u-boot/arch/arm/mach-mvebu/Kconfig

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if ARCH_MVEBU
config HAVE_MVEBU_EFUSE
bool
config ARMADA_32BIT
bool
select ARCH_MISC_INIT
select BOARD_EARLY_INIT_F
select CPU_V7A
select SPL_DM if SPL
select SPL_DM_SEQ_ALIAS if SPL
select SPL_OF_CONTROL if SPL
select SPL_SKIP_LOWLEVEL_INIT
select SPL_SIMPLE_BUS if SPL
select SUPPORT_SPL
select TRANSLATION_OFFSET
config ARMADA_64BIT
bool
select ARM64
# ARMv7 SoCs...
config ARMADA_375
bool
select ARMADA_32BIT
config ARMADA_38X
bool
select ARMADA_32BIT
select HAVE_MVEBU_EFUSE
config ARMADA_38X_HS_IMPEDANCE_THRESH
hex "Armada 38x USB 2.0 High-Speed Impedance Threshold (0x0 - 0x7)"
depends on ARMADA_38X
default 0x6
range 0x0 0x7
config ARMADA_XP
bool
select ARMADA_32BIT
# ARMv8 SoCs...
config ARMADA_3700
bool
select ARM64
arm64: mvebu: Add basic support for the Marvell Armada 7K/8K SoC Compared to the Armada 3700, the Armada 7K and 8K are much more on the high-end side: they use a dual Cortex-A72 or a quad Cortex-A72, as opposed to the Cortex-A53 for the Armada 3700. The Armada 7K and 8K also use a fairly unique architecture, internally they are composed of several components: - One AP (Application Processor), which contains the processor itself and a few core hardware blocks. The AP used in the Armada 7K and 8K is called AP806, and is available in two configurations: dual Cortex-A72 and quad Cortex-A72. - One or two CP (Communication Processor), which contain most of the I/O interfaces (SATA, PCIe, Ethernet, etc.). The 7K family chips have one CP, while the 8K family chips integrate two CPs, providing two times the number of I/O interfaces available in the CP. The CP used in the 7K and 8K is called CP110. All in all, this gives the following combinations: - Armada 7020, which is a dual Cortex-A72 with one CP - Armada 7040, which is a quad Cortex-A72 with one CP - Armada 8020, which is a dual Cortex-A72 with two CPs - Armada 8040, which is a quad Cortex-A72 with two CPs This patch adds basic support for this ARMv8 based SoC into U-Boot. Future patches will integrate other device drivers and board support, starting with the Marvell DB-88F7040 development board. Signed-off-by: Stefan Roese <sr@denx.de> Cc: Nadav Haklai <nadavh@marvell.com> Cc: Neta Zur Hershkovits <neta@marvell.com> Cc: Kostya Porotchkin <kostap@marvell.com> Cc: Omri Itach <omrii@marvell.com> Cc: Igal Liberman <igall@marvell.com> Cc: Haim Boot <hayim@marvell.com> Cc: Hanna Hawa <hannah@marvell.com>
2016-05-25 06:13:45 +00:00
# Armada 7K and 8K are very similar - use only one Kconfig symbol for both
config ARMADA_8K
bool
select ARM64
# Armada PLL frequency (used for NAND clock generation)
config SYS_MVEBU_PLL_CLOCK
int
default "2000000000" if ARMADA_XP || ARMADA_3700 || ARMADA_8K || ARMADA_MSYS
default "1000000000" if ARMADA_38X || ARMADA_375
# Armada XP/38x SoC types...
config MV78230
bool
select ARMADA_XP
config MV78260
bool
select ARMADA_XP
imply CMD_SATA
config MV78460
bool
select ARMADA_XP
config ARMADA_MSYS
bool
select ARMADA_32BIT
config 98DX4251
bool
select ARMADA_MSYS
config 98DX3336
bool
select ARMADA_MSYS
config 98DX3236
bool
select ARMADA_MSYS
config 88F6820
bool
select ARMADA_38X
choice
arm64: mvebu: Add basic support for the Marvell Armada 7K/8K SoC Compared to the Armada 3700, the Armada 7K and 8K are much more on the high-end side: they use a dual Cortex-A72 or a quad Cortex-A72, as opposed to the Cortex-A53 for the Armada 3700. The Armada 7K and 8K also use a fairly unique architecture, internally they are composed of several components: - One AP (Application Processor), which contains the processor itself and a few core hardware blocks. The AP used in the Armada 7K and 8K is called AP806, and is available in two configurations: dual Cortex-A72 and quad Cortex-A72. - One or two CP (Communication Processor), which contain most of the I/O interfaces (SATA, PCIe, Ethernet, etc.). The 7K family chips have one CP, while the 8K family chips integrate two CPs, providing two times the number of I/O interfaces available in the CP. The CP used in the 7K and 8K is called CP110. All in all, this gives the following combinations: - Armada 7020, which is a dual Cortex-A72 with one CP - Armada 7040, which is a quad Cortex-A72 with one CP - Armada 8020, which is a dual Cortex-A72 with two CPs - Armada 8040, which is a quad Cortex-A72 with two CPs This patch adds basic support for this ARMv8 based SoC into U-Boot. Future patches will integrate other device drivers and board support, starting with the Marvell DB-88F7040 development board. Signed-off-by: Stefan Roese <sr@denx.de> Cc: Nadav Haklai <nadavh@marvell.com> Cc: Neta Zur Hershkovits <neta@marvell.com> Cc: Kostya Porotchkin <kostap@marvell.com> Cc: Omri Itach <omrii@marvell.com> Cc: Igal Liberman <igall@marvell.com> Cc: Haim Boot <hayim@marvell.com> Cc: Hanna Hawa <hannah@marvell.com>
2016-05-25 06:13:45 +00:00
prompt "Armada XP/375/38x/3700/7K/8K board select"
optional
config TARGET_CLEARFOG
bool "Support ClearFog"
select 88F6820
select BOARD_LATE_INIT
config TARGET_HELIOS4
bool "Support Helios4"
select 88F6820
config TARGET_MVEBU_ARMADA_37XX
bool "Support Armada 37xx platforms"
select ARMADA_3700
imply SCSI
config TARGET_DB_88F6720
bool "Support DB-88F6720 Armada 375"
select ARMADA_375
config TARGET_DB_88F6820_GP
bool "Support DB-88F6820-GP"
select 88F6820
config TARGET_DB_88F6820_AMC
bool "Support DB-88F6820-AMC"
select 88F6820
config TARGET_TURRIS_OMNIA
bool "Support Turris Omnia"
select 88F6820
select BOARD_LATE_INIT
select DM_I2C
select I2C_MUX
select I2C_MUX_PCA954x
select SPL_DRIVERS_MISC
select SPL_I2C_MUX
select SPL_SYS_MALLOC_SIMPLE
select SYS_I2C_MVTWSI
select ATSHA204A
config TARGET_TURRIS_MOX
bool "Support Turris Mox"
select ARMADA_3700
config TARGET_MVEBU_ARMADA_8K
bool "Support Armada 7k/8k platforms"
select ARMADA_8K
select BOARD_LATE_INIT
imply SCSI
config TARGET_OCTEONTX2_CN913x
bool "Support CN913x platforms"
select ARMADA_8K
imply BOARD_EARLY_INIT_R
select BOARD_LATE_INIT
imply SCSI
config TARGET_DB_MV784MP_GP
bool "Support db-mv784mp-gp"
select MV78460
mvebu: Support Synology DS414 This adds support for the MV78230 based DS414 NAS by Synology. The relevant bits have been extracted from the 'synogpl-5004-armadaxp' package Synology kindly published, garnished with a fair amount of trial-and-error. Sadly, support is far from perfect. The major parts I have failed in are SATA and XHCI support. Details about these and some other things follow: Device Tree ----------- The device tree file armada-xp-synology-ds414.dts has been copied from Linux and enhanced by recent U-Boot specific changes to armada-xp-gp.dts. SATA Support ------------ There is a Marvell 88SX7042 controller attached to PCIe which is supported by Linux's sata_mv driver but sadly not U-Boot's sata_mv. I'm not sure if extending the latter to support PCI devices is worth the effort at all. Porting sata_mv from Linux exceeded my brain's capacities. :( XHCI Support ------------ There is an EtronTech EJ168A XHCI controller attached to PCIe which drives the two rear USB3 ports. After a bit of playing around I managed to get it recognized by xhci-pci, but never was able to access any devices attached to it. Enabling it in ds414 board config shows that it does not respond to commands for whatever reason. The (somewhat) bright side to it is that it is not even supported in Synology's customized U-Boot, but that also means nowhere to steal the relevant bits from. EHCI Support ------------ This seems functional after issuing 'usb start'. At least it detects USB storage devices, and IIRC reading from them was OK. OTOH Linux fails to register the controller if 'usb start' wasn't given before in U-Boot. According to Synology sources, this board seems to support USB device (gadget?) mode. Though I didn't play around with it. PCIe Support ------------ This is fine, but trying to gate the clocks of unused lanes will hang PCI enum. In addition to that, pci_mvebu seems not to support DM_PCI. DDR3 Training ------------- Marvell/Synology uses eight PUPs instead of four. Does not look like this is meant to be customized in mainline U-Boot at all. OTOH I have no idea what a "PUP" actually is. PEX Init -------- Synology uses different values than mainline U-Boot with this patch: pex_max_unit_get returns 2, pex_max_if_get returns 7 and max_serdes_lines is set to 7. Not changing this seems to not have an impact, although I'm not entirely sure it does not cause issues I am not aware of. Static Environment ------------------ This allows to boot stock Synology firmware at least. In order to be a little more flexible when it comes to booting custom kernels, do not only load zImage partition, but also rd.gz into memory. This way it is possible to use about 7MB for kernel with piggyback initramfs. Signed-off-by: Phil Sutter <phil@nwl.cc> Acked-by: Stefan Roese <sr@denx.de> Reviewed-by: Tom Rini <trini@konsulko.com>
2015-12-25 13:41:25 +00:00
config TARGET_DS414
bool "Support Synology DS414"
select MV78230
config TARGET_MAXBCM
bool "Support maxbcm"
select MV78460
config TARGET_THEADORABLE
bool "Support theadorable Armada XP"
select BOARD_LATE_INIT if USB
select MV78260
imply CMD_SATA
config TARGET_CONTROLCENTERDC
bool "Support CONTROLCENTERDC"
select 88F6820
config TARGET_X530
bool "Support Allied Telesis x530"
select 88F6820
config TARGET_DB_XC3_24G4XG
bool "Support DB-XC3-24G4XG"
select 98DX3336
config TARGET_CRS3XX_98DX3236
bool "Support CRS3XX-98DX3236"
select 98DX3236
endchoice
choice
prompt "DDR bus width"
default DDR_64BIT
depends on ARMADA_XP
config DDR_64BIT
bool "64bit bus width"
config DDR_32BIT
bool "32bit bus width"
endchoice
config DDR_LOG_LEVEL
int "DDR training code log level"
depends on ARMADA_XP
default 0
range 0 3
help
Amount of information provided on error while running the DDR
training code. At level 0, provides an error code in a case of
failure, RL, WL errors and other algorithm failure. At level 1,
provides the D-Unit setup (SPD/Static configuration). At level 2,
provides the windows margin as a results of DQS centeralization.
At level 3, rovides the windows margin of each DQ as a results of
DQS centeralization.
config SYS_BOARD
default "clearfog" if TARGET_CLEARFOG
default "helios4" if TARGET_HELIOS4
default "mvebu_armada-37xx" if TARGET_MVEBU_ARMADA_37XX
default "db-88f6720" if TARGET_DB_88F6720
default "db-88f6820-gp" if TARGET_DB_88F6820_GP
default "db-88f6820-amc" if TARGET_DB_88F6820_AMC
default "turris_omnia" if TARGET_TURRIS_OMNIA
default "turris_mox" if TARGET_TURRIS_MOX
default "mvebu_armada-8k" if TARGET_MVEBU_ARMADA_8K
default "octeontx2_cn913x" if TARGET_OCTEONTX2_CN913x
default "db-mv784mp-gp" if TARGET_DB_MV784MP_GP
mvebu: Support Synology DS414 This adds support for the MV78230 based DS414 NAS by Synology. The relevant bits have been extracted from the 'synogpl-5004-armadaxp' package Synology kindly published, garnished with a fair amount of trial-and-error. Sadly, support is far from perfect. The major parts I have failed in are SATA and XHCI support. Details about these and some other things follow: Device Tree ----------- The device tree file armada-xp-synology-ds414.dts has been copied from Linux and enhanced by recent U-Boot specific changes to armada-xp-gp.dts. SATA Support ------------ There is a Marvell 88SX7042 controller attached to PCIe which is supported by Linux's sata_mv driver but sadly not U-Boot's sata_mv. I'm not sure if extending the latter to support PCI devices is worth the effort at all. Porting sata_mv from Linux exceeded my brain's capacities. :( XHCI Support ------------ There is an EtronTech EJ168A XHCI controller attached to PCIe which drives the two rear USB3 ports. After a bit of playing around I managed to get it recognized by xhci-pci, but never was able to access any devices attached to it. Enabling it in ds414 board config shows that it does not respond to commands for whatever reason. The (somewhat) bright side to it is that it is not even supported in Synology's customized U-Boot, but that also means nowhere to steal the relevant bits from. EHCI Support ------------ This seems functional after issuing 'usb start'. At least it detects USB storage devices, and IIRC reading from them was OK. OTOH Linux fails to register the controller if 'usb start' wasn't given before in U-Boot. According to Synology sources, this board seems to support USB device (gadget?) mode. Though I didn't play around with it. PCIe Support ------------ This is fine, but trying to gate the clocks of unused lanes will hang PCI enum. In addition to that, pci_mvebu seems not to support DM_PCI. DDR3 Training ------------- Marvell/Synology uses eight PUPs instead of four. Does not look like this is meant to be customized in mainline U-Boot at all. OTOH I have no idea what a "PUP" actually is. PEX Init -------- Synology uses different values than mainline U-Boot with this patch: pex_max_unit_get returns 2, pex_max_if_get returns 7 and max_serdes_lines is set to 7. Not changing this seems to not have an impact, although I'm not entirely sure it does not cause issues I am not aware of. Static Environment ------------------ This allows to boot stock Synology firmware at least. In order to be a little more flexible when it comes to booting custom kernels, do not only load zImage partition, but also rd.gz into memory. This way it is possible to use about 7MB for kernel with piggyback initramfs. Signed-off-by: Phil Sutter <phil@nwl.cc> Acked-by: Stefan Roese <sr@denx.de> Reviewed-by: Tom Rini <trini@konsulko.com>
2015-12-25 13:41:25 +00:00
default "ds414" if TARGET_DS414
default "maxbcm" if TARGET_MAXBCM
default "theadorable" if TARGET_THEADORABLE
default "a38x" if TARGET_CONTROLCENTERDC
default "x530" if TARGET_X530
default "db-xc3-24g4xg" if TARGET_DB_XC3_24G4XG
default "crs3xx-98dx3236" if TARGET_CRS3XX_98DX3236
config SYS_CONFIG_NAME
default "clearfog" if TARGET_CLEARFOG
default "helios4" if TARGET_HELIOS4
default "mvebu_armada-37xx" if TARGET_MVEBU_ARMADA_37XX
default "db-88f6720" if TARGET_DB_88F6720
default "db-88f6820-gp" if TARGET_DB_88F6820_GP
default "db-88f6820-amc" if TARGET_DB_88F6820_AMC
default "mvebu_armada-8k" if TARGET_MVEBU_ARMADA_8K
default "mvebu_armada-8k" if TARGET_OCTEONTX2_CN913x
default "db-mv784mp-gp" if TARGET_DB_MV784MP_GP
mvebu: Support Synology DS414 This adds support for the MV78230 based DS414 NAS by Synology. The relevant bits have been extracted from the 'synogpl-5004-armadaxp' package Synology kindly published, garnished with a fair amount of trial-and-error. Sadly, support is far from perfect. The major parts I have failed in are SATA and XHCI support. Details about these and some other things follow: Device Tree ----------- The device tree file armada-xp-synology-ds414.dts has been copied from Linux and enhanced by recent U-Boot specific changes to armada-xp-gp.dts. SATA Support ------------ There is a Marvell 88SX7042 controller attached to PCIe which is supported by Linux's sata_mv driver but sadly not U-Boot's sata_mv. I'm not sure if extending the latter to support PCI devices is worth the effort at all. Porting sata_mv from Linux exceeded my brain's capacities. :( XHCI Support ------------ There is an EtronTech EJ168A XHCI controller attached to PCIe which drives the two rear USB3 ports. After a bit of playing around I managed to get it recognized by xhci-pci, but never was able to access any devices attached to it. Enabling it in ds414 board config shows that it does not respond to commands for whatever reason. The (somewhat) bright side to it is that it is not even supported in Synology's customized U-Boot, but that also means nowhere to steal the relevant bits from. EHCI Support ------------ This seems functional after issuing 'usb start'. At least it detects USB storage devices, and IIRC reading from them was OK. OTOH Linux fails to register the controller if 'usb start' wasn't given before in U-Boot. According to Synology sources, this board seems to support USB device (gadget?) mode. Though I didn't play around with it. PCIe Support ------------ This is fine, but trying to gate the clocks of unused lanes will hang PCI enum. In addition to that, pci_mvebu seems not to support DM_PCI. DDR3 Training ------------- Marvell/Synology uses eight PUPs instead of four. Does not look like this is meant to be customized in mainline U-Boot at all. OTOH I have no idea what a "PUP" actually is. PEX Init -------- Synology uses different values than mainline U-Boot with this patch: pex_max_unit_get returns 2, pex_max_if_get returns 7 and max_serdes_lines is set to 7. Not changing this seems to not have an impact, although I'm not entirely sure it does not cause issues I am not aware of. Static Environment ------------------ This allows to boot stock Synology firmware at least. In order to be a little more flexible when it comes to booting custom kernels, do not only load zImage partition, but also rd.gz into memory. This way it is possible to use about 7MB for kernel with piggyback initramfs. Signed-off-by: Phil Sutter <phil@nwl.cc> Acked-by: Stefan Roese <sr@denx.de> Reviewed-by: Tom Rini <trini@konsulko.com>
2015-12-25 13:41:25 +00:00
default "ds414" if TARGET_DS414
default "maxbcm" if TARGET_MAXBCM
default "theadorable" if TARGET_THEADORABLE
default "turris_omnia" if TARGET_TURRIS_OMNIA
default "turris_mox" if TARGET_TURRIS_MOX
default "controlcenterdc" if TARGET_CONTROLCENTERDC
default "x530" if TARGET_X530
default "db-xc3-24g4xg" if TARGET_DB_XC3_24G4XG
default "crs3xx-98dx3236" if TARGET_CRS3XX_98DX3236
config SYS_VENDOR
default "Marvell" if TARGET_DB_MV784MP_GP
default "Marvell" if TARGET_MVEBU_ARMADA_37XX
default "Marvell" if TARGET_DB_88F6720
default "Marvell" if TARGET_DB_88F6820_GP
default "Marvell" if TARGET_DB_88F6820_AMC
default "Marvell" if TARGET_MVEBU_ARMADA_8K
default "Marvell" if TARGET_OCTEONTX2_CN913x
default "Marvell" if TARGET_DB_XC3_24G4XG
default "Marvell" if TARGET_MVEBU_DB_88F7040
default "solidrun" if TARGET_CLEARFOG
default "kobol" if TARGET_HELIOS4
mvebu: Support Synology DS414 This adds support for the MV78230 based DS414 NAS by Synology. The relevant bits have been extracted from the 'synogpl-5004-armadaxp' package Synology kindly published, garnished with a fair amount of trial-and-error. Sadly, support is far from perfect. The major parts I have failed in are SATA and XHCI support. Details about these and some other things follow: Device Tree ----------- The device tree file armada-xp-synology-ds414.dts has been copied from Linux and enhanced by recent U-Boot specific changes to armada-xp-gp.dts. SATA Support ------------ There is a Marvell 88SX7042 controller attached to PCIe which is supported by Linux's sata_mv driver but sadly not U-Boot's sata_mv. I'm not sure if extending the latter to support PCI devices is worth the effort at all. Porting sata_mv from Linux exceeded my brain's capacities. :( XHCI Support ------------ There is an EtronTech EJ168A XHCI controller attached to PCIe which drives the two rear USB3 ports. After a bit of playing around I managed to get it recognized by xhci-pci, but never was able to access any devices attached to it. Enabling it in ds414 board config shows that it does not respond to commands for whatever reason. The (somewhat) bright side to it is that it is not even supported in Synology's customized U-Boot, but that also means nowhere to steal the relevant bits from. EHCI Support ------------ This seems functional after issuing 'usb start'. At least it detects USB storage devices, and IIRC reading from them was OK. OTOH Linux fails to register the controller if 'usb start' wasn't given before in U-Boot. According to Synology sources, this board seems to support USB device (gadget?) mode. Though I didn't play around with it. PCIe Support ------------ This is fine, but trying to gate the clocks of unused lanes will hang PCI enum. In addition to that, pci_mvebu seems not to support DM_PCI. DDR3 Training ------------- Marvell/Synology uses eight PUPs instead of four. Does not look like this is meant to be customized in mainline U-Boot at all. OTOH I have no idea what a "PUP" actually is. PEX Init -------- Synology uses different values than mainline U-Boot with this patch: pex_max_unit_get returns 2, pex_max_if_get returns 7 and max_serdes_lines is set to 7. Not changing this seems to not have an impact, although I'm not entirely sure it does not cause issues I am not aware of. Static Environment ------------------ This allows to boot stock Synology firmware at least. In order to be a little more flexible when it comes to booting custom kernels, do not only load zImage partition, but also rd.gz into memory. This way it is possible to use about 7MB for kernel with piggyback initramfs. Signed-off-by: Phil Sutter <phil@nwl.cc> Acked-by: Stefan Roese <sr@denx.de> Reviewed-by: Tom Rini <trini@konsulko.com>
2015-12-25 13:41:25 +00:00
default "Synology" if TARGET_DS414
default "CZ.NIC" if TARGET_TURRIS_OMNIA
default "CZ.NIC" if TARGET_TURRIS_MOX
default "gdsys" if TARGET_CONTROLCENTERDC
default "alliedtelesis" if TARGET_X530
default "mikrotik" if TARGET_CRS3XX_98DX3236
config SYS_SOC
default "mvebu"
choice
prompt "Boot method"
depends on SPL
config MVEBU_SPL_BOOT_DEVICE_SPI
bool "SPI NOR flash"
imply ENV_IS_IN_SPI_FLASH
arm: mvebu: Load U-Boot proper binary in SPL code based on kwbimage header Now that proper load and execution addresses are set in v1 kwbimage we can use it for loading and booting U-Boot proper. Use the new spl_parse_board_header() function to implement parsing the kwbimage v1 header. Use information from this header to locate offset and size of the U-Boot proper binary, instead of using the legacy U-Boot header which is prepended to the U-Boot proper binary stored at fixed offset. This has the advantage that we do not need to relay on legacy U-Boot header anymore and therefore U-Boot proper binary can be stored at any offset, as is the case when loading & booting U-Boot proper by BootROM. The CONFIG_SYS_U_BOOT_OFFS option is therefore not used by SPL code anymore. Also allow to compile U-Boot SPL without CONFIG_SPL_SPI_FLASH_SUPPORT, CONFIG_SPL_MMC_SUPPORT or CONFIG_SPL_SATA_SUPPORT set. In this case BootROM is used for loading and executing U-Boot proper. This reduces the size of U-Boot's SPL image. By default these config options are enabled and so BootROM loading is not used. In some cases BootROM reads from SPI NOR at lower speed than U-Boot SPL. So people can decide whether they want to have smaller SPL binary at the cost of slower boot. Therefore dependency on CONFIG_SPL_DM_SPI, CONFIG_SPL_SPI_FLASH_SUPPORT, CONFIG_SPL_SPI_LOAD, CONFIG_SPL_SPI_SUPPORT, CONFIG_SPL_DM_GPIO, CONFIG_SPL_DM_MMC, CONFIG_SPL_GPIO_SUPPORT, CONFIG_SPL_LIBDISK_SUPPORT, CONFIG_SPL_MMC_SUPPORT, CONFIG_SPL_SATA_SUPPORT and CONFIG_SPL_LIBDISK_SUPPORT is changed from strict to related "imply" (which can be selectivelly turned off and causes booting via BootROM). Options CONFIG_SYS_SPI_U_BOOT_OFFS, CONFIG_SYS_MMCSD_RAW_MODE_U_BOOT_SECTOR and CONFIG_SYS_MMCSD_RAW_MODE_U_BOOT_DATA_PART_OFFSET have to to be set to zero as they define the location where kwbimage header starts. It is the location where BootROM expects start of the kwbimage from which it reads, parses and executes SPL part. The same applies to option CONFIG_SPL_SATA_RAW_U_BOOT_SECTOR, which has to be set to one. Update all config files to set correct values of these options and set CONFIG_SYS_U_BOOT_OFFS to the correct value - the offset where U-Boot proper starts. Signed-off-by: Pali Rohár <pali@kernel.org> Reviewed-by: Marek Behún <marek.behun@nic.cz> Reviewed-by: Stefan Roese <sr@denx.de>
2021-07-23 09:14:29 +00:00
imply SPL_DM_SPI
imply SPL_SPI_FLASH_SUPPORT
imply SPL_SPI_LOAD
imply SPL_SPI
select SPL_BOOTROM_SUPPORT
config MVEBU_SPL_BOOT_DEVICE_MMC
bool "SDIO/MMC card"
imply ENV_IS_IN_MMC
# GPIO needed for eMMC/SD card presence detection
arm: mvebu: Load U-Boot proper binary in SPL code based on kwbimage header Now that proper load and execution addresses are set in v1 kwbimage we can use it for loading and booting U-Boot proper. Use the new spl_parse_board_header() function to implement parsing the kwbimage v1 header. Use information from this header to locate offset and size of the U-Boot proper binary, instead of using the legacy U-Boot header which is prepended to the U-Boot proper binary stored at fixed offset. This has the advantage that we do not need to relay on legacy U-Boot header anymore and therefore U-Boot proper binary can be stored at any offset, as is the case when loading & booting U-Boot proper by BootROM. The CONFIG_SYS_U_BOOT_OFFS option is therefore not used by SPL code anymore. Also allow to compile U-Boot SPL without CONFIG_SPL_SPI_FLASH_SUPPORT, CONFIG_SPL_MMC_SUPPORT or CONFIG_SPL_SATA_SUPPORT set. In this case BootROM is used for loading and executing U-Boot proper. This reduces the size of U-Boot's SPL image. By default these config options are enabled and so BootROM loading is not used. In some cases BootROM reads from SPI NOR at lower speed than U-Boot SPL. So people can decide whether they want to have smaller SPL binary at the cost of slower boot. Therefore dependency on CONFIG_SPL_DM_SPI, CONFIG_SPL_SPI_FLASH_SUPPORT, CONFIG_SPL_SPI_LOAD, CONFIG_SPL_SPI_SUPPORT, CONFIG_SPL_DM_GPIO, CONFIG_SPL_DM_MMC, CONFIG_SPL_GPIO_SUPPORT, CONFIG_SPL_LIBDISK_SUPPORT, CONFIG_SPL_MMC_SUPPORT, CONFIG_SPL_SATA_SUPPORT and CONFIG_SPL_LIBDISK_SUPPORT is changed from strict to related "imply" (which can be selectivelly turned off and causes booting via BootROM). Options CONFIG_SYS_SPI_U_BOOT_OFFS, CONFIG_SYS_MMCSD_RAW_MODE_U_BOOT_SECTOR and CONFIG_SYS_MMCSD_RAW_MODE_U_BOOT_DATA_PART_OFFSET have to to be set to zero as they define the location where kwbimage header starts. It is the location where BootROM expects start of the kwbimage from which it reads, parses and executes SPL part. The same applies to option CONFIG_SPL_SATA_RAW_U_BOOT_SECTOR, which has to be set to one. Update all config files to set correct values of these options and set CONFIG_SYS_U_BOOT_OFFS to the correct value - the offset where U-Boot proper starts. Signed-off-by: Pali Rohár <pali@kernel.org> Reviewed-by: Marek Behún <marek.behun@nic.cz> Reviewed-by: Stefan Roese <sr@denx.de>
2021-07-23 09:14:29 +00:00
imply SPL_DM_GPIO
imply SPL_DM_MMC
imply SPL_GPIO
imply SPL_LIBDISK_SUPPORT
imply SPL_MMC
select SPL_BOOTROM_SUPPORT
config MVEBU_SPL_BOOT_DEVICE_SATA
bool "SATA"
imply SPL_SATA
arm: mvebu: Load U-Boot proper binary in SPL code based on kwbimage header Now that proper load and execution addresses are set in v1 kwbimage we can use it for loading and booting U-Boot proper. Use the new spl_parse_board_header() function to implement parsing the kwbimage v1 header. Use information from this header to locate offset and size of the U-Boot proper binary, instead of using the legacy U-Boot header which is prepended to the U-Boot proper binary stored at fixed offset. This has the advantage that we do not need to relay on legacy U-Boot header anymore and therefore U-Boot proper binary can be stored at any offset, as is the case when loading & booting U-Boot proper by BootROM. The CONFIG_SYS_U_BOOT_OFFS option is therefore not used by SPL code anymore. Also allow to compile U-Boot SPL without CONFIG_SPL_SPI_FLASH_SUPPORT, CONFIG_SPL_MMC_SUPPORT or CONFIG_SPL_SATA_SUPPORT set. In this case BootROM is used for loading and executing U-Boot proper. This reduces the size of U-Boot's SPL image. By default these config options are enabled and so BootROM loading is not used. In some cases BootROM reads from SPI NOR at lower speed than U-Boot SPL. So people can decide whether they want to have smaller SPL binary at the cost of slower boot. Therefore dependency on CONFIG_SPL_DM_SPI, CONFIG_SPL_SPI_FLASH_SUPPORT, CONFIG_SPL_SPI_LOAD, CONFIG_SPL_SPI_SUPPORT, CONFIG_SPL_DM_GPIO, CONFIG_SPL_DM_MMC, CONFIG_SPL_GPIO_SUPPORT, CONFIG_SPL_LIBDISK_SUPPORT, CONFIG_SPL_MMC_SUPPORT, CONFIG_SPL_SATA_SUPPORT and CONFIG_SPL_LIBDISK_SUPPORT is changed from strict to related "imply" (which can be selectivelly turned off and causes booting via BootROM). Options CONFIG_SYS_SPI_U_BOOT_OFFS, CONFIG_SYS_MMCSD_RAW_MODE_U_BOOT_SECTOR and CONFIG_SYS_MMCSD_RAW_MODE_U_BOOT_DATA_PART_OFFSET have to to be set to zero as they define the location where kwbimage header starts. It is the location where BootROM expects start of the kwbimage from which it reads, parses and executes SPL part. The same applies to option CONFIG_SPL_SATA_RAW_U_BOOT_SECTOR, which has to be set to one. Update all config files to set correct values of these options and set CONFIG_SYS_U_BOOT_OFFS to the correct value - the offset where U-Boot proper starts. Signed-off-by: Pali Rohár <pali@kernel.org> Reviewed-by: Marek Behún <marek.behun@nic.cz> Reviewed-by: Stefan Roese <sr@denx.de>
2021-07-23 09:14:29 +00:00
imply SPL_LIBDISK_SUPPORT
select SPL_BOOTROM_SUPPORT
config MVEBU_SPL_BOOT_DEVICE_UART
bool "UART"
select SPL_BOOTROM_SUPPORT
endchoice
config MVEBU_EFUSE
bool "Enable eFuse support"
depends on HAVE_MVEBU_EFUSE
help
Enable support for reading and writing eFuses on mvebu SoCs.
config MVEBU_EFUSE_FAKE
bool "Fake eFuse access (dry run)"
depends on MVEBU_EFUSE
help
This enables a "dry run" mode where eFuses are not really programmed.
Instead the eFuse accesses are emulated by writing to and reading
from a memory block.
This is can be used for testing prog scripts.
config SECURED_MODE_IMAGE
bool "Build image for trusted boot"
default false
depends on 88F6820
help
Build an image that employs the ARMADA SoC's trusted boot framework
for securely booting images.
config SECURED_MODE_CSK_INDEX
int "Index of active CSK"
default 0
depends on SECURED_MODE_IMAGE
source "board/solidrun/clearfog/Kconfig"
source "board/kobol/helios4/Kconfig"
endif