docs/plat/xilinx-zynqmp.rst - filogic/atf - Gitiles

 Xilinx Zynq UltraScale+ MPSoC
 =============================

 Trusted Firmware-A (TF-A) implements the EL3 firmware layer for Xilinx Zynq
 UltraScale + MPSoC.
 The platform only uses the runtime part of TF-A as ZynqMP already has a
 BootROM (BL1) and FSBL (BL2).

 BL31 is TF-A.
 BL32 is an optional Secure Payload.
 BL33 is the non-secure world software (U-Boot, Linux etc).

 To build:

 .. code:: bash

     make CROSS_COMPILE=aarch64-none-elf- PLAT=zynqmp RESET_TO_BL31=1 bl31

 To build bl32 TSP you have to rebuild bl31 too:

 .. code:: bash

     make CROSS_COMPILE=aarch64-none-elf- PLAT=zynqmp SPD=tspd RESET_TO_BL31=1 bl31 bl32

 To build TF-A for JTAG DCC console:

 .. code:: bash

     make CROSS_COMPILE=aarch64-none-elf- PLAT=zynqmp RESET_TO_BL31=1 bl31 ZYNQMP_CONSOLE=dcc

 ZynqMP platform specific build options
 --------------------------------------

 -  ``ZYNQMP_ATF_MEM_BASE``: Specifies the base address of the bl31 binary.
 -  ``ZYNQMP_ATF_MEM_SIZE``: Specifies the size of the memory region of the bl31 binary.
 -  ``ZYNQMP_BL32_MEM_BASE``: Specifies the base address of the bl32 binary.
 -  ``ZYNQMP_BL32_MEM_SIZE``: Specifies the size of the memory region of the bl32 binary.

 -  ``ZYNQMP_CONSOLE``: Select the console driver. Options:

    -  ``cadence``, ``cadence0``: Cadence UART 0
    -  ``cadence1`` : Cadence UART 1

 FSBL->TF-A Parameter Passing
 ----------------------------

 The FSBL populates a data structure with image information for TF-A. TF-A uses
 that data to hand off to the loaded images. The address of the handoff data
 structure is passed in the ``PMU_GLOBAL.GLOBAL_GEN_STORAGE6`` register. The
 register is free to be used by other software once TF-A has brought up
 further firmware images.

 Power Domain Tree
 -----------------

 The following power domain tree represents the power domain model used by TF-A
 for ZynqMP:

 ::

                     +-+
                     |0|
                     +-+
          +-------+---+---+-------+
          |       |       |       |
          |       |       |       |
          v       v       v       v
         +-+     +-+     +-+     +-+
         |0|     |1|     |2|     |3|
         +-+     +-+     +-+     +-+

 The 4 leaf power domains represent the individual A53 cores, while resources
 common to the cluster are grouped in the power domain on the top.
	Xilinx Zynq UltraScale+ MPSoC
	=============================

	Trusted Firmware-A (TF-A) implements the EL3 firmware layer for Xilinx Zynq
	UltraScale + MPSoC.
	The platform only uses the runtime part of TF-A as ZynqMP already has a
	BootROM (BL1) and FSBL (BL2).

	BL31 is TF-A.
	BL32 is an optional Secure Payload.
	BL33 is the non-secure world software (U-Boot, Linux etc).

	To build:

	.. code:: bash

	make CROSS_COMPILE=aarch64-none-elf- PLAT=zynqmp RESET_TO_BL31=1 bl31

	To build bl32 TSP you have to rebuild bl31 too:

	.. code:: bash

	make CROSS_COMPILE=aarch64-none-elf- PLAT=zynqmp SPD=tspd RESET_TO_BL31=1 bl31 bl32

	To build TF-A for JTAG DCC console:

	.. code:: bash

	make CROSS_COMPILE=aarch64-none-elf- PLAT=zynqmp RESET_TO_BL31=1 bl31 ZYNQMP_CONSOLE=dcc

	ZynqMP platform specific build options
	--------------------------------------

	- ``ZYNQMP_ATF_MEM_BASE``: Specifies the base address of the bl31 binary.
	- ``ZYNQMP_ATF_MEM_SIZE``: Specifies the size of the memory region of the bl31 binary.
	- ``ZYNQMP_BL32_MEM_BASE``: Specifies the base address of the bl32 binary.
	- ``ZYNQMP_BL32_MEM_SIZE``: Specifies the size of the memory region of the bl32 binary.

	- ``ZYNQMP_CONSOLE``: Select the console driver. Options:

	- ``cadence``, ``cadence0``: Cadence UART 0
	- ``cadence1`` : Cadence UART 1

	FSBL->TF-A Parameter Passing
	----------------------------

	The FSBL populates a data structure with image information for TF-A. TF-A uses
	that data to hand off to the loaded images. The address of the handoff data
	structure is passed in the ``PMU_GLOBAL.GLOBAL_GEN_STORAGE6`` register. The
	register is free to be used by other software once TF-A has brought up
	further firmware images.

	Power Domain Tree
	-----------------

	The following power domain tree represents the power domain model used by TF-A
	for ZynqMP:

	::

	+-+
	\|0\|
	+-+
	+-------+---+---+-------+
	\| \| \| \|
	\| \| \| \|
	v v v v
	+-+ +-+ +-+ +-+
	\|0\| \|1\| \|2\| \|3\|
	+-+ +-+ +-+ +-+

	The 4 leaf power domains represent the individual A53 cores, while resources
	common to the cluster are grouped in the power domain on the top.