_start_channels() - start selected channels conversion - adc_channels_data() - get conversion data - adc_channels_single_shot() - start/get conversion data for channels selected by bit mask * general: - adc_stop() - stop the conversion - adc_vdd_value() - positive reference Voltage value with polarity [uV] - adc_vss_value() - negative reference Voltage value with polarity [uV] - adc_data_mask() - conversion data bit mask The device tree can provide below constraints/properties: - vdd-polarity-negative: if true: Vdd = vdd-microvolts * (-1) - vss-polarity-negative: if true: Vss = vss-microvolts * (-1) - vdd-supply: phandle to Vdd regulator's node - vss-supply: phandle to Vss regulator's node And optional, checked only if the above corresponding, doesn't exist: - vdd-microvolts: positive reference Voltage [uV] - vss-microvolts: negative reference Voltage [uV] Signed-off-by: Przemyslaw Marczak <p.marczak@samsung.com> Cc: Simon Glass <sjg@chromium.org> Signed-off-by: Minkyu Kang <mk7.kang@samsung.com>
2015-10-27 12:08:00 +00:00
obj-y += adc/
obj-y += ata/
obj-$(CONFIG_DM_DEMO) += demo/
obj-$(CONFIG_BIOSEMU) += bios_emulator/
obj-y += block/
obj-$(CONFIG_BOOTCOUNT_LIMIT) += bootcount/
obj-$(CONFIG_CPU) += cpu/
obj-y += crypto/
obj-$(CONFIG_FASTBOOT) += fastboot/
obj-y += firmware/
obj-$(CONFIG_FPGA) += fpga/
obj-y += misc/
obj-$(CONFIG_MMC) += mmc/
obj-$(CONFIG_NVME) += nvme/
obj-y += pcmcia/
obj-y += dfu/
obj-$(CONFIG_X86) += pch/
obj-y += phy/allwinner/
obj-y += phy/marvell/
obj-y += rtc/
obj-y += scsi/
obj-y += sound/
obj-y += spmi/
obj-y += sysreset/
obj-y += tpm/
obj-y += video/
obj-y += watchdog/
obj-$(CONFIG_QE) += qe/
obj-$(CONFIG_U_QE) += qe/
obj-y += mailbox/
obj-y += memory/
obj-y += pwm/
obj-y += reset/
obj-y += input/
# SOC specific infrastructure drivers.
obj-y += smem/
obj-y += soc/
drivers: Introduce a simplified remoteproc framework Many System on Chip(SoC) solutions are complex with multiple processors on the same die dedicated to either general purpose of specialized functions. Many examples do exist in today's SoCs from various vendors. Typical examples are micro controllers such as an ARM M3/M0 doing a offload of specific function such as event integration or power management or controlling camera etc. Traditionally, the responsibility of loading up such a processor with a firmware and communication has been with a High Level Operating System(HLOS) such as Linux. However, there exists classes of products where Linux would need to expect services from such a processor or the delay of Linux and operating system being able to load up such a firmware is unacceptable. To address these needs, we need some minimal capability to load such a system and ensure it is started prior to an Operating System(Linux or any other) is started up. NOTE: This is NOT meant to be a solve-all solution, instead, it tries to address certain class of SoCs and products that need such a solution. A very simple model is introduced here as part of the initial support that supports microcontrollers with internal memory (no MMU, no execution from external memory, or specific image format needs). This basic framework can then (hopefully) be extensible to other complex SoC processor support as need be. Reviewed-by: Simon Glass <sjg@chromium.org> Signed-off-by: Nishanth Menon <nm@ti.com> Acked-by: Simon Glass <sjg@chromium.org>
2015-09-17 20:42:39 +00:00
obj-$(CONFIG_REMOTEPROC) += remoteproc/
obj-y += thermal/
obj-$(CONFIG_MACH_PIC32) += ddr/microchip/
endif