UEFI Porting Guide ================== This document provides instructions for adding support for new Marvell Armada board. For the sake of simplicity new Marvell board will be called "new_board". 1. Create configuration files for new target 1.1 Create FDF file for new board - Copy and rename edk2-platforms/Platform/Marvell/Armada/Armada70x0.fdf to edk2-platforms/Platform/Marvell/Armada/new_board.fdf - Change the first no-comment line: [FD.Armada70x0_EFI] to [FD.{new_board}_EFI] 1.2 Create DSC file for new board - Add new_board.dsc file to edk2-platforms/Platform/Marvell/Armada directory - Insert following [Defines] section to new_board.dsc: [Defines] PLATFORM_NAME = {new_board} PLATFORM_GUID = {newly_generated_GUID} PLATFORM_VERSION = 0.1 DSC_SPECIFICATION = 0x00010019 OUTPUT_DIRECTORY = {output_directory} SUPPORTED_ARCHITECTURES = AARCH64 BUILD_TARGETS = DEBUG|RELEASE SKUID_IDENTIFIER = DEFAULT FLASH_DEFINITION = {path_to_fdf_file} - Add "!include Armada.dsc.inc" entry to new_board.dsc 2. Driver support - According to content of files from edk2-platforms/Silicon/Marvell/Documentation/PortingGuide.txt insert PCD entries into new_board.dsc for every needed interface (as listed below). 3. Compilation - Refer to edk2-platforms/Platform/Marvell/Readme.md. Remember to change {platform} to new_board in order to point build system to newly created DSC file. 4. Output file - Output files (and among others FD file, which may be used by ATF) are generated under directory pointed by "OUTPUT_DIRECTORY" entry (see point 1.2). COMPHY configuration ==================== In order to configure ComPhy library, following PCDs are available: - gMarvellTokenSpaceGuid.PcdComPhyDevices This array indicates, which ones of the ComPhy chips defined in MVHW_COMPHY_DESC template will be configured. Every ComPhy PCD has part where stands for chip ID (order is not important, but configuration will be set for first PcdComPhyChipCount chips). Every chip has 3 ComPhy PCDs and three of them comprise per-board lanes settings for this chip. Their format is unicode string, containing settings for up to 10 lanes. Setting for each one is separated with semicolon. These PCDs together describe outputs of PHY integrated in simple cihp. Below is example for the first chip (Chip0). - gMarvellTokenSpaceGuid.PcdChip0ComPhyTypes (Unicode string indicating PHY types. Currently supported are: { L"unconnected", L"PCIE0", L"PCIE1", L"PCIE2", L"PCIE3", L"SATA0", L"SATA1", L"SATA2", L"SATA3", L"SGMII0", L"SGMII1", L"SGMII2", L"SGMII3", L"QSGMII", L"USB3_HOST0", L"USB3_HOST1", L"USB3_DEVICE", L"XAUI0", L"XAUI1", L"XAUI2", L"XAUI3", L"RXAUI0", L"RXAUI1", L"KR" } ) - gMarvellTokenSpaceGuid.PcdChip0ComPhySpeeds (Indicates PHY speeds in MHz. Currently supported are: { 1250, 1500, 2500, 3000, 3125, 5000, 6000, 6250, 1031 } ) - gMarvellTokenSpaceGuid.PcdChip0ComPhyInvFlags (Indicates lane polarity invert) Example ------- #ComPhy gMarvellTokenSpaceGuid.PcdComPhyDevices|{ 0x1 } gMarvellTokenSpaceGuid.PcdChip0ComPhyTypes|L"SGMII1;USB3_HOST0;SFI;SATA1;USB3_HOST1;PCIE2" gMarvellTokenSpaceGuid.PcdChip0ComPhySpeeds|L"1250;5000;10310;5000;5000;5000" PHY Driver configuration ======================== MvPhyDxe provides basic initialization and status routines for Marvell PHYs. Currently only 1518 series PHYs are supported. Following PCDs are required: - gMarvellTokenSpaceGuid.PcdPhyConnectionTypes (list of values corresponding to PHY_CONNECTION enum) - gMarvellTokenSpaceGuid.PcdPhyStartupAutoneg (boolean - if true, driver waits for autonegotiation on startup) - gMarvellTokenSpaceGuid.PcdPhyDeviceIds (list of values corresponding to MV_PHY_DEVICE_ID enum) PHY_CONNECTION enum type is defined as follows: typedef enum { 0 PHY_CONNECTION_RGMII, 1 PHY_CONNECTION_RGMII_ID, 2 PHY_CONNECTION_RGMII_TXID, 3 PHY_CONNECTION_RGMII_RXID, 4 PHY_CONNECTION_SGMII, 5 PHY_CONNECTION_RTBI, 6 PHY_CONNECTION_XAUI, 7 PHY_CONNECTION_RXAUI } PHY_CONNECTION; MV_PHY_DEVICE_ID: typedef enum { 0 MV_PHY_DEVICE_1512, } MV_PHY_DEVICE_ID; It should be extended when adding support for other PHY models. Thus in order to set RGMII for 1st PHY and SGMII for 2nd, PCD should be: gMarvellTokenSpaceGuid.PcdPhyConnectionTypes|{ 0x0, 0x4 } with disabled autonegotiation: gMarvellTokenSpaceGuid.PcdPhyStartupAutoneg|FALSE assuming, that PHY models are 1512: gMarvellTokenSpaceGuid.PcdPhyDeviceIds|{ 0x0, 0x0 } MDIO configuration ================== MDIO driver provides access to network PHYs' registers via EFI_MDIO_READ and EFI_MDIO_WRITE functions (EFI_MDIO_PROTOCOL). Following PCD is required: - gMarvellTokenSpaceGuid.PcdMdioBaseAddress (base address of SMI management register) I2C configuration ================= In order to enable driver on a new platform, following steps need to be taken: - add following line to .dsc file: edk2-platforms/Platform/Marvell/Drivers/I2c/MvI2cDxe/MvI2cDxe.inf - add following line to .fdf file: INF edk2-platforms/Platform/Marvell/Drivers/I2c/MvI2cDxe/MvI2cDxe.inf - add PCDs with relevant values to .dsc file: - gMarvellTokenSpaceGuid.PcdI2cSlaveAddresses|{ 0x50, 0x57 } (addresses of I2C slave devices on bus) - gMarvellTokenSpaceGuid.PcdI2cSlaveBuses|{ 0x0, 0x0 } (buses to which accoring slaves are attached) - gMarvellTokenSpaceGuid.PcdI2cBusCount|2 (number of SoC's I2C buses) - gMarvellTokenSpaceGuid.PcdI2cBaseAddresses|L"0xF2701000;0xF2701100" (base addresses of I2C controller buses) - gMarvellTokenSpaceGuid.PcdI2cClockFrequency|200000000 (I2C host controller clock frequency) - gMarvellTokenSpaceGuid.PcdI2cBaudRate|100000 (baud rate used in I2C transmission) PciEmulation configuration ========================== Installation of various NonDiscoverable devices via PciEmulation driver is performed via set of PCDs. Following are available: - gMarvellTokenSpaceGuid.PcdPciEXhci (Indicates, which Xhci devices are used) - gMarvellTokenSpaceGuid.PcdPciEAhci (Indicates, which Ahci devices are used) - gMarvellTokenSpaceGuid.PcdPciESdhci (Indicates, which Sdhci devices are used) All above PCD's correspond to hardware description in a dedicated structure: STATIC PCI_E_PLATFORM_DESC A70x0PlatDescTemplate in Platform/Marvell/PciEmulation/PciEmulation.c file. It comprises device count, base addresses, register region size and DMA-coherency type. Example ------- Assuming we want to enable second XHCI port and one SDHCI port on Armada 70x0 board, following needs to be declared: gMarvellTokenSpaceGuid.PcdPciEXhci|{ 0x0 0x1 } gMarvellTokenSpaceGuid.PcdPciESdhci|{ 0x1 } SATA configuration ================== There is one additional PCD for AHCI: - gMarvellTokenSpaceGuid.PcdSataBaseAddress (Base address of SATA controller register space - used in SATA ComPhy init sequence) Pp2Dxe configuration ==================== Pp2Dxe is driver supporting PP2 NIC on Marvell platforms. Following PCDs are required to operate: - gMarvellTokenSpaceGuid.PcdPp2Controllers (Array with used controllers Set to 0x1 for enabled, 0x0 for disabled) - gMarvellTokenSpaceGuid.PcdPp2Port2Controller (Array specifying, to which controller the port belongs to) - gMarvellTokenSpaceGuid.PcdPhySmiAddresses (Addresses of PHY devices) - gMarvellTokenSpaceGuid.PcdPp2PortIds (Identificators of PP2 ports) - gMarvellTokenSpaceGuid.PcdPp2GopIndexes (Indexes used in GOP operation) - gMarvellTokenSpaceGuid.PcdPp2InterfaceAlwaysUp (Set to 0x1 for always-up interface, 0x0 otherwise) - gMarvellTokenSpaceGuid.PcdPp2InterfaceSpeed (Values corresponding to PHY_SPEED enum. PHY_SPEED is defined as follows: typedef enum { 0 NO_SPEED, 1 SPEED_10, 2 SPEED_100, 3 SPEED_1000, 4 SPEED_2500, 5 SPEED_10000 } PHY_SPEED; UTMI PHY configuration ====================== In order to configure UTMI, following PCDs are available: - gMarvellTokenSpaceGuid.PcdUtmiPhyCount (Indicates how many UTMI PHYs are available on platform) Next four PCDs are in unicode string format containing settings for all devices separated with semicolon. - gMarvellTokenSpaceGuid.PcdUtmiPhyRegUtmiUnit (Indicates base address of the UTMI unit) - gMarvellTokenSpaceGuid.PcdUtmiPhyRegUsbCfg (Indicates address of USB Configuration register) - gMarvellTokenSpaceGuid.PcdUtmiPhyRegUtmiCfg (Indicates address of external UTMI configuration) - gMarvellTokenSpaceGuid.PcdUtmiPhyUtmiPort (Indicates type of the connected USB port) Example ------- # UtmiPhy gMarvellTokenSpaceGuid.PcdUtmiPhyCount|2 gMarvellTokenSpaceGuid.PcdUtmiPhyRegUtmiUnit|L"0xF2580000;0xF2581000" gMarvellTokenSpaceGuid.PcdUtmiPhyRegUsbCfg|L"0xF2440420;0xF2440420" gMarvellTokenSpaceGuid.PcdUtmiPhyRegUtmiCfg|L"0xF2440440;0xF2440444" gMarvellTokenSpaceGuid.PcdUtmiPhyUtmiPort|L"0x0;0x1" SPI driver configuration ======================== Following PCDs are available for configuration of spi driver: - gMarvellTokenSpaceGuid.PcdSpiClockFrequency (Frequency (in Hz) of SPI clock) - gMarvellTokenSpaceGuid.PcdSpiMaxFrequency (Max SCLK line frequency (in Hz) (max transfer frequency) ) SpiFlash configuration ====================== Folowing PCDs for spi flash driver configuration must be set properly: - gMarvellTokenSpaceGuid.PcdSpiFlashAddressCycles (Size of SPI flash address in bytes (3 or 4) ) - gMarvellTokenSpaceGuid.PcdSpiFlashEraseSize (Size of minimal erase block in bytes) - gMarvellTokenSpaceGuid.PcdSpiFlashPageSize (Size of SPI flash page) - gMarvellTokenSpaceGuid.PcdSpiFlashId (Id of SPI flash) - gMarvellTokenSpaceGuid.PcdSpiFlashPollCmd (Spi flash polling flag) - gMarvellTokenSpaceGuid.PcdSpiFlashMode (Default SCLK mode (see SPI_MODE enum in file edk2-platforms/Platform/Marvell/Drivers/Spi/MvSpi.h)) - gMarvellTokenSpaceGuid.PcdSpiFlashCs (Chip select used for communication with the Flash) MPP configuration ================= Multi-Purpose Ports (MPP) are configurable through platform PCDs. In order to set desired pin multiplexing, .dsc file needs to be modified. (edk2-platforms/Platform/Marvell/Armada/{platform_name}.dsc - please refer to Documentation/Build.txt for currently supported {platftorm_name} ) Following PCDs are available: - gMarvellTokenSpaceGuid.PcdMppChipCount (Indicates how many different chips are placed on board. So far up to 4 chips are supported) Every MPP PCD has part where stands for chip ID (order is not important, but configuration will be set for first PcdMppChipCount chips). Below is example for the first chip (Chip0). - gMarvellTokenSpaceGuid.PcdChip0MppReverseFlag (Indicates that register order is reversed. (Needs to be used only for AP806-Z1) ) - gMarvellTokenSpaceGuid.PcdChip0MppBaseAddress (This is base address for MPP configuration register) - gMarvellTokenSpaceGuid.PcdChip0MppPinCount (Defines how many MPP pins are available) - gMarvellTokenSpaceGuid.PcdChip0MppSel0 - gMarvellTokenSpaceGuid.PcdChip0MppSel1 - gMarvellTokenSpaceGuid.PcdChip0MppSel2 (This registers defines functions of 10 pins in ascending order) Examples -------- # APN806-A0 MPP SET gMarvellTokenSpaceGuid.PcdChip0MppReverseFlag|FALSE gMarvellTokenSpaceGuid.PcdChip0MppBaseAddress|0xF06F4000 gMarvellTokenSpaceGuid.PcdChip0MppRegCount|3 gMarvellTokenSpaceGuid.PcdChip0MppSel0|{ 0x1, 0x1, 0x1, 0x1, 0x1, 0x1, 0x1, 0x1, 0x1, 0x0 } gMarvellTokenSpaceGuid.PcdChip0MppSel1|{ 0x0, 0x0, 0x0, 0x1, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0 } Set pin 6 and 7 to 0xa function: gMarvellTokenSpaceGuid.PcdChip0MppSel0|{ 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0xa, 0xa, 0x0, 0x0 } MarvellResetSystemLib configuration =================================== This simple library allows to mask given bits in given reg at UEFI 'reset' command call. These variables are configurable through PCDs: - gMarvellTokenSpaceGuid.PcdResetRegAddress - gMarvellTokenSpaceGuid.PcdResetRegMask Ramdisk configuration ===================== There is one PCD available for Ramdisk configuration - gMarvellTokenSpaceGuid.PcdRamDiskSize (Defines size of Ramdisk)