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rcar-gen3: initial commit for the rcar-gen3 boards 

Reference code:
==============

rar_gen3: IPL and Secure Monitor Rev1.0.22
https://github.com/renesas-rcar/arm-trusted-firmware [rcar_gen3]

Author: Takuya Sakata <takuya.sakata.wz@bp.renesas.com>
Date:   Thu Aug 30 21:26:41 2018 +0900
	Update IPL and Secure Monitor Rev1.0.22

General Information:
===================

This port has been tested on the Salvator-X Soc_id r8a7795 revision
ES1.1 (uses an SPD).

Build Tested:
-------------
ATFW_OPT="LSI=H3 RCAR_DRAM_SPLIT=1 RCAR_LOSSY_ENABLE=1"
MBEDTLS_DIR=$mbedtls

$ make clean bl2 bl31 rcar PLAT=rcar ${ATFW_OPT} SPD=opteed

Other dependencies:
------------------
* mbed_tls:
  git@github.com:ARMmbed/mbedtls.git [devel]

  Merge: 68dbc94 f34a4c1
  Author: Simon Butcher <simon.butcher@arm.com>
  Date:   Thu Aug 30 00:57:28 2018 +0100

* optee_os:
  https://github.com/BayLibre/optee_os

  Until it gets merged into OP-TEE, the port requires Renesas' Trusted
  Environment with a modification to support power management.

  Author: Jorge Ramirez-Ortiz <jramirez@baylibre.com>
  Date:   Thu Aug 30 16:49:49 2018 +0200
    plat-rcar: cpu-suspend: handle the power level
    Signed-off-by: Jorge Ramirez-Ortiz <jramirez@baylibre.com>

* u-boot:
  The port has beent tested using mainline uboot.

  Author: Fabio Estevam <festevam@gmail.com>
  Date:   Tue Sep 4 10:23:12 2018 -0300

*linux:
  The port has beent tested using mainline kernel.

  Author: Linus Torvalds <torvalds@linux-foundation.org>
  Date:   Sun Sep 16 11:52:37 2018 -0700
      Linux 4.19-rc4

Overview
---------

BOOTROM starts the cpu at EL3; In this port BL2 will therefore be entered
at this exception level (the Renesas' ATF reference tree [1] resets into
EL1 before entering BL2 - see its bl2.ld.S)

BL2 initializes DDR (and i2c to talk to the PMIC on some platforms)
before determining the boot reason (cold or warm).

During suspend all CPUs are switched off and the DDR is put in
backup mode (some kind of self-refresh mode). This means that BL2 is
always entered in a cold boot scenario.

Once BL2 boots, it determines the boot reason, writes it to shared
memory (BOOT_KIND_BASE) together with the BL31 parameters
(PARAMS_BASE) and jumps to BL31.

To all effects, BL31 is as if it is being entered in reset mode since
it still needs to initialize the rest of the cores; this is the reason
behind using direct shared memory access to  BOOT_KIND_BASE and
PARAMS_BASE instead of using registers to get to those locations (see
el3_common_macros.S and bl31_entrypoint.S for the RESET_TO_BL31 use
case).

Depending on the boot reason BL31 initializes the rest of the cores:
in case of suspend, it uses a MBOX memory region to recover the
program counters.

[1] https://github.com/renesas-rcar/arm-trusted-firmware
Tests
-----

* cpuidle
  -------
   enable kernel's cpuidle arm_idle driver and boot

* system suspend
  --------------
  $ cat suspend.sh
    #!/bin/bash
    i2cset -f -y 7 0x30 0x20 0x0F
    read -p "Switch off SW23 and press return " foo
    echo mem > /sys/power/state

* cpu hotplug:
  ------------
  $ cat offline.sh
    #!/bin/bash
    nbr=$1
    echo 0 > /sys/devices/system/cpu/cpu$nbr/online
    printf "ONLINE:  " && cat /sys/devices/system/cpu/online
    printf "OFFLINE: " && cat /sys/devices/system/cpu/offline

  $ cat online.sh
    #!/bin/bash
    nbr=$1
    echo 1 > /sys/devices/system/cpu/cpu$nbr/online
    printf "ONLINE:  " && cat /sys/devices/system/cpu/online
    printf "OFFLINE: " && cat /sys/devices/system/cpu/offline

Signed-off-by: ldts <jramirez@baylibre.com>
This commit is contained in:
Jorge Ramirez-Ortiz 2018-09-23 09:36:13 +02:00 committed by ldts
parent 0a09313ec7
commit 7e532c4bf7
31 changed files with 5501 additions and 0 deletions
Show Stats Download Patch File Download Diff File Expand all files Collapse all files

4
.gitignore vendored
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@ -11,6 +11,10 @@ build/
# Ignore build products from tools
tools/**/*.o
tools/renesas/rcar_layout_create/*.bin
tools/renesas/rcar_layout_create/*.srec
tools/renesas/rcar_layout_create/*.map
tools/renesas/rcar_layout_create/*.elf
tools/fiptool/fiptool
tools/fiptool/fiptool.exe
tools/cert_create/src/*.o

269
docs/plat/rcar-gen3.rst Normal file
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@ -0,0 +1,269 @@
Description
===========
"R-Car" is the nickname for Renesas' system-on-chip (SoC) family for
car information systems designed for the next-generation of automotive
computing for the age of autonomous vehicles.
The scalable R-Car hardware platform and flexible software platform
cover the full product range, from the premium class to the entry
level. Plug-ins are available for multiple open-source software tools.
Renesas R-Car Gen3 evaluation boards:
-------------------------------------
+------------+-----------------+-----------------------------+
| | Standard | Low Cost Boards (LCB) |
+============+=================+=============================+
| R-Car H3 | - Salvator-X | - R-Car Starter Kit Premier |
| | - Salvator-XS | |
+------------+-----------------+-----------------------------+
| R-Car M3-W | - Salvator-X | |
| | - Salvator-XS | - R-Car Starter Kit Pro |
+------------+-----------------+-----------------------------+
| R-Car M3-N | - Salvator-X | |
| | - Salvator-XS | |
+------------+-----------------+-----------------------------+
| R-Car V3M | - Eagle | - Starter Kit |
+------------+-----------------+-----------------------------+
| R-Car V3H | - Condor | - Starter Kit |
+------------+-----------------+-----------------------------+
| R-Car D3 | - Draak | |
+------------+-----------------+-----------------------------+
`boards info <https://elinux.org/R-Car>`__
The current TF-A port has been tested on the R-Car H3 Salvator-X
Soc_id r8a7795 revision ES1.1 (uses a Secure Payload Dispatcher)
::
ARM CA57 (ARMv8) 1.5 GHz quad core, with NEON/VFPv4, L1$ I/D
48K/32K, L2$ 2MB
ARM CA53 (ARMv8) 1.2 GHz quad core, with NEON/VFPv4, L1$ I/D 32K/32K,
L2$ 512K
Memory controller for LPDDR4-3200 4GB in 2 channels, each 64-bit wide
Two- and three-dimensional graphics engines,
Video processing units,
3 channels Display Output,
6 channels Video Input,
SD card host interface,
USB3.0 and USB2.0 interfaces,
CAN interfaces
Ethernet AVB
PCI Express Interfaces
Memories
INTERNAL 384KB SYSTEM RAM
DDR 4 GB LPDDR4
HYPERFLASH 64 MB HYPER FLASH (512 MBITS, 160 MHZ, 320 MBYTES/S)
QSPI FLASH 16MB QSPI (128 MBITS,80 MHZ,80 MBYTES/S)1 HEADER QSPI
MODULE
EMMC 32 GB EMMC (HS400 240 MBYTES/S)
MICROSD-CARD SLOT (SDR104 100 MBYTES/S)
Overview
--------
On the rcar-gen3 the BOOTROM starts the cpu at EL3; for this port BL2
will therefore be entered at this exception level (the Renesas' ATF
reference tree [1] resets into EL1 before entering BL2 - see its
bl2.ld.S)
BL2 initializes DDR (and on some platforms i2c to interface to the
PMIC) before determining the boot reason (cold or warm).
During suspend all CPUs are switched off and the DDR is put in backup
mode (some kind of self-refresh mode). This means that BL2 is always
entered in a cold boot scenario.
Once BL2 boots, it determines the boot reason, writes it to shared
memory (BOOT_KIND_BASE) together with the BL31 parameters
(PARAMS_BASE) and jumps to BL31.
To all effects, BL31 is as if it is being entered in reset mode since
it still needs to initialize the rest of the cores; this is the reason
behind using direct shared memory access to BOOT_KIND_BASE _and_
PARAMS_BASE instead of using registers to get to those locations (see
el3_common_macros.S and bl31_entrypoint.S for the RESET_TO_BL31 use
case).
Depending on the boot reason BL31 initializes the rest of the cores:
in case of suspend, it uses a MBOX memory region to recover the
program counters.
[1] https://github.com/renesas-rcar/arm-trusted-firmware
How to build
============
The TF-A build options depend on the target board so you will have to
refer to those specific instructions. What follows is customized to
the H3 SiP Salvator-X development system used in this port.
Build Tested:
-------------
RCAR_OPT="LSI=H3 RCAR_DRAM_SPLIT=1 RCAR_LOSSY_ENABLE=1"
MBEDTLS_DIR=$mbedtls_src
$ MBEDTLS_DIR=$mbedtls_src_tree make clean bl2 bl31 rcar_layout_tool \
PLAT=rcar ${RCAR_OPT} SPD=opteed
System Tested:
--------------------
* mbed_tls:
git@github.com:ARMmbed/mbedtls.git [devel]
commit 552754a6ee82bab25d1bdf28c8261a4518e65e4d
Merge: 68dbc94 f34a4c1
Author: Simon Butcher <simon.butcher@arm.com>
Date: Thu Aug 30 00:57:28 2018 +0100
* optee_os:
https://github.com/BayLibre/optee_os
Until it gets merged into OP-TEE, the port requires Renesas'
Trusted Environment with a modification to support power
management.
commit 80105192cba9e704ebe8df7ab84095edc2922f84
Author: Jorge Ramirez-Ortiz <jramirez@baylibre.com>
Date: Thu Aug 30 16:49:49 2018 +0200
plat-rcar: cpu-suspend: handle the power level
Signed-off-by: Jorge Ramirez-Ortiz <jramirez@baylibre.com>
* u-boot:
The port has beent tested using mainline uboot.
commit 4cdeda511f8037015b568396e6dcc3d8fb41e8c0
Author: Fabio Estevam <festevam@gmail.com>
Date: Tue Sep 4 10:23:12 2018 -0300
* linux:
The port has beent tested using mainline kernel.
commit 7876320f88802b22d4e2daf7eb027dd14175a0f8
Author: Linus Torvalds <torvalds@linux-foundation.org>
Date: Sun Sep 16 11:52:37 2018 -0700
Linux 4.19-rc4
TF-A Build Procedure
--------------------
- Fetch all the above 4 repositories.
- Prepare the AARCH64 toolchain.
- Build u-boot using r8a7795_salvator-x_defconfig.
Result: u-boot-elf.srec
.. code:: bash
make CROSS_COMPILE=aarch64-linux-gnu-
r8a7795_salvator-x_defconfig
make CROSS_COMPILE=aarch64-linux-gnu-
- Build atf
Result: bootparam_sa0.srec, cert_header_sa6.srec, bl2.srec, bl31.srec
.. code:: bash
RCAR_OPT="LSI=H3 RCAR_DRAM_SPLIT=1 RCAR_LOSSY_ENABLE=1"
MBEDTLS_DIR=$mbedtls_src_tree make clean bl2 bl31 rcar \
PLAT=rcar ${RCAR_OPT} SPD=opteed
- Build optee-os
Result: tee.srec
.. code:: bash
make -j8 PLATFORM="rcar" CFG_ARM64_core=y
Install Procedure
-----------------
- Boot the board in Mini-monitor mode and enable access to the
Hyperflash.
- Use the XSL2 Mini-monitor utility to accept all the SREC ascii
transfers over serial.
Boot trace
==========
Notice that BL31 traces are not accessible via the console and that in
order to verbose the BL2 output you will have to compile TF-A with
LOG_LEVEL=50 and DEBUG=1
::
Initial Program Loader(CA57) Rev.1.0.22
NOTICE: BL2: PRR is R-Car H3 Ver.1.1
NOTICE: BL2: Board is Salvator-X Rev.1.0
NOTICE: BL2: Boot device is HyperFlash(80MHz)
NOTICE: BL2: LCM state is CM
NOTICE: AVS setting succeeded. DVFS_SetVID=0x53
NOTICE: BL2: DDR1600(rev.0.33)NOTICE: [COLD_BOOT]NOTICE: ..0
NOTICE: BL2: DRAM Split is 4ch
NOTICE: BL2: QoS is default setting(rev.0.37)
NOTICE: BL2: Lossy Decomp areas
NOTICE: Entry 0: DCMPAREACRAx:0x80000540 DCMPAREACRBx:0x570
NOTICE: Entry 1: DCMPAREACRAx:0x40000000 DCMPAREACRBx:0x0
NOTICE: Entry 2: DCMPAREACRAx:0x20000000 DCMPAREACRBx:0x0
NOTICE: BL2: v2.0(release):v2.0-rc0-32-gbcda69a
NOTICE: BL2: Built : 16:41:23, Oct 2 2018
NOTICE: BL2: Normal boot
INFO: BL2: Doing platform setup
INFO: BL2: Loading image id 3
NOTICE: BL2: dst=0xe6322000 src=0x8180000 len=512(0x200)
NOTICE: BL2: dst=0x43f00000 src=0x8180400 len=6144(0x1800)
WARNING: r-car ignoring the BL31 size from certificate,using
RCAR_TRUSTED_SRAM_SIZE instead
INFO: Loading image id=3 at address 0x44000000
NOTICE: rcar_file_len: len: 0x0003e000
NOTICE: BL2: dst=0x44000000 src=0x81c0000 len=253952(0x3e000)
INFO: Image id=3 loaded: 0x44000000 - 0x4403e000
INFO: BL2: Loading image id 4
INFO: Loading image id=4 at address 0x44100000
NOTICE: rcar_file_len: len: 0x00100000
NOTICE: BL2: dst=0x44100000 src=0x8200000 len=1048576(0x100000)
INFO: Image id=4 loaded: 0x44100000 - 0x44200000
INFO: BL2: Loading image id 5
INFO: Loading image id=5 at address 0x50000000
NOTICE: rcar_file_len: len: 0x00100000
NOTICE: BL2: dst=0x50000000 src=0x8640000 len=1048576(0x100000)
INFO: Image id=5 loaded: 0x50000000 - 0x50100000
NOTICE: BL2: Booting BL31
INFO: Entry point address = 0x44000000
INFO: SPSR = 0x3cd
VERBOSE: Argument #0 = 0xe6325578
VERBOSE: Argument #1 = 0x0
VERBOSE: Argument #2 = 0x0
VERBOSE: Argument #3 = 0x0
VERBOSE: Argument #4 = 0x0
VERBOSE: Argument #5 = 0x0
VERBOSE: Argument #6 = 0x0
VERBOSE: Argument #7 = 0x0
U-Boot 2018.09-rc3-00028-g3711616 (Sep 27 2018 - 18:50:24 +0200)
CPU: Renesas Electronics R8A7795 rev 1.1
Model: Renesas Salvator-X board based on r8a7795 ES2.0+
DRAM: 3.5 GiB
Flash: 64 MiB
MMC: sd@ee100000: 0, sd@ee140000: 1, sd@ee160000: 2
Loading Environment from MMC... OK
In: serial@e6e88000
Out: serial@e6e88000
Err: serial@e6e88000
Net: eth0: ethernet@e6800000
Hit any key to stop autoboot: 0
=>

33
drivers/renesas/rcar/common.c Normal file
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@ -0,0 +1,33 @@
/*
* Copyright (c) 2018, Renesas Electronics Corporation. All rights reserved.
*
* SPDX-License-Identifier: BSD-3-Clause
*/
#include <mmio.h>
#include "rcar_private.h"
void
#if IMAGE_BL31
__attribute__ ((section(".system_ram")))
#endif
cpg_write(uintptr_t regadr, uint32_t regval)
{
uint32_t value = (regval);
mmio_write_32((uintptr_t) RCAR_CPGWPR, ~value);
mmio_write_32(regadr, value);
}
void
#if IMAGE_BL31
__attribute__ ((section(".system_ram")))
#endif
mstpcr_write(uint32_t mstpcr, uint32_t mstpsr, uint32_t target_bit)
{
uint32_t reg;
reg = mmio_read_32(mstpcr);
reg &= ~target_bit;
cpg_write(mstpcr, reg);
while ((mmio_read_32(mstpsr) & target_bit) != 0U) {
}
}

10
maintainers.rst
View File

@ -140,6 +140,15 @@ Raspberry Pi 3 platform port
:F: docs/plat/rpi3.rst
:F: plat/rpi3/
Renesas rcar-gen3 platform port
-------------------------------
:M: Jorge Ramirez-Ortiz <jramirez@baylibre.com>
:G: `ldts`_
:F: docs/plat/rcar-gen3.rst
:F: plat/renesas/rcar
:F: drivers/renesas/rcar
:F: tools/renesas/rcar_layout_create
RockChip platform port
----------------------
:M: Tony Xie <tony.xie@rock-chips.com>
@ -208,6 +217,7 @@ Xilinx platform port
.. _glneo: https://github.com/glneo
.. _hzhuang1: https://github.com/hzhuang1
.. _jenswi-linaro: https://github.com/jenswi-linaro
.. _ldts: https://github.com/ldts
.. _niej: https://github.com/niej
.. _kostapr: https://github.com/kostapr
.. _masahir0y: https://github.com/masahir0y

376
plat/renesas/rcar/aarch64/plat_helpers.S Normal file
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@ -0,0 +1,376 @@
/*
* Copyright (c) 2013-2014, ARM Limited and Contributors. All rights reserved.
* Copyright (c) 2015-2018, Renesas Electronics Corporation. All rights reserved.
*
* SPDX-License-Identifier: BSD-3-Clause
*/
#include <arch.h>
#include <asm_macros.S>
#include <bl_common.h>
#include <cortex_a57.h>
#include <platform_def.h>
#include <runtime_svc.h>
#include "rcar_def.h"
.globl plat_get_my_entrypoint
.extern plat_set_my_stack
.globl platform_mem_init
.globl plat_crash_console_init
.globl plat_crash_console_putc
.globl plat_invalidate_icache
.globl plat_report_exception
.globl plat_secondary_reset
.globl plat_reset_handler
.globl plat_my_core_pos
.extern rcar_log_init
#if IMAGE_BL2
#define INT_ID_MASK (0x3ff)
.extern bl2_interrupt_error_type
.extern bl2_interrupt_error_id
.globl bl2_enter_bl31
.extern gicv2_acknowledge_interrupt
.extern rcar_swdt_exec
#endif
/* -----------------------------------------------------
* void platform_get_core_pos (mpidr)
* -----------------------------------------------------
*/
func platform_get_core_pos
and x1, x0, #MPIDR_CPU_MASK
and x0, x0, #MPIDR_CLUSTER_MASK
add x0, x1, x0, LSR #6
ret
endfunc platform_get_core_pos
/* -----------------------------------------------------
* void platform_my_core_pos
* -----------------------------------------------------
*/
func plat_my_core_pos
mrs x0, mpidr_el1
b platform_get_core_pos
endfunc plat_my_core_pos
/* -----------------------------------------------------
* void platform_get_my_entrypoint (unsigned int mpid);
*
* Main job of this routine is to distinguish between
* a cold and warm boot.
* On a cold boot the secondaries first wait for the
* platform to be initialized after which they are
* hotplugged in. The primary proceeds to perform the
* platform initialization.
* On a warm boot, each cpu jumps to the address in its
* mailbox.
*
* TODO: Not a good idea to save lr in a temp reg
* -----------------------------------------------------
*/
func plat_get_my_entrypoint
mrs x0, mpidr_el1
mov x9, x30 /* lr */
#if defined(IMAGE_BL2)
/* always cold boot on bl2 */
mov x0, #0
ret x9
#else
ldr x1, =BOOT_KIND_BASE
ldr x21, [x1]
/* Check the reset info */
and x1, x21, #0x000c
cmp x1, #0x0008
beq el3_panic
cmp x1, #0x000c
beq el3_panic
/* Check the boot kind */
and x1, x21, #0x0003
cmp x1, #0x0002
beq el3_panic
cmp x1, #0x0003
beq el3_panic
/* warm boot or cold boot */
and x1, x21, #1
cmp x1, #0
bne warm_reset
/* Cold boot */
mov x0, #0
b exit
warm_reset:
/* --------------------------------------------------------------------
* A per-cpu mailbox is maintained in the trusted SDRAM. Its flushed out
* of the caches after every update using normal memory so its safe to
* read it here with SO attributes
* ---------------------------------------------------------------------
*/
ldr x10, =MBOX_BASE
bl platform_get_core_pos
lsl x0, x0, #CACHE_WRITEBACK_SHIFT
ldr x0, [x10, x0]
cbz x0, _panic
exit:
ret x9
_panic:
b do_panic
#endif
endfunc plat_get_my_entrypoint
/* ---------------------------------------------
* plat_secondary_reset
*
* ---------------------------------------------
*/
func plat_secondary_reset
mrs x0, sctlr_el3
bic x0, x0, #SCTLR_EE_BIT
msr sctlr_el3, x0
isb
mrs x0, cptr_el3
bic w0, w0, #TCPAC_BIT
bic w0, w0, #TTA_BIT
bic w0, w0, #TFP_BIT
msr cptr_el3, x0
mov_imm x0, PARAMS_BASE
mov_imm x2, BL31_BASE
ldr x3, =BOOT_KIND_BASE
mov x1, #0x1
str x1, [x3]
br x2 /* jump to BL31 */
nop
nop
nop
endfunc plat_secondary_reset
/* ---------------------------------------------
* plat_enter_bl31
*
* ---------------------------------------------
*/
func bl2_enter_bl31
mov x20, x0
/*
* MMU needs to be disabled because both BL2 and BL31 execute
* in EL3, and therefore share the same address space.
* BL31 will initialize the address space according to its
* own requirement.
*/
#if RCAR_BL2_DCACHE == 1
/* Disable mmu and data cache */
bl disable_mmu_el3
/* Data cache clean and invalidate */
mov x0, #DCCISW
bl dcsw_op_all
/* TLB invalidate all, EL3 */
tlbi alle3
#endif /* RCAR_BL2_DCACHE == 1 */
bl disable_mmu_icache_el3
/* Invalidate instruction cache */
ic iallu
dsb sy
isb
ldp x0, x1, [x20, #ENTRY_POINT_INFO_PC_OFFSET]
msr elr_el3, x0
msr spsr_el3, x1
eret
endfunc bl2_enter_bl31
/* -----------------------------------------------------
* void platform_mem_init (void);
*
* Zero out the mailbox registers in the shared memory
* and set the rcar_boot_kind_flag.
* The mmu is turned off right now and only the primary can
* ever execute this code. Secondaries will read the
* mailboxes using SO accesses.
* -----------------------------------------------------
*/
func platform_mem_init
#if !IMAGE_BL2
ldr x0, =MBOX_BASE
mov w1, #PLATFORM_CORE_COUNT
loop:
str xzr, [x0], #CACHE_WRITEBACK_GRANULE
subs w1, w1, #1
b.gt loop
#endif
ret
endfunc platform_mem_init
/* ---------------------------------------------
* void plat_report_exception(unsigned int type)
* Function to report an unhandled exception
* with platform-specific means.
* ---------------------------------------------
*/
func plat_report_exception
#if IMAGE_BL2
mov w1, #FIQ_SP_EL0
cmp w0, w1
beq rep_exec_fiq_elx
b rep_exec_panic_type
rep_exec_fiq_elx:
bl gicv2_acknowledge_interrupt
mov x2, #INT_ID_MASK
and x0, x0, x2
mov x1, #ARM_IRQ_SEC_WDT
cmp x0, x1
bne rep_exec_panic_id
mrs x0, ELR_EL3
b rcar_swdt_exec
rep_exec_panic_type:
/* x0 is interrupt TYPE */
b bl2_interrupt_error_type
rep_exec_panic_id:
/* x0 is interrupt ID */
b bl2_interrupt_error_id
rep_exec_end:
#endif
ret
endfunc plat_report_exception
/* ---------------------------------------------
* int plat_crash_console_init(void)
* Function to initialize log area
* ---------------------------------------------
*/
func plat_crash_console_init
#if IMAGE_BL2
mov x0, #0
#else
mov x1, sp
mov_imm x2, RCAR_CRASH_STACK
mov sp, x2
str x1, [sp, #-16]!
str x30, [sp, #-16]!
bl console_core_init
ldr x30, [sp], #16
ldr x1, [sp], #16
mov sp, x1
#endif
ret
endfunc plat_crash_console_init
/* ---------------------------------------------
* int plat_crash_console_putc(int c)
* Function to store a character to log area
* ---------------------------------------------
*/
func plat_crash_console_putc
mov x1, sp
mov_imm x2, RCAR_CRASH_STACK
mov sp, x2
str x1, [sp, #-16]!
str x30, [sp, #-16]!
str x3, [sp, #-16]!
str x4, [sp, #-16]!
str x5, [sp, #-16]!
bl console_core_putc
ldr x5, [sp], #16
ldr x4, [sp], #16
ldr x3, [sp], #16
ldr x30, [sp], #16
ldr x1, [sp], #16
mov sp, x1
ret
endfunc plat_crash_console_putc
/* --------------------------------------------------------------------
* void plat_reset_handler(void);
*
* Before adding code in this function, refer to the guidelines in
* docs/firmware-design.md to determine whether the code should reside
* within the FIRST_RESET_HANDLER_CALL block or not.
*
* For R-Car H3:
* - Set the L2 Tag RAM latency to 2 (i.e. 3 cycles) for Cortex-A57
* - Set the L2 Data setup latency to 1 (i.e. 1 cycles) for Cortex-A57
* - Set the L2 Data RAM latency to 3 (i.e. 4 cycles) for Cortex-A57
* For R-Car M3/M3N:
* - Set the L2 Tag RAM latency to 2 (i.e. 3 cycles) for Cortex-A57
* - Set the L2 Data setup latency to 0 (i.e. 0 cycles) for Cortex-A57
* - Set the L2 Data RAM latency to 3 (i.e. 4 cycles) for Cortex-A57
*
* --------------------------------------------------------------------
*/
func plat_reset_handler
/*
* On R-Car H3 : x2 := 0
* On R-Car M3/M3N: x2 := 1
*/
/* read PRR */
ldr x0, =0xFFF00044
ldr w0, [x0]
ubfx w0, w0, 8, 8
/* H3? */
cmp w0, #0x4F
b.eq H3
/* set R-Car M3/M3N */
mov x2, #1
b CHK_A5x
H3:
/* set R-Car H3 */
mov x2, #0
/* --------------------------------------------------------------------
* Determine whether this code is executed on a Cortex-A53 or on a
* Cortex-A57 core.
* --------------------------------------------------------------------
*/
CHK_A5x:
mrs x0, midr_el1
ubfx x1, x0, MIDR_PN_SHIFT, #12
cmp w1, #((CORTEX_A57_MIDR >> MIDR_PN_SHIFT) & MIDR_PN_MASK)
b.eq A57
ret
A57:
/* Get data from CORTEX_A57_L2CTLR_EL1 */
mrs x0, CORTEX_A57_L2CTLR_EL1
/*
* On R-Car H3/M3/M3N
*
* L2 Tag RAM latency is bit8-6 of CORTEX_A57_L2CTLR_EL1
* L2 Data RAM setup is bit5 of CORTEX_A57_L2CTLR_EL1
* L2 Data RAM latency is bit2-0 of CORTEX_A57_L2CTLR_EL1
*/
/* clear bit of L2 RAM */
/* ~(0x1e7) -> x1 */
mov x1, #0x1e7
neg x1, x1
/* clear bit of L2 RAM -> x0 */
and x0, x0, x1
/* L2 Tag RAM latency (3 cycles) */
orr x0, x0, #0x2 << 6
/* If M3/M3N then L2 RAM setup is 0 */
cbnz x2, M3_L2
/* L2 Data RAM setup (1 cycle) */
orr x0, x0, #0x1 << 5
M3_L2:
/* L2 Data RAM latency (4 cycles) */
orr x0, x0, #0x3
/* Store data to L2CTLR_EL1 */
msr CORTEX_A57_L2CTLR_EL1, x0
apply_l2_ram_latencies:
ret
endfunc plat_reset_handler
/* ---------------------------------------------
* void plat_invalidate_icache(void)
* Instruction Cache Invalidate All to PoU
* ---------------------------------------------
*/
func plat_invalidate_icache
ic iallu
ret
endfunc plat_invalidate_icache

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plat/renesas/rcar/aarch64/platform_common.c Normal file
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/*
* Copyright (c) 2013-2014, ARM Limited and Contributors. All rights reserved.
* Copyright (c) 2015-2017, Renesas Electronics Corporation. All rights reserved.
*
* SPDX-License-Identifier: BSD-3-Clause
*/
#include <arch.h>
#include <arch_helpers.h>
#include <bl_common.h>
#include <debug.h>
#include <gicv2.h>
#include <gic_common.h>
#include <interrupt_props.h>
#include <mmio.h>
#include <platform.h>
#include <platform_def.h>
#include <xlat_tables_v2.h>
#include "rcar_def.h"
#include "rcar_private.h"
#include "rcar_version.h"
#if (IMAGE_BL2)
extern void rcar_read_certificate(uint64_t cert, uint32_t *len, uintptr_t *p);
extern int32_t rcar_get_certificate(const int32_t name, uint32_t *cert);
#endif
const uint8_t version_of_renesas[VERSION_OF_RENESAS_MAXLEN]
__attribute__ ((__section__("ro"))) = VERSION_OF_RENESAS;
#define MAP_SHARED_RAM MAP_REGION_FLAT(RCAR_SHARED_MEM_BASE, \
RCAR_SHARED_MEM_SIZE, \
MT_MEMORY | MT_RW | MT_SECURE)
#define MAP_FLASH0 MAP_REGION_FLAT(FLASH0_BASE, \
FLASH0_SIZE, \
MT_MEMORY | MT_RO | MT_SECURE)
#define MAP_DRAM1_NS MAP_REGION_FLAT(DRAM1_NS_BASE, \
DRAM1_NS_SIZE, \
MT_MEMORY | MT_RW | MT_NS)
#define MAP_DEVICE_RCAR MAP_REGION_FLAT(DEVICE_RCAR_BASE, \
DEVICE_RCAR_SIZE, \
MT_DEVICE | MT_RW | MT_SECURE)
#define MAP_DEVICE_RCAR2 MAP_REGION_FLAT(DEVICE_RCAR_BASE2, \
DEVICE_RCAR_SIZE2, \
MT_DEVICE | MT_RW | MT_SECURE)
#define MAP_SRAM MAP_REGION_FLAT(DEVICE_SRAM_BASE, \
DEVICE_SRAM_SIZE, \
MT_MEMORY | MT_RO | MT_SECURE)
#define MAP_SRAM_STACK MAP_REGION_FLAT(DEVICE_SRAM_STACK_BASE, \
DEVICE_SRAM_STACK_SIZE, \
MT_MEMORY | MT_RW | MT_SECURE)
#define MAP_ATFW_CRASH MAP_REGION_FLAT(RCAR_BL31_CRASH_BASE, \
RCAR_BL31_CRASH_SIZE, \
MT_MEMORY | MT_RW | MT_SECURE)
#define MAP_ATFW_LOG MAP_REGION_FLAT(RCAR_BL31_LOG_BASE, \
RCAR_BL31_LOG_SIZE, \
MT_DEVICE | MT_RW | MT_SECURE)
#if IMAGE_BL2
#define MAP_DRAM0 MAP_REGION_FLAT(DRAM1_BASE, \
DRAM1_SIZE, \
MT_MEMORY | MT_RW | MT_SECURE)
#define MAP_REG0 MAP_REGION_FLAT(DEVICE_RCAR_BASE, \
DEVICE_RCAR_SIZE, \
MT_DEVICE | MT_RW | MT_SECURE)
#define MAP_RAM0 MAP_REGION_FLAT(RCAR_SYSRAM_BASE, \
RCAR_SYSRAM_SIZE, \
MT_MEMORY | MT_RW | MT_SECURE)
#define MAP_REG1 MAP_REGION_FLAT(REG1_BASE, \
REG1_SIZE, \
MT_DEVICE | MT_RW | MT_SECURE)
#define MAP_ROM MAP_REGION_FLAT(ROM0_BASE, \
ROM0_SIZE, \
MT_MEMORY | MT_RO | MT_SECURE)
#define MAP_REG2 MAP_REGION_FLAT(REG2_BASE, \
REG2_SIZE, \
MT_DEVICE | MT_RW | MT_SECURE)
#define MAP_DRAM1 MAP_REGION_FLAT(DRAM_40BIT_BASE, \
DRAM_40BIT_SIZE, \
MT_MEMORY | MT_RW | MT_SECURE)
#endif
#ifdef BL32_BASE
#define MAP_BL32_MEM MAP_REGION_FLAT(BL32_BASE, \
BL32_LIMIT - BL32_BASE, \
MT_MEMORY | MT_RW | MT_SECURE)
#endif
#if IMAGE_BL2
const mmap_region_t rcar_mmap[] = {
MAP_FLASH0, /* 0x08000000 - 0x0BFFFFFF RPC area */
MAP_DRAM0, /* 0x40000000 - 0xBFFFFFFF DRAM area(Legacy) */
MAP_REG0, /* 0xE6000000 - 0xE62FFFFF SoC register area */
MAP_RAM0, /* 0xE6300000 - 0xE6303FFF System RAM area */
MAP_REG1, /* 0xE6400000 - 0xEAFFFFFF SoC register area */
MAP_ROM, /* 0xEB100000 - 0xEB127FFF boot ROM area */
MAP_REG2, /* 0xEC000000 - 0xFFFFFFFF SoC register area */
MAP_DRAM1, /* 0x0400000000 - 0x07FFFFFFFF DRAM area(4GB over) */
{0}
};
#endif
#if IMAGE_BL31
const mmap_region_t rcar_mmap[] = {
MAP_SHARED_RAM,
MAP_ATFW_CRASH,
MAP_ATFW_LOG,
MAP_DEVICE_RCAR,
MAP_DEVICE_RCAR2,
MAP_SRAM,
MAP_SRAM_STACK,
{0}
};
#endif
#if IMAGE_BL32
const mmap_region_t rcar_mmap[] = {
MAP_DEVICE0,
MAP_DEVICE1,
{0}
};
#endif
CASSERT(ARRAY_SIZE(rcar_mmap) + RCAR_BL_REGIONS
<= MAX_MMAP_REGIONS, assert_max_mmap_regions);
/*
* Macro generating the code for the function setting up the pagetables as per
* the platform memory map & initialize the mmu, for the given exception level
*/
#if USE_COHERENT_MEM
void rcar_configure_mmu_el3(unsigned long total_base,
unsigned long total_size,
unsigned long ro_start,
unsigned long ro_limit,
unsigned long coh_start,
unsigned long coh_limit)
{
mmap_add_region(total_base, total_base, total_size,
MT_MEMORY | MT_RW | MT_SECURE);
mmap_add_region(ro_start, ro_start, ro_limit - ro_start,
MT_MEMORY | MT_RO | MT_SECURE);
mmap_add_region(coh_start, coh_start, coh_limit - coh_start,
MT_DEVICE | MT_RW | MT_SECURE);
mmap_add(rcar_mmap);
init_xlat_tables();
enable_mmu_el3(0);
}
#else
void rcar_configure_mmu_el3(unsigned long total_base,
unsigned long total_size,
unsigned long ro_start,
unsigned long ro_limit)
{
mmap_add_region(total_base, total_base, total_size,
MT_MEMORY | MT_RW | MT_SECURE);
mmap_add_region(ro_start, ro_start, ro_limit - ro_start,
MT_MEMORY | MT_RO | MT_SECURE);
mmap_add(rcar_mmap);
init_xlat_tables();
enable_mmu_el3(0);
}
#endif
uintptr_t plat_get_ns_image_entrypoint(void)
{
#if (IMAGE_BL2)
uint32_t cert, len;
uintptr_t dst;
int32_t ret;
ret = rcar_get_certificate(NON_TRUSTED_FW_CONTENT_CERT_ID, &cert);
if (ret) {
ERROR("%s : cert file load error", __func__);
return NS_IMAGE_OFFSET;
}
rcar_read_certificate((uint64_t) cert, &len, &dst);
return dst;
#else
return NS_IMAGE_OFFSET;
#endif
}
unsigned int plat_get_syscnt_freq2(void)
{
unsigned int freq;
freq = mmio_read_32(ARM_SYS_CNTCTL_BASE + CNTFID_OFF);
if (freq == 0)
panic();
return freq;
}
void plat_rcar_gic_init(void)
{
gicv2_distif_init();
gicv2_pcpu_distif_init();
gicv2_cpuif_enable();
}
static const interrupt_prop_t interrupt_props[] = {
#if IMAGE_BL2
INTR_PROP_DESC(ARM_IRQ_SEC_WDT, GIC_HIGHEST_SEC_PRIORITY,
GICV2_INTR_GROUP0, GIC_INTR_CFG_LEVEL),
#else
INTR_PROP_DESC(ARM_IRQ_SEC_PHY_TIMER, GIC_HIGHEST_SEC_PRIORITY,
GICV2_INTR_GROUP0, GIC_INTR_CFG_LEVEL),
INTR_PROP_DESC(ARM_IRQ_SEC_SGI_0, GIC_HIGHEST_SEC_PRIORITY,
GICV2_INTR_GROUP0, GIC_INTR_CFG_EDGE),
INTR_PROP_DESC(ARM_IRQ_SEC_SGI_1, GIC_HIGHEST_SEC_PRIORITY,
GICV2_INTR_GROUP0, GIC_INTR_CFG_EDGE),
INTR_PROP_DESC(ARM_IRQ_SEC_SGI_2, GIC_HIGHEST_SEC_PRIORITY,
GICV2_INTR_GROUP0, GIC_INTR_CFG_EDGE),
INTR_PROP_DESC(ARM_IRQ_SEC_SGI_3, GIC_HIGHEST_SEC_PRIORITY,
GICV2_INTR_GROUP0, GIC_INTR_CFG_EDGE),
INTR_PROP_DESC(ARM_IRQ_SEC_SGI_4, GIC_HIGHEST_SEC_PRIORITY,
GICV2_INTR_GROUP0, GIC_INTR_CFG_EDGE),
INTR_PROP_DESC(ARM_IRQ_SEC_SGI_5, GIC_HIGHEST_SEC_PRIORITY,
GICV2_INTR_GROUP0, GIC_INTR_CFG_EDGE),
INTR_PROP_DESC(ARM_IRQ_SEC_SGI_6, GIC_HIGHEST_SEC_PRIORITY,
GICV2_INTR_GROUP0, GIC_INTR_CFG_EDGE),
INTR_PROP_DESC(ARM_IRQ_SEC_SGI_7, GIC_HIGHEST_SEC_PRIORITY,
GICV2_INTR_GROUP0, GIC_INTR_CFG_EDGE),
INTR_PROP_DESC(ARM_IRQ_SEC_RPC, GIC_HIGHEST_SEC_PRIORITY,
GICV2_INTR_GROUP0, GIC_INTR_CFG_LEVEL),
INTR_PROP_DESC(ARM_IRQ_SEC_TIMER, GIC_HIGHEST_SEC_PRIORITY,
GICV2_INTR_GROUP0, GIC_INTR_CFG_LEVEL),
INTR_PROP_DESC(ARM_IRQ_SEC_TIMER_UP, GIC_HIGHEST_SEC_PRIORITY,
GICV2_INTR_GROUP0, GIC_INTR_CFG_LEVEL),
INTR_PROP_DESC(ARM_IRQ_SEC_WDT, GIC_HIGHEST_SEC_PRIORITY,
GICV2_INTR_GROUP0, GIC_INTR_CFG_LEVEL),
INTR_PROP_DESC(ARM_IRQ_SEC_CRYPT, GIC_HIGHEST_SEC_PRIORITY,
GICV2_INTR_GROUP0, GIC_INTR_CFG_LEVEL),
INTR_PROP_DESC(ARM_IRQ_SEC_CRYPT_SecPKA, GIC_HIGHEST_SEC_PRIORITY,
GICV2_INTR_GROUP0, GIC_INTR_CFG_LEVEL),
INTR_PROP_DESC(ARM_IRQ_SEC_CRYPT_PubPKA, GIC_HIGHEST_SEC_PRIORITY,
GICV2_INTR_GROUP0, GIC_INTR_CFG_LEVEL),
#endif
};
static const gicv2_driver_data_t plat_gicv2_driver_data = {
.interrupt_props = interrupt_props,
.interrupt_props_num = (uint32_t) ARRAY_SIZE(interrupt_props),
.gicd_base = RCAR_GICD_BASE,
.gicc_base = RCAR_GICC_BASE,
};
void plat_rcar_gic_driver_init(void)
{
gicv2_driver_init(&plat_gicv2_driver_data);
}

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/*
* Copyright (c) 2015-2018, Renesas Electronics Corporation. All rights reserved.
*
* SPDX-License-Identifier: BSD-3-Clause
*/
#include <debug.h>
#include <mmio.h>
#include "rcar_def.h"
#include "cpg_registers.h"
#include "rcar_private.h"
static void bl2_secure_cpg_init(void);
#if (RCAR_LSI == RCAR_AUTO) || (RCAR_LSI == RCAR_H3) || (RCAR_LSI == RCAR_H3N)
static void bl2_realtime_cpg_init_h3(void);
static void bl2_system_cpg_init_h3(void);
#endif
#if (RCAR_LSI == RCAR_AUTO) || (RCAR_LSI == RCAR_M3)
static void bl2_realtime_cpg_init_m3(void);
static void bl2_system_cpg_init_m3(void);
#endif
#if (RCAR_LSI == RCAR_AUTO) || (RCAR_LSI == RCAR_M3N)
static void bl2_realtime_cpg_init_m3n(void);
static void bl2_system_cpg_init_m3n(void);
#endif
#if (RCAR_LSI == RCAR_E3)
static void bl2_realtime_cpg_init_e3(void);
static void bl2_system_cpg_init_e3(void);
#endif
typedef struct {
uintptr_t adr;
uint32_t val;
} reg_setting_t;
static void bl2_secure_cpg_init(void)
{
uint32_t stop_cr2, reset_cr2;
#if (RCAR_LSI == RCAR_E3)
reset_cr2 = 0x10000000U stop_cr2 = 0xEFFFFFFFU;
#else
reset_cr2 = 0x14000000U;
stop_cr2 = 0xEBFFFFFFU;
#endif
/** Secure Module Stop Control Registers */
cpg_write(SCMSTPCR0, 0xFFFFFFFFU);
cpg_write(SCMSTPCR1, 0xFFFFFFFFU);
cpg_write(SCMSTPCR2, stop_cr2);
cpg_write(SCMSTPCR3, 0xFFFFFFFFU);
cpg_write(SCMSTPCR4, 0x7FFFFFFFU);
cpg_write(SCMSTPCR5, 0xBFFFFFFFU);
cpg_write(SCMSTPCR6, 0xFFFFFFFFU);
cpg_write(SCMSTPCR7, 0xFFFFFFFFU);
cpg_write(SCMSTPCR8, 0xFFFFFFFFU);
cpg_write(SCMSTPCR9, 0xFFFDFFFFU);
cpg_write(SCMSTPCR10, 0xFFFFFFFFU);
cpg_write(SCMSTPCR11, 0xFFFFFFFFU);
/** Secure Software Reset Access Enable Control Registers */
cpg_write(SCSRSTECR0, 0x00000000U);
cpg_write(SCSRSTECR1, 0x00000000U);
cpg_write(SCSRSTECR2, reset_cr2);
cpg_write(SCSRSTECR3, 0x00000000U);
cpg_write(SCSRSTECR4, 0x80000003U);
cpg_write(SCSRSTECR5, 0x40000000U);
cpg_write(SCSRSTECR6, 0x00000000U);
cpg_write(SCSRSTECR7, 0x00000000U);
cpg_write(SCSRSTECR8, 0x00000000U);
cpg_write(SCSRSTECR9, 0x00020000U);
cpg_write(SCSRSTECR10, 0x00000000U);
cpg_write(SCSRSTECR11, 0x00000000U);
}
#if (RCAR_LSI == RCAR_AUTO) || (RCAR_LSI == RCAR_H3) || (RCAR_LSI == RCAR_H3N)
static void bl2_realtime_cpg_init_h3(void)
{
uint32_t cut = mmio_read_32(RCAR_PRR) & RCAR_CUT_MASK;
uint32_t cr0, cr8;
cr0 = (cut == RCAR_CUT_VER10 || cut == RCAR_CUT_VER11) ?
0x00200000U : 0x00210000U;
cr8 = (cut == RCAR_CUT_VER10 || cut == RCAR_CUT_VER11) ?
0x01F1FFF4U : 0x01F1FFF7U;
cpg_write(RMSTPCR0, cr0);
cpg_write(RMSTPCR1, 0xFFFFFFFFU);
cpg_write(RMSTPCR2, 0x040E0FDCU);
cpg_write(RMSTPCR3, 0xFFFFFFDFU);
cpg_write(RMSTPCR4, 0x80000004U);
cpg_write(RMSTPCR5, 0xC3FFFFFFU);
cpg_write(RMSTPCR6, 0xFFFFFFFFU);
cpg_write(RMSTPCR7, 0xFFFFFFFFU);
cpg_write(RMSTPCR8, cr8);
cpg_write(RMSTPCR9, 0xFFFFFFFEU);
cpg_write(RMSTPCR10, 0xFFFEFFE0U);
cpg_write(RMSTPCR11, 0x000000B7U);
}
static void bl2_system_cpg_init_h3(void)
{
/** System Module Stop Control Registers */
cpg_write(SMSTPCR0, 0x00210000U);
cpg_write(SMSTPCR1, 0xFFFFFFFFU);
cpg_write(SMSTPCR2, 0x040E2FDCU);
cpg_write(SMSTPCR3, 0xFFFFFBDFU);
cpg_write(SMSTPCR4, 0x80000004U);
cpg_write(SMSTPCR5, 0xC3FFFFFFU);
cpg_write(SMSTPCR6, 0xFFFFFFFFU);
cpg_write(SMSTPCR7, 0xFFFFFFFFU);
cpg_write(SMSTPCR8, 0x01F1FFF5U);
cpg_write(SMSTPCR9, 0xFFFFFFFFU);
cpg_write(SMSTPCR10, 0xFFFEFFE0U);
cpg_write(SMSTPCR11, 0x000000B7U);
}
#endif
#if (RCAR_LSI == RCAR_AUTO) || (RCAR_LSI == RCAR_M3)
static void bl2_realtime_cpg_init_m3(void)
{
/** Realtime Module Stop Control Registers */
cpg_write(RMSTPCR0, 0x00200000U);
cpg_write(RMSTPCR1, 0xFFFFFFFFU);
cpg_write(RMSTPCR2, 0x040E0FDCU);
cpg_write(RMSTPCR3, 0xFFFFFFDFU);
cpg_write(RMSTPCR4, 0x80000004U);
cpg_write(RMSTPCR5, 0xC3FFFFFFU);
cpg_write(RMSTPCR6, 0xFFFFFFFFU);
cpg_write(RMSTPCR7, 0xFFFFFFFFU);
cpg_write(RMSTPCR8, 0x01F1FFF7U);
cpg_write(RMSTPCR9, 0xFFFFFFFEU);
cpg_write(RMSTPCR10, 0xFFFEFFE0U);
cpg_write(RMSTPCR11, 0x000000B7U);
}
static void bl2_system_cpg_init_m3(void)
{
/** System Module Stop Control Registers */
cpg_write(SMSTPCR0, 0x00200000U);
cpg_write(SMSTPCR1, 0xFFFFFFFFU);
cpg_write(SMSTPCR2, 0x040E2FDCU);
cpg_write(SMSTPCR3, 0xFFFFFBDFU);
cpg_write(SMSTPCR4, 0x80000004U);
cpg_write(SMSTPCR5, 0xC3FFFFFFU);
cpg_write(SMSTPCR6, 0xFFFFFFFFU);
cpg_write(SMSTPCR7, 0xFFFFFFFFU);
cpg_write(SMSTPCR8, 0x01F1FFF7U);
cpg_write(SMSTPCR9, 0xFFFFFFFFU);
cpg_write(SMSTPCR10, 0xFFFEFFE0U);
cpg_write(SMSTPCR11, 0x000000B7U);
}
#endif
#if (RCAR_LSI == RCAR_AUTO) || (RCAR_LSI == RCAR_M3N)
static void bl2_realtime_cpg_init_m3n(void)
{
/** Realtime Module Stop Control Registers */
cpg_write(RMSTPCR0, 0x00210000U);
cpg_write(RMSTPCR1, 0xFFFFFFFFU);
cpg_write(RMSTPCR2, 0x040E0FDCU);
cpg_write(RMSTPCR3, 0xFFFFFFDFU);
cpg_write(RMSTPCR4, 0x80000004U);
cpg_write(RMSTPCR5, 0xC3FFFFFFU);
cpg_write(RMSTPCR6, 0xFFFFFFFFU);
cpg_write(RMSTPCR7, 0xFFFFFFFFU);
cpg_write(RMSTPCR8, 0x00F1FFF7U);
cpg_write(RMSTPCR9, 0xFFFFFFFFU);
cpg_write(RMSTPCR10, 0xFFFFFFE0U);
cpg_write(RMSTPCR11, 0x000000B7U);
}
static void bl2_system_cpg_init_m3n(void)
{
/* System Module Stop Control Registers */
cpg_write(SMSTPCR0, 0x00210000U);
cpg_write(SMSTPCR1, 0xFFFFFFFFU);
cpg_write(SMSTPCR2, 0x040E2FDCU);
cpg_write(SMSTPCR3, 0xFFFFFBDFU);
cpg_write(SMSTPCR4, 0x80000004U);
cpg_write(SMSTPCR5, 0xC3FFFFFFU);
cpg_write(SMSTPCR6, 0xFFFFFFFFU);
cpg_write(SMSTPCR7, 0xFFFFFFFFU);
cpg_write(SMSTPCR8, 0x00F1FFF7U);
cpg_write(SMSTPCR9, 0xFFFFFFFFU);
cpg_write(SMSTPCR10, 0xFFFFFFE0U);
cpg_write(SMSTPCR11, 0x000000B7U);
}
#endif
#if (RCAR_LSI == RCAR_E3)
static void bl2_realtime_cpg_init_e3(void)
{
/* Realtime Module Stop Control Registers */
cpg_write(RMSTPCR0, 0x00210000U);
cpg_write(RMSTPCR1, 0xFFFFFFFFU);
cpg_write(RMSTPCR2, 0x000E0FDCU);
cpg_write(RMSTPCR3, 0xFFFFFFDFU);
cpg_write(RMSTPCR4, 0x80000004U);
cpg_write(RMSTPCR5, 0xC3FFFFFFU);
cpg_write(RMSTPCR6, 0xFFFFFFFFU);
cpg_write(RMSTPCR7, 0xFFFFFFFFU);
cpg_write(RMSTPCR8, 0x00F1FFF7U);
cpg_write(RMSTPCR9, 0xFFFFFFDFU);
cpg_write(RMSTPCR10, 0xFFFFFFE8U);
cpg_write(RMSTPCR11, 0x000000B7U);
}
static void bl2_system_cpg_init_e3(void)
{
/* System Module Stop Control Registers */
cpg_write(SMSTPCR0, 0x00210000U);
cpg_write(SMSTPCR1, 0xFFFFFFFFU);
cpg_write(SMSTPCR2, 0x000E2FDCU);
cpg_write(SMSTPCR3, 0xFFFFFBDFU);
cpg_write(SMSTPCR4, 0x80000004U);
cpg_write(SMSTPCR5, 0xC3FFFFFFU);
cpg_write(SMSTPCR6, 0xFFFFFFFFU);
cpg_write(SMSTPCR7, 0xFFFFFFFFU);
cpg_write(SMSTPCR8, 0x00F1FFF7U);
cpg_write(SMSTPCR9, 0xFFFFFFDFU);
cpg_write(SMSTPCR10, 0xFFFFFFE8U);
cpg_write(SMSTPCR11, 0x000000B7U);
}
#endif
void bl2_cpg_init(void)
{
uint32_t boot_cpu = mmio_read_32(RCAR_MODEMR) & MODEMR_BOOT_CPU_MASK;
#if RCAR_LSI == RCAR_AUTO
uint32_t product = mmio_read_32(RCAR_PRR) & RCAR_PRODUCT_MASK;
#endif
bl2_secure_cpg_init();
if (boot_cpu == MODEMR_BOOT_CPU_CA57 ||
boot_cpu == MODEMR_BOOT_CPU_CA53) {
#if RCAR_LSI == RCAR_AUTO
switch (product) {
case RCAR_PRODUCT_H3:
bl2_realtime_cpg_init_h3();
break;
case RCAR_PRODUCT_M3:
bl2_realtime_cpg_init_m3();
break;
case RCAR_PRODUCT_M3N:
bl2_realtime_cpg_init_m3n();
break;
default:
panic();
break;
}
#elif (RCAR_LSI == RCAR_H3) || (RCAR_LSI == RCAR_H3N)
bl2_realtime_cpg_init_h3();
#elif RCAR_LSI == RCAR_M3
bl2_realtime_cpg_init_m3();
#elif RCAR_LSI == RCAR_M3N
bl2_realtime_cpg_init_m3n();
#elif RCAR_LSI == RCAR_E3
bl2_realtime_cpg_init_e3();
#else
#error "Don't have CPG initialize routine(unknown)."
#endif
}
}
void bl2_system_cpg_init(void)
{
#if RCAR_LSI == RCAR_AUTO
uint32_t product = mmio_read_32(RCAR_PRR) & RCAR_PRODUCT_MASK;
switch (product) {
case RCAR_PRODUCT_H3:
bl2_system_cpg_init_h3();
break;
case RCAR_PRODUCT_M3:
bl2_system_cpg_init_m3();
break;
case RCAR_PRODUCT_M3N:
bl2_system_cpg_init_m3n();
break;
default:
panic();
break;
}
#elif (RCAR_LSI == RCAR_H3) || (RCAR_LSI == RCAR_H3N)
bl2_system_cpg_init_h3();
#elif RCAR_LSI == RCAR_M3
bl2_system_cpg_init_m3();
#elif RCAR_LSI == RCAR_M3N
bl2_system_cpg_init_m3n();
#elif RCAR_LSI == RCAR_E3
bl2_system_cpg_init_e3();
#else
#error "Don't have CPG initialize routine(unknown)."
#endif
}

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/*
* Copyright (c) 2015-2017, Renesas Electronics Corporation. All rights reserved.
*
* SPDX-License-Identifier: BSD-3-Clause
*/
#include <arch_helpers.h>
#include <bl_common.h>
#include <debug.h>
#include <gicv2.h>
#include <mmio.h>
#include <runtime_svc.h>
#include "rcar_def.h"
#define SWDT_ERROR_ID (1024U)
#define SWDT_ERROR_TYPE (16U)
#define SWDT_CHAR_MAX (13U)
extern void rcar_swdt_release(void);
void bl2_interrupt_error_id(uint32_t int_id)
{
ERROR("\n");
if (int_id >= SWDT_ERROR_ID) {
ERROR("Unhandled exception occurred.\n");
ERROR(" Exception type = FIQ_SP_ELX\n");
panic();
}
/* Clear the interrupt request */
gicv2_end_of_interrupt((uint32_t) int_id);
rcar_swdt_release();
ERROR("Unhandled exception occurred.\n");
ERROR(" Exception type = FIQ_SP_ELX\n");
ERROR(" SPSR_EL1 = 0x%x\n", (uint32_t) read_spsr_el1());
ERROR(" ELR_EL1 = 0x%x\n", (uint32_t) read_elr_el1());
ERROR(" ESR_EL1 = 0x%x\n", (uint32_t) read_esr_el1());
ERROR(" FAR_EL1 = 0x%x\n", (uint32_t) read_far_el1());
ERROR("\n");
panic();
}
void bl2_interrupt_error_type(uint32_t ex_type)
{
const uint8_t interrupt_ex[SWDT_ERROR_TYPE][SWDT_CHAR_MAX] = {
"SYNC SP EL0",
"IRQ SP EL0",
"FIQ SP EL0",
"SERR SP EL0",
"SYNC SP ELx",
"IRQ SP ELx",
"FIQ SP ELx",
"SERR SP ELx",
"SYNC AARCH64",
"IRQ AARCH64",
"FIQ AARCH64",
"SERR AARCH64",
"SYNC AARCH32",
"IRQ AARCH32",
"FIQ AARCH32",
"SERR AARCH32"
};
char msg[128];
/* Clear the interrupt request */
if (ex_type >= SWDT_ERROR_TYPE) {
ERROR("\n");
ERROR("Unhandled exception occurred.\n");
ERROR(" Exception type = Unknown (%d)\n", ex_type);
goto loop;
}
rcar_swdt_release();
ERROR("\n");
ERROR("Unhandled exception occurred.\n");
snprintf(msg, sizeof(msg), " Exception type = %s\n",
&interrupt_ex[ex_type][0]);
ERROR("%s", msg);
switch (ex_type) {
case SYNC_EXCEPTION_SP_ELX:
ERROR(" SPSR_EL1 = 0x%x\n", (uint32_t) read_spsr_el1());
ERROR(" ELR_EL1 = 0x%x\n", (uint32_t) read_elr_el1());
ERROR(" ESR_EL1 = 0x%x\n", (uint32_t) read_esr_el1());
ERROR(" FAR_EL1 = 0x%x\n", (uint32_t) read_far_el1());
break;
case IRQ_SP_ELX:
ERROR(" SPSR_EL1 = 0x%x\n", (uint32_t) read_spsr_el1());
ERROR(" ELR_EL1 = 0x%x\n", (uint32_t) read_elr_el1());
ERROR(" IAR_EL1 = 0x%x\n", gicv2_acknowledge_interrupt());
break;
case FIQ_SP_ELX:
ERROR(" SPSR_EL1 = 0x%x\n", (uint32_t) read_spsr_el1());
ERROR(" ELR_EL1 = 0x%x\n", (uint32_t) read_elr_el1());
ERROR(" IAR_EL1 = 0x%x\n", gicv2_acknowledge_interrupt());
break;
case SERROR_SP_ELX:
ERROR(" SPSR_EL1 = 0x%x\n", (uint32_t) read_spsr_el1());
ERROR(" ELR_EL1 = 0x%x\n", (uint32_t) read_elr_el1());
ERROR(" ESR_EL1 = 0x%x\n", (uint32_t) read_esr_el1());
ERROR(" FAR_EL1 = 0x%x\n", (uint32_t) read_far_el1());
break;
default:
break;
}
loop:
ERROR("\n");
panic();
}

82
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/*
* Copyright (c) 2016-2017, ARM Limited and Contributors. All rights reserved.
*
* SPDX-License-Identifier: BSD-3-Clause
*/
#include <bl_common.h>
#include <desc_image_load.h>
#include <platform.h>
#include <platform_def.h>
#if (RCAR_BL33_EXECUTION_EL != 0) && (RCAR_BL33_EXECUTION_EL != 1)
#error
#endif
#if (RCAR_BL33_EXECUTION_EL == 0)
#define BL33_MODE MODE_EL1
#else
#define BL33_MODE MODE_EL2
#endif
static bl_mem_params_node_t bl2_mem_params_descs[] = {
{
.image_id = BL31_IMAGE_ID,
SET_STATIC_PARAM_HEAD(ep_info, PARAM_EP, VERSION_2,
entry_point_info_t, SECURE | EXECUTABLE | EP_FIRST_EXE),
.ep_info.spsr = SPSR_64(MODE_EL3,
MODE_SP_ELX, DISABLE_ALL_EXCEPTIONS),
.ep_info.pc = BL31_BASE,
SET_STATIC_PARAM_HEAD(image_info, PARAM_EP, VERSION_2,
image_info_t, IMAGE_ATTRIB_PLAT_SETUP),
.image_info.image_max_size = BL31_LIMIT - BL31_BASE,
.image_info.image_base = BL31_BASE,
# ifdef BL32_BASE
.next_handoff_image_id = BL32_IMAGE_ID,
# else
.next_handoff_image_id = BL33_IMAGE_ID,
# endif
},
# ifdef BL32_BASE
{
.image_id = BL32_IMAGE_ID,
SET_STATIC_PARAM_HEAD(ep_info, PARAM_EP, VERSION_2,
entry_point_info_t, SECURE | EXECUTABLE),
.ep_info.pc = BL32_BASE,
.ep_info.spsr = 0,
SET_STATIC_PARAM_HEAD(image_info, PARAM_EP, VERSION_2,
image_info_t, 0),
.image_info.image_max_size = BL32_LIMIT - BL32_BASE,
.image_info.image_base = BL32_BASE,
.next_handoff_image_id = BL33_IMAGE_ID,
},
#endif
{
.image_id = BL33_IMAGE_ID,
SET_STATIC_PARAM_HEAD(ep_info, PARAM_EP, VERSION_2,
entry_point_info_t, NON_SECURE | EXECUTABLE),
.ep_info.spsr = SPSR_64(BL33_MODE, MODE_SP_ELX,
DISABLE_ALL_EXCEPTIONS),
.ep_info.pc = BL33_BASE,
#ifdef RCAR_BL33_ARG0
.ep_info.args.arg0 = RCAR_BL33_ARG0,
#endif
SET_STATIC_PARAM_HEAD(image_info, PARAM_EP, VERSION_2,
image_info_t, 0),
.image_info.image_max_size =
(uint32_t) (DRAM_LIMIT - BL33_BASE),
.image_info.image_base = BL33_BASE,
.next_handoff_image_id = INVALID_IMAGE_ID,
}
};
REGISTER_BL_IMAGE_DESCS(bl2_mem_params_descs)

626
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/*
* Copyright (c) 2018, Renesas Electronics Corporation. All rights reserved.
*
* SPDX-License-Identifier: BSD-3-Clause
*/
#include <desc_image_load.h>
#include <arch_helpers.h>
#include <bl_common.h>
#include <bl1.h>
#include <console.h>
#include <debug.h>
#include <mmio.h>
#include <platform.h>
#include <platform_def.h>
#include <string.h>
#include "avs_driver.h"
#include "boot_init_dram.h"
#include "cpg_registers.h"
#include "board.h"
#include "emmc_def.h"
#include "emmc_hal.h"
#include "emmc_std.h"
#if PMIC_ROHM_BD9571 && RCAR_SYSTEM_RESET_KEEPON_DDR
#include "iic_dvfs.h"
#endif
#include "io_common.h"
#include "qos_init.h"
#include "rcar_def.h"
#include "rcar_private.h"
#include "rcar_version.h"
#include "rom_api.h"
IMPORT_SYM(unsigned long, __RO_START__, BL2_RO_BASE)
IMPORT_SYM(unsigned long, __RO_END__, BL2_RO_LIMIT)
#if USE_COHERENT_MEM
IMPORT_SYM(unsigned long, __COHERENT_RAM_START__, BL2_COHERENT_RAM_BASE)
IMPORT_SYM(unsigned long, __COHERENT_RAM_END__, BL2_COHERENT_RAM_LIMIT)
#endif
extern void plat_rcar_gic_driver_init(void);
extern void plat_rcar_gic_init(void);
extern void bl2_enter_bl31(const struct entry_point_info *bl_ep_info);
extern void bl2_system_cpg_init(void);
extern void bl2_secure_setting(void);
extern void bl2_cpg_init(void);
extern void rcar_io_emmc_setup(void);
extern void rcar_io_setup(void);
extern void rcar_swdt_release(void);
extern void rcar_swdt_init(void);
extern void rcar_rpc_init(void);
extern void rcar_pfc_init(void);
extern void rcar_dma_init(void);
/* R-Car Gen3 product check */
#if (RCAR_LSI == RCAR_H3) || (RCAR_LSI == RCAR_H3N)
#define TARGET_PRODUCT RCAR_PRODUCT_H3
#define TARGET_NAME "R-Car H3"
#elif RCAR_LSI == RCAR_M3
#define TARGET_PRODUCT RCAR_PRODUCT_M3
#define TARGET_NAME "R-Car M3"
#elif RCAR_LSI == RCAR_M3N
#define TARGET_PRODUCT RCAR_PRODUCT_M3N
#define TARGET_NAME "R-Car M3N"
#elif RCAR_LSI == RCAR_E3
#define TARGET_PRODUCT RCAR_PRODUCT_E3
#define TARGET_NAME "R-Car E3"
#endif
#if (RCAR_LSI == RCAR_E3)
#define GPIO_INDT (GPIO_INDT6)
#define GPIO_BKUP_TRG_SHIFT ((uint32_t)1U<<13U)
#else
#define GPIO_INDT (GPIO_INDT1)
#define GPIO_BKUP_TRG_SHIFT ((uint32_t)1U<<8U)
#endif
CASSERT((PARAMS_BASE + sizeof(bl2_to_bl31_params_mem_t) + 0x100)
< (RCAR_SHARED_MEM_BASE + RCAR_SHARED_MEM_SIZE),
assert_bl31_params_do_not_fit_in_shared_memory);
static meminfo_t bl2_tzram_layout __aligned(CACHE_WRITEBACK_GRANULE);
#if (RCAR_LOSSY_ENABLE == 1)
typedef struct bl2_lossy_info {
uint32_t magic;
uint32_t a0;
uint32_t b0;
} bl2_lossy_info_t;
static void bl2_lossy_setting(uint32_t no, uint64_t start_addr,
uint64_t end_addr, uint32_t format,
uint32_t enable)
{
bl2_lossy_info_t info;
uint32_t reg;
reg = format | (start_addr >> 20);
mmio_write_32(AXI_DCMPAREACRA0 + 0x8 * no, reg);
mmio_write_32(AXI_DCMPAREACRB0 + 0x8 * no, end_addr >> 20);
mmio_write_32(AXI_DCMPAREACRA0 + 0x8 * no, reg | enable);
info.magic = 0x12345678U;
info.a0 = mmio_read_32(AXI_DCMPAREACRA0 + 0x8 * no);
info.b0 = mmio_read_32(AXI_DCMPAREACRB0 + 0x8 * no);
mmio_write_32(LOSSY_PARAMS_BASE + sizeof(info) * no, info.magic);
mmio_write_32(LOSSY_PARAMS_BASE + sizeof(info) * no + 0x4, info.a0);
mmio_write_32(LOSSY_PARAMS_BASE + sizeof(info) * no + 0x8, info.b0);
NOTICE(" Entry %d: DCMPAREACRAx:0x%x DCMPAREACRBx:0x%x\n", no,
mmio_read_32(AXI_DCMPAREACRA0 + 0x8 * no),
mmio_read_32(AXI_DCMPAREACRB0 + 0x8 * no));
}
#endif
void bl2_plat_flush_bl31_params(void)
{
uint32_t product_cut, product, cut;
uint32_t boot_dev, boot_cpu;
uint32_t lcs, reg, val;
reg = mmio_read_32(RCAR_MODEMR);
boot_dev = reg & MODEMR_BOOT_DEV_MASK;
if (boot_dev == MODEMR_BOOT_DEV_EMMC_25X1 ||
boot_dev == MODEMR_BOOT_DEV_EMMC_50X8)
emmc_terminate();
if ((reg & MODEMR_BOOT_CPU_MASK) != MODEMR_BOOT_CPU_CR7)
bl2_secure_setting();
reg = mmio_read_32(RCAR_PRR);
product_cut = reg & (RCAR_PRODUCT_MASK | RCAR_CUT_MASK);
product = reg & RCAR_PRODUCT_MASK;
cut = reg & RCAR_CUT_MASK;
if (product == RCAR_PRODUCT_M3)
goto tlb;
if (product == RCAR_PRODUCT_H3 && RCAR_CUT_VER20 > cut)
goto tlb;
/* Disable MFIS write protection */
mmio_write_32(MFISWPCNTR, MFISWPCNTR_PASSWORD | 1);
tlb:
reg = mmio_read_32(RCAR_MODEMR);
boot_cpu = reg & MODEMR_BOOT_CPU_MASK;
if (boot_cpu != MODEMR_BOOT_CPU_CA57 &&
boot_cpu != MODEMR_BOOT_CPU_CA53)
goto mmu;
if (product_cut == RCAR_PRODUCT_H3_CUT20) {
mmio_write_32(IPMMUVI0_IMSCTLR, IMSCTLR_DISCACHE);
mmio_write_32(IPMMUVI1_IMSCTLR, IMSCTLR_DISCACHE);
mmio_write_32(IPMMUPV0_IMSCTLR, IMSCTLR_DISCACHE);
mmio_write_32(IPMMUPV1_IMSCTLR, IMSCTLR_DISCACHE);
mmio_write_32(IPMMUPV2_IMSCTLR, IMSCTLR_DISCACHE);
mmio_write_32(IPMMUPV3_IMSCTLR, IMSCTLR_DISCACHE);
} else if (product_cut == (RCAR_PRODUCT_M3N | RCAR_CUT_VER10) ||
product_cut == (RCAR_PRODUCT_M3N | RCAR_CUT_VER11)) {
mmio_write_32(IPMMUVI0_IMSCTLR, IMSCTLR_DISCACHE);
mmio_write_32(IPMMUPV0_IMSCTLR, IMSCTLR_DISCACHE);
} else if (product_cut == (RCAR_PRODUCT_E3 | RCAR_CUT_VER10)) {
mmio_write_32(IPMMUVI0_IMSCTLR, IMSCTLR_DISCACHE);
mmio_write_32(IPMMUPV0_IMSCTLR, IMSCTLR_DISCACHE);
}
if (product_cut == (RCAR_PRODUCT_H3_CUT20) ||
product_cut == (RCAR_PRODUCT_M3N | RCAR_CUT_VER10) ||
product_cut == (RCAR_PRODUCT_M3N | RCAR_CUT_VER11) ||
product_cut == (RCAR_PRODUCT_E3 | RCAR_CUT_VER10)) {
mmio_write_32(IPMMUHC_IMSCTLR, IMSCTLR_DISCACHE);
mmio_write_32(IPMMURT_IMSCTLR, IMSCTLR_DISCACHE);
mmio_write_32(IPMMUMP_IMSCTLR, IMSCTLR_DISCACHE);
mmio_write_32(IPMMUDS0_IMSCTLR, IMSCTLR_DISCACHE);
mmio_write_32(IPMMUDS1_IMSCTLR, IMSCTLR_DISCACHE);
}
mmu:
mmio_write_32(IPMMUMM_IMSCTLR, IPMMUMM_IMSCTLR_ENABLE);
mmio_write_32(IPMMUMM_IMAUXCTLR, IPMMUMM_IMAUXCTLR_NMERGE40_BIT);
val = rcar_rom_get_lcs(&lcs);
if (val) {
ERROR("BL2: Failed to get the LCS. (%d)\n", val);
panic();
}
if (lcs == LCS_SE)
mmio_clrbits_32(P_ARMREG_SEC_CTRL, P_ARMREG_SEC_CTRL_PROT);
rcar_swdt_release();
bl2_system_cpg_init();
#if RCAR_BL2_DCACHE == 1
/* Disable data cache (clean and invalidate) */
disable_mmu_el3();
#endif
}
static uint32_t is_ddr_backup_mode(void)
{
#if RCAR_SYSTEM_SUSPEND
static uint32_t reason = RCAR_COLD_BOOT;
static uint32_t once;
#if PMIC_ROHM_BD9571 && RCAR_SYSTEM_RESET_KEEPON_DDR
uint8_t data;
#endif
if (once)
return reason;
once = 1;
if ((mmio_read_32(GPIO_INDT) & GPIO_BKUP_TRG_SHIFT) == 0)
return reason;
#if PMIC_ROHM_BD9571 && RCAR_SYSTEM_RESET_KEEPON_DDR
if (rcar_iic_dvfs_receive(PMIC, REG_KEEP10, &data)) {
ERROR("BL2: REG Keep10 READ ERROR.\n");
panic();
}
if (KEEP10_MAGIC != data)
reason = RCAR_WARM_BOOT;
#else
reason = RCAR_WARM_BOOT;
#endif
return reason;
#else
return RCAR_COLD_BOOT;
#endif
}
int bl2_plat_handle_pre_image_load(unsigned int image_id)
{
u_register_t *boot_kind = (void *) BOOT_KIND_BASE;
bl_mem_params_node_t *bl_mem_params;
if (image_id != BL31_IMAGE_ID)
return 0;
bl_mem_params = get_bl_mem_params_node(image_id);
if (is_ddr_backup_mode() == RCAR_COLD_BOOT)
goto cold_boot;
*boot_kind = RCAR_WARM_BOOT;
flush_dcache_range(BOOT_KIND_BASE, sizeof(*boot_kind));
console_flush();
bl2_plat_flush_bl31_params();
/* will not return */
bl2_enter_bl31(&bl_mem_params->ep_info);
cold_boot:
*boot_kind = RCAR_COLD_BOOT;
flush_dcache_range(BOOT_KIND_BASE, sizeof(*boot_kind));
return 0;
}
int bl2_plat_handle_post_image_load(unsigned int image_id)
{
static bl2_to_bl31_params_mem_t *params;
bl_mem_params_node_t *bl_mem_params;
if (!params) {
params = (bl2_to_bl31_params_mem_t *) PARAMS_BASE;
memset((void *)PARAMS_BASE, 0, sizeof(*params));
}
bl_mem_params = get_bl_mem_params_node(image_id);
switch (image_id) {
case BL31_IMAGE_ID:
break;
case BL32_IMAGE_ID:
memcpy(&params->bl32_ep_info, &bl_mem_params->ep_info,
sizeof(entry_point_info_t));
break;
case BL33_IMAGE_ID:
memcpy(&params->bl33_ep_info, &bl_mem_params->ep_info,
sizeof(entry_point_info_t));
break;
}
return 0;
}
meminfo_t *bl2_plat_sec_mem_layout(void)
{
return &bl2_tzram_layout;
}
void bl2_el3_early_platform_setup(u_register_t arg1, u_register_t arg2,
u_register_t arg3, u_register_t arg4)
{
uint32_t reg, midr, lcs, boot_dev, boot_cpu, sscg, type, rev;
uint32_t cut, product, product_cut, major, minor;
int32_t ret;
const char *str;
const char *unknown = "unknown";
const char *cpu_ca57 = "CA57";
const char *cpu_ca53 = "CA53";
const char *product_m3n = "M3N";
const char *product_h3 = "H3";
const char *product_m3 = "M3";
const char *product_e3 = "E3";
const char *lcs_secure = "SE";
const char *lcs_cm = "CM";
const char *lcs_dm = "DM";
const char *lcs_sd = "SD";
const char *lcs_fa = "FA";
const char *sscg_off = "PLL1 nonSSCG Clock select";
const char *sscg_on = "PLL1 SSCG Clock select";
const char *boot_hyper80 = "HyperFlash(80MHz)";
const char *boot_qspi40 = "QSPI Flash(40MHz)";
const char *boot_qspi80 = "QSPI Flash(80MHz)";
const char *boot_emmc25x1 = "eMMC(25MHz x1)";
const char *boot_emmc50x8 = "eMMC(50MHz x8)";
#if RCAR_LSI == RCAR_E3
const char *boot_hyper160 = "HyperFlash(150MHz)";
#else
const char *boot_hyper160 = "HyperFlash(160MHz)";
#endif
reg = mmio_read_32(RCAR_MODEMR);
boot_dev = reg & MODEMR_BOOT_DEV_MASK;
boot_cpu = reg & MODEMR_BOOT_CPU_MASK;
bl2_cpg_init();
if (boot_cpu == MODEMR_BOOT_CPU_CA57 ||
boot_cpu == MODEMR_BOOT_CPU_CA53) {
rcar_pfc_init();
/* console configuration (platform specific) done in driver */
console_init(0, 0, 0);
}
plat_rcar_gic_driver_init();
plat_rcar_gic_init();
rcar_swdt_init();
/* FIQ interrupts are taken to EL3 */
write_scr_el3(read_scr_el3() | SCR_FIQ_BIT);
write_daifclr(DAIF_FIQ_BIT);
reg = read_midr();
midr = reg & (MIDR_PN_MASK << MIDR_PN_SHIFT);
switch (midr) {
case MIDR_CA57:
str = cpu_ca57;
break;
case MIDR_CA53:
str = cpu_ca53;
break;
default:
str = unknown;
break;
}
NOTICE("BL2: R-Car Gen3 Initial Program Loader(%s) Rev.%s\n", str,
version_of_renesas);
reg = mmio_read_32(RCAR_PRR);
product_cut = reg & (RCAR_PRODUCT_MASK | RCAR_CUT_MASK);
product = reg & RCAR_PRODUCT_MASK;
cut = reg & RCAR_CUT_MASK;
switch (product) {
case RCAR_PRODUCT_H3:
str = product_h3;
break;
case RCAR_PRODUCT_M3:
str = product_m3;
break;
case RCAR_PRODUCT_M3N:
str = product_m3n;
break;
case RCAR_PRODUCT_E3:
str = product_e3;
break;
default:
str = unknown;
break;
}
if (RCAR_PRODUCT_M3_CUT11 == product_cut) {
NOTICE("BL2: PRR is R-Car %s Ver.1.1 / Ver.1.2\n", str);
} else {
major = (reg & RCAR_MAJOR_MASK) >> RCAR_MAJOR_SHIFT;
major = major + RCAR_MAJOR_OFFSET;
minor = reg & RCAR_MINOR_MASK;
NOTICE("BL2: PRR is R-Car %s Ver.%d.%d\n", str, major, minor);
}
if (product == RCAR_PRODUCT_E3) {
reg = mmio_read_32(RCAR_MODEMR);
sscg = reg & RCAR_SSCG_MASK;
str = sscg == RCAR_SSCG_ENABLE ? sscg_on : sscg_off;
NOTICE("BL2: %s\n", str);
}
rcar_get_board_type(&type, &rev);
switch (type) {
case BOARD_SALVATOR_X:
case BOARD_KRIEK:
case BOARD_STARTER_KIT:
case BOARD_SALVATOR_XS:
case BOARD_EBISU:
case BOARD_STARTER_KIT_PRE:
case BOARD_EBISU_4D:
break;
default:
type = BOARD_UNKNOWN;
break;
}
if (type == BOARD_UNKNOWN || rev == BOARD_REV_UNKNOWN)
NOTICE("BL2: Board is %s Rev.---\n", GET_BOARD_NAME(type));
else {
NOTICE("BL2: Board is %s Rev.%d.%d\n",
GET_BOARD_NAME(type),
GET_BOARD_MAJOR(rev), GET_BOARD_MINOR(rev));
}
#if RCAR_LSI != RCAR_AUTO
if (product != TARGET_PRODUCT) {
ERROR("BL2: IPL was been built for the %s.\n", TARGET_NAME);
ERROR("BL2: Please write the correct IPL to flash memory.\n");
panic();
}
#endif
rcar_avs_init();
rcar_avs_setting();
switch (boot_dev) {
case MODEMR_BOOT_DEV_HYPERFLASH160:
str = boot_hyper160;
break;
case MODEMR_BOOT_DEV_HYPERFLASH80:
str = boot_hyper80;
break;
case MODEMR_BOOT_DEV_QSPI_FLASH40:
str = boot_qspi40;
break;
case MODEMR_BOOT_DEV_QSPI_FLASH80:
str = boot_qspi80;
break;
case MODEMR_BOOT_DEV_EMMC_25X1:
str = boot_emmc25x1;
break;
case MODEMR_BOOT_DEV_EMMC_50X8:
str = boot_emmc50x8;
break;
default:
str = unknown;
break;
}
NOTICE("BL2: Boot device is %s\n", str);
rcar_avs_setting();
reg = rcar_rom_get_lcs(&lcs);
if (reg) {
str = unknown;
goto lcm_state;
}
switch (lcs) {
case LCS_CM:
str = lcs_cm;
break;
case LCS_DM:
str = lcs_dm;
break;
case LCS_SD:
str = lcs_sd;
break;
case LCS_SE:
str = lcs_secure;
break;
case LCS_FA:
str = lcs_fa;
break;
default:
str = unknown;
break;
}
lcm_state:
NOTICE("BL2: LCM state is %s\n", str);
rcar_avs_end();
is_ddr_backup_mode();
bl2_tzram_layout.total_base = BL31_BASE;
bl2_tzram_layout.total_size = BL31_LIMIT - BL31_BASE;
if (product == RCAR_PRODUCT_H3 && cut >= RCAR_CUT_VER30) {
#if (RCAR_DRAM_LPDDR4_MEMCONF == 0)
NOTICE("BL2: CH0: 0x400000000 - 0x440000000, 1 GiB\n");
NOTICE("BL2: CH1: 0x500000000 - 0x540000000, 1 GiB\n");
NOTICE("BL2: CH2: 0x600000000 - 0x640000000, 1 GiB\n");
NOTICE("BL2: CH3: 0x700000000 - 0x740000000, 1 GiB\n");
#elif (RCAR_DRAM_LPDDR4_MEMCONF == 1) && \
(RCAR_DRAM_CHANNEL == 5) && \
(RCAR_DRAM_SPLIT == 2)
NOTICE("BL2: CH0: 0x400000000 - 0x480000000, 2 GiB\n");
NOTICE("BL2: CH1: 0x500000000 - 0x580000000, 2 GiB\n");
#elif (RCAR_DRAM_LPDDR4_MEMCONF == 1) && (RCAR_DRAM_CHANNEL == 15)
NOTICE("BL2: CH0: 0x400000000 - 0x480000000, 2 GiB\n");
NOTICE("BL2: CH1: 0x500000000 - 0x580000000, 2 GiB\n");
NOTICE("BL2: CH2: 0x600000000 - 0x680000000, 2 GiB\n");
NOTICE("BL2: CH3: 0x700000000 - 0x780000000, 2 GiB\n");
#endif
}
if (product == RCAR_PRODUCT_E3) {
#if (RCAR_DRAM_DDR3L_MEMCONF == 0)
NOTICE("BL2: 0x400000000 - 0x440000000, 1 GiB\n");
#elif (RCAR_DRAM_DDR3L_MEMCONF == 1)
NOTICE("BL2: 0x400000000 - 0x480000000, 2 GiB\n");
#endif
}
if (boot_cpu == MODEMR_BOOT_CPU_CA57 ||
boot_cpu == MODEMR_BOOT_CPU_CA53) {
ret = rcar_dram_init();
if (ret) {
NOTICE("BL2: Failed to DRAM initialize (%d).\n", ret);
panic();
}
rcar_qos_init();
}
if (boot_dev == MODEMR_BOOT_DEV_EMMC_25X1 ||
boot_dev == MODEMR_BOOT_DEV_EMMC_50X8) {
if (rcar_emmc_init() != EMMC_SUCCESS) {
NOTICE("BL2: Failed to eMMC driver initialize.\n");
panic();
}
rcar_emmc_memcard_power(EMMC_POWER_ON);
if (rcar_emmc_mount() != EMMC_SUCCESS) {
NOTICE("BL2: Failed to eMMC mount operation.\n");
panic();
}
} else {
rcar_rpc_init();
rcar_dma_init();
}
reg = mmio_read_32(RST_WDTRSTCR);
reg &= ~WDTRSTCR_RWDT_RSTMSK;
reg |= WDTRSTCR_PASSWORD;
mmio_write_32(RST_WDTRSTCR, reg);
mmio_write_32(CPG_CPGWPR, CPGWPR_PASSWORD);
mmio_write_32(CPG_CPGWPCR, CPGWPCR_PASSWORD);
reg = mmio_read_32(RCAR_PRR);
if ((reg & RCAR_CPU_MASK_CA57) == RCAR_CPU_HAVE_CA57)
mmio_write_32(CPG_CA57DBGRCR,
DBGCPUPREN | mmio_read_32(CPG_CA57DBGRCR));
if ((reg & RCAR_CPU_MASK_CA53) == RCAR_CPU_HAVE_CA53)
mmio_write_32(CPG_CA53DBGRCR,
DBGCPUPREN | mmio_read_32(CPG_CA53DBGRCR));
if (product_cut == RCAR_PRODUCT_H3_CUT10) {
reg = mmio_read_32(CPG_PLL2CR);
reg &= ~((uint32_t) 1 << 5);
mmio_write_32(CPG_PLL2CR, reg);
reg = mmio_read_32(CPG_PLL4CR);
reg &= ~((uint32_t) 1 << 5);
mmio_write_32(CPG_PLL4CR, reg);
reg = mmio_read_32(CPG_PLL0CR);
reg &= ~((uint32_t) 1 << 12);
mmio_write_32(CPG_PLL0CR, reg);
}
#if (RCAR_LOSSY_ENABLE == 1)
NOTICE("BL2: Lossy Decomp areas\n");
bl2_lossy_setting(0, LOSSY_ST_ADDR0, LOSSY_END_ADDR0,
LOSSY_FMT0, LOSSY_ENA_DIS0);
bl2_lossy_setting(1, LOSSY_ST_ADDR1, LOSSY_END_ADDR1,
LOSSY_FMT1, LOSSY_ENA_DIS1);
bl2_lossy_setting(2, LOSSY_ST_ADDR2, LOSSY_END_ADDR2,
LOSSY_FMT2, LOSSY_ENA_DIS2);
#endif
if (boot_dev == MODEMR_BOOT_DEV_EMMC_25X1 ||
boot_dev == MODEMR_BOOT_DEV_EMMC_50X8)
rcar_io_emmc_setup();
else
rcar_io_setup();
}
void bl2_el3_plat_arch_setup(void)
{
#if RCAR_BL2_DCACHE == 1
NOTICE("BL2: D-Cache enable\n");
rcar_configure_mmu_el3(BL2_BASE,
RCAR_SYSRAM_LIMIT - BL2_BASE,
BL2_RO_BASE, BL2_RO_LIMIT
#if USE_COHERENT_MEM
, BL2_COHERENT_RAM_BASE, BL2_COHERENT_RAM_LIMIT
#endif
);
#endif
}
void bl2_platform_setup(void)
{
}

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/*
* Copyright (c) 2015-2018, Renesas Electronics Corporation. All rights reserved.
*
* SPDX-License-Identifier: BSD-3-Clause
*/
#include "axi_registers.h"
#include "lifec_registers.h"
#include "micro_delay.h"
#include "mmio.h"
#include "utils_def.h"
static void lifec_security_setting(void);
static void axi_security_setting(void);
static const struct {
uint32_t reg;
uint32_t val;
} lifec[] = {
/** LIFEC0 (SECURITY) settings */
/* Security attribute setting for master ports */
/* Bit 0: ARM realtime core (Cortex-R7) master port */
/* 0: Non-Secure */
{
SEC_SRC, 0x0000001EU},
/** Security attribute setting for slave ports 0 to 15 */
/* {SEC_SEL0, 0xFFFFFFFFU}, */
/* {SEC_SEL1, 0xFFFFFFFFU}, */
/* {SEC_SEL2, 0xFFFFFFFFU}, */
/* Bit19: AXI-Bus (Main Memory domain AXI) slave ports */
/* 0: registers accessed from secure resource only */
/* Bit 9: DBSC4 register access slave ports. */
/* 0: registers accessed from secure resource only. */
#if (LIFEC_DBSC_PROTECT_ENABLE == 1)
{
SEC_SEL3, 0xFFF7FDFFU},
#else
{
SEC_SEL3, 0xFFFFFFFFU},
#endif
/* {SEC_SEL4, 0xFFFFFFFFU}, */
/* Bit 6: Boot ROM slave ports. */
/* 0: registers accessed from secure resource only */
{
SEC_SEL5, 0xFFFFFFBFU},
/* Bit13: SCEG PKA (secure APB) slave ports */
/* 0: registers accessed from secure resource only */
/* 1: Reserved[R-Car E3] */
/* Bit12: SCEG PKA (public APB) slave ports */
/* 0: registers accessed from secure resource only */
/* 1: Reserved[R-Car E3] */
/* Bit10: SCEG Secure Core slave ports */
/* 0: registers accessed from secure resource only */
#if RCAR_LSI == RCAR_E3
{
SEC_SEL6, 0xFFFFFBFFU},
#else
{
SEC_SEL6, 0xFFFFCBFFU},
#endif
/* {SEC_SEL7, 0xFFFFFFFFU}, */
/* {SEC_SEL8, 0xFFFFFFFFU}, */
/* {SEC_SEL9, 0xFFFFFFFFU}, */
/* {SEC_SEL10, 0xFFFFFFFFU}, */
/* {SEC_SEL11, 0xFFFFFFFFU}, */
/* {SEC_SEL12, 0xFFFFFFFFU}, */
/* Bit22: RPC slave ports. */
/* 0: registers accessed from secure resource only. */
/* {SEC_SEL13, 0xFFBFFFFFU},*/
/* Bit27: System Timer (SCMT) slave ports */
/* 0: registers accessed from secure resource only */
/* Bit26: System Watchdog Timer (SWDT) slave ports */
/* 0: registers accessed from secure resource only */
{
SEC_SEL14, 0xF3FFFFFFU},
/* Bit13: RST slave ports. */
/* 0: registers accessed from secure resource only */
/* Bit 7: Life Cycle 0 slave ports */
/* 0: registers accessed from secure resource only */
{
SEC_SEL15, 0xFFFFFF3FU},
/** Security group 0 attribute setting for master ports 0 */
/** Security group 1 attribute setting for master ports 0 */
/* {SEC_GRP0CR0, 0x00000000U}, */
/* {SEC_GRP1CR0, 0x00000000U}, */
/** Security group 0 attribute setting for master ports 1 */
/** Security group 1 attribute setting for master ports 1 */
/* {SEC_GRP0CR1, 0x00000000U}, */
/* {SEC_GRP1CR1, 0x00000000U}, */
/** Security group 0 attribute setting for master ports 2 */
/** Security group 1 attribute setting for master ports 2 */
/* Bit17: SCEG Secure Core master ports. */
/* SecurityGroup3 */
{
SEC_GRP0CR2, 0x00020000U}, {
SEC_GRP1CR2, 0x00020000U},
/** Security group 0 attribute setting for master ports 3 */
/** Security group 1 attribute setting for master ports 3 */
/* {SEC_GRP0CR3, 0x00000000U}, */
/* {SEC_GRP1CR3, 0x00000000U}, */
/** Security group 0 attribute setting for slave ports 0 */
/** Security group 1 attribute setting for slave ports 0 */
/* {SEC_GRP0COND0, 0x00000000U}, */
/* {SEC_GRP1COND0, 0x00000000U}, */
/** Security group 0 attribute setting for slave ports 1 */
/** Security group 1 attribute setting for slave ports 1 */
/* {SEC_GRP0COND1, 0x00000000U}, */
/* {SEC_GRP1COND1, 0x00000000U}, */
/** Security group 0 attribute setting for slave ports 2 */
/** Security group 1 attribute setting for slave ports 2 */
/* {SEC_GRP0COND2, 0x00000000U}, */
/* {SEC_GRP1COND2, 0x00000000U}, */
/** Security group 0 attribute setting for slave ports 3 */
/** Security group 1 attribute setting for slave ports 3 */
/* Bit19: AXI-Bus (Main Memory domain AXI) slave ports. */
/* SecurityGroup3 */
/* Bit 9: DBSC4 register access slave ports. */
/* SecurityGroup3 */
#if (LIFEC_DBSC_PROTECT_ENABLE == 1)
{
SEC_GRP0COND3, 0x00080200U}, {
SEC_GRP1COND3, 0x00080200U},
#else
{
SEC_GRP0COND3, 0x00000000U}, {
SEC_GRP1COND3, 0x00000000U},
#endif
/** Security group 0 attribute setting for slave ports 4 */
/** Security group 1 attribute setting for slave ports 4 */
/* {SEC_GRP0COND4, 0x00000000U}, */
/* {SEC_GRP1COND4, 0x00000000U}, */
/** Security group 0 attribute setting for slave ports 5 */
/** Security group 1 attribute setting for slave ports 5 */
/* Bit 6: Boot ROM slave ports */
/* SecurityGroup3 */
{
SEC_GRP0COND5, 0x00000040U}, {
SEC_GRP1COND5, 0x00000040U},
/** Security group 0 attribute setting for slave ports 6 */
/** Security group 1 attribute setting for slave ports 6 */
/* Bit13: SCEG PKA (secure APB) slave ports */
/* SecurityGroup3 */
/* Reserved[R-Car E3] */
/* Bit12: SCEG PKA (public APB) slave ports */
/* SecurityGroup3 */
/* Reserved[R-Car E3] */
/* Bit10: SCEG Secure Core slave ports */
/* SecurityGroup3 */
#if RCAR_LSI == RCAR_E3
{
SEC_GRP0COND6, 0x00000400U}, {
SEC_GRP1COND6, 0x00000400U},
#else
{
SEC_GRP0COND6, 0x00003400U}, {
SEC_GRP1COND6, 0x00003400U},
#endif
/** Security group 0 attribute setting for slave ports 7 */
/** Security group 1 attribute setting for slave ports 7 */
/* {SEC_GRP0COND7, 0x00000000U}, */
/* {SEC_GRP1COND7, 0x00000000U}, */
/** Security group 0 attribute setting for slave ports 8 */
/** Security group 1 attribute setting for slave ports 8 */
/* {SEC_GRP0COND8, 0x00000000U}, */
/* {SEC_GRP1COND8, 0x00000000U}, */
/** Security group 0 attribute setting for slave ports 9 */
/** Security group 1 attribute setting for slave ports 9 */
/* {SEC_GRP0COND9, 0x00000000U}, */
/* {SEC_GRP1COND9, 0x00000000U}, */
/** Security group 0 attribute setting for slave ports 10 */
/** Security group 1 attribute setting for slave ports 10 */
/* {SEC_GRP0COND10, 0x00000000U}, */
/* {SEC_GRP1COND10, 0x00000000U}, */
/** Security group 0 attribute setting for slave ports 11 */
/** Security group 1 attribute setting for slave ports 11 */
/* {SEC_GRP0COND11, 0x00000000U}, */
/* {SEC_GRP1COND11, 0x00000000U}, */
/** Security group 0 attribute setting for slave ports 12 */
/** Security group 1 attribute setting for slave ports 12 */
/* {SEC_GRP0COND12, 0x00000000U}, */
/* {SEC_GRP1COND12, 0x00000000U}, */
/** Security group 0 attribute setting for slave ports 13 */
/** Security group 1 attribute setting for slave ports 13 */
/* Bit22: RPC slave ports. */
/* SecurityGroup3 */
/* {SEC_GRP0COND13, 0x00400000U}, */
/* {SEC_GRP1COND13, 0x00400000U}, */
/** Security group 0 attribute setting for slave ports 14 */
/** Security group 1 attribute setting for slave ports 14 */
/* Bit26: System Timer (SCMT) slave ports */
/* SecurityGroup3 */
/* Bit27: System Watchdog Timer (SWDT) slave ports */
/* SecurityGroup3 */
{
SEC_GRP0COND14, 0x0C000000U}, {
SEC_GRP1COND14, 0x0C000000U},
/** Security group 0 attribute setting for slave ports 15 */
/** Security group 1 attribute setting for slave ports 15 */
/* Bit13: RST slave ports */
/* SecurityGroup3 */
/* Bit 7: Life Cycle 0 slave ports */
/* SecurityGroup3 */
/* Bit 6: TDBG slave ports */
/* SecurityGroup3 */
{
SEC_GRP0COND15, 0x000000C0U}, {
SEC_GRP1COND15, 0x000000C0U},
/** Security write protection attribute setting slave ports 0 */
/* {SEC_READONLY0, 0x00000000U}, */
/** Security write protection attribute setting slave ports 1 */
/* {SEC_READONLY1, 0x00000000U}, */
/** Security write protection attribute setting slave ports 2 */
/* {SEC_READONLY2, 0x00000000U}, */
/** Security write protection attribute setting slave ports 3 */
/* {SEC_READONLY3, 0x00000000U}, */
/** Security write protection attribute setting slave ports 4 */
/* {SEC_READONLY4, 0x00000000U}, */
/** Security write protection attribute setting slave ports 5 */
/* {SEC_READONLY5, 0x00000000U}, */
/** Security write protection attribute setting slave ports 6 */
/* {SEC_READONLY6, 0x00000000U}, */
/** Security write protection attribute setting slave ports 7 */
/* {SEC_READONLY7, 0x00000000U}, */
/** Security write protection attribute setting slave ports 8 */
/* {SEC_READONLY8, 0x00000000U}, */
/** Security write protection attribute setting slave ports 9 */
/* {SEC_READONLY9, 0x00000000U}, */
/** Security write protection attribute setting slave ports 10 */
/* {SEC_READONLY10, 0x00000000U}, */
/** Security write protection attribute setting slave ports 11 */
/* {SEC_READONLY11, 0x00000000U}, */
/** Security write protection attribute setting slave ports 12 */
/* {SEC_READONLY12, 0x00000000U}, */
/** Security write protection attribute setting slave ports 13 */
/* {SEC_READONLY13, 0x00000000U}, */
/** Security write protection attribute setting slave ports 14 */
/* {SEC_READONLY14, 0x00000000U}, */
/** Security write protection attribute setting slave ports 15 */
/* {SEC_READONLY15, 0x00000000U} */
};
/* AXI settings */
static const struct {
uint32_t reg;
uint32_t val;
} axi[] = {
/* DRAM protection */
/* AXI dram protected area division */
{
AXI_DPTDIVCR0, 0x0E0403F0U}, {
AXI_DPTDIVCR1, 0x0E0407E0U}, {
AXI_DPTDIVCR2, 0x0E080000U}, {
AXI_DPTDIVCR3, 0x0E080000U}, {
AXI_DPTDIVCR4, 0x0E080000U}, {
AXI_DPTDIVCR5, 0x0E080000U}, {
AXI_DPTDIVCR6, 0x0E080000U}, {
AXI_DPTDIVCR7, 0x0E080000U}, {
AXI_DPTDIVCR8, 0x0E080000U}, {
AXI_DPTDIVCR9, 0x0E080000U}, {
AXI_DPTDIVCR10, 0x0E080000U}, {
AXI_DPTDIVCR11, 0x0E080000U}, {
AXI_DPTDIVCR12, 0x0E080000U}, {
AXI_DPTDIVCR13, 0x0E080000U}, {
AXI_DPTDIVCR14, 0x0E080000U},
/* AXI dram protected area setting */
{
AXI_DPTCR0, 0x0E000000U}, {
AXI_DPTCR1, 0x0E000E0EU}, {
AXI_DPTCR2, 0x0E000000U}, {
AXI_DPTCR3, 0x0E000000U}, {
AXI_DPTCR4, 0x0E000000U}, {
AXI_DPTCR5, 0x0E000000U}, {
AXI_DPTCR6, 0x0E000000U}, {
AXI_DPTCR7, 0x0E000000U}, {
AXI_DPTCR8, 0x0E000000U}, {
AXI_DPTCR9, 0x0E000000U}, {
AXI_DPTCR10, 0x0E000000U}, {
AXI_DPTCR11, 0x0E000000U}, {
AXI_DPTCR12, 0x0E000000U}, {
AXI_DPTCR13, 0x0E000000U}, {
AXI_DPTCR14, 0x0E000000U}, {
AXI_DPTCR15, 0x0E000000U},
/* SRAM ptotection */
/* AXI sram protected area division */
{
AXI_SPTDIVCR0, 0x0E0E6304U}, {
AXI_SPTDIVCR1, 0x0E0E6360U}, {
AXI_SPTDIVCR2, 0x0E0E6360U}, {
AXI_SPTDIVCR3, 0x0E0E6360U}, {
AXI_SPTDIVCR4, 0x0E0E6360U}, {
AXI_SPTDIVCR5, 0x0E0E6360U}, {
AXI_SPTDIVCR6, 0x0E0E6360U}, {
AXI_SPTDIVCR7, 0x0E0E6360U}, {
AXI_SPTDIVCR8, 0x0E0E6360U}, {
AXI_SPTDIVCR9, 0x0E0E6360U}, {
AXI_SPTDIVCR10, 0x0E0E6360U}, {
AXI_SPTDIVCR11, 0x0E0E6360U}, {
AXI_SPTDIVCR12, 0x0E0E6360U}, {
AXI_SPTDIVCR13, 0x0E0E6360U}, {
AXI_SPTDIVCR14, 0x0E0E6360U},
/* AXI sram protected area setting */
{
AXI_SPTCR0, 0x0E000E0EU}, {
AXI_SPTCR1, 0x0E000000U}, {
AXI_SPTCR2, 0x0E000000U}, {
AXI_SPTCR3, 0x0E000000U}, {
AXI_SPTCR4, 0x0E000000U}, {
AXI_SPTCR5, 0x0E000000U}, {
AXI_SPTCR6, 0x0E000000U}, {
AXI_SPTCR7, 0x0E000000U}, {
AXI_SPTCR8, 0x0E000000U}, {
AXI_SPTCR9, 0x0E000000U}, {
AXI_SPTCR10, 0x0E000000U}, {
AXI_SPTCR11, 0x0E000000U}, {
AXI_SPTCR12, 0x0E000000U}, {
AXI_SPTCR13, 0x0E000000U}, {
AXI_SPTCR14, 0x0E000000U}, {
AXI_SPTCR15, 0x0E000000U}
};
static void lifec_security_setting(void)
{
uint32_t i;
for (i = 0; i < ARRAY_SIZE(lifec); i++)
mmio_write_32(lifec[i].reg, lifec[i].val);
}
/* SRAM/DRAM protection setting */
static void axi_security_setting(void)
{
uint32_t i;
for (i = 0; i < ARRAY_SIZE(axi); i++)
mmio_write_32(axi[i].reg, axi[i].val);
}
void bl2_secure_setting(void)
{
const uint32_t delay = 10;
lifec_security_setting();
axi_security_setting();
rcar_micro_delay(delay);
return;
}

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/*
* Copyright (c) 2013-2014, ARM Limited and Contributors. All rights reserved.
* Copyright (c) 2015-2017, Renesas Electronics Corporation. All rights reserved.
*
* SPDX-License-Identifier: BSD-3-Clause
*/
#include <arch.h>
#include <arch_helpers.h>
#include <bl_common.h>
#include <bl31.h>
#include <cci.h>
#include <console.h>
#include <mmio.h>
#include <platform.h>
#include <stddef.h>
#include <debug.h>
#include "pwrc.h"
#include "rcar_def.h"
#include "rcar_private.h"
#include "rcar_version.h"
IMPORT_SYM(uint64_t, __RO_START__, BL31_RO_BASE)
IMPORT_SYM(uint64_t, __RO_END__, BL31_RO_LIMIT)
#if USE_COHERENT_MEM
IMPORT_SYM(uint64_t, __COHERENT_RAM_START__, BL31_COHERENT_RAM_BASE)
IMPORT_SYM(uint64_t, __COHERENT_RAM_END__, BL31_COHERENT_RAM_LIMIT)
#endif
extern void plat_rcar_gic_driver_init(void);
extern void plat_rcar_gic_init(void);
u_register_t rcar_boot_mpidr;
static int cci_map[] = {
CCI500_CLUSTER0_SL_IFACE_IX_FOR_M3,
CCI500_CLUSTER1_SL_IFACE_IX_FOR_M3
};
void plat_cci_init(void)
{
uint32_t prd;
prd = mmio_read_32(RCAR_PRR) & (RCAR_PRODUCT_MASK | RCAR_CUT_MASK);
if (RCAR_PRODUCT_H3_CUT10 == prd || RCAR_PRODUCT_H3_CUT11 == prd) {
cci_map[0U] = CCI500_CLUSTER0_SL_IFACE_IX;
cci_map[1U] = CCI500_CLUSTER1_SL_IFACE_IX;
}
cci_init(RCAR_CCI_BASE, cci_map, ARRAY_SIZE(cci_map));
}
void plat_cci_enable(void)
{
cci_enable_snoop_dvm_reqs(MPIDR_AFFLVL1_VAL(read_mpidr()));
}
void plat_cci_disable(void)
{
cci_disable_snoop_dvm_reqs(MPIDR_AFFLVL1_VAL(read_mpidr()));
}
entry_point_info_t *bl31_plat_get_next_image_ep_info(uint32_t type)
{
bl2_to_bl31_params_mem_t *from_bl2 = (bl2_to_bl31_params_mem_t *)
PARAMS_BASE;
entry_point_info_t *next_image_info;
next_image_info = (type == NON_SECURE) ?
&from_bl2->bl33_ep_info : &from_bl2->bl32_ep_info;
return next_image_info->pc ? next_image_info : NULL;
}
void bl31_early_platform_setup2(u_register_t arg0, u_register_t arg1,
u_register_t arg2, u_register_t arg3)
{
/* dummy config: the actual console configuration (platform specific)
is done in the driver (scif.c) */
console_init(1, 0, 0);
NOTICE("BL3-1 : Rev.%s\n", version_of_renesas);
if (RCAR_CLUSTER_A53A57 == rcar_pwrc_get_cluster()) {
plat_cci_init();
plat_cci_enable();
}
}
void bl31_plat_arch_setup(void)
{
rcar_configure_mmu_el3(BL31_BASE,
BL31_LIMIT - BL31_BASE,
BL31_RO_BASE, BL31_RO_LIMIT
#if USE_COHERENT_MEM
, BL31_COHERENT_RAM_BASE, BL31_COHERENT_RAM_LIMIT
#endif
);
}
void bl31_platform_setup(void)
{
plat_rcar_gic_driver_init();
plat_rcar_gic_init();
/* enable the system level generic timer */
mmio_write_32(RCAR_CNTC_BASE + CNTCR_OFF, CNTCR_FCREQ(U(0)) | CNTCR_EN);
rcar_pwrc_setup();
#if 0
/* TODO: there is a broad number of rcar-gen3 SoC configurations; to
support all of them, Renesas use the pwrc driver to discover what
cores are on/off before announcing the topology.
This code hasnt been ported yet
*/
rcar_setup_topology();
#endif
/* mask should match the kernel's MPIDR_HWID_BITMASK so the core can be
identified during cpuhotplug (check the kernel's psci migrate set of
functions */
rcar_boot_mpidr = read_mpidr_el1() & 0x0000ffffU;
}

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/*
* Copyright (c) 2018, ARM Limited and Contributors. All rights reserved.
*
* SPDX-License-Identifier: BSD-3-Clause
*/
#ifndef __RCAR_PLAT_LD_S__
#define __RCAR_PLAT_LD_S__
#include <platform_def.h>
#include <xlat_tables_defs.h>
MEMORY {
SRAM (rwx): ORIGIN = BL31_SRAM_BASE, LENGTH = DEVICE_SRAM_SIZE
PRAM (r): ORIGIN = BL31_LIMIT - DEVICE_SRAM_SIZE, LENGTH = DEVICE_SRAM_SIZE
}
SECTIONS
{
/* SRAM_COPY is in PRAM */
. = BL31_LIMIT - DEVICE_SRAM_SIZE;
__SRAM_COPY_START__ = .;
.system_ram : {
/* system ram start is in SRAM */
__system_ram_start__ = .;
*(.system_ram*)
*iic_dvfs.o(.rodata)
__system_ram_end__ = .;
} >SRAM AT>PRAM
ASSERT(__BL31_END__ <= BL31_LIMIT - DEVICE_SRAM_SIZE,
"BL31 image too large - writing on top of SRAM!")
}
#endif /* __RCAR_PLAT_LD_S__ */

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/*
* Copyright (c) 2015-2017, Renesas Electronics Corporation. All rights reserved.
*
* SPDX-License-Identifier: BSD-3-Clause
*/
#include <cci.h>
#include <gic_common.h>
#include <gicv2.h>
#include "rcar_def.h"
.section .rodata.gic_reg_name, "aS"
gicc_regs:
.asciz "gicc_hppir", "gicc_ahppir", "gicc_ctlr", ""
gicd_pend_reg:
.asciz "gicd_ispendr regs (Offsets 0x200 - 0x278)\n Offset:\t\t\tvalue\n"
newline:
.asciz "\n"
spacer:
.asciz ":\t\t0x"
/* ---------------------------------------------
* The below macro prints out relevant GIC
* registers whenever an unhandled exception is
* taken in BL3-1.
* Clobbers: x0 - x10, x16, x17, sp
* ---------------------------------------------
*/
.macro plat_print_gic_regs
mov_imm x17, RCAR_GICC_BASE
mov_imm x16, RCAR_GICD_BASE
print_gicc_regs:
/* gicc base address is now in x17 */
adr x6, gicc_regs /* Load the gicc reg list to x6 */
/* Load the gicc regs to gp regs used by str_in_crash_buf_print */
ldr w8, [x17, #GICC_HPPIR]
ldr w9, [x17, #GICC_AHPPIR]
ldr w10, [x17, #GICC_CTLR]
/* Store to the crash buf and print to console */
bl str_in_crash_buf_print
/* Print the GICD_ISPENDR regs */
add x7, x16, #GICD_ISPENDR
adr x4, gicd_pend_reg
bl asm_print_str
gicd_ispendr_loop:
sub x4, x7, x16
cmp x4, #0x280
b.eq exit_print_gic_regs
bl asm_print_hex
adr x4, spacer
bl asm_print_str
ldr x4, [x7], #8
bl asm_print_hex
adr x4, newline
bl asm_print_str
b gicd_ispendr_loop
exit_print_gic_regs:
.endm
.section .rodata.cci_reg_name, "aS"
cci_iface_regs:
.asciz "cci_snoop_ctrl_cluster0", "cci_snoop_ctrl_cluster1" , ""
/* ------------------------------------------------
* The below macro prints out relevant interconnect
* registers whenever an unhandled exception is
* taken in BL3-1.
* Clobbers: x0 - x9, sp
* ------------------------------------------------
*/
.macro plat_print_interconnect_regs
adr x6, cci_iface_regs
/* Store in x7 the base address of the first interface */
mov_imm x7, (CCI500_BASE + SLAVE_IFACE3_OFFSET)
ldr w8, [x7, #SNOOP_CTRL_REG]
/* Store in x7 the base address of the second interface */
mov_imm x7, (CCI500_BASE + SLAVE_IFACE4_OFFSET)
ldr w9, [x7, #SNOOP_CTRL_REG]
/* Store to the crash buf and print to console */
bl str_in_crash_buf_print
.endm
.macro plat_crash_print_regs
plat_print_gic_regs
plat_print_interconnect_regs
.endm

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/*
* Copyright (c) 2015-2018, Renesas Electronics Corporation. All rights reserved.
*
* SPDX-License-Identifier: BSD-3-Clause
*/
#ifndef PLATFORM_DEF_H__
#define PLATFORM_DEF_H__
#include <arch.h>
#ifndef __ASSEMBLY__
#include <stdlib.h>
#endif
#include "rcar_def.h"
/*******************************************************************************
* Platform binary types for linking
******************************************************************************/
#define PLATFORM_LINKER_FORMAT "elf64-littleaarch64"
#define PLATFORM_LINKER_ARCH aarch64
/*******************************************************************************
* Generic platform constants
******************************************************************************/
#define FIRMWARE_WELCOME_STR "Booting Rcar-gen3 Trusted Firmware\n"
/* Size of cacheable stacks */
#if IMAGE_BL1
#if TRUSTED_BOARD_BOOT
#define PLATFORM_STACK_SIZE U(0x1000)
#else
#define PLATFORM_STACK_SIZE U(0x440)
#endif
#elif IMAGE_BL2
#if TRUSTED_BOARD_BOOT
#define PLATFORM_STACK_SIZE U(0x1000)
#else
#define PLATFORM_STACK_SIZE U(0x400)
#endif
#elif IMAGE_BL31
#define PLATFORM_STACK_SIZE U(0x400)
#elif IMAGE_BL32
#define PLATFORM_STACK_SIZE U(0x440)
#endif
#define BL332_IMAGE_ID (NS_BL2U_IMAGE_ID + 1)
#define BL333_IMAGE_ID (NS_BL2U_IMAGE_ID + 2)
#define BL334_IMAGE_ID (NS_BL2U_IMAGE_ID + 3)
#define BL335_IMAGE_ID (NS_BL2U_IMAGE_ID + 4)
#define BL336_IMAGE_ID (NS_BL2U_IMAGE_ID + 5)
#define BL337_IMAGE_ID (NS_BL2U_IMAGE_ID + 6)
#define BL338_IMAGE_ID (NS_BL2U_IMAGE_ID + 7)
#define BL332_KEY_CERT_ID (NS_BL2U_IMAGE_ID + 8)
#define BL333_KEY_CERT_ID (NS_BL2U_IMAGE_ID + 9)
#define BL334_KEY_CERT_ID (NS_BL2U_IMAGE_ID + 10)
#define BL335_KEY_CERT_ID (NS_BL2U_IMAGE_ID + 11)
#define BL336_KEY_CERT_ID (NS_BL2U_IMAGE_ID + 12)
#define BL337_KEY_CERT_ID (NS_BL2U_IMAGE_ID + 13)
#define BL338_KEY_CERT_ID (NS_BL2U_IMAGE_ID + 14)
#define BL332_CERT_ID (NS_BL2U_IMAGE_ID + 15)
#define BL333_CERT_ID (NS_BL2U_IMAGE_ID + 16)
#define BL334_CERT_ID (NS_BL2U_IMAGE_ID + 17)
#define BL335_CERT_ID (NS_BL2U_IMAGE_ID + 18)
#define BL336_CERT_ID (NS_BL2U_IMAGE_ID + 19)
#define BL337_CERT_ID (NS_BL2U_IMAGE_ID + 20)
#define BL338_CERT_ID (NS_BL2U_IMAGE_ID + 21)
/* io drivers id */
#define FLASH_DEV_ID U(0)
#define EMMC_DEV_ID U(1)
/*
* R-Car H3 Cortex-A57
* L1:I/48KB(16KBx3way) D/32KB(16KBx2way) L2:2MB(128KBx16way)
* Cortex-A53
* L1:I/32KB(16KBx2way) D/32KB(8KBx4way) L2:512KB(32KBx16way)
*/
#define PLATFORM_CACHE_LINE_SIZE 128
#define PLATFORM_CLUSTER_COUNT U(2)
#define PLATFORM_CLUSTER0_CORE_COUNT U(4)
#define PLATFORM_CLUSTER1_CORE_COUNT U(4)
#define PLATFORM_CORE_COUNT (PLATFORM_CLUSTER1_CORE_COUNT + \
PLATFORM_CLUSTER0_CORE_COUNT)
#define PLATFORM_MAX_CPUS_PER_CLUSTER U(4)
#define PLAT_MAX_PWR_LVL MPIDR_AFFLVL2
#define PLAT_NUM_PWR_DOMAINS (PLATFORM_CORE_COUNT + \
PLATFORM_CLUSTER_COUNT + 1)
#define PLAT_MAX_RET_STATE U(1)
#define PLAT_MAX_OFF_STATE U(2)
#define MAX_IO_DEVICES U(3)
#define MAX_IO_HANDLES U(4)
/*******************************************************************************
* BL2 specific defines.
******************************************************************************/
/* Put BL2 just below BL3-1. BL2_BASE is calculated using the current BL2 debug
* size plus a little space for growth. */
#define RCAR_SYSRAM_BASE U(0xE6300000)
#if RCAR_LSI == RCAR_E3
#define RCAR_SYSRAM_LIMIT U(0xE6320000)
#else
#define RCAR_SYSRAM_LIMIT U(0xE6360000)
#endif
#define BL2_BASE U(0xE6304000)
#if RCAR_LSI == RCAR_E3
#define BL2_LIMIT U(0xE6318000)
#else
#define BL2_LIMIT U(0xE632E800)
#endif
#define RCAR_SYSRAM_SIZE (BL2_BASE - RCAR_SYSRAM_BASE)
/*******************************************************************************
* BL31 specific defines.
******************************************************************************/
/* Put BL3-1 at the top of the Trusted SRAM. BL31_BASE is calculated using the
* current BL3-1 debug size plus a little space for growth. */
#define BL31_BASE (RCAR_TRUSTED_SRAM_BASE)
#define BL31_LIMIT (RCAR_TRUSTED_SRAM_BASE + \
RCAR_TRUSTED_SRAM_SIZE)
#define RCAR_BL31_LOG_BASE (0x44040000)
#define RCAR_BL31_SDRAM_BTM (RCAR_BL31_LOG_BASE + 0x14000)
#define RCAR_BL31_LOG_SIZE (RCAR_BL31_SDRAM_BTM - RCAR_BL31_LOG_BASE)
#define BL31_SRAM_BASE (DEVICE_SRAM_BASE)
#define BL31_SRAM_LIMIT (DEVICE_SRAM_BASE + DEVICE_SRAM_SIZE)
/*******************************************************************************
* BL32 specific defines.
******************************************************************************/
#ifndef SPD_NONE
#define BL32_BASE U(0x44100000)
#define BL32_LIMIT (BL32_BASE + U(0x100000))
#endif
/*******************************************************************************
* BL33
******************************************************************************/
#define BL33_BASE DRAM1_NS_BASE
/*******************************************************************************
* Platform specific page table and MMU setup constants
******************************************************************************/
#if IMAGE_BL1
#define MAX_XLAT_TABLES U(2)
#elif IMAGE_BL2
#define MAX_XLAT_TABLES U(5)
#elif IMAGE_BL31
#define MAX_XLAT_TABLES U(4)
#elif IMAGE_BL32
#define MAX_XLAT_TABLES U(3)
#endif
#if IMAGE_BL2
#define PLAT_PHY_ADDR_SPACE_SIZE (ULL(1) << 40)
#define PLAT_VIRT_ADDR_SPACE_SIZE (ULL(1) << 40)
#else
#define PLAT_PHY_ADDR_SPACE_SIZE (ULL(1) << 32)
#define PLAT_VIRT_ADDR_SPACE_SIZE (ULL(1) << 32)
#endif
#define MAX_MMAP_REGIONS (RCAR_MMAP_ENTRIES + RCAR_BL_REGIONS)
/*******************************************************************************
* Declarations and constants to access the mailboxes safely. Each mailbox is
* aligned on the biggest cache line size in the platform. This is known only
* to the platform as it might have a combination of integrated and external
* caches. Such alignment ensures that two maiboxes do not sit on the same cache
* line at any cache level. They could belong to different cpus/clusters &
* get written while being protected by different locks causing corruption of
* a valid mailbox address.
******************************************************************************/
#define CACHE_WRITEBACK_SHIFT (6)
#define CACHE_WRITEBACK_GRANULE (1 << CACHE_WRITEBACK_SHIFT)
/*******************************************************************************
* Size of the per-cpu data in bytes that should be reserved in the generic
* per-cpu data structure for the RCAR port.
******************************************************************************/
#if !USE_COHERENT_MEM
#define PLAT_PCPU_DATA_SIZE (2)
#endif
#endif

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/*
* Copyright (c) 2015-2018, Renesas Electronics Corporation. All rights reserved.
*
* SPDX-License-Identifier: BSD-3-Clause
*/
#ifndef RCAR_DEF_H__
#define RCAR_DEF_H__
#include <tbbr_img_def.h>
#include <utils_def.h>
#define RCAR_PRIMARY_CPU 0x0
#define RCAR_TRUSTED_SRAM_BASE 0x44000000
#define RCAR_TRUSTED_SRAM_SIZE 0x0003E000
#define RCAR_SHARED_MEM_BASE (RCAR_TRUSTED_SRAM_BASE + \
RCAR_TRUSTED_SRAM_SIZE)
#define RCAR_SHARED_MEM_SIZE U(0x00001000)
#define FLASH0_BASE U(0x08000000)
#define FLASH0_SIZE U(0x04000000)
#define FLASH_MEMORY_SIZE U(0x04000000) /* hyper flash */
#define FLASH_TRANS_SIZE_UNIT U(0x00000100)
#define DEVICE_RCAR_BASE U(0xE6000000)
#define DEVICE_RCAR_SIZE U(0x00300000)
#define DEVICE_RCAR_BASE2 U(0xE6360000)
#define DEVICE_RCAR_SIZE2 U(0x19CA0000)
#define DEVICE_SRAM_BASE U(0xE6310000)
#define DEVICE_SRAM_SIZE U(0x00002000)
#define DEVICE_SRAM_STACK_BASE (DEVICE_SRAM_BASE + DEVICE_SRAM_SIZE)
#define DEVICE_SRAM_STACK_SIZE U(0x00001000)
#define DRAM_LIMIT ULL(0x0000010000000000)
#define DRAM1_BASE U(0x40000000)
#define DRAM1_SIZE U(0x80000000)
#define DRAM1_NS_BASE (DRAM1_BASE + U(0x10000000))
#define DRAM1_NS_SIZE (DRAM1_SIZE - DRAM1_NS_BASE)
#define DRAM_40BIT_BASE ULL(0x0400000000)
#define DRAM_40BIT_SIZE ULL(0x0400000000)
#define DRAM_PROTECTED_BASE ULL(0x43F00000)
#define DRAM_40BIT_PROTECTED_BASE ULL(0x0403F00000)
#define DRAM_PROTECTED_SIZE ULL(0x03F00000)
#define RCAR_BL31_CRASH_BASE U(0x4403F000)
#define RCAR_BL31_CRASH_SIZE U(0x00001000)
/* Entrypoint mailboxes */
#define MBOX_BASE RCAR_SHARED_MEM_BASE
#define MBOX_SIZE 0x200
/* Base address where parameters to BL31 are stored */
#define PARAMS_BASE (MBOX_BASE + MBOX_SIZE)
#define BOOT_KIND_BASE (RCAR_SHARED_MEM_BASE + \
RCAR_SHARED_MEM_SIZE - 0x100)
/* The number of regions like RO(code), coherent and data required by
* different BL stages which need to be mapped in the MMU */
#if USE_COHERENT_MEM
#define RCAR_BL_REGIONS (3)
#else
#define RCAR_BL_REGIONS (2)
#endif
/* The RCAR_MAX_MMAP_REGIONS depend on the number of entries in rcar_mmap[]
* defined for each BL stage in rcar_common.c. */
#if IMAGE_BL2
#define RCAR_MMAP_ENTRIES (9)
#endif
#if IMAGE_BL31
#define RCAR_MMAP_ENTRIES (9)
#endif
#if IMAGE_BL2
#define REG1_BASE U(0xE6400000)
#define REG1_SIZE U(0x04C00000)
#define ROM0_BASE U(0xEB100000)
#define ROM0_SIZE U(0x00028000)
#define REG2_BASE U(0xEC000000)
#define REG2_SIZE U(0x14000000)
#endif
/* BL33 */
#define NS_IMAGE_OFFSET (DRAM1_BASE + U(0x09000000))
/* BL31 */
#define RCAR_DEVICE_BASE DEVICE_RCAR_BASE
#define RCAR_DEVICE_SIZE (0x1A000000)
#define RCAR_LOG_RES_SIZE (512/8)
#define RCAR_LOG_HEADER_SIZE (16)
#define RCAR_LOG_OTHER_SIZE (RCAR_LOG_HEADER_SIZE + \
RCAR_LOG_RES_SIZE)
#define RCAR_BL31_LOG_MAX (RCAR_BL31_LOG_SIZE - \
RCAR_LOG_OTHER_SIZE)
#define RCAR_CRASH_STACK RCAR_BL31_CRASH_BASE
#define AARCH64_SPACE_BASE ULL(0x00000000000)
#define AARCH64_SPACE_SIZE ULL(0x10000000000)
/* CCI related constants */
#define CCI500_BASE U(0xF1200000)
#define CCI500_CLUSTER0_SL_IFACE_IX (2)
#define CCI500_CLUSTER1_SL_IFACE_IX (3)
#define CCI500_CLUSTER0_SL_IFACE_IX_FOR_M3 (1)
#define CCI500_CLUSTER1_SL_IFACE_IX_FOR_M3 (2)
#define RCAR_CCI_BASE CCI500_BASE
/* GIC */
#define RCAR_GICD_BASE U(0xF1010000)
#define RCAR_GICR_BASE U(0xF1010000)
#define RCAR_GICC_BASE U(0xF1020000)
#define RCAR_GICH_BASE U(0xF1040000)
#define RCAR_GICV_BASE U(0xF1060000)
#define ARM_IRQ_SEC_PHY_TIMER U(29)
#define ARM_IRQ_SEC_SGI_0 U(8)
#define ARM_IRQ_SEC_SGI_1 U(9)
#define ARM_IRQ_SEC_SGI_2 U(10)
#define ARM_IRQ_SEC_SGI_3 U(11)
#define ARM_IRQ_SEC_SGI_4 U(12)
#define ARM_IRQ_SEC_SGI_5 U(13)
#define ARM_IRQ_SEC_SGI_6 U(14)
#define ARM_IRQ_SEC_SGI_7 U(15)
#define ARM_IRQ_SEC_RPC U(70)
#define ARM_IRQ_SEC_TIMER U(166)
#define ARM_IRQ_SEC_TIMER_UP U(171)
#define ARM_IRQ_SEC_WDT U(173)
#define ARM_IRQ_SEC_CRYPT U(102)
#define ARM_IRQ_SEC_CRYPT_SecPKA U(97)
#define ARM_IRQ_SEC_CRYPT_PubPKA U(98)
/* Timer control */
#define RCAR_CNTC_BASE U(0xE6080000)
/* Reset */
#define RCAR_CPGWPR U(0xE6150900) /* CPG write protect */
#define RCAR_MODEMR U(0xE6160060) /* Mode pin */
#define RCAR_CA57RESCNT U(0xE6160040) /* Reset control A57 */
#define RCAR_CA53RESCNT U(0xE6160044) /* Reset control A53 */
#define RCAR_SRESCR U(0xE6160110) /* Soft Power On Reset */
#define RCAR_CA53WUPCR U(0xE6151010) /* Wake-up control A53 */
#define RCAR_CA57WUPCR U(0xE6152010) /* Wake-up control A57 */
#define RCAR_CA53PSTR U(0xE6151040) /* Power status A53 */
#define RCAR_CA57PSTR U(0xE6152040) /* Power status A57 */
#define RCAR_CA53CPU0CR U(0xE6151100) /* CPU control A53 */
#define RCAR_CA57CPU0CR U(0xE6152100) /* CPU control A57 */
#define RCAR_CA53CPUCMCR U(0xE6151184) /* Common power A53 */
#define RCAR_CA57CPUCMCR U(0xE6152184) /* Common power A57 */
#define RCAR_WUPMSKCA57 U(0xE6180014) /* Wake-up mask A57 */
#define RCAR_WUPMSKCA53 U(0xE6180018) /* Wake-up mask A53 */
/* SYSC */
#define RCAR_PWRSR3 U(0xE6180140) /* Power stat A53-SCU */
#define RCAR_PWRSR5 U(0xE61801C0) /* Power stat A57-SCU */
#define RCAR_SYSCIER U(0xE618000C) /* Interrupt enable */
#define RCAR_SYSCIMR U(0xE6180010) /* Interrupt mask */
#define RCAR_SYSCSR U(0xE6180000) /* SYSC status */
#define RCAR_PWRONCR3 U(0xE618014C) /* Power resume A53-SCU */
#define RCAR_PWRONCR5 U(0xE61801CC) /* Power resume A57-SCU */
#define RCAR_PWROFFCR3 U(0xE6180144) /* Power shutof A53-SCU */
#define RCAR_PWROFFCR5 U(0xE61801C4) /* Power shutof A57-SCU */
#define RCAR_PWRER3 U(0xE6180154) /* shutoff/resume error */
#define RCAR_PWRER5 U(0xE61801D4) /* shutoff/resume error */
#define RCAR_SYSCISR U(0xE6180004) /* Interrupt status */
#define RCAR_SYSCISCR U(0xE6180008) /* Interrupt stat clear */
/* Product register */
#define RCAR_PRR U(0xFFF00044)
#define RCAR_PRODUCT_MASK U(0x00007F00)
#define RCAR_CUT_MASK U(0x000000FF)
#define RCAR_PRODUCT_H3 U(0x00004F00)
#define RCAR_PRODUCT_M3 U(0x00005200)
#define RCAR_PRODUCT_M3N U(0x00005500)
#define RCAR_PRODUCT_E3 U(0x00005700)
#define RCAR_CUT_VER10 U(0x00000000)
#define RCAR_CUT_VER11 U(0x00000001) /* H3/M3N Ver.1.1 */
#define RCAR_M3_CUT_VER11 U(0x00000010) /* M3 Ver.1.1/Ver.1.2 */
#define RCAR_CUT_VER20 U(0x00000010)
#define RCAR_CUT_VER30 U(0x00000020)
#define RCAR_MAJOR_MASK U(0x000000F0)
#define RCAR_MINOR_MASK U(0x0000000F)
#define RCAR_PRODUCT_SHIFT U(8)
#define RCAR_MAJOR_SHIFT U(4)
#define RCAR_MINOR_SHIFT U(0)
#define RCAR_MAJOR_OFFSET U(1)
#define RCAR_PRODUCT_H3_CUT10 (RCAR_PRODUCT_H3 | U(0x00)) /* 1.0 */
#define RCAR_PRODUCT_H3_CUT11 (RCAR_PRODUCT_H3 | U(0x01)) /* 1.1 */
#define RCAR_PRODUCT_H3_CUT20 (RCAR_PRODUCT_H3 | U(0x10)) /* 2.0 */
#define RCAR_PRODUCT_M3_CUT10 (RCAR_PRODUCT_M3 | U(0x00)) /* 1.0 */
#define RCAR_PRODUCT_M3_CUT11 (RCAR_PRODUCT_M3 | U(0x10))
#define RCAR_CPU_MASK_CA57 U(0x80000000)
#define RCAR_CPU_MASK_CA53 U(0x04000000)
#define RCAR_CPU_HAVE_CA57 U(0x00000000)
#define RCAR_CPU_HAVE_CA53 U(0x00000000)
#define RCAR_SSCG_MASK U(0x1000) /* MD12 */
#define RCAR_SSCG_ENABLE U(0x1000)
/* MD pin information */
#define MODEMR_BOOT_CPU_MASK U(0x000000C0)
#define MODEMR_BOOT_CPU_CR7 U(0x000000C0)
#define MODEMR_BOOT_CPU_CA57 U(0x00000000)
#define MODEMR_BOOT_CPU_CA53 U(0x00000040)
#define MODEMR_BOOT_DEV_MASK U(0x0000001E)
#define MODEMR_BOOT_DEV_HYPERFLASH160 U(0x00000004)
#define MODEMR_BOOT_DEV_HYPERFLASH80 U(0x00000006)
#define MODEMR_BOOT_DEV_QSPI_FLASH40 U(0x00000008)
#define MODEMR_BOOT_DEV_QSPI_FLASH80 U(0x0000000C)
#define MODEMR_BOOT_DEV_EMMC_25X1 U(0x0000000A)
#define MODEMR_BOOT_DEV_EMMC_50X8 U(0x0000001A)
#define MODEMR_BOOT_PLL_MASK U(0x00006000)
#define MODEMR_BOOT_PLL_SHIFT U(13)
/* Memory mapped Generic timer interfaces */
#define ARM_SYS_CNTCTL_BASE RCAR_CNTC_BASE
/* MODEMR PLL masks and bitfield values */
#define CHECK_MD13_MD14 U(0x6000)
#define MD14_MD13_TYPE_0 U(0x0000) /* MD14=0 MD13=0 */
#define MD14_MD13_TYPE_1 U(0x2000) /* MD14=0 MD13=1 */
#define MD14_MD13_TYPE_2 U(0x4000) /* MD14=1 MD13=0 */
#define MD14_MD13_TYPE_3 U(0x6000) /* MD14=1 MD13=1 */
/* Frequency of EXTAL(Hz) */
#define EXTAL_MD14_MD13_TYPE_0 U(8333300) /* MD14=0 MD13=0 */
#define EXTAL_MD14_MD13_TYPE_1 U(10000000) /* MD14=0 MD13=1 */
#define EXTAL_MD14_MD13_TYPE_2 U(12500000) /* MD14=1 MD13=0 */
#define EXTAL_MD14_MD13_TYPE_3 U(16666600) /* MD14=1 MD13=1 */
#define EXTAL_SALVATOR_XS U(8320000) /* Salvator-XS */
#define EXTAL_EBISU U(24000000) /* Ebisu */
/* CPU Auxiliary Control Register */
#define RCAR_CA57_DIS_LOAD_PASS_STORE (ULL(1) << 55)
/* CPG write protect registers */
#define CPGWPR_PASSWORD (0x5A5AFFFFU)
#define CPGWPCR_PASSWORD (0xA5A50000U)
/* CA5x Debug Resource control registers */
#define CPG_CA57DBGRCR (CPG_BASE + 0x2180U)
#define CPG_CA53DBGRCR (CPG_BASE + 0x1180U)
#define DBGCPUPREN ((uint32_t)1U << 19U)
#define CPG_PLL0CR (CPG_BASE + 0x00D8U)
#define CPG_PLL2CR (CPG_BASE + 0x002CU)
#define CPG_PLL4CR (CPG_BASE + 0x01F4U)
/* RST Registers */
#define RST_BASE (0xE6160000U)
#define RST_WDTRSTCR (RST_BASE + 0x0054U)
#define WDTRSTCR_PASSWORD (0xA55A0000U)
#define WDTRSTCR_RWDT_RSTMSK ((uint32_t)1U << 0U)
/* MFIS Registers */
#define MFISWPCNTR_PASSWORD (0xACCE0000U)
#define MFISWPCNTR (0xE6260900U)
/* IPMMU registers */
#define IPMMU_MM_BASE (0xE67B0000U)
#define IPMMUMM_IMSCTLR (IPMMU_MM_BASE + 0x0500U)
#define IPMMUMM_IMAUXCTLR (IPMMU_MM_BASE + 0x0504U)
#define IPMMUMM_IMSCTLR_ENABLE (0xC0000000U)
#define IPMMUMM_IMAUXCTLR_NMERGE40_BIT (0x01000000U)
#define IMSCTLR_DISCACHE (0xE0000000U)
#define IPMMU_VI0_BASE (0xFEBD0000U)
#define IPMMUVI0_IMSCTLR (IPMMU_VI0_BASE + 0x0500U)
#define IPMMU_VI1_BASE (0xFEBE0000U)
#define IPMMUVI1_IMSCTLR (IPMMU_VI1_BASE + 0x0500U)
#define IPMMU_PV0_BASE (0xFD800000U)
#define IPMMUPV0_IMSCTLR (IPMMU_PV0_BASE + 0x0500U)
#define IPMMU_PV1_BASE (0xFD950000U)
#define IPMMUPV1_IMSCTLR (IPMMU_PV1_BASE + 0x0500U)
#define IPMMU_PV2_BASE (0xFD960000U)
#define IPMMUPV2_IMSCTLR (IPMMU_PV2_BASE + 0x0500U)
#define IPMMU_PV3_BASE (0xFD970000U)
#define IPMMUPV3_IMSCTLR (IPMMU_PV3_BASE + 0x0500U)
#define IPMMU_HC_BASE (0xE6570000U)
#define IPMMUHC_IMSCTLR (IPMMU_HC_BASE + 0x0500U)
#define IPMMU_RT_BASE (0xFFC80000U)
#define IPMMURT_IMSCTLR (IPMMU_RT_BASE + 0x0500U)
#define IPMMU_MP_BASE (0xEC670000U)
#define IPMMUMP_IMSCTLR (IPMMU_MP_BASE + 0x0500U)
#define IPMMU_DS0_BASE (0xE6740000U)
#define IPMMUDS0_IMSCTLR (IPMMU_DS0_BASE + 0x0500U)
#define IPMMU_DS1_BASE (0xE7740000U)
#define IPMMUDS1_IMSCTLR (IPMMU_DS1_BASE + 0x0500U)
/* ARMREG registers */
#define P_ARMREG_SEC_CTRL (0xE62711F0U)
#define P_ARMREG_SEC_CTRL_PROT (0x00000001U)
/* MIDR */
#define MIDR_CA57 (0x0D07U << MIDR_PN_SHIFT)
#define MIDR_CA53 (0x0D03U << MIDR_PN_SHIFT)
/* for SuspendToRAM */
#define GPIO_BASE (0xE6050000U)
#define GPIO_INDT1 (GPIO_BASE + 0x100CU)
#define GPIO_INDT6 (GPIO_BASE + 0x540CU)
#define RCAR_COLD_BOOT (0x00U)
#define RCAR_WARM_BOOT (0x01U)
#if PMIC_ROHM_BD9571 && RCAR_SYSTEM_RESET_KEEPON_DDR
#define KEEP10_MAGIC (0x55U)
#endif
/* lossy registers */
#define LOSSY_PARAMS_BASE (0x47FD7000U)
#define AXI_DCMPAREACRA0 (0xE6784100U)
#define AXI_DCMPAREACRB0 (0xE6784104U)
#define LOSSY_ENABLE (0x80000000U)
#define LOSSY_DISABLE (0x00000000U)
#define LOSSY_FMT_YUVPLANAR (0x00000000U)
#define LOSSY_FMT_YUV422INTLV (0x20000000U)
#define LOSSY_FMT_ARGB8888 (0x40000000U)
#define LOSSY_ST_ADDR0 (0x54000000U)
#define LOSSY_END_ADDR0 (0x57000000U)
#define LOSSY_FMT0 LOSSY_FMT_YUVPLANAR
#define LOSSY_ENA_DIS0 LOSSY_ENABLE
#define LOSSY_ST_ADDR1 0x0U
#define LOSSY_END_ADDR1 0x0U
#define LOSSY_FMT1 LOSSY_FMT_ARGB8888
#define LOSSY_ENA_DIS1 LOSSY_DISABLE
#define LOSSY_ST_ADDR2 0x0U
#define LOSSY_END_ADDR2 0x0U
#define LOSSY_FMT2 LOSSY_FMT_YUV422INTLV
#define LOSSY_ENA_DIS2 LOSSY_DISABLE
#endif

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/*
* Copyright (c) 2015-2018, Renesas Electronics Corporation. All rights reserved.
*
* SPDX-License-Identifier: BSD-3-Clause
*/
#ifndef RCAR_PRIVATE_H__
#define RCAR_PRIVATE_H__
#include <bakery_lock.h>
#include <bl_common.h>
#include <cpu_data.h>
#include <platform_def.h>
typedef volatile struct mailbox {
unsigned long value __aligned(CACHE_WRITEBACK_GRANULE);
} mailbox_t;
/*
* This structure represents the superset of information that is passed to
* BL31 e.g. while passing control to it from BL2 which is bl31_params
* and bl31_plat_params and its elements
*/
typedef struct bl2_to_bl31_params_mem {
image_info_t bl32_image_info;
image_info_t bl33_image_info;
entry_point_info_t bl33_ep_info;
entry_point_info_t bl32_ep_info;
} bl2_to_bl31_params_mem_t;
#if USE_COHERENT_MEM
#define RCAR_INSTANTIATE_LOCK DEFINE_BAKERY_LOCK(rcar_lock);
#define rcar_lock_init() bakery_lock_init(&rcar_lock)
#define rcar_lock_get() bakery_lock_get(&rcar_lock)
#define rcar_lock_release() bakery_lock_release(&rcar_lock)
#else
/*
* Constants to specify how many bakery locks this platform implements. These
* are used if the platform chooses not to use coherent memory for bakery lock
* data structures.
*/
#define RCAR_MAX_BAKERIES 2
#define RCAR_PWRC_BAKERY_ID 0
/*
* Definition of structure which holds platform specific per-cpu data. Currently
* it holds only the bakery lock information for each cpu. Constants to
* specify how many bakeries this platform implements and bakery ids are
* specified in rcar_def.h
*/
typedef struct rcar_cpu_data {
bakery_info_t pcpu_bakery_info[RCAR_MAX_BAKERIES];
} rcar_cpu_data_t;
#define RCAR_CPU_DATA_LOCK_OFFSET \
__builtin_offsetof(rcar_cpu_data_t, pcpu_bakery_info)
/*
* Helper macros for bakery lock api when using the above rcar_cpu_data_t for
* bakery lock data structures. It assumes that the bakery_info is at the
* beginning of the platform specific per-cpu data.
*/
#define rcar_lock_init(_lock_arg)
#define rcar_lock_get(_lock_arg) \
bakery_lock_get(_lock_arg, \
CPU_DATA_PLAT_PCPU_OFFSET + RCAR_CPU_DATA_LOCK_OFFSET)
#define rcar_lock_release(_lock_arg) \
bakery_lock_release(_lock_arg, \
CPU_DATA_PLAT_PCPU_OFFSET + RCAR_CPU_DATA_LOCK_OFFSET)
/* Ensure that the size of the RCAR specific per-cpu data structure and the size
* of the memory allocated in generic per-cpu data for the platform are the same
*/
CASSERT(PLAT_PCPU_DATA_SIZE == sizeof(rcar_cpu_data_t),
rcar_pcpu_data_size_mismatch);
#endif
/*
* Function and variable prototypes
*/
void rcar_configure_mmu_el3(unsigned long total_base,
unsigned long total_size,
unsigned long ro_start, unsigned long ro_limit
#if USE_COHERENT_MEM
, unsigned long coh_start, unsigned long coh_limit
#endif
);
void rcar_setup_topology(void);
void rcar_cci_disable(void);
void rcar_cci_enable(void);
void rcar_cci_init(void);
void plat_invalidate_icache(void);
void plat_cci_disable(void);
void plat_cci_enable(void);
void plat_cci_init(void);
void mstpcr_write(uint32_t mstpcr, uint32_t mstpsr, uint32_t target_bit);
void cpg_write(uintptr_t regadr, uint32_t regval);
#endif

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/*
* Copyright (c) 2015-2018, Renesas Electronics Corporation. All rights reserved.
*
* SPDX-License-Identifier: BSD-3-Clause
*/
#ifndef RCAR_VERSION_H__
#define RCAR_VERSION_H__
#include <arch_helpers.h>
#define VERSION_OF_RENESAS "1.0.22"
#define VERSION_OF_RENESAS_MAXLEN (128)
extern const uint8_t version_of_renesas[VERSION_OF_RENESAS_MAXLEN];
#endif

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/*
* Copyright (c) 2015-2017, Renesas Electronics Corporation. All rights reserved.
*
* SPDX-License-Identifier: BSD-3-Clause
*/
#ifndef AXI_REGISTER_H__
#define AXI_REGISTER_H__
/* AXI registers */
/* AXI base address */
#define AXI_BASE (0xE6780000U)
/* address split */
/* AXI address split control 0 */
#define AXI_ADSPLCR0 (AXI_BASE + 0x4008U)
/* AXI address split control 1 */
#define AXI_ADSPLCR1 (AXI_BASE + 0x400CU)
/* AXI address split control 2 */
#define AXI_ADSPLCR2 (AXI_BASE + 0x4010U)
/* AXI address split control 3 */
#define AXI_ADSPLCR3 (AXI_BASE + 0x4014U)
/* functional safety */
/* AXI functional safety control */
#define AXI_FUSACR (AXI_BASE + 0x4020U)
/* decompression */
/* AXI decompression area configuration A0 */
#define AXI_DCMPAREACRA0 (AXI_BASE + 0x4100U)
/* AXI decompression area configuration B0 */
#define AXI_DCMPAREACRB0 (AXI_BASE + 0x4104U)
/* AXI decompression area configuration A1 */
#define AXI_DCMPAREACRA1 (AXI_BASE + 0x4108U)
/* AXI decompression area configuration B1 */
#define AXI_DCMPAREACRB1 (AXI_BASE + 0x410CU)
/* AXI decompression area configuration A2 */
#define AXI_DCMPAREACRA2 (AXI_BASE + 0x4110U)
/* AXI decompression area configuration B2 */
#define AXI_DCMPAREACRB2 (AXI_BASE + 0x4114U)
/* AXI decompression area configuration A3 */
#define AXI_DCMPAREACRA3 (AXI_BASE + 0x4118U)
/* AXI decompression area configuration B3 */
#define AXI_DCMPAREACRB3 (AXI_BASE + 0x411CU)
/* AXI decompression area configuration A4 */
#define AXI_DCMPAREACRA4 (AXI_BASE + 0x4120U)
/* AXI decompression area configuration B4 */
#define AXI_DCMPAREACRB4 (AXI_BASE + 0x4124U)
/* AXI decompression area configuration A5 */
#define AXI_DCMPAREACRA5 (AXI_BASE + 0x4128U)
/* AXI decompression area configuration B5 */
#define AXI_DCMPAREACRB5 (AXI_BASE + 0x412CU)
/* AXI decompression area configuration A6 */
#define AXI_DCMPAREACRA6 (AXI_BASE + 0x4130U)
/* AXI decompression area configuration B6 */
#define AXI_DCMPAREACRB6 (AXI_BASE + 0x4134U)
/* AXI decompression area configuration A7 */
#define AXI_DCMPAREACRA7 (AXI_BASE + 0x4138U)
/* AXI decompression area configuration B7 */
#define AXI_DCMPAREACRB7 (AXI_BASE + 0x413CU)
/* AXI decompression area configuration A8 */
#define AXI_DCMPAREACRA8 (AXI_BASE + 0x4140U)
/* AXI decompression area configuration B8 */
#define AXI_DCMPAREACRB8 (AXI_BASE + 0x4144U)
/* AXI decompression area configuration A9 */
#define AXI_DCMPAREACRA9 (AXI_BASE + 0x4148U)
/* AXI decompression area configuration B9 */
#define AXI_DCMPAREACRB9 (AXI_BASE + 0x414CU)
/* AXI decompression area configuration A10 */
#define AXI_DCMPAREACRA10 (AXI_BASE + 0x4150U)
/* AXI decompression area configuration B10 */
#define AXI_DCMPAREACRB10 (AXI_BASE + 0x4154U)
/* AXI decompression area configuration A11 */
#define AXI_DCMPAREACRA11 (AXI_BASE + 0x4158U)
/* AXI decompression area configuration B11 */
#define AXI_DCMPAREACRB11 (AXI_BASE + 0x415CU)
/* AXI decompression area configuration A12 */
#define AXI_DCMPAREACRA12 (AXI_BASE + 0x4160U)
/* AXI decompression area configuration B12 */
#define AXI_DCMPAREACRB12 (AXI_BASE + 0x4164U)
/* AXI decompression area configuration A13 */
#define AXI_DCMPAREACRA13 (AXI_BASE + 0x4168U)
/* AXI decompression area configuration B13 */
#define AXI_DCMPAREACRB13 (AXI_BASE + 0x416CU)
/* AXI decompression area configuration A14 */
#define AXI_DCMPAREACRA14 (AXI_BASE + 0x4170U)
/* AXI decompression area configuration B14 */
#define AXI_DCMPAREACRB14 (AXI_BASE + 0x4174U)
/* AXI decompression area configuration A15 */
#define AXI_DCMPAREACRA15 (AXI_BASE + 0x4178U)
/* AXI decompression area configuration B15 */
#define AXI_DCMPAREACRB15 (AXI_BASE + 0x417CU)
/* AXI decompression shadow area configuration */
#define AXI_DCMPSHDWCR (AXI_BASE + 0x4280U)
/* SDRAM protection */
/* AXI dram protected area division 0 */
#define AXI_DPTDIVCR0 (AXI_BASE + 0x4400U)
/* AXI dram protected area division 1 */
#define AXI_DPTDIVCR1 (AXI_BASE + 0x4404U)
/* AXI dram protected area division 2 */
#define AXI_DPTDIVCR2 (AXI_BASE + 0x4408U)
/* AXI dram protected area division 3 */
#define AXI_DPTDIVCR3 (AXI_BASE + 0x440CU)
/* AXI dram protected area division 4 */
#define AXI_DPTDIVCR4 (AXI_BASE + 0x4410U)
/* AXI dram protected area division 5 */
#define AXI_DPTDIVCR5 (AXI_BASE + 0x4414U)
/* AXI dram protected area division 6 */
#define AXI_DPTDIVCR6 (AXI_BASE + 0x4418U)
/* AXI dram protected area division 7 */
#define AXI_DPTDIVCR7 (AXI_BASE + 0x441CU)
/* AXI dram protected area division 8 */
#define AXI_DPTDIVCR8 (AXI_BASE + 0x4420U)
/* AXI dram protected area division 9 */
#define AXI_DPTDIVCR9 (AXI_BASE + 0x4424U)
/* AXI dram protected area division 10 */
#define AXI_DPTDIVCR10 (AXI_BASE + 0x4428U)
/* AXI dram protected area division 11 */
#define AXI_DPTDIVCR11 (AXI_BASE + 0x442CU)
/* AXI dram protected area division 12 */
#define AXI_DPTDIVCR12 (AXI_BASE + 0x4430U)
/* AXI dram protected area division 13 */
#define AXI_DPTDIVCR13 (AXI_BASE + 0x4434U)
/* AXI dram protected area division 14 */
#define AXI_DPTDIVCR14 (AXI_BASE + 0x4438U)
/* AXI dram protected area setting 0 */
#define AXI_DPTCR0 (AXI_BASE + 0x4440U)
/* AXI dram protected area setting 1 */
#define AXI_DPTCR1 (AXI_BASE + 0x4444U)
/* AXI dram protected area setting 2 */
#define AXI_DPTCR2 (AXI_BASE + 0x4448U)
/* AXI dram protected area setting 3 */
#define AXI_DPTCR3 (AXI_BASE + 0x444CU)
/* AXI dram protected area setting 4 */
#define AXI_DPTCR4 (AXI_BASE + 0x4450U)
/* AXI dram protected area setting 5 */
#define AXI_DPTCR5 (AXI_BASE + 0x4454U)
/* AXI dram protected area setting 6 */
#define AXI_DPTCR6 (AXI_BASE + 0x4458U)
/* AXI dram protected area setting 7 */
#define AXI_DPTCR7 (AXI_BASE + 0x445CU)
/* AXI dram protected area setting 8 */
#define AXI_DPTCR8 (AXI_BASE + 0x4460U)
/* AXI dram protected area setting 9 */
#define AXI_DPTCR9 (AXI_BASE + 0x4464U)
/* AXI dram protected area setting 10 */
#define AXI_DPTCR10 (AXI_BASE + 0x4468U)
/* AXI dram protected area setting 11 */
#define AXI_DPTCR11 (AXI_BASE + 0x446CU)
/* AXI dram protected area setting 12 */
#define AXI_DPTCR12 (AXI_BASE + 0x4470U)
/* AXI dram protected area setting 13 */
#define AXI_DPTCR13 (AXI_BASE + 0x4474U)
/* AXI dram protected area setting 14 */
#define AXI_DPTCR14 (AXI_BASE + 0x4478U)
/* AXI dram protected area setting 15 */
#define AXI_DPTCR15 (AXI_BASE + 0x447CU)
/* SRAM protection */
/* AXI sram protected area division 0 */
#define AXI_SPTDIVCR0 (AXI_BASE + 0x4500U)
/* AXI sram protected area division 1 */
#define AXI_SPTDIVCR1 (AXI_BASE + 0x4504U)
/* AXI sram protected area division 2 */
#define AXI_SPTDIVCR2 (AXI_BASE + 0x4508U)
/* AXI sram protected area division 3 */
#define AXI_SPTDIVCR3 (AXI_BASE + 0x450CU)
/* AXI sram protected area division 4 */
#define AXI_SPTDIVCR4 (AXI_BASE + 0x4510U)
/* AXI sram protected area division 5 */
#define AXI_SPTDIVCR5 (AXI_BASE + 0x4514U)
/* AXI sram protected area division 6 */
#define AXI_SPTDIVCR6 (AXI_BASE + 0x4518U)
/* AXI sram protected area division 7 */
#define AXI_SPTDIVCR7 (AXI_BASE + 0x451CU)
/* AXI sram protected area division 8 */
#define AXI_SPTDIVCR8 (AXI_BASE + 0x4520U)
/* AXI sram protected area division 9 */
#define AXI_SPTDIVCR9 (AXI_BASE + 0x4524U)
/* AXI sram protected area division 10 */
#define AXI_SPTDIVCR10 (AXI_BASE + 0x4528U)
/* AXI sram protected area division 11 */
#define AXI_SPTDIVCR11 (AXI_BASE + 0x452CU)
/* AXI sram protected area division 12 */
#define AXI_SPTDIVCR12 (AXI_BASE + 0x4530U)
/* AXI sram protected area division 13 */
#define AXI_SPTDIVCR13 (AXI_BASE + 0x4534U)
/* AXI sram protected area division 14 */
#define AXI_SPTDIVCR14 (AXI_BASE + 0x4538U)
/* AXI sram protected area setting 0 */
#define AXI_SPTCR0 (AXI_BASE + 0x4540U)
/* AXI sram protected area setting 1 */
#define AXI_SPTCR1 (AXI_BASE + 0x4544U)
/* AXI sram protected area setting 2 */
#define AXI_SPTCR2 (AXI_BASE + 0x4548U)
/* AXI sram protected area setting 3 */
#define AXI_SPTCR3 (AXI_BASE + 0x454CU)
/* AXI sram protected area setting 4 */
#define AXI_SPTCR4 (AXI_BASE + 0x4550U)
/* AXI sram protected area setting 5 */
#define AXI_SPTCR5 (AXI_BASE + 0x4554U)
/* AXI sram protected area setting 6 */
#define AXI_SPTCR6 (AXI_BASE + 0x4558U)
/* AXI sram protected area setting 7 */
#define AXI_SPTCR7 (AXI_BASE + 0x455CU)
/* AXI sram protected area setting 8 */
#define AXI_SPTCR8 (AXI_BASE + 0x4560U)
/* AXI sram protected area setting 9 */
#define AXI_SPTCR9 (AXI_BASE + 0x4564U)
/* AXI sram protected area setting 10 */
#define AXI_SPTCR10 (AXI_BASE + 0x4568U)
/* AXI sram protected area setting 11 */
#define AXI_SPTCR11 (AXI_BASE + 0x456CU)
/* AXI sram protected area setting 12 */
#define AXI_SPTCR12 (AXI_BASE + 0x4570U)
/* AXI sram protected area setting 13 */
#define AXI_SPTCR13 (AXI_BASE + 0x4574U)
/* AXI sram protected area setting 14 */
#define AXI_SPTCR14 (AXI_BASE + 0x4578U)
/* AXI sram protected area setting 15 */
#define AXI_SPTCR15 (AXI_BASE + 0x457CU)
/* EDC base address */
#define EDC_BASE (0xFF840000U)
/* EDC edc enable */
#define EDC_EDCEN (EDC_BASE + 0x0010U)
/* EDC edc status 0 */
#define EDC_EDCST0 (EDC_BASE + 0x0020U)
/* EDC edc status 1 */
#define EDC_EDCST1 (EDC_BASE + 0x0024U)
/* EDC edc interrupt enable 0 */
#define EDC_EDCINTEN0 (EDC_BASE + 0x0040U)
/* EDC edc interrupt enable 1 */
#define EDC_EDCINTEN1 (EDC_BASE + 0x0044U)
#endif

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/*
* Copyright (c) 2015-2017, Renesas Electronics Corporation. All rights reserved.
*
* SPDX-License-Identifier: BSD-3-Clause
*/
#ifndef CPG_REGISTER_H__
#define CPG_REGISTER_H__
/* CPG base address */
#define CPG_BASE (0xE6150000U)
/* CPG system module stop control 2 */
#define CPG_SMSTPCR2 (CPG_BASE + 0x0138U)
/* CPG software reset 2 */
#define CPG_SRCR2 (CPG_BASE + 0x00B0U)
/* CPG module stop status 2 */
#define CPG_MSTPSR2 (CPG_BASE + 0x0040U)
/* CPG write protect */
#define CPG_CPGWPR (CPG_BASE + 0x0900U)
/* CPG write protect control */
#define CPG_CPGWPCR (CPG_BASE + 0x0904U)
/* CPG system module stop control 9 */
#define CPG_SMSTPCR9 (CPG_BASE + 0x0994U)
/* CPG module stop status 9 */
#define CPG_MSTPSR9 (CPG_BASE + 0x09A4U)
/* CPG (SECURITY) registers */
/* Secure Module Stop Control Register 0 */
#define SCMSTPCR0 (CPG_BASE + 0x0B20U)
/* Secure Module Stop Control Register 1 */
#define SCMSTPCR1 (CPG_BASE + 0x0B24U)
/* Secure Module Stop Control Register 2 */
#define SCMSTPCR2 (CPG_BASE + 0x0B28U)
/* Secure Module Stop Control Register 3 */
#define SCMSTPCR3 (CPG_BASE + 0x0B2CU)
/* Secure Module Stop Control Register 4 */
#define SCMSTPCR4 (CPG_BASE + 0x0B30U)
/* Secure Module Stop Control Register 5 */
#define SCMSTPCR5 (CPG_BASE + 0x0B34U)
/* Secure Module Stop Control Register 6 */
#define SCMSTPCR6 (CPG_BASE + 0x0B38U)
/* Secure Module Stop Control Register 7 */
#define SCMSTPCR7 (CPG_BASE + 0x0B3CU)
/* Secure Module Stop Control Register 8 */
#define SCMSTPCR8 (CPG_BASE + 0x0B40U)
/* Secure Module Stop Control Register 9 */
#define SCMSTPCR9 (CPG_BASE + 0x0B44U)
/* Secure Module Stop Control Register 10 */
#define SCMSTPCR10 (CPG_BASE + 0x0B48U)
/* Secure Module Stop Control Register 11 */
#define SCMSTPCR11 (CPG_BASE + 0x0B4CU)
/* CPG (SECURITY) registers */
/* Secure Software Reset Access Enable Control Register 0 */
#define SCSRSTECR0 (CPG_BASE + 0x0B80U)
/* Secure Software Reset Access Enable Control Register 1 */
#define SCSRSTECR1 (CPG_BASE + 0x0B84U)
/* Secure Software Reset Access Enable Control Register 2 */
#define SCSRSTECR2 (CPG_BASE + 0x0B88U)
/* Secure Software Reset Access Enable Control Register 3 */
#define SCSRSTECR3 (CPG_BASE + 0x0B8CU)
/* Secure Software Reset Access Enable Control Register 4 */
#define SCSRSTECR4 (CPG_BASE + 0x0B90U)
/* Secure Software Reset Access Enable Control Register 5 */
#define SCSRSTECR5 (CPG_BASE + 0x0B94U)
/* Secure Software Reset Access Enable Control Register 6 */
#define SCSRSTECR6 (CPG_BASE + 0x0B98U)
/* Secure Software Reset Access Enable Control Register 7 */
#define SCSRSTECR7 (CPG_BASE + 0x0B9CU)
/* Secure Software Reset Access Enable Control Register 8 */
#define SCSRSTECR8 (CPG_BASE + 0x0BA0U)
/* Secure Software Reset Access Enable Control Register 9 */
#define SCSRSTECR9 (CPG_BASE + 0x0BA4U)
/* Secure Software Reset Access Enable Control Register 10 */
#define SCSRSTECR10 (CPG_BASE + 0x0BA8U)
/* Secure Software Reset Access Enable Control Register 11 */
#define SCSRSTECR11 (CPG_BASE + 0x0BACU)
/* CPG (REALTIME) registers */
/* Realtime Module Stop Control Register 0 */
#define RMSTPCR0 (CPG_BASE + 0x0110U)
/* Realtime Module Stop Control Register 1 */
#define RMSTPCR1 (CPG_BASE + 0x0114U)
/* Realtime Module Stop Control Register 2 */
#define RMSTPCR2 (CPG_BASE + 0x0118U)
/* Realtime Module Stop Control Register 3 */
#define RMSTPCR3 (CPG_BASE + 0x011CU)
/* Realtime Module Stop Control Register 4 */
#define RMSTPCR4 (CPG_BASE + 0x0120U)
/* Realtime Module Stop Control Register 5 */
#define RMSTPCR5 (CPG_BASE + 0x0124U)
/* Realtime Module Stop Control Register 6 */
#define RMSTPCR6 (CPG_BASE + 0x0128U)
/* Realtime Module Stop Control Register 7 */
#define RMSTPCR7 (CPG_BASE + 0x012CU)
/* Realtime Module Stop Control Register 8 */
#define RMSTPCR8 (CPG_BASE + 0x0980U)
/* Realtime Module Stop Control Register 9 */
#define RMSTPCR9 (CPG_BASE + 0x0984U)
/* Realtime Module Stop Control Register 10 */
#define RMSTPCR10 (CPG_BASE + 0x0988U)
/* Realtime Module Stop Control Register 11 */
#define RMSTPCR11 (CPG_BASE + 0x098CU)
/* CPG (SYSTEM) registers */
/* System Module Stop Control Register 0 */
#define SMSTPCR0 (CPG_BASE + 0x0130U)
/* System Module Stop Control Register 1 */
#define SMSTPCR1 (CPG_BASE + 0x0134U)
/* System Module Stop Control Register 2 */
#define SMSTPCR2 (CPG_BASE + 0x0138U)
/* System Module Stop Control Register 3 */
#define SMSTPCR3 (CPG_BASE + 0x013CU)
/* System Module Stop Control Register 4 */
#define SMSTPCR4 (CPG_BASE + 0x0140U)
/* System Module Stop Control Register 5 */
#define SMSTPCR5 (CPG_BASE + 0x0144U)
/* System Module Stop Control Register 6 */
#define SMSTPCR6 (CPG_BASE + 0x0148U)
/* System Module Stop Control Register 7 */
#define SMSTPCR7 (CPG_BASE + 0x014CU)
/* System Module Stop Control Register 8 */
#define SMSTPCR8 (CPG_BASE + 0x0990U)
/* System Module Stop Control Register 9 */
#define SMSTPCR9 (CPG_BASE + 0x0994U)
/* System Module Stop Control Register 10 */
#define SMSTPCR10 (CPG_BASE + 0x0998U)
/* System Module Stop Control Register 11 */
#define SMSTPCR11 (CPG_BASE + 0x099CU)
#endif

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/*
* Copyright (c) 2015-2017, Renesas Electronics Corporation. All rights reserved.
*
* SPDX-License-Identifier: BSD-3-Clause
*/
#ifndef LIFEC_REGISTER_H__
#define LIFEC_REGISTER_H__
#define LIFEC_SEC_BASE (0xE6110000U)
#define SEC_SRC (LIFEC_SEC_BASE + 0x0008U)
#define SEC_SEL0 (LIFEC_SEC_BASE + 0x0030U)
#define SEC_SEL1 (LIFEC_SEC_BASE + 0x0034U)
#define SEC_SEL2 (LIFEC_SEC_BASE + 0x0038U)
#define SEC_SEL3 (LIFEC_SEC_BASE + 0x003CU)
#define SEC_SEL4 (LIFEC_SEC_BASE + 0x0058U)
#define SEC_SEL5 (LIFEC_SEC_BASE + 0x005CU)
#define SEC_SEL6 (LIFEC_SEC_BASE + 0x0060U)
#define SEC_SEL7 (LIFEC_SEC_BASE + 0x0064U)
#define SEC_SEL8 (LIFEC_SEC_BASE + 0x0068U)
#define SEC_SEL9 (LIFEC_SEC_BASE + 0x006CU)
#define SEC_SEL10 (LIFEC_SEC_BASE + 0x0070U)
#define SEC_SEL11 (LIFEC_SEC_BASE + 0x0074U)
#define SEC_SEL12 (LIFEC_SEC_BASE + 0x0078U)
#define SEC_SEL13 (LIFEC_SEC_BASE + 0x007CU)
#define SEC_SEL14 (LIFEC_SEC_BASE + 0x0080U)
#define SEC_SEL15 (LIFEC_SEC_BASE + 0x0084U)
#define SEC_GRP0CR0 (LIFEC_SEC_BASE + 0x0138U)
#define SEC_GRP1CR0 (LIFEC_SEC_BASE + 0x013CU)
#define SEC_GRP0CR1 (LIFEC_SEC_BASE + 0x0140U)
#define SEC_GRP1CR1 (LIFEC_SEC_BASE + 0x0144U)
#define SEC_GRP0CR2 (LIFEC_SEC_BASE + 0x0148U)
#define SEC_GRP1CR2 (LIFEC_SEC_BASE + 0x014CU)
#define SEC_GRP0CR3 (LIFEC_SEC_BASE + 0x0150U)
#define SEC_GRP1CR3 (LIFEC_SEC_BASE + 0x0154U)
#define SEC_GRP0COND0 (LIFEC_SEC_BASE + 0x0158U)
#define SEC_GRP1COND0 (LIFEC_SEC_BASE + 0x015CU)
#define SEC_GRP0COND1 (LIFEC_SEC_BASE + 0x0160U)
#define SEC_GRP1COND1 (LIFEC_SEC_BASE + 0x0164U)
#define SEC_GRP0COND2 (LIFEC_SEC_BASE + 0x0168U)
#define SEC_GRP1COND2 (LIFEC_SEC_BASE + 0x016CU)
#define SEC_GRP0COND3 (LIFEC_SEC_BASE + 0x0170U)
#define SEC_GRP1COND3 (LIFEC_SEC_BASE + 0x0174U)
#define SEC_GRP0COND4 (LIFEC_SEC_BASE + 0x0178U)
#define SEC_GRP1COND4 (LIFEC_SEC_BASE + 0x017CU)
#define SEC_GRP0COND5 (LIFEC_SEC_BASE + 0x0180U)
#define SEC_GRP1COND5 (LIFEC_SEC_BASE + 0x0184U)
#define SEC_GRP0COND6 (LIFEC_SEC_BASE + 0x0188U)
#define SEC_GRP1COND6 (LIFEC_SEC_BASE + 0x018CU)
#define SEC_GRP0COND7 (LIFEC_SEC_BASE + 0x0190U)
#define SEC_GRP1COND7 (LIFEC_SEC_BASE + 0x0194U)
#define SEC_GRP0COND8 (LIFEC_SEC_BASE + 0x0198U)
#define SEC_GRP1COND8 (LIFEC_SEC_BASE + 0x019CU)
#define SEC_GRP0COND9 (LIFEC_SEC_BASE + 0x01A0U)
#define SEC_GRP1COND9 (LIFEC_SEC_BASE + 0x01A4U)
#define SEC_GRP0COND10 (LIFEC_SEC_BASE + 0x01A8U)
#define SEC_GRP1COND10 (LIFEC_SEC_BASE + 0x01ACU)
#define SEC_GRP0COND11 (LIFEC_SEC_BASE + 0x01B0U)
#define SEC_GRP1COND11 (LIFEC_SEC_BASE + 0x01B4U)
#define SEC_GRP0COND12 (LIFEC_SEC_BASE + 0x01B8U)
#define SEC_GRP1COND12 (LIFEC_SEC_BASE + 0x01BCU)
#define SEC_GRP0COND13 (LIFEC_SEC_BASE + 0x01C0U)
#define SEC_GRP1COND13 (LIFEC_SEC_BASE + 0x01C4U)
#define SEC_GRP0COND14 (LIFEC_SEC_BASE + 0x01C8U)
#define SEC_GRP1COND14 (LIFEC_SEC_BASE + 0x01CCU)
#define SEC_GRP0COND15 (LIFEC_SEC_BASE + 0x01D0U)
#define SEC_GRP1COND15 (LIFEC_SEC_BASE + 0x01D4U)
#define SEC_READONLY0 (LIFEC_SEC_BASE + 0x01D8U)
#define SEC_READONLY1 (LIFEC_SEC_BASE + 0x01DCU)
#define SEC_READONLY2 (LIFEC_SEC_BASE + 0x01E0U)
#define SEC_READONLY3 (LIFEC_SEC_BASE + 0x01E4U)
#define SEC_READONLY4 (LIFEC_SEC_BASE + 0x01E8U)
#define SEC_READONLY5 (LIFEC_SEC_BASE + 0x01ECU)
#define SEC_READONLY6 (LIFEC_SEC_BASE + 0x01F0U)
#define SEC_READONLY7 (LIFEC_SEC_BASE + 0x01F4U)
#define SEC_READONLY8 (LIFEC_SEC_BASE + 0x01F8U)
#define SEC_READONLY9 (LIFEC_SEC_BASE + 0x01FCU)
#define SEC_READONLY10 (LIFEC_SEC_BASE + 0x0200U)
#define SEC_READONLY11 (LIFEC_SEC_BASE + 0x0204U)
#define SEC_READONLY12 (LIFEC_SEC_BASE + 0x0208U)
#define SEC_READONLY13 (LIFEC_SEC_BASE + 0x020CU)
#define SEC_READONLY14 (LIFEC_SEC_BASE + 0x0210U)
#define SEC_READONLY15 (LIFEC_SEC_BASE + 0x0214U)
#define LIFEC_SAFE_BASE (0xE6120000U)
#define SAFE_GRP0CR0 (LIFEC_SAFE_BASE + 0x0138U)
#define SAFE_GRP1CR0 (LIFEC_SAFE_BASE + 0x013CU)
#define SAFE_GRP0CR1 (LIFEC_SAFE_BASE + 0x0140U)
#define SAFE_GRP1CR1 (LIFEC_SAFE_BASE + 0x0144U)
#define SAFE_GRP0CR2 (LIFEC_SAFE_BASE + 0x0148U)
#define SAFE_GRP1CR2 (LIFEC_SAFE_BASE + 0x014CU)
#define SAFE_GRP0CR3 (LIFEC_SAFE_BASE + 0x0150U)
#define SAFE_GRP1CR3 (LIFEC_SAFE_BASE + 0x0154U)
#define SAFE_GRP0COND0 (LIFEC_SAFE_BASE + 0x0158U)
#define SAFE_GRP1COND0 (LIFEC_SAFE_BASE + 0x015CU)
#define SAFE_GRP0COND1 (LIFEC_SAFE_BASE + 0x0160U)
#define SAFE_GRP1COND1 (LIFEC_SAFE_BASE + 0x0164U)
#define SAFE_GRP0COND2 (LIFEC_SAFE_BASE + 0x0168U)
#define SAFE_GRP1COND2 (LIFEC_SAFE_BASE + 0x016CU)
#define SAFE_GRP0COND3 (LIFEC_SAFE_BASE + 0x0170U)
#define SAFE_GRP1COND3 (LIFEC_SAFE_BASE + 0x0174U)
#define SAFE_GRP0COND4 (LIFEC_SAFE_BASE + 0x0178U)
#define SAFE_GRP1COND4 (LIFEC_SAFE_BASE + 0x017CU)
#define SAFE_GRP0COND5 (LIFEC_SAFE_BASE + 0x0180U)
#define SAFE_GRP1COND5 (LIFEC_SAFE_BASE + 0x0184U)
#define SAFE_GRP0COND6 (LIFEC_SAFE_BASE + 0x0188U)
#define SAFE_GRP1COND6 (LIFEC_SAFE_BASE + 0x018CU)
#define SAFE_GRP0COND7 (LIFEC_SAFE_BASE + 0x0190U)
#define SAFE_GRP1COND7 (LIFEC_SAFE_BASE + 0x0194U)
#define SAFE_GRP0COND8 (LIFEC_SAFE_BASE + 0x0198U)
#define SAFE_GRP1COND8 (LIFEC_SAFE_BASE + 0x019CU)
#define SAFE_GRP0COND9 (LIFEC_SAFE_BASE + 0x01A0U)
#define SAFE_GRP1COND9 (LIFEC_SAFE_BASE + 0x01A4U)
#define SAFE_GRP0COND10 (LIFEC_SAFE_BASE + 0x01A8U)
#define SAFE_GRP1COND10 (LIFEC_SAFE_BASE + 0x01ACU)
#define SAFE_GRP0COND11 (LIFEC_SAFE_BASE + 0x01B0U)
#define SAFE_GRP1COND11 (LIFEC_SAFE_BASE + 0x01B4U)
#define SAFE_GRP0COND12 (LIFEC_SAFE_BASE + 0x01B8U)
#define SAFE_GRP1COND12 (LIFEC_SAFE_BASE + 0x01BCU)
#define SAFE_GRP0COND13 (LIFEC_SAFE_BASE + 0x01C0U)
#define SAFE_GRP1COND13 (LIFEC_SAFE_BASE + 0x01C4U)
#define SAFE_GRP0COND14 (LIFEC_SAFE_BASE + 0x01C8U)
#define SAFE_GRP1COND14 (LIFEC_SAFE_BASE + 0x01CCU)
#define SAFE_GRP0COND15 (LIFEC_SAFE_BASE + 0x01D0U)
#define SAFE_GRP1COND15 (LIFEC_SAFE_BASE + 0x01D4U)
#define SAFE_READONLY0 (LIFEC_SAFE_BASE + 0x01D8U)
#define SAFE_READONLY1 (LIFEC_SAFE_BASE + 0x01DCU)
#define SAFE_READONLY2 (LIFEC_SAFE_BASE + 0x01E0U)
#define SAFE_READONLY3 (LIFEC_SAFE_BASE + 0x01E4U)
#define SAFE_READONLY4 (LIFEC_SAFE_BASE + 0x01E8U)
#define SAFE_READONLY5 (LIFEC_SAFE_BASE + 0x01ECU)
#define SAFE_READONLY6 (LIFEC_SAFE_BASE + 0x01F0U)
#define SAFE_READONLY7 (LIFEC_SAFE_BASE + 0x01F4U)
#define SAFE_READONLY8 (LIFEC_SAFE_BASE + 0x01F8U)
#define SAFE_READONLY9 (LIFEC_SAFE_BASE + 0x01FCU)
#define SAFE_READONLY10 (LIFEC_SAFE_BASE + 0x0200U)
#define SAFE_READONLY11 (LIFEC_SAFE_BASE + 0x0204U)
#define SAFE_READONLY12 (LIFEC_SAFE_BASE + 0x0208U)
#define SAFE_READONLY13 (LIFEC_SAFE_BASE + 0x020CU)
#define SAFE_READONLY14 (LIFEC_SAFE_BASE + 0x0210U)
#define SAFE_READONLY15 (LIFEC_SAFE_BASE + 0x0214U)
#endif

38
plat/renesas/rcar/plat_image_load.c Normal file
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/*
* Copyright (c) 2018, ARM Limited and Contributors. All rights reserved.
*
* SPDX-License-Identifier: BSD-3-Clause
*/
#include <bl_common.h>
#include <desc_image_load.h>
#include <platform.h>
extern void bl2_plat_flush_bl31_params(void);
/*******************************************************************************
* This function flushes the data structures so that they are visible
* in memory for the next BL image.
******************************************************************************/
void plat_flush_next_bl_params(void)
{
#if IMAGE_BL2
bl2_plat_flush_bl31_params();
#endif
}
/*******************************************************************************
* This function returns the list of loadable images.
******************************************************************************/
bl_load_info_t *plat_get_bl_image_load_info(void)
{
return get_bl_load_info_from_mem_params_desc();
}
/*******************************************************************************
* This function returns the list of executable images.
******************************************************************************/
bl_params_t *plat_get_next_bl_params(void)
{
return get_next_bl_params_from_mem_params_desc();
}

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/*
* Copyright (c) 2015-2017, Renesas Electronics Corporation. All rights reserved.
*
* SPDX-License-Identifier: BSD-3-Clause
*/
#include <arch_helpers.h>
#include <bakery_lock.h>
#include <bl_common.h>
#include <cci.h>
#include <debug.h>
#include <errno.h>
#include <gicv2.h>
#include <mmio.h>
#include <platform.h>
#include <platform_def.h>
#include <psci.h>
#include "iic_dvfs.h"
#include "pwrc.h"
#include "rcar_def.h"
#include "rcar_private.h"
#define DVFS_SET_VID_0V (0x00)
#define P_ALL_OFF (0x80)
#define KEEPON_DDR1C (0x08)
#define KEEPON_DDR0C (0x04)
#define KEEPON_DDR1 (0x02)
#define KEEPON_DDR0 (0x01)
#define SYSTEM_PWR_STATE(s) ((s)->pwr_domain_state[PLAT_MAX_PWR_LVL])
#define CLUSTER_PWR_STATE(s) ((s)->pwr_domain_state[MPIDR_AFFLVL1])
#define CORE_PWR_STATE(s) ((s)->pwr_domain_state[MPIDR_AFFLVL0])
uint64_t rcar_stack_generic_timer[5] __attribute__ ((section("data")));
extern void rcar_pwrc_restore_generic_timer(uint64_t *stack);
extern void plat_rcar_gic_driver_init(void);
extern void plat_rcar_gic_init(void);
extern u_register_t rcar_boot_mpidr;
#if (RCAR_GEN3_ULCB == 1)
extern void rcar_cpld_reset_cpu(void);
#endif
static uintptr_t rcar_sec_entrypoint;
static void rcar_program_mailbox(uint64_t mpidr, uint64_t address)
{
mailbox_t *rcar_mboxes = (mailbox_t *) MBOX_BASE;
uint64_t linear_id = plat_core_pos_by_mpidr(mpidr);
unsigned long range;
rcar_mboxes[linear_id].value = address;
range = (unsigned long)&rcar_mboxes[linear_id];
flush_dcache_range(range, sizeof(range));
}
static void rcar_cpu_standby(plat_local_state_t cpu_state)
{
uint32_t scr_el3 = read_scr_el3();
write_scr_el3(scr_el3 | SCR_IRQ_BIT);
dsb();
wfi();
write_scr_el3(scr_el3);
}
static int rcar_pwr_domain_on(u_register_t mpidr)
{
rcar_program_mailbox(mpidr, rcar_sec_entrypoint);
rcar_pwrc_cpuon(mpidr);
return PSCI_E_SUCCESS;
}
static void rcar_pwr_domain_on_finish(const psci_power_state_t *target_state)
{
uint32_t cluster_type = rcar_pwrc_get_cluster();
unsigned long mpidr = read_mpidr_el1();
if (CLUSTER_PWR_STATE(target_state) == PLAT_MAX_OFF_STATE)
if (cluster_type == RCAR_CLUSTER_A53A57)
plat_cci_enable();
rcar_pwrc_disable_interrupt_wakeup(mpidr);
rcar_program_mailbox(mpidr, 0);
gicv2_cpuif_enable();
gicv2_pcpu_distif_init();
}
static void rcar_pwr_domain_off(const psci_power_state_t *target_state)
{
uint32_t cluster_type = rcar_pwrc_get_cluster();
unsigned long mpidr = read_mpidr_el1();
gicv2_cpuif_disable();
rcar_pwrc_cpuoff(mpidr);
if (CLUSTER_PWR_STATE(target_state) == PLAT_MAX_OFF_STATE) {
if (cluster_type == RCAR_CLUSTER_A53A57)
plat_cci_disable();
rcar_pwrc_clusteroff(mpidr);
}
}
static void rcar_pwr_domain_suspend(const psci_power_state_t *target_state)
{
uint32_t cluster_type = rcar_pwrc_get_cluster();
unsigned long mpidr = read_mpidr_el1();
if (CORE_PWR_STATE(target_state) != PLAT_MAX_OFF_STATE)
return;
rcar_program_mailbox(mpidr, rcar_sec_entrypoint);
rcar_pwrc_enable_interrupt_wakeup(mpidr);
gicv2_cpuif_disable();
rcar_pwrc_cpuoff(mpidr);
if (CLUSTER_PWR_STATE(target_state) == PLAT_MAX_OFF_STATE) {
if (cluster_type == RCAR_CLUSTER_A53A57)
plat_cci_disable();
rcar_pwrc_clusteroff(mpidr);
}
#if RCAR_SYSTEM_SUSPEND
if (SYSTEM_PWR_STATE(target_state) == PLAT_MAX_OFF_STATE)
rcar_pwrc_suspend_to_ram();
#endif
}
static void rcar_pwr_domain_suspend_finish(const psci_power_state_t
*target_state)
{
uint32_t cluster_type = rcar_pwrc_get_cluster();
if (SYSTEM_PWR_STATE(target_state) != PLAT_MAX_OFF_STATE)
goto finish;
plat_rcar_gic_driver_init();
plat_rcar_gic_init();
if (cluster_type == RCAR_CLUSTER_A53A57)
plat_cci_init();
rcar_pwrc_restore_generic_timer(rcar_stack_generic_timer);
/* start generic timer */
write_cntfrq_el0(plat_get_syscnt_freq2());
mmio_write_32(RCAR_CNTC_BASE + CNTCR_OFF, CNTCR_FCREQ(U(0)) | CNTCR_EN);
rcar_pwrc_setup();
#if RCAR_SYSTEM_SUSPEND
rcar_pwrc_init_suspend_to_ram();
#endif
finish:
rcar_pwr_domain_on_finish(target_state);
}
static void __dead2 rcar_system_off(void)
{
#if PMIC_ROHM_BD9571
#if PMIC_LEVEL_MODE
rcar_pwrc_code_copy_to_system_ram();
if (rcar_iic_dvfs_send(PMIC, DVFS_SET_VID, DVFS_SET_VID_0V))
ERROR("BL3-1:Failed the SYSTEM-OFF.\n");
#else
rcar_pwrc_code_copy_to_system_ram();
if (rcar_iic_dvfs_send(PMIC, BKUP_MODE_CNT, P_ALL_OFF))
ERROR("BL3-1:Failed the SYSTEM-RESET.\n");
#endif
#else
uint64_t cpu = read_mpidr_el1() & 0x0000ffff;
int32_t rtn_on;
rtn_on = cpu_on_check(cpu);
if (cpu == rcar_boot_mpidr)
panic();
if (rtn_on)
panic();
rcar_pwrc_cpuoff(cpu);
rcar_pwrc_clusteroff(cpu);
#endif /* PMIC_ROHM_BD9571 */
wfi();
ERROR("RCAR System Off: operation not handled.\n");
panic();
}
static void __dead2 rcar_system_reset(void)
{
#if PMIC_ROHM_BD9571
#if PMIC_LEVEL_MODE
#if RCAR_SYSTEM_RESET_KEEPON_DDR
uint8_t mode;
int32_t error;
rcar_pwrc_code_copy_to_system_ram();
error = rcar_iic_dvfs_send(PMIC, REG_KEEP10, KEEP10_MAGIC);
if (error) {
ERROR("Failed send KEEP10 magic ret=%d \n", error);
goto done;
}
error = rcar_iic_dvfs_receive(PMIC, BKUP_MODE_CNT, &mode);
if (error) {
ERROR("Failed recieve BKUP_Mode_Cnt ret=%d \n", error);
goto done;
}
mode |= KEEPON_DDR1C | KEEPON_DDR0C | KEEPON_DDR1 | KEEPON_DDR0;
error = rcar_iic_dvfs_send(PMIC, BKUP_MODE_CNT, mode);
if (error) {
ERROR("Failed send KEEPON_DDRx ret=%d \n", error);
goto done;
}
rcar_pwrc_set_suspend_to_ram();
done:
#else
rcar_pwrc_code_copy_to_system_ram();
if (rcar_iic_dvfs_send(PMIC, BKUP_MODE_CNT, P_ALL_OFF))
ERROR("BL3-1:Failed the SYSTEM-RESET.\n");
#endif
#else
#if (RCAR_GEN3_ULCB == 1)
rcar_cpld_reset_cpu();
#endif
#endif
#else
rcar_pwrc_system_reset();
#endif
wfi();
ERROR("RCAR System Reset: operation not handled.\n");
panic();
}
static int rcar_validate_power_state(unsigned int power_state,
psci_power_state_t *req_state)
{
unsigned int pwr_lvl = psci_get_pstate_pwrlvl(power_state);
unsigned int pstate = psci_get_pstate_type(power_state);
uint32_t i;
if (pstate == PSTATE_TYPE_STANDBY) {
if (pwr_lvl != MPIDR_AFFLVL0)
return PSCI_E_INVALID_PARAMS;
req_state->pwr_domain_state[MPIDR_AFFLVL0] = PLAT_MAX_RET_STATE;
} else {
for (i = MPIDR_AFFLVL0; i <= pwr_lvl; i++)
req_state->pwr_domain_state[i] = PLAT_MAX_OFF_STATE;
}
if (psci_get_pstate_id(power_state))
return PSCI_E_INVALID_PARAMS;
return PSCI_E_SUCCESS;
}
#if RCAR_SYSTEM_SUSPEND
static void rcar_get_sys_suspend_power_state(psci_power_state_t *req_state)
{
unsigned long mpidr = read_mpidr_el1() & 0x0000ffffU;
int i;
if (mpidr != rcar_boot_mpidr)
goto deny;
for (i = MPIDR_AFFLVL0; i <= PLAT_MAX_PWR_LVL; i++)
req_state->pwr_domain_state[i] = PLAT_MAX_OFF_STATE;
return;
deny:
/* deny system suspend entry */
req_state->pwr_domain_state[PLAT_MAX_PWR_LVL] = PSCI_LOCAL_STATE_RUN;
for (i = MPIDR_AFFLVL0; i < PLAT_MAX_PWR_LVL; i++)
req_state->pwr_domain_state[i] = PLAT_MAX_RET_STATE;
}
#endif
static const plat_psci_ops_t rcar_plat_psci_ops = {
.cpu_standby = rcar_cpu_standby,
.pwr_domain_on = rcar_pwr_domain_on,
.pwr_domain_off = rcar_pwr_domain_off,
.pwr_domain_suspend = rcar_pwr_domain_suspend,
.pwr_domain_on_finish = rcar_pwr_domain_on_finish,
.pwr_domain_suspend_finish = rcar_pwr_domain_suspend_finish,
.system_off = rcar_system_off,
.system_reset = rcar_system_reset,
.validate_power_state = rcar_validate_power_state,
#if RCAR_SYSTEM_SUSPEND
.get_sys_suspend_power_state = rcar_get_sys_suspend_power_state,
#endif
};
int plat_setup_psci_ops(uintptr_t sec_entrypoint, const plat_psci_ops_t **psci_ops)
{
*psci_ops = &rcar_plat_psci_ops;
rcar_sec_entrypoint = sec_entrypoint;
#if RCAR_SYSTEM_SUSPEND
rcar_pwrc_init_suspend_to_ram();
#endif
return 0;
}

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/*
* Copyright (c) 2015-2017, Renesas Electronics Corporation. All rights reserved.
*
* SPDX-License-Identifier: BSD-3-Clause
*/
#include <debug.h>
#include <io_driver.h>
#include <io_storage.h>
#include <io_semihosting.h>
#include <platform_def.h>
#include <string.h>
#include "io_common.h"
#include "io_rcar.h"
#include "io_memdrv.h"
#include "io_emmcdrv.h"
#include "io_private.h"
static uintptr_t emmcdrv_dev_handle;
static uintptr_t memdrv_dev_handle;
static uintptr_t rcar_dev_handle;
static uintptr_t boot_io_drv_id;
static const io_block_spec_t rcar_block_spec = {
.offset = FLASH0_BASE,
.length = FLASH0_SIZE
};
static const io_block_spec_t bl2_file_spec = {
.offset = BL2_IMAGE_ID,
};
static const io_block_spec_t bl31_file_spec = {
.offset = BL31_IMAGE_ID,
};
static const io_block_spec_t bl32_file_spec = {
.offset = BL32_IMAGE_ID,
};
static const io_block_spec_t bl33_file_spec = {
.offset = BL33_IMAGE_ID,
};
static const io_block_spec_t bl332_file_spec = {
.offset = BL332_IMAGE_ID,
};
static const io_block_spec_t bl333_file_spec = {
.offset = BL333_IMAGE_ID,
};
static const io_block_spec_t bl334_file_spec = {
.offset = BL334_IMAGE_ID,
};
static const io_block_spec_t bl335_file_spec = {
.offset = BL335_IMAGE_ID,
};
static const io_block_spec_t bl336_file_spec = {
.offset = BL336_IMAGE_ID,
};
static const io_block_spec_t bl337_file_spec = {
.offset = BL337_IMAGE_ID,
};
static const io_block_spec_t bl338_file_spec = {
.offset = BL338_IMAGE_ID,
};
#if TRUSTED_BOARD_BOOT
static const io_block_spec_t trusted_key_cert_file_spec = {
.offset = TRUSTED_KEY_CERT_ID,
};
static const io_block_spec_t bl31_key_cert_file_spec = {
.offset = SOC_FW_KEY_CERT_ID,
};
static const io_block_spec_t bl32_key_cert_file_spec = {
.offset = TRUSTED_OS_FW_KEY_CERT_ID,
};
static const io_block_spec_t bl33_key_cert_file_spec = {
.offset = NON_TRUSTED_FW_KEY_CERT_ID,
};
static const io_block_spec_t bl332_key_cert_file_spec = {
.offset = BL332_KEY_CERT_ID,
};
static const io_block_spec_t bl333_key_cert_file_spec = {
.offset = BL333_KEY_CERT_ID,
};
static const io_block_spec_t bl334_key_cert_file_spec = {
.offset = BL334_KEY_CERT_ID,
};
static const io_block_spec_t bl335_key_cert_file_spec = {
.offset = BL335_KEY_CERT_ID,
};
static const io_block_spec_t bl336_key_cert_file_spec = {
.offset = BL336_KEY_CERT_ID,
};
static const io_block_spec_t bl337_key_cert_file_spec = {
.offset = BL337_KEY_CERT_ID,
};
static const io_block_spec_t bl338_key_cert_file_spec = {
.offset = BL338_KEY_CERT_ID,
};
static const io_block_spec_t bl31_cert_file_spec = {
.offset = SOC_FW_CONTENT_CERT_ID,
};
static const io_block_spec_t bl32_cert_file_spec = {
.offset = TRUSTED_OS_FW_CONTENT_CERT_ID,
};
static const io_block_spec_t bl33_cert_file_spec = {
.offset = NON_TRUSTED_FW_CONTENT_CERT_ID,
};
static const io_block_spec_t bl332_cert_file_spec = {
.offset = BL332_CERT_ID,
};
static const io_block_spec_t bl333_cert_file_spec = {
.offset = BL333_CERT_ID,
};
static const io_block_spec_t bl334_cert_file_spec = {
.offset = BL334_CERT_ID,
};
static const io_block_spec_t bl335_cert_file_spec = {
.offset = BL335_CERT_ID,
};
static const io_block_spec_t bl336_cert_file_spec = {
.offset = BL336_CERT_ID,
};
static const io_block_spec_t bl337_cert_file_spec = {
.offset = BL337_CERT_ID,
};
static const io_block_spec_t bl338_cert_file_spec = {
.offset = BL338_CERT_ID,
};
#endif
static int32_t open_emmcdrv(const uintptr_t spec);
static int32_t open_memmap(const uintptr_t spec);
static int32_t open_rcar(const uintptr_t spec);
struct plat_io_policy {
uintptr_t *dev_handle;
uintptr_t image_spec;
int32_t(*check) (const uintptr_t spec);
};
static const struct plat_io_policy policies[] = {
[FIP_IMAGE_ID] = {
&memdrv_dev_handle,
(uintptr_t) &rcar_block_spec,
&open_memmap},
[BL2_IMAGE_ID] = {
&rcar_dev_handle,
(uintptr_t) &bl2_file_spec,
&open_rcar},
[BL31_IMAGE_ID] = {
&rcar_dev_handle,
(uintptr_t) &bl31_file_spec,
&open_rcar},
[BL32_IMAGE_ID] = {
&rcar_dev_handle,
(uintptr_t) &bl32_file_spec,
&open_rcar},
[BL33_IMAGE_ID] = {
&rcar_dev_handle,
(uintptr_t) &bl33_file_spec,
&open_rcar},
[BL332_IMAGE_ID] = {
&rcar_dev_handle,
(uintptr_t) &bl332_file_spec,
&open_rcar},
[BL333_IMAGE_ID] = {
&rcar_dev_handle,
(uintptr_t) &bl333_file_spec,
&open_rcar},
[BL334_IMAGE_ID] = {
&rcar_dev_handle,
(uintptr_t) &bl334_file_spec,
&open_rcar},
[BL335_IMAGE_ID] = {
&rcar_dev_handle,
(uintptr_t) &bl335_file_spec,
&open_rcar},
[BL336_IMAGE_ID] = {
&rcar_dev_handle,
(uintptr_t) &bl336_file_spec,
&open_rcar},
[BL337_IMAGE_ID] = {
&rcar_dev_handle,
(uintptr_t) &bl337_file_spec,
&open_rcar},
[BL338_IMAGE_ID] = {
&rcar_dev_handle,
(uintptr_t) &bl338_file_spec,
&open_rcar},
#if TRUSTED_BOARD_BOOT
[TRUSTED_KEY_CERT_ID] = {
&rcar_dev_handle,
(uintptr_t) &trusted_key_cert_file_spec,
&open_rcar},
[SOC_FW_KEY_CERT_ID] = {
&rcar_dev_handle,
(uintptr_t) &bl31_key_cert_file_spec,
&open_rcar},
[TRUSTED_OS_FW_KEY_CERT_ID] = {
&rcar_dev_handle,
(uintptr_t) &bl32_key_cert_file_spec,
&open_rcar},
[NON_TRUSTED_FW_KEY_CERT_ID] = {
&rcar_dev_handle,
(uintptr_t) &bl33_key_cert_file_spec,
&open_rcar},
[BL332_KEY_CERT_ID] = {
&rcar_dev_handle,
(uintptr_t) &bl332_key_cert_file_spec,
&open_rcar},
[BL333_KEY_CERT_ID] = {
&rcar_dev_handle,
(uintptr_t) &bl333_key_cert_file_spec,
&open_rcar},
[BL334_KEY_CERT_ID] = {
&rcar_dev_handle,
(uintptr_t) &bl334_key_cert_file_spec,
&open_rcar},
[BL335_KEY_CERT_ID] = {
&rcar_dev_handle,
(uintptr_t) &bl335_key_cert_file_spec,
&open_rcar},
[BL336_KEY_CERT_ID] = {
&rcar_dev_handle,
(uintptr_t) &bl336_key_cert_file_spec,
&open_rcar},
[BL337_KEY_CERT_ID] = {
&rcar_dev_handle,
(uintptr_t) &bl337_key_cert_file_spec,
&open_rcar},
[BL338_KEY_CERT_ID] = {
&rcar_dev_handle,
(uintptr_t) &bl338_key_cert_file_spec,
&open_rcar},
[SOC_FW_CONTENT_CERT_ID] = {
&rcar_dev_handle,
(uintptr_t) &bl31_cert_file_spec,
&open_rcar},
[TRUSTED_OS_FW_CONTENT_CERT_ID] = {
&rcar_dev_handle,
(uintptr_t) &bl32_cert_file_spec,
&open_rcar},
[NON_TRUSTED_FW_CONTENT_CERT_ID] = {
&rcar_dev_handle,
(uintptr_t) &bl33_cert_file_spec,
&open_rcar},
[BL332_CERT_ID] = {
&rcar_dev_handle,
(uintptr_t) &bl332_cert_file_spec,
&open_rcar},
[BL333_CERT_ID] = {
&rcar_dev_handle,
(uintptr_t) &bl333_cert_file_spec,
&open_rcar},
[BL334_CERT_ID] = {
&rcar_dev_handle,
(uintptr_t) &bl334_cert_file_spec,
&open_rcar},
[BL335_CERT_ID] = {
&rcar_dev_handle,
(uintptr_t) &bl335_cert_file_spec,
&open_rcar},
[BL336_CERT_ID] = {
&rcar_dev_handle,
(uintptr_t) &bl336_cert_file_spec,
&open_rcar},
[BL337_CERT_ID] = {
&rcar_dev_handle,
(uintptr_t) &bl337_cert_file_spec,
&open_rcar},
[BL338_CERT_ID] = {
&rcar_dev_handle,
(uintptr_t) &bl338_cert_file_spec,
&open_rcar}, {
#else
{
#endif
0, 0, 0}
};
static io_drv_spec_t io_drv_spec_memdrv = {
FLASH0_BASE,
FLASH0_SIZE,
0,
};
static io_drv_spec_t io_drv_spec_emmcdrv = {
0,
0,
0,
};
static struct plat_io_policy drv_policies[]
__attribute__ ((section(".data"))) = {
/* FLASH_DEV_ID */
{
&memdrv_dev_handle,
(uintptr_t) &io_drv_spec_memdrv, &open_memmap,},
/* EMMC_DEV_ID */
{
&emmcdrv_dev_handle,
(uintptr_t) &io_drv_spec_emmcdrv, &open_emmcdrv,}
};
static int32_t open_rcar(const uintptr_t spec)
{
return io_dev_init(rcar_dev_handle, boot_io_drv_id);
}
static int32_t open_memmap(const uintptr_t spec)
{
uintptr_t handle;
int32_t result;
result = io_dev_init(memdrv_dev_handle, 0);
if (result != IO_SUCCESS)
return result;
result = io_open(memdrv_dev_handle, spec, &handle);
if (result == IO_SUCCESS)
io_close(handle);
return result;
}
static int32_t open_emmcdrv(const uintptr_t spec)
{
return io_dev_init(emmcdrv_dev_handle, 0);
}
void rcar_io_setup(void)
{
const io_dev_connector_t *memmap;
const io_dev_connector_t *rcar;
boot_io_drv_id = FLASH_DEV_ID;
rcar_register_io_dev(&rcar);
rcar_register_io_dev_memdrv(&memmap);
io_dev_open(rcar, 0, &rcar_dev_handle);
io_dev_open(memmap, 0, &memdrv_dev_handle);
}
void rcar_io_emmc_setup(void)
{
const io_dev_connector_t *rcar;
const io_dev_connector_t *emmc;
boot_io_drv_id = EMMC_DEV_ID;
rcar_register_io_dev(&rcar);
rcar_register_io_dev_emmcdrv(&emmc);
io_dev_open(rcar, 0, &rcar_dev_handle);
io_dev_open(emmc, 0, &emmcdrv_dev_handle);
}
int plat_get_image_source(unsigned int image_id, uintptr_t *dev_handle,
uintptr_t *image_spec)
{
const struct plat_io_policy *policy;
int result;
policy = &policies[image_id];
result = policy->check(policy->image_spec);
if (result != IO_SUCCESS)
return result;
*image_spec = policy->image_spec;
*dev_handle = *(policy->dev_handle);
return IO_SUCCESS;
}
int32_t plat_get_drv_source(uint32_t io_drv_id, uintptr_t *dev_handle,
uintptr_t *image_spec)
{
const struct plat_io_policy *policy;
int32_t result;
policy = &drv_policies[io_drv_id];
result = policy->check(policy->image_spec);
if (result != IO_SUCCESS)
return result;
*image_spec = policy->image_spec;
*dev_handle = *(policy->dev_handle);
return IO_SUCCESS;
}

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/*
* Copyright (c) 2018, Renesas Electronics Corporation. All rights reserved.
*
* SPDX-License-Identifier: BSD-3-Clause
*/
#include <debug.h>
#include <platform_def.h>
#include <psci.h>
static const unsigned char rcar_power_domain_tree_desc[] = {
1,
PLATFORM_CLUSTER_COUNT,
PLATFORM_CLUSTER0_CORE_COUNT,
PLATFORM_CLUSTER1_CORE_COUNT
};
const unsigned char *plat_get_power_domain_tree_desc(void)
{
return rcar_power_domain_tree_desc;
}
int plat_core_pos_by_mpidr(u_register_t mpidr)
{
unsigned int cluster_id, cpu_id;
mpidr &= MPIDR_AFFINITY_MASK;
if (mpidr & ~(MPIDR_CLUSTER_MASK | MPIDR_CPU_MASK))
return -1;
cluster_id = (mpidr >> MPIDR_AFF1_SHIFT) & MPIDR_AFFLVL_MASK;
cpu_id = (mpidr >> MPIDR_AFF0_SHIFT) & MPIDR_AFFLVL_MASK;
if (cluster_id >= PLATFORM_CLUSTER_COUNT)
return -1;
if (cluster_id == 0 && cpu_id >= PLATFORM_CLUSTER0_CORE_COUNT)
return -1;
if (cluster_id == 1 && cpu_id >= PLATFORM_CLUSTER1_CORE_COUNT)
return -1;
return (cpu_id + cluster_id * PLATFORM_CLUSTER0_CORE_COUNT);
}

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#
# Copyright (c) 2018, Renesas Electronics Corporation. All rights reserved.
#
# SPDX-License-Identifier: BSD-3-Clause
#
PROGRAMMABLE_RESET_ADDRESS := 0
COLD_BOOT_SINGLE_CPU := 1
ARM_CCI_PRODUCT_ID := 500
TRUSTED_BOARD_BOOT := 1
RESET_TO_BL31 := 1
GENERATE_COT := 1
BL2_AT_EL3 := 1
$(eval $(call add_define,PLAT_EXTRA_LD_SCRIPT))
ifeq (${SPD},none)
SPD_NONE:=1
$(eval $(call add_define,SPD_NONE))
endif
# LSI setting common define
RCAR_H3:=0
RCAR_M3:=1
RCAR_M3N:=2
RCAR_E3:=3
RCAR_H3N:=4
RCAR_AUTO:=99
$(eval $(call add_define,RCAR_H3))
$(eval $(call add_define,RCAR_M3))
$(eval $(call add_define,RCAR_M3N))
$(eval $(call add_define,RCAR_E3))
$(eval $(call add_define,RCAR_H3N))
$(eval $(call add_define,RCAR_AUTO))
RCAR_CUT_10:=0
RCAR_CUT_11:=1
RCAR_CUT_20:=10
RCAR_CUT_30:=20
$(eval $(call add_define,RCAR_CUT_10))
$(eval $(call add_define,RCAR_CUT_11))
$(eval $(call add_define,RCAR_CUT_20))
$(eval $(call add_define,RCAR_CUT_30))
ifndef LSI
$(error "Error: Unknown LSI. Please use LSI=<LSI name> to specify the LSI")
else
ifeq (${LSI},AUTO)
RCAR_LSI:=${RCAR_AUTO}
else ifeq (${LSI},H3)
RCAR_LSI:=${RCAR_H3}
ifndef LSI_CUT
# enable compatible function.
RCAR_LSI_CUT_COMPAT := 1
$(eval $(call add_define,RCAR_LSI_CUT_COMPAT))
else
# disable compatible function.
ifeq (${LSI_CUT},10)
RCAR_LSI_CUT:=0
else ifeq (${LSI_CUT},11)
RCAR_LSI_CUT:=1
else ifeq (${LSI_CUT},20)
RCAR_LSI_CUT:=10
else ifeq (${LSI_CUT},30)
RCAR_LSI_CUT:=20
else
$(error "Error: ${LSI_CUT} is not supported.")
endif
$(eval $(call add_define,RCAR_LSI_CUT))
endif
else ifeq (${LSI},H3N)
RCAR_LSI:=${RCAR_H3N}
ifndef LSI_CUT
# enable compatible function.
RCAR_LSI_CUT_COMPAT := 1
$(eval $(call add_define,RCAR_LSI_CUT_COMPAT))
else
# disable compatible function.
ifeq (${LSI_CUT},30)
RCAR_LSI_CUT:=20
else
$(error "Error: ${LSI_CUT} is not supported.")
endif
$(eval $(call add_define,RCAR_LSI_CUT))
endif
else ifeq (${LSI},M3)
RCAR_LSI:=${RCAR_M3}
ifndef LSI_CUT
# enable compatible function.
RCAR_LSI_CUT_COMPAT := 1
$(eval $(call add_define,RCAR_LSI_CUT_COMPAT))
else
# disable compatible function.
ifeq (${LSI_CUT},10)
RCAR_LSI_CUT:=0
else ifeq (${LSI_CUT},11)
RCAR_LSI_CUT:=1
else
$(error "Error: ${LSI_CUT} is not supported.")
endif
$(eval $(call add_define,RCAR_LSI_CUT))
endif
else ifeq (${LSI},M3N)
RCAR_LSI:=${RCAR_M3N}
ifndef LSI_CUT
# enable compatible function.
RCAR_LSI_CUT_COMPAT := 1
$(eval $(call add_define,RCAR_LSI_CUT_COMPAT))
else
# disable compatible function.
ifeq (${LSI_CUT},10)
RCAR_LSI_CUT:=0
else ifeq (${LSI_CUT},11)
RCAR_LSI_CUT:=1
else
$(error "Error: ${LSI_CUT} is not supported.")
endif
$(eval $(call add_define,RCAR_LSI_CUT))
endif
else ifeq (${LSI},E3)
RCAR_LSI:=${RCAR_E3}
ifndef LSI_CUT
# enable compatible function.
RCAR_LSI_CUT_COMPAT := 1
$(eval $(call add_define,RCAR_LSI_CUT_COMPAT))
else
# disable compatible function.
ifeq (${LSI_CUT},10)
RCAR_LSI_CUT:=0
else
$(error "Error: ${LSI_CUT} is not supported.")
endif
$(eval $(call add_define,RCAR_LSI_CUT))
endif
else
$(error "Error: ${LSI} is not supported.")
endif
$(eval $(call add_define,RCAR_LSI))
endif
# Process RCAR_SECURE_BOOT flag
ifndef RCAR_SECURE_BOOT
RCAR_SECURE_BOOT := 1
endif
$(eval $(call add_define,RCAR_SECURE_BOOT))
# Process RCAR_QOS_TYPE flag
ifndef RCAR_QOS_TYPE
RCAR_QOS_TYPE := 0
endif
$(eval $(call add_define,RCAR_QOS_TYPE))
# Process RCAR_DRAM_SPLIT flag
ifndef RCAR_DRAM_SPLIT
RCAR_DRAM_SPLIT := 0
endif
$(eval $(call add_define,RCAR_DRAM_SPLIT))
# Process RCAR_BL33_EXECUTION_EL flag
ifndef RCAR_BL33_EXECUTION_EL
RCAR_BL33_EXECUTION_EL := 0
endif
$(eval $(call add_define,RCAR_BL33_EXECUTION_EL))
# Process RCAR_AVS_SETTING_ENABLE flag
ifeq (${RCAR_AVS_SETTING_ENABLE},0)
AVS_SETTING_ENABLE := 0
else
AVS_SETTING_ENABLE := 1
endif
$(eval $(call add_define,AVS_SETTING_ENABLE))
# Process RCAR_LOSSY_ENABLE flag
ifndef RCAR_LOSSY_ENABLE
RCAR_LOSSY_ENABLE := 0
endif
$(eval $(call add_define,RCAR_LOSSY_ENABLE))
# Process LIFEC_DBSC_PROTECT_ENABLE flag
ifndef LIFEC_DBSC_PROTECT_ENABLE
LIFEC_DBSC_PROTECT_ENABLE := 1
endif
$(eval $(call add_define,LIFEC_DBSC_PROTECT_ENABLE))
# Process PMIC_ROHM_BD9571 flag
ifndef PMIC_ROHM_BD9571
PMIC_ROHM_BD9571 := 1
endif
$(eval $(call add_define,PMIC_ROHM_BD9571))
# Process PMIC_LEVEL_MODE flag
ifndef PMIC_LEVEL_MODE
PMIC_LEVEL_MODE := 1
endif
$(eval $(call add_define,PMIC_LEVEL_MODE))
# Process RCAR_GEN3_ULCB flag
ifndef RCAR_GEN3_ULCB
RCAR_GEN3_ULCB := 0
endif
ifeq (${RCAR_GEN3_ULCB},1)
BOARD_DEFAULT := 0x10
$(eval $(call add_define,BOARD_DEFAULT))
endif
$(eval $(call add_define,RCAR_GEN3_ULCB))
# Process RCAR_REF_INT flag
ifndef RCAR_REF_INT
RCAR_REF_INT :=0
endif
$(eval $(call add_define,RCAR_REF_INT))
# Process RCAR_REWT_TRAINING flag
ifndef RCAR_REWT_TRAINING
RCAR_REWT_TRAINING := 0
endif
$(eval $(call add_define,RCAR_REWT_TRAINING))
# Process RCAR_SYSTEM_SUSPEND flag
ifndef RCAR_SYSTEM_SUSPEND
RCAR_SYSTEM_SUSPEND := 1
endif
$(eval $(call add_define,RCAR_SYSTEM_SUSPEND))
# SYSTEM_SUSPEND requires power control of PMIC etc.
# When executing SYSTEM_SUSPEND other than Salvator-X, Salvator-XS and Ebisu,
# processing equivalent to that implemented in PMIC_ROHM_BD9571 is necessary.
ifeq (${RCAR_SYSTEM_SUSPEND},1)
ifeq (${PMIC_ROHM_BD9571},0)
$(error "Error: When you want RCAR_SYSTEM_SUSPEND to be enable, please also set PMIC_ROHM_BD9571 to enable.")
endif
endif
# Process RCAR_DRAM_LPDDR4_MEMCONF flag
ifndef RCAR_DRAM_LPDDR4_MEMCONF
RCAR_DRAM_LPDDR4_MEMCONF :=1
endif
$(eval $(call add_define,RCAR_DRAM_LPDDR4_MEMCONF))
# Process RCAR_DRAM_DDR3L_MEMCONF flag
ifndef RCAR_DRAM_DDR3L_MEMCONF
RCAR_DRAM_DDR3L_MEMCONF :=1
endif
$(eval $(call add_define,RCAR_DRAM_DDR3L_MEMCONF))
# Process RCAR_DRAM_DDR3L_MEMDUAL flag
ifndef RCAR_DRAM_DDR3L_MEMDUAL
RCAR_DRAM_DDR3L_MEMDUAL :=1
endif
$(eval $(call add_define,RCAR_DRAM_DDR3L_MEMDUAL))
# Process RCAR_BL33_ARG0 flag
ifdef RCAR_BL33_ARG0
$(eval $(call add_define,RCAR_BL33_ARG0))
endif
#Process RCAR_BL2_DCACHE flag
ifndef RCAR_BL2_DCACHE
RCAR_BL2_DCACHE := 0
endif
$(eval $(call add_define,RCAR_BL2_DCACHE))
# Process RCAR_DRAM_CHANNEL flag
ifndef RCAR_DRAM_CHANNEL
RCAR_DRAM_CHANNEL :=15
endif
$(eval $(call add_define,RCAR_DRAM_CHANNEL))
#Process RCAR_SYSTEM_RESET_KEEPON_DDR flag
ifndef RCAR_SYSTEM_RESET_KEEPON_DDR
RCAR_SYSTEM_RESET_KEEPON_DDR := 0
endif
$(eval $(call add_define,RCAR_SYSTEM_RESET_KEEPON_DDR))
# RCAR_SYSTEM_RESET_KEEPON_DDR requires power control of PMIC etc.
# When executing SYSTEM_SUSPEND other than Salvator-X, Salvator-XS and Ebisu,
# processing equivalent to that implemented in PMIC_ROHM_BD9571 is necessary.
# Also, it is necessary to enable RCAR_SYSTEM_SUSPEND.
ifeq (${RCAR_SYSTEM_RESET_KEEPON_DDR},1)
ifeq (${PMIC_ROHM_BD9571},0)
$(error "Error: When you want RCAR_SYSTEM_RESET_KEEPON_DDR to be enable, please also set PMIC_ROHM_BD9571 to enable.")
endif
ifeq (${RCAR_SYSTEM_SUSPEND},0)
$(error "Error: When you want RCAR_SYSTEM_RESET_KEEPON_DDR to be enable, please also set RCAR_SYSTEM_SUSPEND to enable.")
endif
endif
# Enable workarounds for selected Cortex-A53 erratas.
ERRATA_A53_835769 := 1
ERRATA_A53_843419 := 1
ERRATA_A53_855873 := 1
# Enable workarounds for selected Cortex-A57 erratas.
ERRATA_A57_859972 := 1
ERRATA_A57_813419 := 1
include drivers/renesas/rcar/ddr/ddr.mk
include drivers/renesas/rcar/qos/qos.mk
include drivers/renesas/rcar/pfc/pfc.mk
PLAT_INCLUDES := -Iinclude/common/tbbr \
-Idrivers/renesas/rcar/iic_dvfs \
-Idrivers/renesas/rcar/board \
-Idrivers/renesas/rcar/avs \
-Idrivers/renesas/rcar/delay \
-Idrivers/renesas/rcar/rom \
-Idrivers/renesas/rcar/scif \
-Idrivers/renesas/rcar/emmc \
-Idrivers/renesas/rcar/pwrc \
-Idrivers/renesas/rcar/io \
-Idrivers/renesas/rcar/ddr \
-Idrivers/renesas/rcar/qos \
-Iplat/renesas/rcar/include/registers \
-Iplat/renesas/rcar/include \
-Iplat/renesas/rcar
PLAT_BL_COMMON_SOURCES := drivers/renesas/rcar/iic_dvfs/iic_dvfs.c
RCAR_GIC_SOURCES := drivers/arm/gic/common/gic_common.c \
drivers/arm/gic/v2/gicv2_main.c \
drivers/arm/gic/v2/gicv2_helpers.c \
plat/common/plat_gicv2.c
BL2_SOURCES += ${RCAR_GIC_SOURCES} \
lib/cpus/aarch64/cortex_a53.S \
lib/cpus/aarch64/cortex_a57.S \
common/desc_image_load.c \
plat/renesas/rcar/aarch64/platform_common.c \
plat/renesas/rcar/aarch64/plat_helpers.S \
plat/renesas/rcar/bl2_interrupt_error.c \
plat/renesas/rcar/bl2_secure_setting.c \
plat/renesas/rcar/bl2_plat_setup.c \
plat/renesas/rcar/plat_storage.c \
plat/renesas/rcar/bl2_plat_mem_params_desc.c \
plat/renesas/rcar/plat_image_load.c \
plat/renesas/rcar/bl2_cpg_init.c \
drivers/renesas/rcar/console/rcar_printf.c \
drivers/renesas/rcar/scif/scif.S \
drivers/renesas/rcar/common.c \
drivers/renesas/rcar/io/io_emmcdrv.c \
drivers/renesas/rcar/io/io_memdrv.c \
drivers/renesas/rcar/io/io_rcar.c \
drivers/renesas/rcar/auth/auth_mod.c \
drivers/renesas/rcar/rpc/rpc_driver.c \
drivers/renesas/rcar/dma/dma_driver.c \
drivers/renesas/rcar/avs/avs_driver.c \
drivers/renesas/rcar/delay/micro_delay.S \
drivers/renesas/rcar/emmc/emmc_interrupt.c \
drivers/renesas/rcar/emmc/emmc_utility.c \
drivers/renesas/rcar/emmc/emmc_mount.c \
drivers/renesas/rcar/emmc/emmc_init.c \
drivers/renesas/rcar/emmc/emmc_read.c \
drivers/renesas/rcar/emmc/emmc_cmd.c \
drivers/renesas/rcar/watchdog/swdt.c \
drivers/renesas/rcar/rom/rom_api.c \
drivers/renesas/rcar/board/board.c \
drivers/io/io_storage.c
BL31_SOURCES += ${RCAR_GIC_SOURCES} \
lib/cpus/aarch64/cortex_a53.S \
lib/cpus/aarch64/cortex_a57.S \
plat/common/plat_psci_common.c \
plat/renesas/rcar/plat_topology.c \
plat/renesas/rcar/aarch64/plat_helpers.S \
plat/renesas/rcar/aarch64/platform_common.c \
plat/renesas/rcar/bl31_plat_setup.c \
plat/renesas/rcar/plat_pm.c \
drivers/renesas/rcar/console/rcar_console.S \
drivers/renesas/rcar/console/rcar_printf.c \
drivers/renesas/rcar/pwrc/call_sram.S \
drivers/renesas/rcar/pwrc/pwrc.c \
drivers/renesas/rcar/common.c \
drivers/arm/cci/cci.c
ifeq (${RCAR_GEN3_ULCB},1)
BL31_SOURCES += drivers/renesas/rcar/cpld/ulcb_cpld.c
endif
include lib/xlat_tables_v2/xlat_tables.mk
include drivers/auth/mbedtls/mbedtls_crypto.mk
PLAT_BL_COMMON_SOURCES += ${XLAT_TABLES_LIB_SRCS}
# build the layout images for the bootrom and the necessary srecords
rcar: rcar_layout_tool rcar_srecord
distclean realclean clean: clean_layout_tool clean_srecord
# layout images
LAYOUT_TOOLPATH ?= tools/renesas/rcar_layout_create
clean_layout_tool:
@echo "clean layout tool"
${Q}${MAKE} -C ${LAYOUT_TOOLPATH} clean
.PHONY: rcar_layout_tool
rcar_layout_tool:
@echo "generating layout srecs"
${Q}${MAKE} CPPFLAGS="-D=AARCH64" --no-print-directory -C ${LAYOUT_TOOLPATH}
# srecords
SREC_PATH = ${BUILD_PLAT}
BL2_ELF_SRC = ${SREC_PATH}/bl2/bl2.elf
BL31_ELF_SRC = ${SREC_PATH}/bl31/bl31.elf
clean_srecord:
@echo "clean bl2 and bl31 srecs"
rm -f ${SREC_PATH}/bl2.srec ${SREC_PATH}/bl31.srec
.PHONY: rcar_srecord
rcar_srecord:
@echo "generating srec: ${SREC_PATH}/bl2.srec"
$(Q)$(OC) -O srec --srec-forceS3 ${BL2_ELF_SRC} ${SREC_PATH}/bl2.srec
@echo "generating srec: ${SREC_PATH}/bl31.srec"
$(Q)$(OC) -O srec --srec-forceS3 ${BL31_ELF_SRC} ${SREC_PATH}/bl31.srec

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#
# Copyright (c) 2015-2018, Renesas Electronics Corporation. All rights reserved.
#
# SPDX-License-Identifier: BSD-3-Clause
#
###################################################
# makefile
###################################################
#output file name
FILE_NAME_SA0 = bootparam_sa0
FILE_NAME_SA6 = cert_header_sa6
OUTPUT_FILE_SA0 = $(FILE_NAME_SA0).elf
OUTPUT_FILE_SA6 = $(FILE_NAME_SA6).elf
#object file name
OBJ_FILE_SA0 = sa0.o
OBJ_FILE_SA6 = sa6.o
#linker script name
MEMORY_DEF_SA0 = sa0.ld.S
MEMORY_DEF_SA6 = sa6.ld.S
###################################################
# Convenience function for adding build definitions
# $(eval $(call add_define,FOO)) will have:
# -DFOO if $(FOO) is empty; -DFOO=$(FOO) otherwise
define add_define
DEFINES += -D$(1)$(if $(value $(1)),=$(value $(1)),)
endef
# Process RCAR_SA0_SIZE flag
ifndef RCAR_SA0_SIZE
RCAR_SA0_SIZE := 1
else
ifeq (${RCAR_SA0_SIZE},0)
RCAR_SA0_SIZE := 0
else
RCAR_SA0_SIZE := 1
endif
endif
$(eval $(call add_define,RCAR_SA0_SIZE))
# Process RCAR_SA6_TYPE flag
ifndef RCAR_SA6_TYPE
RCAR_SA6_TYPE := 0
else
ifeq (${RCAR_SA6_TYPE},0)
RCAR_SA6_TYPE := 0
else
RCAR_SA6_TYPE := 1
endif
endif
$(eval $(call add_define,RCAR_SA6_TYPE))
###################################################
#c compiler
CC = $(CROSS_COMPILE)gcc
CFLAGS += ${DEFINES}
CFLAGS += -I../../include/lib/stdlib
#Linker
LD = $(CROSS_COMPILE)ld
#objcopy
objcopy = $(CROSS_COMPILE)objcopy
#clean
CL = rm -f
###################################################
.SUFFIXES : .s .c .o
###################################################
# command
.PHONY: all
all: $(OUTPUT_FILE_SA0) $(OUTPUT_FILE_SA6)
###################################################
# Linker
###################################################
$(OUTPUT_FILE_SA0) : $(MEMORY_DEF_SA0) $(OBJ_FILE_SA0)
$(LD) $(OBJ_FILE_SA0) \
-T $(MEMORY_DEF_SA0) \
-o $(OUTPUT_FILE_SA0) \
-Map $(FILE_NAME_SA0).map \
$(objcopy) -O srec --adjust-vma=0xE6320000 --srec-forceS3 $(OUTPUT_FILE_SA0) $(FILE_NAME_SA0).srec
$(objcopy) -O binary --adjust-vma=0xE6320000 --srec-forceS3 $(OUTPUT_FILE_SA0) $(FILE_NAME_SA0).bin
$(OUTPUT_FILE_SA6) : $(MEMORY_DEF_SA6) $(OBJ_FILE_SA6)
$(LD) $(OBJ_FILE_SA6) \
-T $(MEMORY_DEF_SA6) \
-o $(OUTPUT_FILE_SA6) \
-Map $(FILE_NAME_SA6).map \
$(objcopy) -O srec --adjust-vma=0xE6320000 --srec-forceS3 $(OUTPUT_FILE_SA6) $(FILE_NAME_SA6).srec
$(objcopy) -O binary --adjust-vma=0xE6320000 --srec-forceS3 $(OUTPUT_FILE_SA6) $(FILE_NAME_SA6).bin
###################################################
# Compile
###################################################
%.o:../%.c
$(CC) -c -I $< -o $@
.PHONY: clean
clean:
$(CL) *.bin *.map *.srec *.elf *.o

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/*
* Copyright (c) 2015-2018, Renesas Electronics Corporation. All rights reserved.
*
* SPDX-License-Identifier: BSD-3-Clause
*/
#define RCAR_SA0_SIZE_SMALL (0) /* for E3 */
#define RCAR_SA0_SIZE_NORMAL (1) /* for H3/M3/M3N */
#define BL2_ADDRESS (0xE6304000) /* BL2 start address */
#if (RCAR_SA0_SIZE == RCAR_SA0_SIZE_SMALL)
#define BL2_SIZE (80*1024/4) /* BL2 size is 80KB(0x00005000) */
#else /* (RCAR_SA0_SIZE == RCAR_SA0_SIZE_SMALL) */
#define BL2_SIZE (170*1024/4) /* BL2 size is 170KB(0x0000AA00) */
#endif /* (RCAR_SA0_SIZE == RCAR_SA0_SIZE_SMALL) */
/* SA0 */
/* 0x00000000 */
const unsigned int __attribute__ ((section (".sa0_bootrom"))) bootrom_paramA = 0x00000100;
/* 0x00000080 (Map Type 3 for eMMC Boot)*/
/* 0x000001D4 */
const unsigned int __attribute__ ((section (".sa0_bl2dst_addr3"))) bl2dst_addr3 = BL2_ADDRESS;
/* 0x000002E4 */
const unsigned int __attribute__ ((section (".sa0_bl2dst_size3"))) bl2dst_size3 = BL2_SIZE;
/* 0x00000C00 (Map Type 1 for HyperFlash/QSPI Flash Boot)*/
/* 0x00000D54 */
const unsigned int __attribute__ ((section (".sa0_bl2dst_addr1"))) bl2dst_addr1 = BL2_ADDRESS;
/* 0x00000E64 */
const unsigned int __attribute__ ((section (".sa0_bl2dst_size1"))) bl2dst_size1 = BL2_SIZE;

28
tools/renesas/rcar_layout_create/sa0.ld.S Normal file
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/*
* Copyright (c) 2015-2017, Renesas Electronics Corporation. All rights reserved.
*
* SPDX-License-Identifier: BSD-3-Clause
*/
SECTIONS
{
. = 0x00000000;
.rodata : {
KEEP(*(.sa0_bootrom))
/* Map Type 3 for eMMC Boot */
/* A-side IPL content cert "Start Address" */
. = 0x000001D4; /* H'00000080 + H'00000154 */
KEEP(*(.sa0_bl2dst_addr3))
/* A-side IPL content cert "Size" */
. = 0x000002E4; /* H'00000080 + H'00000264 */
KEEP(*(.sa0_bl2dst_size3))
/* Map Type 1 for HyperFlash/QSPI Flash Boot */
/* A-side IPL content cert "Start Address" */
. = 0x00000D54; /* H'00000C00 + H'00000154 */
KEEP(*(.sa0_bl2dst_addr1))
/* A-side IPL content cert "Size" */
. = 0x00000E64; /* H'00000C00 + H'00000264 */
KEEP(*(.sa0_bl2dst_size1))
}
}

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/*
* Copyright (c) 2015-2017, Renesas Electronics Corporation. All rights reserved.
*
* SPDX-License-Identifier: BSD-3-Clause
*/
#include <stdint.h>
#define RCAR_SA6_TYPE_HYPERFLASH (0)
#define RCAR_SA6_TYPE_EMMC (1)
#if (RCAR_SA6_TYPE == RCAR_SA6_TYPE_HYPERFLASH)
/* Number of content cert for Non-secure Target Program(BL33x) */
#define RCAR_IMAGE_NUM (0x00000001U)
/* Source address on flash for BL31 */
#define RCAR_BL31SRC_ADDRESS (0x001C0000U)
/* Reserved */
#define RCAR_BL31_PARTITION (0x00000000U)
/* Source address on flash for BL32 */
#define RCAR_BL32SRC_ADDRESS (0x00200000U)
/* Reserved */
#define RCAR_BL32_PARTITION (0x00000000U)
/* Source address on flash for BL33 */
#define RCAR_BL33SRC_ADDRESS (0x00640000U)
/* Reserved */
#define RCAR_BL33_PARTITION (0x00000000U)
#define RCAR_BL332SRC_ADDRESS (0x00000000U)
/* Reserved */
#define RCAR_BL332_PARTITION (0x00000000U)
#define RCAR_BL333SRC_ADDRESS (0x00000000U)
/* Reserved */
#define RCAR_BL333_PARTITION (0x00000000U)
#define RCAR_BL334SRC_ADDRESS (0x00000000U)
/* Reserved */
#define RCAR_BL334_PARTITION (0x00000000U)
#define RCAR_BL335SRC_ADDRESS (0x00000000U)
/* Reserved */
#define RCAR_BL335_PARTITION (0x00000000U)
#define RCAR_BL336SRC_ADDRESS (0x00000000U)
/* Reserved */
#define RCAR_BL336_PARTITION (0x00000000U)
#define RCAR_BL337SRC_ADDRESS (0x00000000U)
/* Reserved */
#define RCAR_BL337_PARTITION (0x00000000U)
#define RCAR_BL338SRC_ADDRESS (0x00000000U)
/* Reserved */
#define RCAR_BL338_PARTITION (0x00000000U)
#else /* RCAR_SA6_TYPE == RCAR_SA6_TYPE_HYPERFLASH */
/* Number of content cert for Non-secure Target Program(BL33x) */
#define RCAR_IMAGE_NUM (0x00000001U)
/* Source address on eMMC for BL31 */
#define RCAR_BL31SRC_ADDRESS (0x00040000U)
/* Source partition on eMMC for BL31 */
#define RCAR_BL31_PARTITION (0x00000001U)
/* Source address on eMMC for BL32 */
#define RCAR_BL32SRC_ADDRESS (0x00200000U)
/* Source partition on eMMC for BL32 */
#define RCAR_BL32_PARTITION (0x00000001U)
/* Source address on eMMC for BL33 */
#define RCAR_BL33SRC_ADDRESS (0x00000000U)
/* Source partition on eMMC for BL33 */
#define RCAR_BL33_PARTITION (0x00000002U)
/* Reserved */
#define RCAR_BL332SRC_ADDRESS (0x00000000U)
#define RCAR_BL332_PARTITION (0x00000000U)
/* Reserved */
#define RCAR_BL333SRC_ADDRESS (0x00000000U)
#define RCAR_BL333_PARTITION (0x00000000U)
/* Reserved */
#define RCAR_BL334SRC_ADDRESS (0x00000000U)
#define RCAR_BL334_PARTITION (0x00000000U)
/* Reserved */
#define RCAR_BL335SRC_ADDRESS (0x00000000U)
#define RCAR_BL335_PARTITION (0x00000000U)
/* Reserved */
#define RCAR_BL336SRC_ADDRESS (0x00000000U)
#define RCAR_BL336_PARTITION (0x00000000U)
/* Reserved */
#define RCAR_BL337SRC_ADDRESS (0x00000000U)
#define RCAR_BL337_PARTITION (0x00000000U)
/* Reserved */
#define RCAR_BL338SRC_ADDRESS (0x00000000U)
#define RCAR_BL338_PARTITION (0x00000000U)
#endif /* RCAR_SA6_TYPE == RCAR_SA6_TYPE_HYPERFLASH */
/* Destination address for BL31 */
#define RCAR_BL31DST_ADDRESS (0x44000000U)
#define RCAR_BL31DST_ADDRESSH (0x00000000U)
/* Destination size for BL31 */
#define RCAR_BL31DST_SIZE (0x00004000U)
/* Destination address for BL32 */
#define RCAR_BL32DST_ADDRESS (0x44100000U)
#define RCAR_BL32DST_ADDRESSH (0x00000000U)
/* Destination size for BL32 */
#define RCAR_BL32DST_SIZE (0x00040000U)
/* Destination address for BL33 */
#define RCAR_BL33DST_ADDRESS (0x50000000U)
#define RCAR_BL33DST_ADDRESSH (0x00000000U)
/* Destination size for BL33 */
#define RCAR_BL33DST_SIZE (0x00040000U)
/* Reserved */
#define RCAR_BL332DST_ADDRESS (0x00000000U)
#define RCAR_BL332DST_ADDRESSH (0x00000000U)
#define RCAR_BL332DST_SIZE (0x00000000U)
/* Reserved */
#define RCAR_BL333DST_ADDRESS (0x00000000U)
#define RCAR_BL333DST_ADDRESSH (0x00000000U)
#define RCAR_BL333DST_SIZE (0x00000000U)
/* Reserved */
#define RCAR_BL334DST_ADDRESS (0x00000000U)
#define RCAR_BL334DST_ADDRESSH (0x00000000U)
#define RCAR_BL334DST_SIZE (0x00000000U)
/* Reserved */
#define RCAR_BL335DST_ADDRESS (0x00000000U)
#define RCAR_BL335DST_ADDRESSH (0x00000000U)
#define RCAR_BL335DST_SIZE (0x00000000U)
/* Reserved */
#define RCAR_BL336DST_ADDRESS (0x00000000U)
#define RCAR_BL336DST_ADDRESSH (0x00000000U)
#define RCAR_BL336DST_SIZE (0x00000000U)
/* Reserved */
#define RCAR_BL337DST_ADDRESS (0x00000000U)
#define RCAR_BL337DST_ADDRESSH (0x00000000U)
#define RCAR_BL337DST_SIZE (0x00000000U)
/* Reserved */
#define RCAR_BL338DST_ADDRESS (0x00000000U)
#define RCAR_BL338DST_ADDRESSH (0x00000000U)
#define RCAR_BL338DST_SIZE (0x00000000U)
/* SA6 */
const uint64_t __attribute__ ((section (".sa6_image_num"))) image_num = RCAR_IMAGE_NUM;
const uint64_t __attribute__ ((section (".sa6_bl31src_addr"))) bl31src_addr = RCAR_BL31SRC_ADDRESS;
const uint64_t __attribute__ ((section (".sa6_bl31partition"))) bl31partition = RCAR_BL31_PARTITION;
const uint64_t __attribute__ ((section (".sa6_bl32src_addr"))) bl32src_addr = RCAR_BL32SRC_ADDRESS;
const uint64_t __attribute__ ((section (".sa6_bl32partition"))) bl32partition = RCAR_BL32_PARTITION;
const uint64_t __attribute__ ((section (".sa6_bl33src_addr"))) bl33src_addr = RCAR_BL33SRC_ADDRESS;
const uint64_t __attribute__ ((section (".sa6_bl33partition"))) bl33partition = RCAR_BL33_PARTITION;
const uint64_t __attribute__ ((section (".sa6_bl332src_addr"))) bl332src_addr = RCAR_BL332SRC_ADDRESS;
const uint64_t __attribute__ ((section (".sa6_bl332partition")))bl332partition = RCAR_BL332_PARTITION;
const uint64_t __attribute__ ((section (".sa6_bl333src_addr"))) bl333src_addr = RCAR_BL333SRC_ADDRESS;
const uint64_t __attribute__ ((section (".sa6_bl333partition")))bl333partition = RCAR_BL333_PARTITION;
const uint64_t __attribute__ ((section (".sa6_bl334src_addr"))) bl334src_addr = RCAR_BL334SRC_ADDRESS;
const uint64_t __attribute__ ((section (".sa6_bl334partition")))bl334partition = RCAR_BL334_PARTITION;
const uint64_t __attribute__ ((section (".sa6_bl335src_addr"))) bl335src_addr = RCAR_BL335SRC_ADDRESS;
const uint64_t __attribute__ ((section (".sa6_bl335partition")))bl335partition = RCAR_BL335_PARTITION;
const uint64_t __attribute__ ((section (".sa6_bl336src_addr"))) bl336src_addr = RCAR_BL336SRC_ADDRESS;
const uint64_t __attribute__ ((section (".sa6_bl336partition")))bl336partition = RCAR_BL336_PARTITION;
const uint64_t __attribute__ ((section (".sa6_bl337src_addr"))) bl337src_addr = RCAR_BL337SRC_ADDRESS;
const uint64_t __attribute__ ((section (".sa6_bl337partition")))bl337partition = RCAR_BL337_PARTITION;
const uint64_t __attribute__ ((section (".sa6_bl338src_addr"))) bl338src_addr = RCAR_BL338SRC_ADDRESS;
const uint64_t __attribute__ ((section (".sa6_bl338partition")))bl338partition = RCAR_BL338_PARTITION;
const uint32_t __attribute__ ((section (".sa6_bl31dst_addr"))) bl31dst_addr = RCAR_BL31DST_ADDRESS;
const uint32_t __attribute__ ((section (".sa6_bl31dst_addrh"))) bl31dst_addrh = RCAR_BL31DST_ADDRESSH;
const uint32_t __attribute__ ((section (".sa6_bl31dst_size"))) bl31dst_size = RCAR_BL31DST_SIZE;
const uint32_t __attribute__ ((section (".sa6_bl32dst_addr"))) bl32dst_addr = RCAR_BL32DST_ADDRESS;
const uint32_t __attribute__ ((section (".sa6_bl32dst_addrh"))) bl32dst_addrh = RCAR_BL32DST_ADDRESSH;
const uint32_t __attribute__ ((section (".sa6_bl32dst_size"))) bl32dst_size = RCAR_BL32DST_SIZE;
const uint32_t __attribute__ ((section (".sa6_bl33dst_addr"))) bl33dst_addr = RCAR_BL33DST_ADDRESS;
const uint32_t __attribute__ ((section (".sa6_bl33dst_addrh"))) bl33dst_addrh = RCAR_BL33DST_ADDRESSH;
const uint32_t __attribute__ ((section (".sa6_bl33dst_size"))) bl33dst_size = RCAR_BL33DST_SIZE;
const uint32_t __attribute__ ((section (".sa6_bl332dst_addr"))) bl332dst_addr = RCAR_BL332DST_ADDRESS;
const uint32_t __attribute__ ((section (".sa6_bl332dst_addrh")))bl332dst_addrh = RCAR_BL332DST_ADDRESSH;
const uint32_t __attribute__ ((section (".sa6_bl332dst_size"))) bl332dst_size = RCAR_BL332DST_SIZE;
const uint32_t __attribute__ ((section (".sa6_bl333dst_addr"))) bl333dst_addr = RCAR_BL333DST_ADDRESS;
const uint32_t __attribute__ ((section (".sa6_bl333dst_addrh")))bl333dst_addrh = RCAR_BL333DST_ADDRESSH;
const uint32_t __attribute__ ((section (".sa6_bl333dst_size"))) bl333dst_size = RCAR_BL333DST_SIZE;
const uint32_t __attribute__ ((section (".sa6_bl334dst_addr"))) bl334dst_addr = RCAR_BL334DST_ADDRESS;
const uint32_t __attribute__ ((section (".sa6_bl334dst_addrh")))bl334dst_addrh = RCAR_BL334DST_ADDRESSH;
const uint32_t __attribute__ ((section (".sa6_bl334dst_size"))) bl334dst_size = RCAR_BL334DST_SIZE;
const uint32_t __attribute__ ((section (".sa6_bl335dst_addr"))) bl335dst_addr = RCAR_BL335DST_ADDRESS;
const uint32_t __attribute__ ((section (".sa6_bl335dst_addrh")))bl335dst_addrh = RCAR_BL335DST_ADDRESSH;
const uint32_t __attribute__ ((section (".sa6_bl335dst_size"))) bl335dst_size = RCAR_BL335DST_SIZE;
const uint32_t __attribute__ ((section (".sa6_bl336dst_addr"))) bl336dst_addr = RCAR_BL336DST_ADDRESS;
const uint32_t __attribute__ ((section (".sa6_bl336dst_addrh")))bl336dst_addrh = RCAR_BL336DST_ADDRESSH;
const uint32_t __attribute__ ((section (".sa6_bl336dst_size"))) bl336dst_size = RCAR_BL336DST_SIZE;
const uint32_t __attribute__ ((section (".sa6_bl337dst_addr"))) bl337dst_addr = RCAR_BL337DST_ADDRESS;
const uint32_t __attribute__ ((section (".sa6_bl337dst_addrh")))bl337dst_addrh = RCAR_BL337DST_ADDRESSH;
const uint32_t __attribute__ ((section (".sa6_bl337dst_size"))) bl337dst_size = RCAR_BL337DST_SIZE;
const uint32_t __attribute__ ((section (".sa6_bl338dst_addr"))) bl338dst_addr = RCAR_BL338DST_ADDRESS;
const uint32_t __attribute__ ((section (".sa6_bl338dst_addrh")))bl338dst_addrh = RCAR_BL338DST_ADDRESSH;
const uint32_t __attribute__ ((section (".sa6_bl338dst_size"))) bl338dst_size = RCAR_BL338DST_SIZE;

114
tools/renesas/rcar_layout_create/sa6.ld.S Normal file
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@ -0,0 +1,114 @@
/*
* Copyright (c) 2015-2017, Renesas Electronics Corporation. All rights reserved.
*
* SPDX-License-Identifier: BSD-3-Clause
*/
SECTIONS
{
. = 0x00000000;
.rodata : {
KEEP(*(.sa6_image_num))
. = 0x00000008;
KEEP(*(.sa6_bl31src_addr))
. = 0x00000010;
KEEP(*(.sa6_bl31partition))
. = 0x00000018;
KEEP(*(.sa6_bl32src_addr))
. = 0x00000020;
KEEP(*(.sa6_bl32partition))
. = 0x00000028;
KEEP(*(.sa6_bl33src_addr))
. = 0x00000030;
KEEP(*(.sa6_bl33partition))
. = 0x00000038;
KEEP(*(.sa6_bl332src_addr))
. = 0x00000040;
KEEP(*(.sa6_bl332partition))
. = 0x00000048;
KEEP(*(.sa6_bl333src_addr))
. = 0x00000050;
KEEP(*(.sa6_bl333partition))
. = 0x00000058;
KEEP(*(.sa6_bl334src_addr))
. = 0x00000060;
KEEP(*(.sa6_bl334partition))
. = 0x00000068;
KEEP(*(.sa6_bl335src_addr))
. = 0x00000070;
KEEP(*(.sa6_bl335partition))
. = 0x00000078;
KEEP(*(.sa6_bl336src_addr))
. = 0x00000080;
KEEP(*(.sa6_bl336partition))
. = 0x00000088;
KEEP(*(.sa6_bl337src_addr))
. = 0x00000090;
KEEP(*(.sa6_bl337partition))
. = 0x00000098;
KEEP(*(.sa6_bl338src_addr))
. = 0x000000A0;
KEEP(*(.sa6_bl338partition))
. = 0x00000554;
KEEP(*(.sa6_bl31dst_addr))
. = 0x00000558;
KEEP(*(.sa6_bl31dst_addrh))
. = 0x00000664;
KEEP(*(.sa6_bl31dst_size))
. = 0x00000D54;
KEEP(*(.sa6_bl32dst_addr))
. = 0x00000D58;
KEEP(*(.sa6_bl32dst_addrh))
. = 0x00000E64;
KEEP(*(.sa6_bl32dst_size))
. = 0x00001554;
KEEP(*(.sa6_bl33dst_addr))
. = 0x00001558;
KEEP(*(.sa6_bl33dst_addrh))
. = 0x00001664;
KEEP(*(.sa6_bl33dst_size))
. = 0x00001D54;
KEEP(*(.sa6_bl332dst_addr))
. = 0x00001D58;
KEEP(*(.sa6_bl332dst_addrh))
. = 0x00001E64;
KEEP(*(.sa6_bl332dst_size))
. = 0x00002554;
KEEP(*(.sa6_bl333dst_addr))
. = 0x00002558;
KEEP(*(.sa6_bl333dst_addrh))
. = 0x00002664;
KEEP(*(.sa6_bl333dst_size))
. = 0x00002D54;
KEEP(*(.sa6_bl334dst_addr))
. = 0x00002D58;
KEEP(*(.sa6_bl334dst_addrh))
. = 0x00002E64;
KEEP(*(.sa6_bl334dst_size))
. = 0x00003554;
KEEP(*(.sa6_bl335dst_addr))
. = 0x00003558;
KEEP(*(.sa6_bl335dst_addrh))
. = 0x00003664;
KEEP(*(.sa6_bl335dst_size))
. = 0x00003D54;
KEEP(*(.sa6_bl336dst_addr))
. = 0x00003D58;
KEEP(*(.sa6_bl336dst_addrh))
. = 0x00003E64;
KEEP(*(.sa6_bl336dst_size))
. = 0x00004554;
KEEP(*(.sa6_bl337dst_addr))
. = 0x00004558;
KEEP(*(.sa6_bl337dst_addrh))
. = 0x00004664;
KEEP(*(.sa6_bl337dst_size))
. = 0x00004D54;
KEEP(*(.sa6_bl338dst_addr))
. = 0x00004D58;
KEEP(*(.sa6_bl338dst_addrh))
. = 0x00004E64;
KEEP(*(.sa6_bl338dst_size))
}
}