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doc: Render Marvell platform documents 

The documentation for Marvell platforms was not included in the
rendered document output until now because, while it was mostly
valid RST format, the files were saved with a .txt extension.

This patch corrects some RST formatting errors, creates a document
tree (index page) for the Marvell documents, and adds the Marvell
subtree to the main index.

Change-Id: Id7d4ac37eded636f8f62322a153e1e5f652ff51a
Signed-off-by: Paul Beesley <paul.beesley@arm.com>
This commit is contained in:
Paul Beesley 2019-07-12 11:37:07 +01:00
parent 6a7cbfd568
commit 2966defa54
14 changed files with 629 additions and 461 deletions
Show Stats Download Patch File Download Diff File Expand all files Collapse all files

1
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@ -12,6 +12,7 @@ Platform Ports
imx8m
intel-stratix10
ls1043a
marvell/index
meson-gxbb
meson-gxl
mt8183

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TF-A Build Instructions for Marvell Platforms
=============================================
This section describes how to compile the Trusted Firmware-A (TF-A) project for Marvell's platforms.
Build Instructions
------------------
(1) Set the cross compiler
.. code:: shell
> export CROSS_COMPILE=/path/to/toolchain/aarch64-linux-gnu-
(2) Set path for FIP images:
Set U-Boot image path (relatively to TF-A root or absolute path)
.. code:: shell
> export BL33=path/to/u-boot.bin
For example: if U-Boot project (and its images) is located at ``~/project/u-boot``,
BL33 should be ``~/project/u-boot/u-boot.bin``
.. note::
*u-boot.bin* should be used and not *u-boot-spl.bin*
Set MSS/SCP image path (mandatory only for Armada80x0)
.. code:: shell
> export SCP_BL2=path/to/mrvl_scp_bl2*.img
(3) Armada-37x0 build requires WTP tools installation.
See below in the section "Tools and external components installation".
Install ARM 32-bit cross compiler, which is required for building WTMI image for CM3
.. code:: shell
> sudo apt-get install gcc-arm-linux-gnueabi
(4) Clean previous build residuals (if any)
.. code:: shell
> make distclean
(5) Build TF-A
There are several build options:
- DEBUG
Default is without debug information (=0). in order to enable it use ``DEBUG=1``.
Must be disabled when building UART recovery images due to current console driver
implementation that is not compatible with Xmodem protocol used for boot image download.
- LOG_LEVEL
Defines the level of logging which will be purged to the default output port.
LOG_LEVEL_NONE 0
LOG_LEVEL_ERROR 10
LOG_LEVEL_NOTICE 20
LOG_LEVEL_WARNING 30
LOG_LEVEL_INFO 40
LOG_LEVEL_VERBOSE 50
- USE_COHERENT_MEM
This flag determines whether to include the coherent memory region in the
BL memory map or not.
- LLC_ENABLE
Flag defining the LLC (L3) cache state. The cache is enabled by default (``LLC_ENABLE=1``).
- MARVELL_SECURE_BOOT
Build trusted(=1)/non trusted(=0) image, default is non trusted.
- BLE_PATH
Points to BLE (Binary ROM extension) sources folder. Only required for A8K builds.
The parameter is optional, its default value is ``plat/marvell/a8k/common/ble``.
- MV_DDR_PATH
For A7/8K, use this parameter to point to mv_ddr driver sources to allow BLE build. For A37x0,
it is used for ddr_tool build.
Usage example: MV_DDR_PATH=path/to/mv_ddr
The parameter is optional for A7/8K, when this parameter is not set, the mv_ddr
sources are expected to be located at: drivers/marvell/mv_ddr. However, the parameter
is necessary for A37x0.
For the mv_ddr source location, check the section "Tools and external components installation"
- DDR_TOPOLOGY
For Armada37x0 only, the DDR topology map index/name, default is 0.
Supported Options:
- DDR3 1CS (0): DB-88F3720-DDR3-Modular (512MB); EspressoBIN (512MB)
- DDR4 1CS (1): DB-88F3720-DDR4-Modular (512MB)
- DDR3 2CS (2): EspressoBIN V3-V5 (1GB)
- DDR4 2CS (3): DB-88F3720-DDR4-Modular (4GB)
- DDR3 1CS (4): DB-88F3720-DDR3-Modular (1GB)
- DDR4 1CS (5): EspressoBin V7 (1GB)
- DDR4 2CS (6): EspressoBin V7 (2GB)
- CUSTOMER (CUST): Customer board, DDR3 1CS 512MB
- CLOCKSPRESET
For Armada37x0 only, the clock tree configuration preset including CPU and DDR frequency,
default is CPU_800_DDR_800.
- CPU_600_DDR_600 - CPU at 600 MHz, DDR at 600 MHz
- CPU_800_DDR_800 - CPU at 800 MHz, DDR at 800 MHz
- CPU_1000_DDR_800 - CPU at 1000 MHz, DDR at 800 MHz
- CPU_1200_DDR_750 - CPU at 1200 MHz, DDR at 750 MHz
- BOOTDEV
For Armada37x0 only, the flash boot device, default is ``SPINOR``.
Currently, Armada37x0 only supports ``SPINOR``, ``SPINAND``, ``EMMCNORM`` and ``SATA``:
- SPINOR - SPI NOR flash boot
- SPINAND - SPI NAND flash boot
- EMMCNORM - eMMC Download Mode
Download boot loader or program code from eMMC flash into CM3 or CA53
Requires full initialization and command sequence
- SATA - SATA device boot
- PARTNUM
For Armada37x0 only, the boot partition number, default is 0.
To boot from eMMC, the value should be aligned with the parameter in
U-Boot with name of ``CONFIG_SYS_MMC_ENV_PART``, whose value by default is
1. For details about CONFIG_SYS_MMC_ENV_PART, please refer to the U-Boot
build instructions.
- WTMI_IMG
For Armada37x0 only, the path of the WTMI image can point to an image which
does nothing, an image which supports EFUSE or a customized CM3 firmware
binary. The default image is wtmi.bin that built from sources in WTP
folder, which is the next option. If the default image is OK, then this
option should be skipped.
- WTP
For Armada37x0 only, use this parameter to point to wtptools source code
directory, which can be found as a3700_utils.zip in the release. Usage
example: ``WTP=/path/to/a3700_utils``
For example, in order to build the image in debug mode with log level up to 'notice' level run
.. code:: shell
> make DEBUG=1 USE_COHERENT_MEM=0 LOG_LEVEL=20 PLAT=<MARVELL_PLATFORM> all fip
And if we want to build a Armada37x0 image in debug mode with log level up to 'notice' level,
the image has the preset CPU at 1000 MHz, preset DDR3 at 800 MHz, the DDR topology of DDR4 2CS,
the image boot from SPI NOR flash partition 0, and the image is non trusted in WTP, the command
line is as following
.. code:: shell
> make DEBUG=1 USE_COHERENT_MEM=0 LOG_LEVEL=20 CLOCKSPRESET=CPU_1000_DDR_800 \
MARVELL_SECURE_BOOT=0 DDR_TOPOLOGY=3 BOOTDEV=SPINOR PARTNUM=0 PLAT=a3700 all fip
Supported MARVELL_PLATFORM are:
- a3700 (for both A3720 DB and EspressoBin)
- a70x0
- a70x0_amc (for AMC board)
- a80x0
- a80x0_mcbin (for MacciatoBin)
Special Build Flags
--------------------
- PLAT_RECOVERY_IMAGE_ENABLE
When set this option to enable secondary recovery function when build atf.
In order to build UART recovery image this operation should be disabled for
a70x0 and a80x0 because of hardware limitation (boot from secondary image
can interrupt UART recovery process). This MACRO definition is set in
``plat/marvell/a8k/common/include/platform_def.h`` file.
For more information about build options, please refer to section
'Summary of build options' in the :ref:`User Guide`.
Build output
------------
Marvell's TF-A compilation generates 7 files:
- ble.bin - BLe image
- bl1.bin - BL1 image
- bl2.bin - BL2 image
- bl31.bin - BL31 image
- fip.bin - FIP image (contains BL2, BL31 & BL33 (U-Boot) images)
- boot-image.bin - TF-A image (contains BL1 and FIP images)
- flash-image.bin - Image which contains boot-image.bin and SPL image.
Should be placed on the boot flash/device.
Tools and external components installation
------------------------------------------
Armada37x0 Builds require installation of 3 components
~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
(1) ARM cross compiler capable of building images for the service CPU (CM3).
This component is usually included in the Linux host packages.
On Debian/Ubuntu hosts the default GNU ARM tool chain can be installed
using the following command
.. code:: shell
> sudo apt-get install gcc-arm-linux-gnueabi
Only if required, the default tool chain prefix ``arm-linux-gnueabi-`` can be
overwritten using the environment variable ``CROSS_CM3``.
Example for BASH shell
.. code:: shell
> export CROSS_CM3=/opt/arm-cross/bin/arm-linux-gnueabi
(2) DDR initialization library sources (mv_ddr) available at the following repository
(use the "mv_ddr-armada-atf-mainline" branch):
https://github.com/MarvellEmbeddedProcessors/mv-ddr-marvell.git
(3) Armada3700 tools available at the following repository (use the latest release branch):
https://github.com/MarvellEmbeddedProcessors/A3700-utils-marvell.git
Armada70x0 and Armada80x0 Builds require installation of an additional component
~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
(1) DDR initialization library sources (mv_ddr) available at the following repository
(use the "mv_ddr-armada-atf-mainline" branch):
https://github.com/MarvellEmbeddedProcessors/mv-ddr-marvell.git

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TF-A Build Instructions
======================
This section describes how to compile the ARM Trusted Firmware (TF-A) project for Marvell's platforms.
Build Instructions
------------------
(1) Set the cross compiler::
> export CROSS_COMPILE=/path/to/toolchain/aarch64-linux-gnu-
(2) Set path for FIP images:
Set U-Boot image path (relatively to TF-A root or absolute path)::
> export BL33=path/to/u-boot.bin
For example: if U-Boot project (and its images) is located at ~/project/u-boot,
BL33 should be ~/project/u-boot/u-boot.bin
.. note::
u-boot.bin should be used and not u-boot-spl.bin
Set MSS/SCP image path (mandatory only for Armada80x0)::
> export SCP_BL2=path/to/mrvl_scp_bl2*.img
(3) Armada-37x0 build requires WTP tools installation.
See below in the section "Tools and external components installation".
Install ARM 32-bit cross compiler, which is required for building WTMI image for CM3::
> sudo apt-get install gcc-arm-linux-gnueabi
(4) Clean previous build residuals (if any)::
> make distclean
(5) Build TF-A:
There are several build options:
- DEBUG: default is without debug information (=0). in order to enable it use DEBUG=1
Must be disabled when building UART recovery images due to current console driver
implementation that is not compatible with Xmodem protocol used for boot image download.
- LOG_LEVEL: defines the level of logging which will be purged to the default output port.
LOG_LEVEL_NONE 0
LOG_LEVEL_ERROR 10
LOG_LEVEL_NOTICE 20
LOG_LEVEL_WARNING 30
LOG_LEVEL_INFO 40
LOG_LEVEL_VERBOSE 50
- USE_COHERENT_MEM: This flag determines whether to include the coherent memory region in the
BL memory map or not.
- LLC_ENABLE: Flag defining the LLC (L3) cache state. The cache is enabled by default (LLC_ENABLE=1).
- MARVELL_SECURE_BOOT: build trusted(=1)/non trusted(=0) image, default is non trusted.
- BLE_PATH:
Points to BLE (Binary ROM extension) sources folder. Only required for A8K builds.
The parameter is optional, its default value is "plat/marvell/a8k/common/ble".
- MV_DDR_PATH:
For A7/8K, use this parameter to point to mv_ddr driver sources to allow BLE build. For A37x0,
it is used for ddr_tool build.
Usage example: MV_DDR_PATH=path/to/mv_ddr
The parameter is optional for A7/8K, when this parameter is not set, the mv_ddr
sources are expected to be located at: drivers/marvell/mv_ddr. However, the parameter
is necessary for A37x0.
For the mv_ddr source location, check the section "Tools and external components installation"
- DDR_TOPOLOGY: For Armada37x0 only, the DDR topology map index/name, default is 0.
Supported Options:
- DDR3 1CS (0): DB-88F3720-DDR3-Modular (512MB); EspressoBIN (512MB)
- DDR4 1CS (1): DB-88F3720-DDR4-Modular (512MB)
- DDR3 2CS (2): EspressoBIN V3-V5 (1GB)
- DDR4 2CS (3): DB-88F3720-DDR4-Modular (4GB)
- DDR3 1CS (4): DB-88F3720-DDR3-Modular (1GB)
- DDR4 1CS (5): EspressoBin V7 (1GB)
- DDR4 2CS (6): EspressoBin V7 (2GB)
- CUSTOMER (CUST): Customer board, DDR3 1CS 512MB
- CLOCKSPRESET: For Armada37x0 only, the clock tree configuration preset including CPU and DDR frequency,
default is CPU_800_DDR_800.
- CPU_600_DDR_600 - CPU at 600 MHz, DDR at 600 MHz
- CPU_800_DDR_800 - CPU at 800 MHz, DDR at 800 MHz
- CPU_1000_DDR_800 - CPU at 1000 MHz, DDR at 800 MHz
- CPU_1200_DDR_750 - CPU at 1200 MHz, DDR at 750 MHz
- BOOTDEV: For Armada37x0 only, the flash boot device, default is SPINOR,
Currently, Armada37x0 only supports SPINOR, SPINAND, EMMCNORM and SATA:
- SPINOR - SPI NOR flash boot
- SPINAND - SPI NAND flash boot
- EMMCNORM - eMMC Download Mode
Download boot loader or program code from eMMC flash into CM3 or CA53
Requires full initialization and command sequence
- SATA - SATA device boot
- PARTNUM: For Armada37x0 only, the boot partition number, default is 0. To boot from eMMC, the value
should be aligned with the parameter in U-Boot with name of CONFIG_SYS_MMC_ENV_PART, whose
value by default is 1.
For details about CONFIG_SYS_MMC_ENV_PART, please refer to the U-Boot build instructions.
- WTMI_IMG: For Armada37x0 only, the path of the WTMI image can point to an image which does
nothing, an image which supports EFUSE or a customized CM3 firmware binary. The default image
is wtmi.bin that built from sources in WTP folder, which is the next option. If the default
image is OK, then this option should be skipped.
- WTP: For Armada37x0 only, use this parameter to point to wtptools source code directory, which
can be found as a3700_utils.zip in the release.
Usage example: WTP=/path/to/a3700_utils
For example, in order to build the image in debug mode with log level up to 'notice' level run::
> make DEBUG=1 USE_COHERENT_MEM=0 LOG_LEVEL=20 PLAT=<MARVELL_PLATFORM> all fip
And if we want to build a Armada37x0 image in debug mode with log level up to 'notice' level,
the image has the preset CPU at 1000 MHz, preset DDR3 at 800 MHz, the DDR topology of DDR4 2CS,
the image boot from SPI NOR flash partition 0, and the image is non trusted in WTP, the command
line is as following::
> make DEBUG=1 USE_COHERENT_MEM=0 LOG_LEVEL=20 CLOCKSPRESET=CPU_1000_DDR_800 \
MARVELL_SECURE_BOOT=0 DDR_TOPOLOGY=3 BOOTDEV=SPINOR PARTNUM=0 PLAT=a3700 all fip
Supported MARVELL_PLATFORM are:
- a3700 (for both A3720 DB and EspressoBin)
- a70x0
- a70x0_amc (for AMC board)
- a80x0
- a80x0_mcbin (for MacciatoBin)
Special Build Flags
--------------------
- PLAT_RECOVERY_IMAGE_ENABLE: When set this option to enable secondary recovery function when build
atf. In order to build UART recovery image this operation should be disabled for a70x0 and a80x0
because of hardware limitation (boot from secondary image can interrupt UART recovery process).
This MACRO definition is set in plat/marvell/a8k/common/include/platform_def.h file
(for more information about build options, please refer to section 'Summary of build options' in TF-A user-guide:
https://github.com/ARM-software/arm-trusted-firmware/blob/master/docs/user-guide.md)
Build output
-------------
Marvell's TF-A compilation generates 7 files:
- ble.bin - BLe image
- bl1.bin - BL1 image
- bl2.bin - BL2 image
- bl31.bin - BL31 image
- fip.bin - FIP image (contains BL2, BL31 & BL33 (U-Boot) images)
- boot-image.bin - TF-A image (contains BL1 and FIP images)
- flash-image.bin - Image which contains boot-image.bin and SPL image;
should be placed on the boot flash/device.
Tools and external components installation
==========================================
Armada37x0 Builds require installation of 3 components
-------------------------------------------------------
(1) ARM cross compiler capable of building images for the service CPU (CM3).
This component is usually included in the Linux host packages.
On Debian/Ubuntu hosts the default GNU ARM tool chain can be installed
using the following command::
> sudo apt-get install gcc-arm-linux-gnueabi
Only if required, the default tool chain prefix "arm-linux-gnueabi-" can be
overwritten using the environment variable CROSS_CM3.
Example for BASH shell::
> export CROSS_CM3=/opt/arm-cross/bin/arm-linux-gnueabi
(2) DDR initialization library sources (mv_ddr) available at the following repository
(use the "mv_ddr-armada-atf-mainline" branch)::
https://github.com/MarvellEmbeddedProcessors/mv-ddr-marvell.git
(3) Armada3700 tools available at the following repository (use the latest release branch)::
https://github.com/MarvellEmbeddedProcessors/A3700-utils-marvell.git
Armada70x0 and Armada80x0 Builds require installation of an additional component
--------------------------------------------------------------------------------
(1) DDR initialization library sources (mv_ddr) available at the following repository
(use the "mv_ddr-armada-atf-mainline" branch)::
https://github.com/MarvellEmbeddedProcessors/mv-ddr-marvell.git

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Marvell
=======
.. toctree::
:maxdepth: 1
:caption: Contents
build
porting
misc/mvebu-a8k-addr-map
misc/mvebu-amb
misc/mvebu-ccu
misc/mvebu-io-win
misc/mvebu-iob

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Address decoding flow and address translation units of Marvell Armada 8K SoC family
===================================================================================
::
+--------------------------------------------------------------------------------------------------+
| +-------------+ +--------------+ |
| | Memory +----- DRAM CS | |
|+------------+ +-----------+ +-----------+ | Controller | +--------------+ |
|| AP DMA | | | | | +-------------+ |
|| SD/eMMC | | CA72 CPUs | | AP MSS | +-------------+ |
|| MCI-0/1 | | | | | | Memory | |
|+------+-----+ +--+--------+ +--------+--+ +------------+ | Controller | +-------------+ |
| | | | | +----- Translaton | |AP | |
| | | | | | +-------------+ |Configuration| |
| | | +-----+ +-------------------------Space | |
| | | +-------------+ | CCU | +-------------+ |
| | | | MMU +---------+ Windows | +-----------+ +-------------+ |
| | +-| translation | | Lookup +---- +--------- AP SPI | |
| | +-------------+ | | | | +-------------+ |
| | +-------------+ | | | IO | +-------------+ |
| +------------| SMMU +---------+ | | Windows +--------- AP MCI0/1 | |
| | translation | +------------+ | Lookup | +-------------+ |
| +---------+---+ | | +-------------+ |
| - | | +--------- AP STM | |
| +----------------- | | +-------------+ |
| AP | | +-+---------+ |
+---------------------------------------------------------------|----------------------------------+
+-------------|-------------------------------------------------|----------------------------------+
| CP | +-------------+ +------+-----+ +-------------------+ |
| | | | | +------- SB CFG Space | |
| | | DIOB | | | +-------------------+ |
| | | Windows ----------------- IOB | +-------------------+ |
| | | Control | | Windows +------| SB PCIe-0 - PCIe2 | |
| | | | | Lookup | +-------------------+ |
| | +------+------+ | | +-------------------+ |
| | | | +------+ SB NAND | |
| | | +------+-----+ +-------------------+ |
| | | | |
| | | | |
| +------------------+ +------------+ +------+-----+ +-------------------+ |
| | Network Engine | | | | +------- SB SPI-0/SPI-1 | |
| | Security Engine | | PCIe, MSS | | RUNIT | +-------------------+ |
| | SATA, USB | | DMA | | Windows | +-------------------+ |
| | SD/eMMC | | | | Lookup +------- SB Device Bus | |
| | TDM, I2C | | | | | +-------------------+ |
| +------------------+ +------------+ +------------+ |
| |
+--------------------------------------------------------------------------------------------------+

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Address decoding flow and address translation units of Marvell Armada 8K SoC family
+--------------------------------------------------------------------------------------------------+
| +-------------+ +--------------+ |
| | Memory +----- DRAM CS | |
|+------------+ +-----------+ +-----------+ | Controller | +--------------+ |
|| AP DMA | | | | | +-------------+ |
|| SD/eMMC | | CA72 CPUs | | AP MSS | +-------------+ |
|| MCI-0/1 | | | | | | Memory | |
|+------+-----+ +--+--------+ +--------+--+ +------------+ | Controller | +-------------+ |
| | | | | +----- Translaton | |AP | |
| | | | | | +-------------+ |Configuration| |
| | | +-----+ +-------------------------Space | |
| | | +-------------+ | CCU | +-------------+ |
| | | | MMU +---------+ Windows | +-----------+ +-------------+ |
| | +-| translation | | Lookup +---- +--------- AP SPI | |
| | +-------------+ | | | | +-------------+ |
| | +-------------+ | | | IO | +-------------+ |
| +------------| SMMU +---------+ | | Windows +--------- AP MCI0/1 | |
| | translation | +------------+ | Lookup | +-------------+ |
| +---------+---+ | | +-------------+ |
| - | | +--------- AP STM | |
| +----------------- | | +-------------+ |
| AP | | +-+---------+ |
+---------------------------------------------------------------|----------------------------------+
+-------------|-------------------------------------------------|----------------------------------+
| CP | +-------------+ +------+-----+ +-------------------+ |
| | | | | +------- SB CFG Space | |
| | | DIOB | | | +-------------------+ |
| | | Windows ----------------- IOB | +-------------------+ |
| | | Control | | Windows +------| SB PCIe-0 - PCIe2 | |
| | | | | Lookup | +-------------------+ |
| | +------+------+ | | +-------------------+ |
| | | | +------+ SB NAND | |
| | | +------+-----+ +-------------------+ |
| | | | |
| | | | |
| +------------------+ +------------+ +------+-----+ +-------------------+ |
| | Network Engine | | | | +------- SB SPI-0/SPI-1 | |
| | Security Engine | | PCIe, MSS | | RUNIT | +-------------------+ |
| | SATA, USB | | DMA | | Windows | +-------------------+ |
| | SD/eMMC | | | | Lookup +------- SB Device Bus | |
| | TDM, I2C | | | | | +-------------------+ |
| +------------------+ +------------+ +------------+ |
| |
+--------------------------------------------------------------------------------------------------+

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AMB - AXI MBUS address decoding
===============================
AXI to M-bridge decoding unit driver for Marvell Armada 8K and 8K+ SoCs.
The Runit offers a second level of address windows lookup. It is used to map
transaction towards the CD BootROM, SPI0, SPI1 and Device bus (NOR).
The Runit contains eight configurable windows. Each window defines a contiguous,
address space and the properties associated with that address space.
::
Unit Bank ATTR
Device-Bus DEV_BOOT_CS 0x2F
DEV_CS0 0x3E
DEV_CS1 0x3D
DEV_CS2 0x3B
DEV_CS3 0x37
SPI-0 SPI_A_CS0 0x1E
SPI_A_CS1 0x5E
SPI_A_CS2 0x9E
SPI_A_CS3 0xDE
SPI_A_CS4 0x1F
SPI_A_CS5 0x5F
SPI_A_CS6 0x9F
SPI_A_CS7 0xDF
SPI SPI_B_CS0 0x1A
SPI_B_CS1 0x5A
SPI_B_CS2 0x9A
SPI_B_CS3 0xDA
BOOT_ROM BOOT_ROM 0x1D
UART UART 0x01
Mandatory functions
-------------------
- marvell_get_amb_memory_map
Returns the AMB windows configuration and the number of windows
Mandatory structures
--------------------
- amb_memory_map
Array that include the configuration of the windows. Every window/entry is a
struct which has 2 parameters:
- Base address of the window
- Attribute of the window
Examples
--------
.. code:: c
struct addr_map_win amb_memory_map[] = {
{0xf900, AMB_DEV_CS0_ID},
};

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AMB - AXI MBUS address decoding
-------------------------------
AXI to M-bridge decoding unit driver for Marvell Armada 8K and 8K+ SoCs.
- The Runit offers a second level of address windows lookup. It is used to map transaction towards
the CD BootROM, SPI0, SPI1 and Device bus (NOR).
- The Runit contains eight configurable windows. Each window defines a contiguous,
address space and the properties associated with that address space.
Unit Bank ATTR
Device-Bus DEV_BOOT_CS 0x2F
DEV_CS0 0x3E
DEV_CS1 0x3D
DEV_CS2 0x3B
DEV_CS3 0x37
SPI-0 SPI_A_CS0 0x1E
SPI_A_CS1 0x5E
SPI_A_CS2 0x9E
SPI_A_CS3 0xDE
SPI_A_CS4 0x1F
SPI_A_CS5 0x5F
SPI_A_CS6 0x9F
SPI_A_CS7 0xDF
SPI1 SPI_B_CS0 0x1A
SPI_B_CS1 0x5A
SPI_B_CS2 0x9A
SPI_B_CS3 0xDA
BOOT_ROM BOOT_ROM 0x1D
UART UART 0x01
Mandatory functions:
- marvell_get_amb_memory_map
returns the AMB windows configuration and the number of windows
Mandatory structures:
amb_memory_map - Array that include the configuration of the windows
every window/entry is a struct which has 2 parameters:
- base address of the window
- Attribute of the window
Examples:
struct addr_map_win amb_memory_map[] = {
{0xf900, AMB_DEV_CS0_ID},
};

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Marvell CCU address decoding bindings
=====================================
CCU configration driver (1st stage address translation) for Marvell Armada 8K and 8K+ SoCs.
The CCU node includes a description of the address decoding configuration.
Mandatory functions
-------------------
- marvell_get_ccu_memory_map
Return the CCU windows configuration and the number of windows of the
specific AP.
Mandatory structures
--------------------
- ccu_memory_map
Array that includes the configuration of the windows. Every window/entry is
a struct which has 3 parameters:
- Base address of the window
- Size of the window
- Target-ID of the window
Example
-------
.. code:: c
struct addr_map_win ccu_memory_map[] = {
{0x00000000f2000000, 0x00000000e000000, IO_0_TID}, /* IO window */
};

23
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@ -1,23 +0,0 @@
Marvell CCU address decoding bindings
=====================================
CCU configration driver (1st stage address translation) for Marvell Armada 8K and 8K+ SoCs.
The CCU node includes a description of the address decoding configuration.
Mandatory functions:
- marvell_get_ccu_memory_map
return the CCU windows configuration and the number of windows
of the specific AP.
Mandatory structures:
ccu_memory_map - Array that includes the configuration of the windows
every window/entry is a struct which has 3 parameters:
- Base address of the window
- Size of the window
- Target-ID of the window
Example:
struct addr_map_win ccu_memory_map[] = {
{0x00000000f2000000, 0x00000000e000000, IO_0_TID}, /* IO window */
};

41
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@ -1,5 +1,5 @@
Marvell IO WIN address decoding bindings
=====================================
========================================
IO Window configration driver (2nd stage address translation) for Marvell Armada 8K and 8K+ SoCs.
@ -8,26 +8,37 @@ The IO WIN includes a description of the address decoding configuration.
Transactions that are decoded by CCU windows as IO peripheral, have an additional
layer of decoding. This additional address decoding layer defines one of the
following targets:
0x0 = BootRom
0x1 = STM (Serial Trace Macro-cell, a programmer's port into trace stream)
0x2 = SPI direct access
0x3 = PCIe registers
0x4 = MCI Port
0x5 = PCIe port
Mandatory functions:
- marvell_get_io_win_memory_map
returns the IO windows configuration and the number of windows
of the specific AP.
- **0x0** = BootRom
- **0x1** = STM (Serial Trace Macro-cell, a programmer's port into trace stream)
- **0x2** = SPI direct access
- **0x3** = PCIe registers
- **0x4** = MCI Port
- **0x5** = PCIe port
Mandatory functions
-------------------
- marvell_get_io_win_memory_map
Returns the IO windows configuration and the number of windows of the
specific AP.
Mandatory structures
--------------------
- io_win_memory_map
Array that include the configuration of the windows. Every window/entry is
a struct which has 3 parameters:
Mandatory structures:
io_win_memory_map - Array that include the configuration of the windows
every window/entry is a struct which has 3 parameters:
- Base address of the window
- Size of the window
- Target-ID of the window
Example:
Example
-------
.. code:: c
struct addr_map_win io_win_memory_map[] = {
{0x00000000fe000000, 0x000000001f00000, PCIE_PORT_TID}, /* PCIe window 31Mb for PCIe port*/
{0x00000000ffe00000, 0x000000000100000, PCIE_REGS_TID}, /* PCI-REG window 64Kb for PCIe-reg*/

50
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View File

@ -10,28 +10,40 @@ When a transaction passes through the IOB, its address is compared to each of
the enabled windows. If there is a hit and it passes the security checks, it is
advanced to the target port.
Mandatory functions:
- marvell_get_iob_memory_map
returns the IOB windows configuration and the number of windows
Mandatory functions
-------------------
Mandatory structures:
iob_memory_map - Array that include the configuration of the windows
every window/entry is a struct which has 3 parameters:
- Base address of the window
- Size of the window
- Target-ID of the window
- marvell_get_iob_memory_map
Returns the IOB windows configuration and the number of windows
Target ID options:
- 0x0 = Internal configuration space
- 0x1 = MCI0
- 0x2 = PEX1_X1
- 0x3 = PEX2_X1
- 0x4 = PEX0_X4
- 0x5 = NAND flash
- 0x6 = RUNIT (NOR/SPI/BootRoom)
- 0x7 = MCI1
Mandatory structures
--------------------
- iob_memory_map
Array that includes the configuration of the windows. Every window/entry is
a struct which has 3 parameters:
- Base address of the window
- Size of the window
- Target-ID of the window
Target ID options
-----------------
- **0x0** = Internal configuration space
- **0x1** = MCI0
- **0x2** = PEX1_X1
- **0x3** = PEX2_X1
- **0x4** = PEX0_X4
- **0x5** = NAND flash
- **0x6** = RUNIT (NOR/SPI/BootRoom)
- **0x7** = MCI1
Example
-------
.. code:: c
Example:
struct addr_map_win iob_memory_map[] = {
{0x00000000f7000000, 0x0000000001000000, PEX1_TID}, /* PEX1_X1 window */
{0x00000000f8000000, 0x0000000001000000, PEX2_TID}, /* PEX2_X1 window */

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@ -0,0 +1,163 @@
TF-A Porting Guide for Marvell Platforms
========================================
This section describes how to port TF-A to a customer board, assuming that the
SoC being used is already supported in TF-A.
Source Code Structure
---------------------
- The customer platform specific code shall reside under ``plat/marvell/<soc family>/<soc>_cust``
(e.g. 'plat/marvell/a8k/a7040_cust').
- The platform name for build purposes is called ``<soc>_cust`` (e.g. ``a7040_cust``).
- The build system will reuse all files from within the soc directory, and take only the porting
files from the customer platform directory.
Files that require porting are located at ``plat/marvell/<soc family>/<soc>_cust`` directory.
Armada-70x0/Armada-80x0 Porting
-------------------------------
SoC Physical Address Map (marvell_plat_config.c)
~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
This file describes the SoC physical memory mapping to be used for the CCU,
IOWIN, AXI-MBUS and IOB address decode units (Refer to the functional spec for
more details).
In most cases, using the default address decode windows should work OK.
In cases where a special physical address map is needed (e.g. Special size for
PCIe MEM windows, large memory mapped SPI flash...), then porting of the SoC
memory map is required.
.. note::
For a detailed information on how CCU, IOWIN, AXI-MBUS & IOB work, please
refer to the SoC functional spec, and under
``docs/marvell/misc/mvebu-[ccu/iob/amb/io-win].txt`` files.
boot loader recovery (marvell_plat_config.c)
~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
- Background:
Boot rom can skip the current image and choose to boot from next position if a
specific value (``0xDEADB002``) is returned by the ble main function. This
feature is used for boot loader recovery by booting from a valid flash-image
saved in next position on flash (e.g. address 2M in SPI flash).
Supported options to implement the skip request are:
- GPIO
- I2C
- User defined
- Porting:
Under marvell_plat_config.c, implement struct skip_image that includes
specific board parameters.
.. warning::
To disable this feature make sure the struct skip_image is not implemented.
- Example:
In A7040-DB specific implementation
(``plat/marvell/a8k/a70x0/board/marvell_plat_config.c``), the image skip is
implemented using GPIO: mpp 33 (SW5).
Before resetting the board make sure there is a valid image on the next flash
address:
-tftp [valid address] flash-image.bin
-sf update [valid address] 0x2000000 [size]
Press reset and keep pressing the button connected to the chosen GPIO pin. A
skip image request message is printed on the screen and boot rom boots from the
saved image at the next position.
DDR Porting (dram_port.c)
~~~~~~~~~~~~~~~~~~~~~~~~~
This file defines the dram topology and parameters of the target board.
The DDR code is part of the BLE component, which is an extension of ARM Trusted
Firmware (TF-A).
The DDR driver called mv_ddr is released separately apart from TF-A sources.
The BLE and consequently, the DDR init code is executed at the early stage of
the boot process.
Each supported platform of the TF-A has its own DDR porting file called
dram_port.c located at ``atf/plat/marvell/a8k/<platform>/board`` directory.
Please refer to '<path_to_mv_ddr_sources>/doc/porting_guide.txt' for detailed
porting description.
The build target directory is "build/<platform>/release/ble".
Comphy Porting (phy-porting-layer.h or phy-default-porting-layer.h)
~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
- Background:
Some of the comphy's parameters value depend on the HW connection between
the SoC and the PHY. Every board type has specific HW characteristics like
wire length. Due to those differences some comphy parameters vary between
board types. Therefore each board type can have its own list of values for
all relevant comphy parameters. The PHY porting layer specifies which
parameters need to be suited and the board designer should provide relevant
values.
.. seealso::
For XFI/SFI comphy type there is procedure "rx_training" which eases
process of suiting some of the parameters. Please see :ref:`uboot_cmd`
section: rx_training.
The PHY porting layer simplifies updating static values per board type,
which are now grouped in one place.
.. note::
The parameters for the same type of comphy may vary even for the same
board type, it is because the lanes from comphy-x to some PHY may have
different HW characteristic than lanes from comphy-y to the same
(multiplexed) or other PHY.
- Porting:
The porting layer for PHY was introduced in TF-A. There is one file
``drivers/marvell/comphy/phy-default-porting-layer.h`` which contains the
defaults. Those default parameters are used only if there is no appropriate
phy-porting-layer.h file under: ``plat/marvell/<soc
family>/<platform>/board/phy-porting-layer.h``. If the phy-porting-layer.h
exists, the phy-default-porting-layer.h is not going to be included.
.. warning::
Not all comphy types are already reworked to support the PHY porting
layer, currently the porting layer is supported for XFI/SFI and SATA
comphy types.
The easiest way to prepare the PHY porting layer for custom board is to copy
existing example to a new platform:
- cp ``plat/marvell/a8k/a80x0/board/phy-porting-layer.h`` "plat/marvell/<soc family>/<platform>/board/phy-porting-layer.h"
- adjust relevant parameters or
- if different comphy index is used for specific feature, move it to proper table entry and then adjust.
.. note::
The final table size with comphy parameters can be different, depending
on the CP module count for given SoC type.
- Example:
Example porting layer for armada-8040-db is under:
``plat/marvell/a8k/a80x0/board/phy-porting-layer.h``
.. note::
If there is no PHY porting layer for new platform (missing
phy-porting-layer.h), the default values are used
(drivers/marvell/comphy/phy-default-porting-layer.h) and the user is
warned:
.. warning::
"Using default comphy parameters - it may be required to suit them for
your board".

118
docs/plat/marvell/porting.txt
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@ -1,118 +0,0 @@
.. _porting:
TF-A Porting Guide
=================
This section describes how to port TF-A to a customer board, assuming that the SoC being used is already supported
in TF-A.
Source Code Structure
---------------------
- The customer platform specific code shall reside under "plat/marvell/<soc family>/<soc>_cust"
(e.g. 'plat/marvell/a8k/a7040_cust').
- The platform name for build purposes is called "<soc>_cust" (e.g. a7040_cust).
- The build system will reuse all files from within the soc directory, and take only the porting
files from the customer platform directory.
Files that require porting are located at "plat/marvell/<soc family>/<soc>_cust" directory.
Armada-70x0/Armada-80x0 Porting
-------------------------------
- SoC Physical Address Map (marvell_plat_config.c):
- This file describes the SoC physical memory mapping to be used for the CCU, IOWIN, AXI-MBUS and IOB
address decode units (Refer to the functional spec for more details).
- In most cases, using the default address decode windows should work OK.
- In cases where a special physical address map is needed (e.g. Special size for PCIe MEM windows,
large memory mapped SPI flash...), then porting of the SoC memory map is required.
- Note: For a detailed information on how CCU, IOWIN, AXI-MBUS & IOB work, please refer to the SoC functional spec,
and under "docs/marvell/misc/mvebu-[ccu/iob/amb/io-win].txt" files.
- boot loader recovery (marvell_plat_config.c):
- Background:
boot rom can skip the current image and choose to boot from next position if a specific value
(0xDEADB002) is returned by the ble main function. This feature is used for boot loader recovery
by booting from a valid flash-image saved in next position on flash (e.g. address 2M in SPI flash).
Supported options to implement the skip request are:
- GPIO
- I2C
- User defined
- Porting:
Under marvell_plat_config.c, implement struct skip_image that includes specific board parameters.
.. warning:: to disable this feature make sure the struct skip_image is not implemented.
- Example:
In A7040-DB specific implementation (plat/marvell/a8k/a70x0/board/marvell_plat_config.c),
the image skip is implemented using GPIO: mpp 33 (SW5).
Before resetting the board make sure there is a valid image on the next flash address:
-tftp [valid address] flash-image.bin
-sf update [valid address] 0x2000000 [size]
Press reset and keep pressing the button connected to the chosen GPIO pin. A skip image request
message is printed on the screen and boot rom boots from the saved image at the next position.
- DDR Porting (dram_port.c):
- This file defines the dram topology and parameters of the target board.
- The DDR code is part of the BLE component, which is an extension of ARM Trusted Firmware (TF-A).
- The DDR driver called mv_ddr is released separately apart from TF-A sources.
- The BLE and consequently, the DDR init code is executed at the early stage of the boot process.
- Each supported platform of the TF-A has its own DDR porting file called dram_port.c located at
``atf/plat/marvell/a8k/<platform>/board`` directory.
- Please refer to '<path_to_mv_ddr_sources>/doc/porting_guide.txt' for detailed porting description.
- The build target directory is "build/<platform>/release/ble".
- Comphy Porting (phy-porting-layer.h or phy-default-porting-layer.h)
- Background:
Some of the comphy's parameters value depend on the HW connection between the SoC and the PHY. Every
board type has specific HW characteristics like wire length. Due to those differences some comphy
parameters vary between board types. Therefore each board type can have its own list of values for
all relevant comphy parameters. The PHY porting layer specifies which parameters need to be suited and
the board designer should provide relevant values.
.. seealso::
For XFI/SFI comphy type there is procedure "rx_training" which eases process of suiting some of
the parameters. Please see :ref:`uboot_cmd` section: rx_training.
The PHY porting layer simplifies updating static values per board type, which are now grouped in one place.
.. note::
The parameters for the same type of comphy may vary even for the same board type, it is because
the lanes from comphy-x to some PHY may have different HW characteristic than lanes from
comphy-y to the same (multiplexed) or other PHY.
- Porting:
The porting layer for PHY was introduced in TF-A. There is one file
``drivers/marvell/comphy/phy-default-porting-layer.h`` which contains the defaults. Those default
parameters are used only if there is no appropriate phy-porting-layer.h file under:
``plat/marvell/<soc family>/<platform>/board/phy-porting-layer.h``. If the phy-porting-layer.h exists,
the phy-default-porting-layer.h is not going to be included.
.. warning::
Not all comphy types are already reworked to support the PHY porting layer, currently the porting
layer is supported for XFI/SFI and SATA comphy types.
The easiest way to prepare the PHY porting layer for custom board is to copy existing example to a new
platform:
- cp ``plat/marvell/a8k/a80x0/board/phy-porting-layer.h`` "plat/marvell/<soc family>/<platform>/board/phy-porting-layer.h"
- adjust relevant parameters or
- if different comphy index is used for specific feature, move it to proper table entry and then adjust.
.. note::
The final table size with comphy parameters can be different, depending on the CP module count for
given SoC type.
- Example:
Example porting layer for armada-8040-db is under: ``plat/marvell/a8k/a80x0/board/phy-porting-layer.h``
.. note::
If there is no PHY porting layer for new platform (missing phy-porting-layer.h), the default
values are used (drivers/marvell/comphy/phy-default-porting-layer.h) and the user is warned:
.. warning::
"Using default comphy parameters - it may be required to suit them for your board".