Commit b709fe9c authored by Valentine Barshak's avatar Valentine Barshak Committed by Marek Vasut
Browse files

rcar_gen3: plat: Add R-Car V3M support



Add R-Car V3M support. This is based on the original
V3M support patch for Yocto v2.23.1 by Vladimir Barinov.
Signed-off-by: default avatarVladimir Barinov <vladimir.barinov@cogentembedded.com>
Signed-off-by: default avatarValentine Barshak <valentine.barshak@cogentembedded.com>
Signed-off-by: default avatarMarek Vasut <marek.vasut+renesas@gmail.com>
---
Marek: Update on top of mainline ATF/master
parent 0a4bf763
......@@ -18,6 +18,8 @@
#define BOARD_DEFAULT (BOARD_DRAAK << BOARD_CODE_SHIFT)
#elif (RCAR_LSI == RCAR_E3)
#define BOARD_DEFAULT (BOARD_EBISU << BOARD_CODE_SHIFT)
#elif (RCAR_LSI == RCAR_V3M)
#define BOARD_DEFAULT (BOARD_EAGLE << BOARD_CODE_SHIFT)
#else
#define BOARD_DEFAULT (BOARD_SALVATOR_X << BOARD_CODE_SHIFT)
#endif
......@@ -35,6 +37,7 @@
#define EB4_ID { 0x10U, 0xFFU, 0xFFU, 0xFFU, 0xFFU, 0xFFU, 0xFFU, 0xFFU }
#define EB_ID { 0x10U, 0xFFU, 0xFFU, 0xFFU, 0xFFU, 0xFFU, 0xFFU, 0xFFU }
#define DR_ID { 0x10U, 0xFFU, 0xFFU, 0xFFU, 0xFFU, 0xFFU, 0xFFU, 0xFFU }
#define EA_ID { 0x10U, 0xFFU, 0xFFU, 0xFFU, 0xFFU, 0xFFU, 0xFFU, 0xFFU }
#define KK_ID { 0x10U, 0xFFU, 0xFFU, 0xFFU, 0xFFU, 0xFFU, 0xFFU, 0xFFU }
const char *g_board_tbl[] = {
......@@ -46,6 +49,7 @@ const char *g_board_tbl[] = {
[BOARD_KRIEK] = "Kriek",
[BOARD_EBISU] = "Ebisu",
[BOARD_DRAAK] = "Draak",
[BOARD_EAGLE] = "Eagle",
[BOARD_UNKNOWN] = "unknown"
};
......@@ -60,6 +64,7 @@ int32_t rcar_get_board_type(uint32_t *type, uint32_t *rev)
[BOARD_EBISU_4D] = EB4_ID,
[BOARD_EBISU] = EB_ID,
[BOARD_DRAAK] = DR_ID,
[BOARD_EAGLE] = EA_ID,
[BOARD_KRIEK] = KK_ID,
};
static uint8_t board_id = BOARD_ID_UNKNOWN;
......
......@@ -16,7 +16,8 @@
#define BOARD_STARTER_KIT_PRE (0x0B)
#define BOARD_EBISU_4D (0x0DU)
#define BOARD_DRAAK (0x0EU)
#define BOARD_UNKNOWN (BOARD_DRAAK + 1U)
#define BOARD_EAGLE (0x0FU)
#define BOARD_UNKNOWN (BOARD_EAGLE + 1U)
#define BOARD_REV_UNKNOWN (0xFF)
......
......@@ -16,7 +16,11 @@
#include "rcar_private.h"
/* DMA CHANNEL setting (0/16/32) */
#if RCAR_LSI == RCAR_V3M
#define DMA_CH 16
#else
#define DMA_CH 0
#endif
#if (DMA_CH == 0)
#define SYS_DMAC_BIT ((uint32_t)1U << 19U)
......
......@@ -19,8 +19,9 @@ typedef uint32_t(*rom_get_lcs_api_f) (uint32_t *lcs);
#define OLD_API_TABLE1 (0U) /* H3 Ver.1.0/Ver.1.1 */
#define OLD_API_TABLE2 (1U) /* H3 Ver.2.0 */
#define OLD_API_TABLE3 (2U) /* M3 Ver.1.0 */
#define NEW_API_TABLE (3U) /* H3 Ver.3.0, M3 Ver.1.1 or later, M3N, E3, D3 */
#define API_TABLE_MAX (4U) /* table max */
#define NEW_API_TABLE (3U) /* H3 Ver.3.0, M3 Ver.1.1 or later, M3N, E3, D3, V3M WS2.0 */
#define NEW_API_TABLE2 (4U) /* V3M WS1.0 */
#define API_TABLE_MAX (5U) /* table max */
/* Later than H3 Ver.2.0 */
static uint32_t get_table_index(void)
......@@ -51,6 +52,14 @@ static uint32_t get_table_index(void)
/* M3 Ver.1.1 or later */
index = NEW_API_TABLE;
break;
case RCAR_PRODUCT_V3M:
if (cut_ver == RCAR_CUT_VER10)
/* V3M WS1.0 */
index = NEW_API_TABLE2;
else
/* V3M WS2.0 or later */
index = NEW_API_TABLE;
break;
default:
index = NEW_API_TABLE;
break;
......@@ -66,7 +75,8 @@ uint32_t rcar_rom_secure_boot_api(uint32_t *key, uint32_t *cert,
0xEB10DD64U, /* H3 Ver.1.0/Ver.1.1 */
0xEB116ED4U, /* H3 Ver.2.0 */
0xEB1102FCU, /* M3 Ver.1.0 */
0xEB100180U /* H3 Ver.3.0, M3 Ver.1.1 or later, M3N, E3, D3 */
0xEB100180U, /* H3 Ver.3.0, M3 Ver.1.1 or later, M3N, E3, D3, V3M WS2.0 */
0xEB110128U, /* V3M WS1.0 */
};
rom_secure_boot_api_f secure_boot;
uint32_t index;
......@@ -83,7 +93,8 @@ uint32_t rcar_rom_get_lcs(uint32_t *lcs)
0xEB10DFE0U, /* H3 Ver.1.0/Ver.1.1 */
0xEB117150U, /* H3 Ver.2.0 */
0xEB110578U, /* M3 Ver.1.0 */
0xEB10018CU /* H3 Ver.3.0, M3 Ver.1.1 or later, M3N, E3, D3 */
0xEB10018CU, /* H3 Ver.3.0, M3 Ver.1.1 or later, M3N, E3, D3, V3M WS2.0 */
0xEB1103A4U, /* V3M WS1.0 */
};
rom_get_lcs_api_f get_lcs;
uint32_t index;
......
......@@ -21,12 +21,16 @@
/* module stop */
#define CPG_BASE (0xE6150000)
#define CPG_SMSTPCR2 (0x0138)
#define CPG_SMSTPCR3 (0x013C)
#define CPG_MSTPSR2 (0x0040)
#define CPG_MSTPSR3 (0x0048)
#define MSTP207 (1 << 7)
#define MSTP310 (1 << 10)
#define CPG_CPGWPR (0x0900)
/* scif */
#define SCIF0_BASE (0xE6E60000)
#define SCIF2_BASE (0xE6E88000)
#define SCIF_SCSMR (0x00)
#define SCIF_SCBRR (0x04)
......@@ -41,6 +45,18 @@
#define SCIF_DL (0x30)
#define SCIF_CKS (0x34)
#if RCAR_LSI == RCAR_V3M
#define SCIF_BASE SCIF0_BASE
#define CPG_SMSTPCR CPG_SMSTPCR2
#define CPG_MSTPSR CPG_MSTPSR2
#define MSTP MSTP207
#else
#define SCIF_BASE SCIF2_BASE
#define CPG_SMSTPCR CPG_SMSTPCR3
#define CPG_MSTPSR CPG_MSTPSR3
#define MSTP MSTP310
#endif
/* mode pin */
#define RST_MODEMR (0xE6160060)
#define MODEMR_MD12 (0x00001000)
......@@ -152,17 +168,17 @@ endfunc console_uninit
*/
func console_core_init
ldr x0, =CPG_BASE
ldr w1, [x0, #CPG_SMSTPCR3]
and w1, w1, #~MSTP310 /* MSTP310=0 */
ldr w1, [x0, #CPG_SMSTPCR]
and w1, w1, #~MSTP
mvn w2, w1
str w2, [x0, #CPG_CPGWPR]
str w1, [x0, #CPG_SMSTPCR3]
str w1, [x0, #CPG_SMSTPCR]
5:
ldr w1, [x0, #CPG_MSTPSR3]
and w1, w1, #MSTP310
ldr w1, [x0, #CPG_MSTPSR]
and w1, w1, #MSTP
cbnz w1, 5b
ldr x0, =SCIF2_BASE
ldr x0, =SCIF_BASE
/* Clear bits TE and RE in SCSCR to 0 */
mov w1, #(SCSCR_TE_DIS + SCSCR_RE_DIS)
strh w1, [x0, #SCIF_SCSCR]
......@@ -272,7 +288,7 @@ endfunc console_putc
* --------------------------------------------------------
*/
func console_core_putc
ldr x1, =SCIF2_BASE
ldr x1, =SCIF_BASE
cmp w0, #0xA
/* Prepend '\r' to '\n' */
bne 2f
......@@ -323,7 +339,7 @@ endfunc console_getc
* ---------------------------------------------
*/
func console_flush
ldr x0, =SCIF2_BASE
ldr x0, =SCIF_BASE
1:
/* Check TEND flag */
ldrh w1, [x0, #SCIF_SCFSR]
......@@ -331,7 +347,7 @@ func console_flush
cmp w1, #SCFSR_TEND_TRANS_END
bne 1b
ldr x0, =SCIF2_BASE
ldr x0, =SCIF_BASE
ldrh w1, [x0, #SCIF_SCSCR]
and w1, w1, #~(SCSCR_TE_EN + SCSCR_RE_EN)
strh w1, [x0, #SCIF_SCSCR]
......
......@@ -9,6 +9,8 @@ ifeq (${RCAR_LSI},${RCAR_E3})
BL2_SOURCES += drivers/staging/renesas/rcar/ddr/dram_sub_func.c
else ifeq (${RCAR_LSI},${RCAR_D3})
include drivers/staging/renesas/rcar/ddr/ddr_a/ddr_a.mk
else ifeq (${RCAR_LSI},${RCAR_V3M})
include drivers/staging/renesas/rcar/ddr/ddr_a/ddr_a.mk
else
include drivers/staging/renesas/rcar/ddr/ddr_b/ddr_b.mk
BL2_SOURCES += drivers/staging/renesas/rcar/ddr/dram_sub_func.c
......
/*
* Copyright (c) 2015-2016, Renesas Electronics Corporation
* All rights reserved.
*
* SPDX-License-Identifier: BSD-3-Clause
*/
#ifndef BOOT_INIT_DRAM_REGDEF_V3M_H_
#define BOOT_INIT_DRAM_REGDEF_V3M_H_
#ifdef __cplusplus
extern "C" {
#endif /* __cplusplus */
#define BIT0 0x00000001U
#define BIT30 0x40000000U
/* DBSC registers */
// modified , last 2016.12.08
#define DBSC_V3M_DBSYSCONF0 0xE6790000U
#define DBSC_V3M_DBSYSCONF1 0xE6790004U
#define DBSC_V3M_DBPHYCONF0 0xE6790010U
#define DBSC_V3M_DBKIND 0xE6790020U
#define DBSC_V3M_DBMEMCONF00 0xE6790030U
#define DBSC_V3M_DBMEMCONF01 0xE6790034U
#define DBSC_V3M_DBMEMCONF02 0xE6790038U
#define DBSC_V3M_DBMEMCONF03 0xE679003CU
#define DBSC_V3M_DBMEMCONF10 0xE6790040U
#define DBSC_V3M_DBMEMCONF11 0xE6790044U
#define DBSC_V3M_DBMEMCONF12 0xE6790048U
#define DBSC_V3M_DBMEMCONF13 0xE679004CU
#define DBSC_V3M_DBMEMCONF20 0xE6790050U
#define DBSC_V3M_DBMEMCONF21 0xE6790054U
#define DBSC_V3M_DBMEMCONF22 0xE6790058U
#define DBSC_V3M_DBMEMCONF23 0xE679005CU
#define DBSC_V3M_DBMEMCONF30 0xE6790060U
#define DBSC_V3M_DBMEMCONF31 0xE6790064U
#define DBSC_V3M_DBMEMCONF32 0xE6790068U
#define DBSC_V3M_DBMEMCONF33 0xE679006CU
#define DBSC_V3M_DBSYSCNT0 0xE6790100U
#define DBSC_V3M_DBSVCR1 0xE6790104U
#define DBSC_V3M_DBSTATE0 0xE6790108U
#define DBSC_V3M_DBSTATE1 0xE679010CU
#define DBSC_V3M_DBINTEN 0xE6790180U
#define DBSC_V3M_DBINTSTAT0 0xE6790184U
#define DBSC_V3M_DBACEN 0xE6790200U
#define DBSC_V3M_DBRFEN 0xE6790204U
#define DBSC_V3M_DBCMD 0xE6790208U
#define DBSC_V3M_DBWAIT 0xE6790210U
#define DBSC_V3M_DBSYSCTRL0 0xE6790280U
#define DBSC_V3M_DBTR0 0xE6790300U
#define DBSC_V3M_DBTR1 0xE6790304U
#define DBSC_V3M_DBTR2 0xE6790308U
#define DBSC_V3M_DBTR3 0xE679030CU
#define DBSC_V3M_DBTR4 0xE6790310U
#define DBSC_V3M_DBTR5 0xE6790314U
#define DBSC_V3M_DBTR6 0xE6790318U
#define DBSC_V3M_DBTR7 0xE679031CU
#define DBSC_V3M_DBTR8 0xE6790320U
#define DBSC_V3M_DBTR9 0xE6790324U
#define DBSC_V3M_DBTR10 0xE6790328U
#define DBSC_V3M_DBTR11 0xE679032CU
#define DBSC_V3M_DBTR12 0xE6790330U
#define DBSC_V3M_DBTR13 0xE6790334U
#define DBSC_V3M_DBTR14 0xE6790338U
#define DBSC_V3M_DBTR15 0xE679033CU
#define DBSC_V3M_DBTR16 0xE6790340U
#define DBSC_V3M_DBTR17 0xE6790344U
#define DBSC_V3M_DBTR18 0xE6790348U
#define DBSC_V3M_DBTR19 0xE679034CU
#define DBSC_V3M_DBTR20 0xE6790350U
#define DBSC_V3M_DBTR21 0xE6790354U
#define DBSC_V3M_DBTR22 0xE6790358U
#define DBSC_V3M_DBTR23 0xE679035CU
#define DBSC_V3M_DBTR24 0xE6790360U
#define DBSC_V3M_DBTR25 0xE6790364U
#define DBSC_V3M_DBBL 0xE6790400U
#define DBSC_V3M_DBRFCNF1 0xE6790414U
#define DBSC_V3M_DBRFCNF2 0xE6790418U
#define DBSC_V3M_DBTSPCNF 0xE6790420U
#define DBSC_V3M_DBCALCNF 0xE6790424U
#define DBSC_V3M_DBRNK2 0xE6790438U
#define DBSC_V3M_DBRNK3 0xE679043CU
#define DBSC_V3M_DBRNK4 0xE6790440U
#define DBSC_V3M_DBRNK5 0xE6790444U
#define DBSC_V3M_DBPDNCNF 0xE6790450U
#define DBSC_V3M_DBODT0 0xE6790460U
#define DBSC_V3M_DBODT1 0xE6790464U
#define DBSC_V3M_DBODT2 0xE6790468U
#define DBSC_V3M_DBODT3 0xE679046CU
#define DBSC_V3M_DBODT4 0xE6790470U
#define DBSC_V3M_DBODT5 0xE6790474U
#define DBSC_V3M_DBODT6 0xE6790478U
#define DBSC_V3M_DBODT7 0xE679047CU
#define DBSC_V3M_DBADJ0 0xE6790500U
#define DBSC_V3M_DBDBICNT 0xE6790518U
#define DBSC_V3M_DBDFIPMSTRCNF 0xE6790520U
#define DBSC_V3M_DBDFIPMSTRSTAT 0xE6790524U
#define DBSC_V3M_DBDFILPCNF 0xE6790528U
#define DBSC_V3M_DBDFICUPDCNF 0xE679052CU
#define DBSC_V3M_DBDFISTAT0 0xE6790600U
#define DBSC_V3M_DBDFICNT0 0xE6790604U
#define DBSC_V3M_DBPDCNT00 0xE6790610U
#define DBSC_V3M_DBPDCNT01 0xE6790614U
#define DBSC_V3M_DBPDCNT02 0xE6790618U
#define DBSC_V3M_DBPDCNT03 0xE679061CU
#define DBSC_V3M_DBPDLK0 0xE6790620U
#define DBSC_V3M_DBPDRGA0 0xE6790624U
#define DBSC_V3M_DBPDRGD0 0xE6790628U
#define DBSC_V3M_DBPDSTAT00 0xE6790630U
#define DBSC_V3M_DBDFISTAT1 0xE6790640U
#define DBSC_V3M_DBDFICNT1 0xE6790644U
#define DBSC_V3M_DBPDCNT10 0xE6790650U
#define DBSC_V3M_DBPDCNT11 0xE6790654U
#define DBSC_V3M_DBPDCNT12 0xE6790658U
#define DBSC_V3M_DBPDCNT13 0xE679065CU
#define DBSC_V3M_DBPDLK1 0xE6790660U
#define DBSC_V3M_DBPDRGA1 0xE6790664U
#define DBSC_V3M_DBPDRGD1 0xE6790668U
#define DBSC_V3M_DBPDSTAT10 0xE6790670U
#define DBSC_V3M_DBDFISTAT2 0xE6790680U
#define DBSC_V3M_DBDFICNT2 0xE6790684U
#define DBSC_V3M_DBPDCNT20 0xE6790690U
#define DBSC_V3M_DBPDCNT21 0xE6790694U
#define DBSC_V3M_DBPDCNT22 0xE6790698U
#define DBSC_V3M_DBPDCNT23 0xE679069CU
#define DBSC_V3M_DBPDLK2 0xE67906A0U
#define DBSC_V3M_DBPDRGA2 0xE67906A4U
#define DBSC_V3M_DBPDRGD2 0xE67906A8U
#define DBSC_V3M_DBPDSTAT20 0xE67906B0U
#define DBSC_V3M_DBDFISTAT3 0xE67906C0U
#define DBSC_V3M_DBDFICNT3 0xE67906C4U
#define DBSC_V3M_DBPDCNT30 0xE67906D0U
#define DBSC_V3M_DBPDCNT31 0xE67906D4U
#define DBSC_V3M_DBPDCNT32 0xE67906D8U
#define DBSC_V3M_DBPDCNT33 0xE67906DCU
#define DBSC_V3M_DBPDLK3 0xE67906E0U
#define DBSC_V3M_DBPDRGA3 0xE67906E4U
#define DBSC_V3M_DBPDRGD3 0xE67906E8U
#define DBSC_V3M_DBPDSTAT30 0xE67906F0U
#define DBSC_V3M_DBBUS0CNF0 0xE6790800U
#define DBSC_V3M_DBBUS0CNF1 0xE6790804U
#define DBSC_V3M_DBCAM0CNF1 0xE6790904U
#define DBSC_V3M_DBCAM0CNF2 0xE6790908U
#define DBSC_V3M_DBCAM0CNF3 0xE679090CU
#define DBSC_V3M_DBCAM0CTRL0 0xE6790940U
#define DBSC_V3M_DBCAM0STAT0 0xE6790980U
#define DBSC_V3M_DBCAM1STAT0 0xE6790990U
#define DBSC_V3M_DBBCAMSWAP 0xE67909F0U
#define DBSC_V3M_DBBCAMDIS 0xE67909FCU
#define DBSC_V3M_DBSCHCNT0 0xE6791000U
#define DBSC_V3M_DBSCHCNT1 0xE6791004U
#define DBSC_V3M_DBSCHSZ0 0xE6791010U
#define DBSC_V3M_DBSCHRW0 0xE6791020U
#define DBSC_V3M_DBSCHRW1 0xE6791024U
#define DBSC_V3M_DBSCHQOS00 0xE6791030U
#define DBSC_V3M_DBSCHQOS01 0xE6791034U
#define DBSC_V3M_DBSCHQOS02 0xE6791038U
#define DBSC_V3M_DBSCHQOS03 0xE679103CU
#define DBSC_V3M_DBSCHQOS10 0xE6791040U
#define DBSC_V3M_DBSCHQOS11 0xE6791044U
#define DBSC_V3M_DBSCHQOS12 0xE6791048U
#define DBSC_V3M_DBSCHQOS13 0xE679104CU
#define DBSC_V3M_DBSCHQOS20 0xE6791050U
#define DBSC_V3M_DBSCHQOS21 0xE6791054U
#define DBSC_V3M_DBSCHQOS22 0xE6791058U
#define DBSC_V3M_DBSCHQOS23 0xE679105CU
#define DBSC_V3M_DBSCHQOS30 0xE6791060U
#define DBSC_V3M_DBSCHQOS31 0xE6791064U
#define DBSC_V3M_DBSCHQOS32 0xE6791068U
#define DBSC_V3M_DBSCHQOS33 0xE679106CU
#define DBSC_V3M_DBSCHQOS40 0xE6791070U
#define DBSC_V3M_DBSCHQOS41 0xE6791074U
#define DBSC_V3M_DBSCHQOS42 0xE6791078U
#define DBSC_V3M_DBSCHQOS43 0xE679107CU
#define DBSC_V3M_DBSCHQOS50 0xE6791080U
#define DBSC_V3M_DBSCHQOS51 0xE6791084U
#define DBSC_V3M_DBSCHQOS52 0xE6791088U
#define DBSC_V3M_DBSCHQOS53 0xE679108CU
#define DBSC_V3M_DBSCHQOS60 0xE6791090U
#define DBSC_V3M_DBSCHQOS61 0xE6791094U
#define DBSC_V3M_DBSCHQOS62 0xE6791098U
#define DBSC_V3M_DBSCHQOS63 0xE679109CU
#define DBSC_V3M_DBSCHQOS70 0xE67910A0U
#define DBSC_V3M_DBSCHQOS71 0xE67910A4U
#define DBSC_V3M_DBSCHQOS72 0xE67910A8U
#define DBSC_V3M_DBSCHQOS73 0xE67910ACU
#define DBSC_V3M_DBSCHQOS80 0xE67910B0U
#define DBSC_V3M_DBSCHQOS81 0xE67910B4U
#define DBSC_V3M_DBSCHQOS82 0xE67910B8U
#define DBSC_V3M_DBSCHQOS83 0xE67910BCU
#define DBSC_V3M_DBSCHQOS90 0xE67910C0U
#define DBSC_V3M_DBSCHQOS91 0xE67910C4U
#define DBSC_V3M_DBSCHQOS92 0xE67910C8U
#define DBSC_V3M_DBSCHQOS93 0xE67910CCU
#define DBSC_V3M_DBSCHQOS100 0xE67910D0U
#define DBSC_V3M_DBSCHQOS101 0xE67910D4U
#define DBSC_V3M_DBSCHQOS102 0xE67910D8U
#define DBSC_V3M_DBSCHQOS103 0xE67910DCU
#define DBSC_V3M_DBSCHQOS110 0xE67910E0U
#define DBSC_V3M_DBSCHQOS111 0xE67910E4U
#define DBSC_V3M_DBSCHQOS112 0xE67910E8U
#define DBSC_V3M_DBSCHQOS113 0xE67910ECU
#define DBSC_V3M_DBSCHQOS120 0xE67910F0U
#define DBSC_V3M_DBSCHQOS121 0xE67910F4U
#define DBSC_V3M_DBSCHQOS122 0xE67910F8U
#define DBSC_V3M_DBSCHQOS123 0xE67910FCU
#define DBSC_V3M_DBSCHQOS130 0xE6791100U
#define DBSC_V3M_DBSCHQOS131 0xE6791104U
#define DBSC_V3M_DBSCHQOS132 0xE6791108U
#define DBSC_V3M_DBSCHQOS133 0xE679110CU
#define DBSC_V3M_DBSCHQOS140 0xE6791110U
#define DBSC_V3M_DBSCHQOS141 0xE6791114U
#define DBSC_V3M_DBSCHQOS142 0xE6791118U
#define DBSC_V3M_DBSCHQOS143 0xE679111CU
#define DBSC_V3M_DBSCHQOS150 0xE6791120U
#define DBSC_V3M_DBSCHQOS151 0xE6791124U
#define DBSC_V3M_DBSCHQOS152 0xE6791128U
#define DBSC_V3M_DBSCHQOS153 0xE679112CU
#define DBSC_V3M_SCFCTST0 0xE6791700U
#define DBSC_V3M_SCFCTST1 0xE6791708U
#define DBSC_V3M_SCFCTST2 0xE679170CU
#define DBSC_V3M_DBMRRDR0 0xE6791800U
#define DBSC_V3M_DBMRRDR1 0xE6791804U
#define DBSC_V3M_DBMRRDR2 0xE6791808U
#define DBSC_V3M_DBMRRDR3 0xE679180CU
#define DBSC_V3M_DBMRRDR4 0xE6791810U
#define DBSC_V3M_DBMRRDR5 0xE6791814U
#define DBSC_V3M_DBMRRDR6 0xE6791818U
#define DBSC_V3M_DBMRRDR7 0xE679181CU
#define DBSC_V3M_DBDTMP0 0xE6791820U
#define DBSC_V3M_DBDTMP1 0xE6791824U
#define DBSC_V3M_DBDTMP2 0xE6791828U
#define DBSC_V3M_DBDTMP3 0xE679182CU
#define DBSC_V3M_DBDTMP4 0xE6791830U
#define DBSC_V3M_DBDTMP5 0xE6791834U
#define DBSC_V3M_DBDTMP6 0xE6791838U
#define DBSC_V3M_DBDTMP7 0xE679183CU
#define DBSC_V3M_DBDQSOSC00 0xE6791840U
#define DBSC_V3M_DBDQSOSC01 0xE6791844U
#define DBSC_V3M_DBDQSOSC10 0xE6791848U
#define DBSC_V3M_DBDQSOSC11 0xE679184CU
#define DBSC_V3M_DBDQSOSC20 0xE6791850U
#define DBSC_V3M_DBDQSOSC21 0xE6791854U
#define DBSC_V3M_DBDQSOSC30 0xE6791858U
#define DBSC_V3M_DBDQSOSC31 0xE679185CU
#define DBSC_V3M_DBDQSOSC40 0xE6791860U
#define DBSC_V3M_DBDQSOSC41 0xE6791864U
#define DBSC_V3M_DBDQSOSC50 0xE6791868U
#define DBSC_V3M_DBDQSOSC51 0xE679186CU
#define DBSC_V3M_DBDQSOSC60 0xE6791870U
#define DBSC_V3M_DBDQSOSC61 0xE6791874U
#define DBSC_V3M_DBDQSOSC70 0xE6791878U
#define DBSC_V3M_DBDQSOSC71 0xE679187CU
#define DBSC_V3M_DBOSCTHH00 0xE6791880U
#define DBSC_V3M_DBOSCTHH01 0xE6791884U
#define DBSC_V3M_DBOSCTHH10 0xE6791888U
#define DBSC_V3M_DBOSCTHH11 0xE679188CU
#define DBSC_V3M_DBOSCTHH20 0xE6791890U
#define DBSC_V3M_DBOSCTHH21 0xE6791894U
#define DBSC_V3M_DBOSCTHH30 0xE6791898U
#define DBSC_V3M_DBOSCTHH31 0xE679189CU
#define DBSC_V3M_DBOSCTHH40 0xE67918A0U
#define DBSC_V3M_DBOSCTHH41 0xE67918A4U
#define DBSC_V3M_DBOSCTHH50 0xE67918A8U
#define DBSC_V3M_DBOSCTHH51 0xE67918ACU
#define DBSC_V3M_DBOSCTHH60 0xE67918B0U
#define DBSC_V3M_DBOSCTHH61 0xE67918B4U
#define DBSC_V3M_DBOSCTHH70 0xE67918B8U
#define DBSC_V3M_DBOSCTHH71 0xE67918BCU
#define DBSC_V3M_DBOSCTHL00 0xE67918C0U
#define DBSC_V3M_DBOSCTHL01 0xE67918C4U
#define DBSC_V3M_DBOSCTHL10 0xE67918C8U
#define DBSC_V3M_DBOSCTHL11 0xE67918CCU
#define DBSC_V3M_DBOSCTHL20 0xE67918D0U
#define DBSC_V3M_DBOSCTHL21 0xE67918D4U
#define DBSC_V3M_DBOSCTHL30 0xE67918D8U
#define DBSC_V3M_DBOSCTHL31 0xE67918DCU
#define DBSC_V3M_DBOSCTHL40 0xE67918E0U
#define DBSC_V3M_DBOSCTHL41 0xE67918E4U
#define DBSC_V3M_DBOSCTHL50 0xE67918E8U
#define DBSC_V3M_DBOSCTHL51 0xE67918ECU
#define DBSC_V3M_DBOSCTHL60 0xE67918F0U
#define DBSC_V3M_DBOSCTHL61 0xE67918F4U
#define DBSC_V3M_DBOSCTHL70 0xE67918F8U
#define DBSC_V3M_DBOSCTHL71 0xE67918FCU
#define DBSC_V3M_DBMEMSWAPCONF0 0xE6792000U
#ifdef __cplusplus
}
#endif /* __cplusplus */
#endif /* BOOT_INIT_DRAM_REGDEF_V3M_H_*/
......@@ -6,6 +6,8 @@
ifeq (${RCAR_LSI},${RCAR_E3})
BL2_SOURCES += drivers/staging/renesas/rcar/ddr/ddr_a/ddr_init_e3.c
else
else ifeq (${RCAR_LSI},${RCAR_D3})
BL2_SOURCES += drivers/staging/renesas/rcar/ddr/ddr_a/ddr_init_d3.c
else
BL2_SOURCES += drivers/staging/renesas/rcar/ddr/ddr_a/ddr_init_v3m.c
endif
/*
* Copyright (c) 2015-2016, Renesas Electronics Corporation
* All rights reserved.
*
* SPDX-License-Identifier: BSD-3-Clause
*/
#include <stdint.h>
#include "boot_init_dram.h"
#include "boot_init_dram_regdef_v3m.h"
static void WriteReg_32(uintptr_t a, uint32_t v)
{
*(volatile uint32_t*)a = v;
}
static uint32_t ReadReg_32(uintptr_t a)
{
uint32_t w = *(volatile uint32_t*)a;
return w;
}
static uint32_t init_ddr_v3m_1600(void)
{
// last modified 2016.12.16
uint32_t RegVal_R2, RegVal_R5, RegVal_R6, RegVal_R7, RegVal_R12;
WriteReg_32(DBSC_V3M_DBSYSCNT0,0x00001234);
WriteReg_32(DBSC_V3M_DBKIND,0x00000007);
#if RCAR_DRAM_DDR3L_MEMCONF == 0
WriteReg_32(DBSC_V3M_DBMEMCONF00,0x0f030a02); // 1GB: Eagle
#else
WriteReg_32(DBSC_V3M_DBMEMCONF00,0x10030a02); // 2GB: V3MSK
#endif
WriteReg_32(DBSC_V3M_DBPHYCONF0,0x00000001);
WriteReg_32(DBSC_V3M_DBTR0,0x0000000B);
WriteReg_32(DBSC_V3M_DBTR1,0x00000008);
WriteReg_32(DBSC_V3M_DBTR3,0x0000000B);
WriteReg_32(DBSC_V3M_DBTR4,0x000B000B);
WriteReg_32(DBSC_V3M_DBTR5,0x00000027);
WriteReg_32(DBSC_V3M_DBTR6,0x0000001C);
WriteReg_32(DBSC_V3M_DBTR7,0x00060006);
WriteReg_32(DBSC_V3M_DBTR8,0x00000020);
WriteReg_32(DBSC_V3M_DBTR9,0x00000006);
WriteReg_32(DBSC_V3M_DBTR10,0x0000000C);
WriteReg_32(DBSC_V3M_DBTR11,0x0000000B);
WriteReg_32(DBSC_V3M_DBTR12,0x00120012);
WriteReg_32(DBSC_V3M_DBTR13,0x01180118);
WriteReg_32(DBSC_V3M_DBTR14,0x00140005);
WriteReg_32(DBSC_V3M_DBTR15,0x00050004);
WriteReg_32(DBSC_V3M_DBTR16,0x071D0305);
WriteReg_32(DBSC_V3M_DBTR17,0x040C0010);
WriteReg_32(DBSC_V3M_DBTR18,0x00000200);
WriteReg_32(DBSC_V3M_DBTR19,0x01000040);
WriteReg_32(DBSC_V3M_DBTR20,0x02000120);
WriteReg_32(DBSC_V3M_DBTR21,0x00040004);
WriteReg_32(DBSC_V3M_DBBL,0x00000000);
WriteReg_32(DBSC_V3M_DBODT0,0x00000001);
WriteReg_32(DBSC_V3M_DBADJ0,0x00000001);
WriteReg_32(DBSC_V3M_DBCAM0CNF1,0x00082010);
WriteReg_32(DBSC_V3M_DBCAM0CNF2,0x00002000);
WriteReg_32(DBSC_V3M_DBSCHCNT0,0x080f003f);
WriteReg_32(DBSC_V3M_DBSCHCNT1,0x00001010);
WriteReg_32(DBSC_V3M_DBSCHSZ0,0x00000001);
WriteReg_32(DBSC_V3M_DBSCHRW0,0x00000200);
WriteReg_32(DBSC_V3M_DBSCHRW1,0x00000040);
WriteReg_32(DBSC_V3M_DBSCHQOS40,0x00000600);
WriteReg_32(DBSC_V3M_DBSCHQOS41,0x00000480);
WriteReg_32(DBSC_V3M_DBSCHQOS42,0x00000300);
WriteReg_32(DBSC_V3M_DBSCHQOS43,0x00000180);
WriteReg_32(DBSC_V3M_DBSCHQOS90,0x00000400);
WriteReg_32(DBSC_V3M_DBSCHQOS91,0x00000300);
WriteReg_32(DBSC_V3M_DBSCHQOS92,0x00000200);
WriteReg_32(DBSC_V3M_DBSCHQOS93,0x00000100);
WriteReg_32(DBSC_V3M_DBSCHQOS130,0x00000300);
WriteReg_32(DBSC_V3M_DBSCHQOS131,0x00000240);
WriteReg_32(DBSC_V3M_DBSCHQOS132,0x00000180);
WriteReg_32(DBSC_V3M_DBSCHQOS133,0x000000c0);
WriteReg_32(DBSC_V3M_DBSCHQOS140,0x00000200);
WriteReg_32(DBSC_V3M_DBSCHQOS141,0x00000180);
WriteReg_32(DBSC_V3M_DBSCHQOS142,0x00000100);
WriteReg_32(DBSC_V3M_DBSCHQOS143,0x00000080);
WriteReg_32(DBSC_V3M_DBSCHQOS150,0x00000100);
WriteReg_32(DBSC_V3M_DBSCHQOS151,0x000000c0);
WriteReg_32(DBSC_V3M_DBSCHQOS152,0x00000080);
WriteReg_32(DBSC_V3M_DBSCHQOS153,0x00000040);
WriteReg_32(DBSC_V3M_DBSYSCONF1,0x00000002);
WriteReg_32(DBSC_V3M_DBCAM0CNF1,0x00040C04);
WriteReg_32(DBSC_V3M_DBCAM0CNF2,0x000001c4);
WriteReg_32(DBSC_V3M_DBSCHSZ0,0x00000003);
WriteReg_32(DBSC_V3M_DBSCHRW1,0x001a0080);
WriteReg_32(DBSC_V3M_DBDFICNT0,0x00000010);
WriteReg_32(DBSC_V3M_DBPDLK0,0X0000A55A);
WriteReg_32(DBSC_V3M_DBCMD,0x01000001);
WriteReg_32(DBSC_V3M_DBCMD,0x08000000);
WriteReg_32(DBSC_V3M_DBPDRGA0,0X00000001);
WriteReg_32(DBSC_V3M_DBPDRGD0,0X80010000);
WriteReg_32(DBSC_V3M_DBPDRGA0,0X00000006);
while ( (BIT0 & ReadReg_32(DBSC_V3M_DBPDRGD0)) == 0 );
WriteReg_32(DBSC_V3M_DBPDRGA0,0X00000008);
WriteReg_32(DBSC_V3M_DBPDRGD0,0X000B8000);
WriteReg_32(DBSC_V3M_DBPDRGA0,0X00000090);
WriteReg_32(DBSC_V3M_DBPDRGD0,0X04058904);
WriteReg_32(DBSC_V3M_DBPDRGA0,0X00000091);
WriteReg_32(DBSC_V3M_DBPDRGD0,0X0007BB6D);
WriteReg_32(DBSC_V3M_DBPDRGA0,0X00000095);
WriteReg_32(DBSC_V3M_DBPDRGD0,0X0007BB6B);
WriteReg_32(DBSC_V3M_DBPDRGA0,0X00000099);
WriteReg_32(DBSC_V3M_DBPDRGD0,0X0007BB6D);
WriteReg_32(DBSC_V3M_DBPDRGA0,0X00000090);
WriteReg_32(DBSC_V3M_DBPDRGD0,0X04058900);
WriteReg_32(DBSC_V3M_DBPDRGA0,0X00000021);
WriteReg_32(DBSC_V3M_DBPDRGD0,0X0024641E);
WriteReg_32(DBSC_V3M_DBPDRGA0,0X00000001);
WriteReg_32(DBSC_V3M_DBPDRGD0,0X00010073);
WriteReg_32(DBSC_V3M_DBPDRGA0,0X00000006);
while ( (BIT0 & ReadReg_32(DBSC_V3M_DBPDRGD0)) == 0 );
WriteReg_32(DBSC_V3M_DBPDRGA0,0X00000090);
WriteReg_32(DBSC_V3M_DBPDRGD0,0X0C058900);
WriteReg_32(DBSC_V3M_DBPDRGA0,0X00000090);
WriteReg_32(DBSC_V3M_DBPDRGD0,0X04058900);
WriteReg_32(DBSC_V3M_DBPDRGA0,0X00000006);
while ( (BIT0 & ReadReg_32(DBSC_V3M_DBPDRGD0)) == 0 );
WriteReg_32(DBSC_V3M_DBPDRGA0,0X00000003);
WriteReg_32(DBSC_V3M_DBPDRGD0,0X0780C700);
WriteReg_32(DBSC_V3M_DBPDRGA0,0X00000007);
while ( (BIT30& ReadReg_32(DBSC_V3M_DBPDRGD0)) == 0 );
WriteReg_32(DBSC_V3M_DBPDRGA0,0X00000004);
WriteReg_32(DBSC_V3M_DBPDRGD0,0X08C0C170);
WriteReg_32(DBSC_V3M_DBPDRGA0,0X00000022);
WriteReg_32(DBSC_V3M_DBPDRGD0,0X1000040B);
WriteReg_32(DBSC_V3M_DBPDRGA0,0X00000023);
WriteReg_32(DBSC_V3M_DBPDRGD0,0X2D9C0B66);
WriteReg_32(DBSC_V3M_DBPDRGA0,0X00000024);
WriteReg_32(DBSC_V3M_DBPDRGD0,0X2A88C400);
WriteReg_32(DBSC_V3M_DBPDRGA0,0X00000025);
WriteReg_32(DBSC_V3M_DBPDRGD0,0X30005200);
WriteReg_32(DBSC_V3M_DBPDRGA0,0X00000026);
WriteReg_32(DBSC_V3M_DBPDRGD0,0X0014A9C9);
WriteReg_32(DBSC_V3M_DBPDRGA0,0X00000027);
WriteReg_32(DBSC_V3M_DBPDRGD0,0X00000D70);
WriteReg_32(DBSC_V3M_DBPDRGA0,0X00000028);
WriteReg_32(DBSC_V3M_DBPDRGD0,0X00000004);
WriteReg_32(DBSC_V3M_DBPDRGA0,0X00000029);
WriteReg_32(DBSC_V3M_DBPDRGD0,0X00000018);
WriteReg_32(DBSC_V3M_DBPDRGA0,0X0000002C);
WriteReg_32(DBSC_V3M_DBPDRGD0,0X81003047);
WriteReg_32(DBSC_V3M_DBPDRGA0,0X00000020);
WriteReg_32(DBSC_V3M_DBPDRGD0,0X00181884);
WriteReg_32(DBSC_V3M_DBPDRGA0,0X0000001A);
WriteReg_32(DBSC_V3M_DBPDRGD0,0X13C03C10);
WriteReg_32(DBSC_V3M_DBPDRGA0,0X00000006);
while ( (BIT0 & ReadReg_32(DBSC_V3M_DBPDRGD0)) == 0 );
WriteReg_32(DBSC_V3M_DBPDRGA0,0X000000A7);
WriteReg_32(DBSC_V3M_DBPDRGD0,0X0D0D0D0D);
WriteReg_32(DBSC_V3M_DBPDRGA0,0X000000A8);
WriteReg_32(DBSC_V3M_DBPDRGD0,0X0D0D0D0D);
WriteReg_32(DBSC_V3M_DBPDRGA0,0X000000A9);
WriteReg_32(DBSC_V3M_DBPDRGD0,0X000D0D0D);
WriteReg_32(DBSC_V3M_DBPDRGA0,0X000000C7);
WriteReg_32(DBSC_V3M_DBPDRGD0,0X0D0D0D0D);
WriteReg_32(DBSC_V3M_DBPDRGA0,0X000000C8);
WriteReg_32(DBSC_V3M_DBPDRGD0,0X0D0D0D0D);
WriteReg_32(DBSC_V3M_DBPDRGA0,0X000000C9);
WriteReg_32(DBSC_V3M_DBPDRGD0,0X000D0D0D);
WriteReg_32(DBSC_V3M_DBPDRGA0,0X000000E7);
WriteReg_32(DBSC_V3M_DBPDRGD0,0X0D0D0D0D);
WriteReg_32(DBSC_V3M_DBPDRGA0,0X000000E8);
WriteReg_32(DBSC_V3M_DBPDRGD0,0X0D0D0D0D);
WriteReg_32(DBSC_V3M_DBPDRGA0,0X000000E9);
WriteReg_32(DBSC_V3M_DBPDRGD0,0X000D0D0D);
WriteReg_32(DBSC_V3M_DBPDRGA0,0X00000107);
WriteReg_32(DBSC_V3M_DBPDRGD0,0X0D0D0D0D);
WriteReg_32(DBSC_V3M_DBPDRGA0,0X00000108);
WriteReg_32(DBSC_V3M_DBPDRGD0,0X0D0D0D0D);
WriteReg_32(DBSC_V3M_DBPDRGA0,0X00000109);
WriteReg_32(DBSC_V3M_DBPDRGD0,0X000D0D0D);
WriteReg_32(DBSC_V3M_DBPDRGA0,0X00000001);
WriteReg_32(DBSC_V3M_DBPDRGD0,0X00010181);
WriteReg_32(DBSC_V3M_DBCMD,0x08000001);
WriteReg_32(DBSC_V3M_DBPDRGA0,0X00000006);
while ( (BIT0 & ReadReg_32(DBSC_V3M_DBPDRGD0)) == 0 );
WriteReg_32(DBSC_V3M_DBPDRGA0,0X00000001);
WriteReg_32(DBSC_V3M_DBPDRGD0,0X00010601);
WriteReg_32(DBSC_V3M_DBPDRGA0,0X00000006);
while ( (BIT0 & ReadReg_32(DBSC_V3M_DBPDRGD0)) == 0 );
for (uint32_t i = 0; i<4; i++)
{
WriteReg_32(DBSC_V3M_DBPDRGA0,0X000000B1 + i*0x20);
RegVal_R5 = (ReadReg_32(DBSC_V3M_DBPDRGD0) & 0x0000FF00 ) >> 8;
WriteReg_32(DBSC_V3M_DBPDRGA0,0X000000B4 + i*0x20);
RegVal_R6 = (ReadReg_32(DBSC_V3M_DBPDRGD0) & 0x000000FF ) ;
WriteReg_32(DBSC_V3M_DBPDRGA0,0X000000B3 + i*0x20);
RegVal_R7 = (ReadReg_32(DBSC_V3M_DBPDRGD0) & 0x00000007 ) ;
if ( RegVal_R6 > 0 )
{
WriteReg_32(DBSC_V3M_DBPDRGA0,0X000000B2 + i*0x20);
RegVal_R2 = (ReadReg_32(DBSC_V3M_DBPDRGD0) & 0XFFFFFFF8 ) ;
WriteReg_32(DBSC_V3M_DBPDRGA0,0X000000B2 + i*0x20);
WriteReg_32(DBSC_V3M_DBPDRGD0,((RegVal_R7+1)&0X00000007) | RegVal_R2);
WriteReg_32(DBSC_V3M_DBPDRGA0,0X000000B0 + i*0x20);
RegVal_R2 = (ReadReg_32(DBSC_V3M_DBPDRGD0) & 0XFFFFFF00 ) ;
WriteReg_32(DBSC_V3M_DBPDRGA0,0X000000B0 + i*0x20);
WriteReg_32(DBSC_V3M_DBPDRGD0,RegVal_R2 | RegVal_R6);
} else {
WriteReg_32(DBSC_V3M_DBPDRGA0,0X000000B2 + i*0x20);
RegVal_R2 = (ReadReg_32(DBSC_V3M_DBPDRGD0) & 0XFFFFFFF8 ) ;
WriteReg_32(DBSC_V3M_DBPDRGA0,0X000000B2 + i*0x20);
WriteReg_32(DBSC_V3M_DBPDRGD0,RegVal_R2 | RegVal_R7);
WriteReg_32(DBSC_V3M_DBPDRGA0,0X000000B0 + i*0x20);
RegVal_R2 = (ReadReg_32(DBSC_V3M_DBPDRGD0) & 0XFFFFFF00 ) ;
WriteReg_32(DBSC_V3M_DBPDRGA0,0X000000B0 + i*0x20);
WriteReg_32(DBSC_V3M_DBPDRGD0,(((RegVal_R5<<1) + RegVal_R6 ) & 0X000000FF )| RegVal_R2);
}
}
WriteReg_32(DBSC_V3M_DBPDRGA0,0X00000005);
WriteReg_32(DBSC_V3M_DBPDRGD0,0XC1AA00A0);
WriteReg_32(DBSC_V3M_DBPDRGA0,0X000000A0);
WriteReg_32(DBSC_V3M_DBPDRGD0,0X7C0002C5);
WriteReg_32(DBSC_V3M_DBPDRGA0,0X000000C0);
WriteReg_32(DBSC_V3M_DBPDRGD0,0X7C0002C5);
WriteReg_32(DBSC_V3M_DBPDRGA0,0X000000E0);
WriteReg_32(DBSC_V3M_DBPDRGD0,0X7C0002C5);
WriteReg_32(DBSC_V3M_DBPDRGA0,0X00000100);
WriteReg_32(DBSC_V3M_DBPDRGD0,0X7C0002C5);
WriteReg_32(DBSC_V3M_DBPDRGA0,0X00000001);
WriteReg_32(DBSC_V3M_DBPDRGD0,0X00010801);
WriteReg_32(DBSC_V3M_DBPDRGA0,0X00000006);
while ( (BIT0 & ReadReg_32(DBSC_V3M_DBPDRGD0)) == 0 );
WriteReg_32(DBSC_V3M_DBPDRGA0,0X00000005);
WriteReg_32(DBSC_V3M_DBPDRGD0,0XC1AA00B8);
WriteReg_32(DBSC_V3M_DBPDRGA0,0X00000001);
WriteReg_32(DBSC_V3M_DBPDRGD0,0X0001F001);
WriteReg_32(DBSC_V3M_DBPDRGA0,0X00000006);
while ( (BIT0 & ReadReg_32(DBSC_V3M_DBPDRGD0)) == 0 );
WriteReg_32(DBSC_V3M_DBPDRGA0,0X000000A0);
WriteReg_32(DBSC_V3M_DBPDRGD0,0X7C000285);
WriteReg_32(DBSC_V3M_DBPDRGA0,0X000000C0);
WriteReg_32(DBSC_V3M_DBPDRGD0,0X7C000285);
WriteReg_32(DBSC_V3M_DBPDRGA0,0X000000E0);
WriteReg_32(DBSC_V3M_DBPDRGD0,0X7C000285);
WriteReg_32(DBSC_V3M_DBPDRGA0,0X00000100);
WriteReg_32(DBSC_V3M_DBPDRGD0,0X7C000285);
WriteReg_32(DBSC_V3M_DBPDRGA0,0X0000002C);
WriteReg_32(DBSC_V3M_DBPDRGD0,0X81003087);
WriteReg_32(DBSC_V3M_DBPDRGA0,0X00000001);
WriteReg_32(DBSC_V3M_DBPDRGD0,0X00010401);
WriteReg_32(DBSC_V3M_DBPDRGA0,0X00000006);
while ( (BIT0 & ReadReg_32(DBSC_V3M_DBPDRGD0)) == 0 );
for (uint32_t i = 0; i < 4; i++)
{
WriteReg_32(DBSC_V3M_DBPDRGA0, 0X000000B1 + i * 0x20);
RegVal_R5 = (ReadReg_32(DBSC_V3M_DBPDRGD0) & 0x0000FF00) >> 8;
WriteReg_32(DBSC_V3M_DBPDRGA0, 0X000000B4 + i * 0x20);
RegVal_R6 = (ReadReg_32(DBSC_V3M_DBPDRGD0) & 0x000000FF);
WriteReg_32(DBSC_V3M_DBPDRGA0, 0X000000B3 + i * 0x20);
RegVal_R7 = (ReadReg_32(DBSC_V3M_DBPDRGD0) & 0x00000007);
RegVal_R12 = (RegVal_R5 >> 2);
if (RegVal_R6 - RegVal_R12 > 0)
{
WriteReg_32(DBSC_V3M_DBPDRGA0, 0X000000B2 + i * 0x20);
RegVal_R2 = (ReadReg_32(DBSC_V3M_DBPDRGD0) & 0XFFFFFFF8);
WriteReg_32(DBSC_V3M_DBPDRGA0, 0X000000B2 + i * 0x20);
WriteReg_32(DBSC_V3M_DBPDRGD0, ((RegVal_R7 + 1) & 0X00000007) | RegVal_R2);
WriteReg_32(DBSC_V3M_DBPDRGA0, 0X000000B0 + i * 0x20);
RegVal_R2 = (ReadReg_32(DBSC_V3M_DBPDRGD0) & 0XFFFFFF00);
WriteReg_32(DBSC_V3M_DBPDRGA0, 0X000000B0 + i * 0x20);
WriteReg_32(DBSC_V3M_DBPDRGD0, ((RegVal_R6 - RegVal_R12) & 0X000000FF) | RegVal_R2);
}
else
{
WriteReg_32(DBSC_V3M_DBPDRGA0, 0X000000B2 + i * 0x20);
RegVal_R2 = (ReadReg_32(DBSC_V3M_DBPDRGD0) & 0XFFFFFFF8);
WriteReg_32(DBSC_V3M_DBPDRGA0, 0X000000B2 + i * 0x20);
WriteReg_32(DBSC_V3M_DBPDRGD0, (RegVal_R7 & 0X00000007) | RegVal_R2);
WriteReg_32(DBSC_V3M_DBPDRGA0, 0X000000B0 + i * 0x20);
RegVal_R2 = (ReadReg_32(DBSC_V3M_DBPDRGD0) & 0XFFFFFF00);
WriteReg_32(DBSC_V3M_DBPDRGA0, 0X000000B0 + i * 0x20);
WriteReg_32(DBSC_V3M_DBPDRGD0, ((RegVal_R6 + RegVal_R5 + (RegVal_R5 >> 1) + RegVal_R12) & 0X000000FF) | RegVal_R2);
}
}
WriteReg_32(DBSC_V3M_DBPDRGA0,0X000000A0);
WriteReg_32(DBSC_V3M_DBPDRGD0,0X7C0002C5);
WriteReg_32(DBSC_V3M_DBPDRGA0,0X000000C0);
WriteReg_32(DBSC_V3M_DBPDRGD0,0X7C0002C5);
WriteReg_32(DBSC_V3M_DBPDRGA0,0X000000E0);
WriteReg_32(DBSC_V3M_DBPDRGD0,0X7C0002C5);
WriteReg_32(DBSC_V3M_DBPDRGA0,0X00000100);
WriteReg_32(DBSC_V3M_DBPDRGD0,0X7C0002C5);
WriteReg_32(DBSC_V3M_DBPDRGA0,0X00000001);
WriteReg_32(DBSC_V3M_DBPDRGD0,0X00015001);
WriteReg_32(DBSC_V3M_DBPDRGA0,0X00000006);
while ( (BIT0 & ReadReg_32(DBSC_V3M_DBPDRGD0)) == 0 );
WriteReg_32(DBSC_V3M_DBPDRGA0,0X00000003);
WriteReg_32(DBSC_V3M_DBPDRGD0,0X0380C700);
WriteReg_32(DBSC_V3M_DBPDRGA0,0X00000007);
while ( (BIT30& ReadReg_32(DBSC_V3M_DBPDRGD0)) != 0 );
WriteReg_32(DBSC_V3M_DBPDRGA0,0X00000021);
WriteReg_32(DBSC_V3M_DBPDRGD0,0X0024643E);
WriteReg_32(DBSC_V3M_DBBUS0CNF1,0x00000000);
WriteReg_32(DBSC_V3M_DBBUS0CNF0,0x00010001);
WriteReg_32(DBSC_V3M_DBCALCNF,0x0100200E);
WriteReg_32(DBSC_V3M_DBRFCNF1,0x00081860);
WriteReg_32(DBSC_V3M_DBRFCNF2,0x00010000);
WriteReg_32(DBSC_V3M_DBDFICUPDCNF,0x40100001);
WriteReg_32(DBSC_V3M_DBRFEN,0x00000001);
WriteReg_32(DBSC_V3M_DBACEN,0x00000001);
WriteReg_32(DBSC_V3M_DBPDLK0,0X00000000);
WriteReg_32(0xE67F0024, 0x00000001);
WriteReg_32(DBSC_V3M_DBSYSCNT0,0x00000000);
return 1;
}
int32_t rcar_dram_init(void)
{
return init_ddr_v3m_1600() ? INITDRAM_OK : INITDRAM_NG;
}
/*
* Copyright (c) 2015-2017, Renesas Electronics Corporation
* All rights reserved.
*
* SPDX-License-Identifier: BSD-3-Clause
*/
#include <stdint.h> /* for uint32_t */
#include <mmio.h>
#include "pfc_init_v3m.h"
#include "include/rcar_def.h"
#include "rcar_private.h"
#define RST_MODEMR 0xE6160060 // Mode Monitor Register
/* GPIO base address */
#define GPIO_BASE (0xE6050000U)
/* GPIO registers */
#define GPIO_IOINTSEL0 (GPIO_BASE + 0x0000U)
#define GPIO_INOUTSEL0 (GPIO_BASE + 0x0004U)
#define GPIO_OUTDT0 (GPIO_BASE + 0x0008U)
#define GPIO_INDT0 (GPIO_BASE + 0x000CU)
#define GPIO_INTDT0 (GPIO_BASE + 0x0010U)
#define GPIO_INTCLR0 (GPIO_BASE + 0x0014U)
#define GPIO_INTMSK0 (GPIO_BASE + 0x0018U)
#define GPIO_MSKCLR0 (GPIO_BASE + 0x001CU)
#define GPIO_POSNEG0 (GPIO_BASE + 0x0020U)
#define GPIO_EDGLEVEL0 (GPIO_BASE + 0x0024U)
#define GPIO_FILONOFF0 (GPIO_BASE + 0x0028U)
#define GPIO_INTMSKS0 (GPIO_BASE + 0x0038U)
#define GPIO_MSKCLRS0 (GPIO_BASE + 0x003CU)
#define GPIO_OUTDTSEL0 (GPIO_BASE + 0x0040U)
#define GPIO_OUTDTH0 (GPIO_BASE + 0x0044U)
#define GPIO_OUTDTL0 (GPIO_BASE + 0x0048U)
#define GPIO_BOTHEDGE0 (GPIO_BASE + 0x004CU)
#define GPIO_IOINTSEL1 (GPIO_BASE + 0x1000U)
#define GPIO_INOUTSEL1 (GPIO_BASE + 0x1004U)
#define GPIO_OUTDT1 (GPIO_BASE + 0x1008U)
#define GPIO_INDT1 (GPIO_BASE + 0x100CU)
#define GPIO_INTDT1 (GPIO_BASE + 0x1010U)
#define GPIO_INTCLR1 (GPIO_BASE + 0x1014U)
#define GPIO_INTMSK1 (GPIO_BASE + 0x1018U)
#define GPIO_MSKCLR1 (GPIO_BASE + 0x101CU)
#define GPIO_POSNEG1 (GPIO_BASE + 0x1020U)
#define GPIO_EDGLEVEL1 (GPIO_BASE + 0x1024U)
#define GPIO_FILONOFF1 (GPIO_BASE + 0x1028U)
#define GPIO_INTMSKS1 (GPIO_BASE + 0x1038U)
#define GPIO_MSKCLRS1 (GPIO_BASE + 0x103CU)
#define GPIO_OUTDTSEL1 (GPIO_BASE + 0x1040U)
#define GPIO_OUTDTH1 (GPIO_BASE + 0x1044U)
#define GPIO_OUTDTL1 (GPIO_BASE + 0x1048U)
#define GPIO_BOTHEDGE1 (GPIO_BASE + 0x104CU)
#define GPIO_IOINTSEL2 (GPIO_BASE + 0x2000U)
#define GPIO_INOUTSEL2 (GPIO_BASE + 0x2004U)
#define GPIO_OUTDT2 (GPIO_BASE + 0x2008U)
#define GPIO_INDT2 (GPIO_BASE + 0x200CU)
#define GPIO_INTDT2 (GPIO_BASE + 0x2010U)
#define GPIO_INTCLR2 (GPIO_BASE + 0x2014U)
#define GPIO_INTMSK2 (GPIO_BASE + 0x2018U)
#define GPIO_MSKCLR2 (GPIO_BASE + 0x201CU)
#define GPIO_POSNEG2 (GPIO_BASE + 0x2020U)
#define GPIO_EDGLEVEL2 (GPIO_BASE + 0x2024U)
#define GPIO_FILONOFF2 (GPIO_BASE + 0x2028U)
#define GPIO_INTMSKS2 (GPIO_BASE + 0x2038U)
#define GPIO_MSKCLRS2 (GPIO_BASE + 0x203CU)
#define GPIO_OUTDTSEL2 (GPIO_BASE + 0x2040U)
#define GPIO_OUTDTH2 (GPIO_BASE + 0x2044U)
#define GPIO_OUTDTL2 (GPIO_BASE + 0x2048U)
#define GPIO_BOTHEDGE2 (GPIO_BASE + 0x204CU)
#define GPIO_IOINTSEL3 (GPIO_BASE + 0x3000U)
#define GPIO_INOUTSEL3 (GPIO_BASE + 0x3004U)
#define GPIO_OUTDT3 (GPIO_BASE + 0x3008U)
#define GPIO_INDT3 (GPIO_BASE + 0x300CU)
#define GPIO_INTDT3 (GPIO_BASE + 0x3010U)
#define GPIO_INTCLR3 (GPIO_BASE + 0x3014U)
#define GPIO_INTMSK3 (GPIO_BASE + 0x3018U)
#define GPIO_MSKCLR3 (GPIO_BASE + 0x301CU)
#define GPIO_POSNEG3 (GPIO_BASE + 0x3020U)
#define GPIO_EDGLEVEL3 (GPIO_BASE + 0x3024U)
#define GPIO_FILONOFF3 (GPIO_BASE + 0x3028U)
#define GPIO_INTMSKS3 (GPIO_BASE + 0x3038U)
#define GPIO_MSKCLRS3 (GPIO_BASE + 0x303CU)
#define GPIO_OUTDTSEL3 (GPIO_BASE + 0x3040U)
#define GPIO_OUTDTH3 (GPIO_BASE + 0x3044U)
#define GPIO_OUTDTL3 (GPIO_BASE + 0x3048U)
#define GPIO_BOTHEDGE3 (GPIO_BASE + 0x304CU)
#define GPIO_IOINTSEL4 (GPIO_BASE + 0x4000U)
#define GPIO_INOUTSEL4 (GPIO_BASE + 0x4004U)
#define GPIO_OUTDT4 (GPIO_BASE + 0x4008U)
#define GPIO_INDT4 (GPIO_BASE + 0x400CU)
#define GPIO_INTDT4 (GPIO_BASE + 0x4010U)
#define GPIO_INTCLR4 (GPIO_BASE + 0x4014U)
#define GPIO_INTMSK4 (GPIO_BASE + 0x4018U)
#define GPIO_MSKCLR4 (GPIO_BASE + 0x401CU)
#define GPIO_POSNEG4 (GPIO_BASE + 0x4020U)
#define GPIO_EDGLEVEL4 (GPIO_BASE + 0x4024U)
#define GPIO_FILONOFF4 (GPIO_BASE + 0x4028U)
#define GPIO_INTMSKS4 (GPIO_BASE + 0x4038U)
#define GPIO_MSKCLRS4 (GPIO_BASE + 0x403CU)
#define GPIO_OUTDTSEL4 (GPIO_BASE + 0x4040U)
#define GPIO_OUTDTH4 (GPIO_BASE + 0x4044U)
#define GPIO_OUTDTL4 (GPIO_BASE + 0x4048U)
#define GPIO_BOTHEDGE4 (GPIO_BASE + 0x404CU)
#define GPIO_IOINTSEL5 (GPIO_BASE + 0x5000U)
#define GPIO_INOUTSEL5 (GPIO_BASE + 0x5004U)
#define GPIO_OUTDT5 (GPIO_BASE + 0x5008U)
#define GPIO_INDT5 (GPIO_BASE + 0x500CU)
#define GPIO_INTDT5 (GPIO_BASE + 0x5010U)
#define GPIO_INTCLR5 (GPIO_BASE + 0x5014U)
#define GPIO_INTMSK5 (GPIO_BASE + 0x5018U)
#define GPIO_MSKCLR5 (GPIO_BASE + 0x501CU)
#define GPIO_POSNEG5 (GPIO_BASE + 0x5020U)
#define GPIO_EDGLEVEL5 (GPIO_BASE + 0x5024U)
#define GPIO_FILONOFF5 (GPIO_BASE + 0x5028U)
#define GPIO_INTMSKS5 (GPIO_BASE + 0x5038U)
#define GPIO_MSKCLRS5 (GPIO_BASE + 0x503CU)
#define GPIO_OUTDTSEL5 (GPIO_BASE + 0x5040U)
#define GPIO_OUTDTH5 (GPIO_BASE + 0x5044U)
#define GPIO_OUTDTL5 (GPIO_BASE + 0x5048U)
#define GPIO_BOTHEDGE5 (GPIO_BASE + 0x504CU)
/* Pin functon base address */
#define PFC_BASE (0xE6060000U)
/* Pin functon registers */
#define PFC_PMMR (PFC_BASE + 0x0000U)
#define PFC_GPSR0 (PFC_BASE + 0x0100U)
#define PFC_GPSR1 (PFC_BASE + 0x0104U)
#define PFC_GPSR2 (PFC_BASE + 0x0108U)
#define PFC_GPSR3 (PFC_BASE + 0x010CU)
#define PFC_GPSR4 (PFC_BASE + 0x0110U)
#define PFC_GPSR5 (PFC_BASE + 0x0114U)
#define PFC_IPSR0 (PFC_BASE + 0x0200U)
#define PFC_IPSR1 (PFC_BASE + 0x0204U)
#define PFC_IPSR2 (PFC_BASE + 0x0208U)
#define PFC_IPSR3 (PFC_BASE + 0x020CU)
#define PFC_IPSR4 (PFC_BASE + 0x0210U)
#define PFC_IPSR5 (PFC_BASE + 0x0214U)
#define PFC_IPSR6 (PFC_BASE + 0x0218U)
#define PFC_IPSR7 (PFC_BASE + 0x021CU)
#define PFC_IPSR8 (PFC_BASE + 0x0220U)
#define PFC_IOCTRL30 (PFC_BASE + 0x0380U)
#define PFC_IOCTRL31 (PFC_BASE + 0x0384U)
#define PFC_IOCTRL32 (PFC_BASE + 0x0388U)
#define PFC_IOCTRL40 (PFC_BASE + 0x03C0U)
#define PFC_PUEN0 (PFC_BASE + 0x0400U)
#define PFC_PUEN1 (PFC_BASE + 0x0404U)
#define PFC_PUEN2 (PFC_BASE + 0x0408U)
#define PFC_PUEN3 (PFC_BASE + 0x040CU)
#define PFC_PUD0 (PFC_BASE + 0x0440U)
#define PFC_PUD1 (PFC_BASE + 0x0444U)
#define PFC_PUD2 (PFC_BASE + 0x0448U)
#define PFC_PUD3 (PFC_BASE + 0x044CU)
#define PFC_MOD_SEL0 (PFC_BASE + 0x0500U)
/* Pin functon bit */
#define GPSR0_DU_EXODDF_DU_ODDF_DISP_CDE ((uint32_t)1U << 21U)
#define GPSR0_DU_EXVSYNC_DU_VSYNC ((uint32_t)1U << 20U)
#define GPSR0_DU_EXHSYNC_DU_HSYNC ((uint32_t)1U << 19U)
#define GPSR0_DU_DOTCLKOUT ((uint32_t)1U << 18U)
#define GPSR0_DU_DB7 ((uint32_t)1U << 17U)
#define GPSR0_DU_DB6 ((uint32_t)1U << 16U)
#define GPSR0_DU_DB5 ((uint32_t)1U << 15U)
#define GPSR0_DU_DB4 ((uint32_t)1U << 14U)
#define GPSR0_DU_DB3 ((uint32_t)1U << 13U)
#define GPSR0_DU_DB2 ((uint32_t)1U << 12U)
#define GPSR0_DU_DG7 ((uint32_t)1U << 11U)
#define GPSR0_DU_DG6 ((uint32_t)1U << 10U)
#define GPSR0_DU_DG5 ((uint32_t)1U << 9U)
#define GPSR0_DU_DG4 ((uint32_t)1U << 8U)
#define GPSR0_DU_DG3 ((uint32_t)1U << 7U)
#define GPSR0_DU_DG2 ((uint32_t)1U << 6U)
#define GPSR0_DU_DR7 ((uint32_t)1U << 5U)
#define GPSR0_DU_DR6 ((uint32_t)1U << 4U)
#define GPSR0_DU_DR5 ((uint32_t)1U << 3U)
#define GPSR0_DU_DR4 ((uint32_t)1U << 2U)
#define GPSR0_DU_DR3 ((uint32_t)1U << 1U)
#define GPSR0_DU_DR2 ((uint32_t)1U << 0U)
#define GPSR1_DIGRF_CLKOUT ((uint32_t)1U << 27U)
#define GPSR1_DIGRF_CLKIN ((uint32_t)1U << 26U)
#define GPSR1_CANFD_CLK ((uint32_t)1U << 25U)
#define GPSR1_CANFD1_RX ((uint32_t)1U << 24U)
#define GPSR1_CANFD1_TX ((uint32_t)1U << 23U)
#define GPSR1_CANFD0_RX ((uint32_t)1U << 22U)
#define GPSR1_CANFD0_TX ((uint32_t)1U << 21U)
#define GPSR1_AVB0_AVTP_CAPTURE ((uint32_t)1U << 20U)
#define GPSR1_AVB0_AVTP_MATCH ((uint32_t)1U << 19U)
#define GPSR1_AVB0_LINK ((uint32_t)1U << 18U)
#define GPSR1_AVB0_PHY_INT ((uint32_t)1U << 17U)
#define GPSR1_AVB0_MAGIC ((uint32_t)1U << 16U)
#define GPSR1_AVB0_MDC ((uint32_t)1U << 15U)
#define GPSR1_AVB0_MDIO ((uint32_t)1U << 14U)
#define GPSR1_AVB0_TXCREFCLK ((uint32_t)1U << 13U)
#define GPSR1_AVB0_TD3 ((uint32_t)1U << 12U)
#define GPSR1_AVB0_TD2 ((uint32_t)1U << 11U)
#define GPSR1_AVB0_TD1 ((uint32_t)1U << 10U)
#define GPSR1_AVB0_TD0 ((uint32_t)1U << 9U)
#define GPSR1_AVB0_TXC ((uint32_t)1U << 8U)
#define GPSR1_AVB0_TX_CTL ((uint32_t)1U << 7U)
#define GPSR1_AVB0_RD3 ((uint32_t)1U << 6U)
#define GPSR1_AVB0_RD2 ((uint32_t)1U << 5U)
#define GPSR1_AVB0_RD1 ((uint32_t)1U << 4U)
#define GPSR1_AVB0_RD0 ((uint32_t)1U << 3U)
#define GPSR1_AVB0_RXC ((uint32_t)1U << 2U)
#define GPSR1_AVB0_RX_CTL ((uint32_t)1U << 1U)
#define GPSR1_IRQ0 ((uint32_t)1U << 0U)
#define GPSR2_VI0_FIELD ((uint32_t)1U << 16U)
#define GPSR2_VI0_DATA11 ((uint32_t)1U << 15U)
#define GPSR2_VI0_DATA10 ((uint32_t)1U << 14U)
#define GPSR2_VI0_DATA9 ((uint32_t)1U << 13U)
#define GPSR2_VI0_DATA8 ((uint32_t)1U << 12U)
#define GPSR2_VI0_DATA7 ((uint32_t)1U << 11U)
#define GPSR2_VI0_DATA6 ((uint32_t)1U << 10U)
#define GPSR2_VI0_DATA5 ((uint32_t)1U << 9U)
#define GPSR2_VI0_DATA4 ((uint32_t)1U << 8U)
#define GPSR2_VI0_DATA3 ((uint32_t)1U << 7U)
#define GPSR2_VI0_DATA2 ((uint32_t)1U << 6U)
#define GPSR2_VI0_DATA1 ((uint32_t)1U << 5U)
#define GPSR2_VI0_DATA0 ((uint32_t)1U << 4U)
#define GPSR2_VI0_VSYNC_N ((uint32_t)1U << 3U)
#define GPSR2_VI0_HSYNC_N ((uint32_t)1U << 2U)
#define GPSR2_VI0_CLKENB ((uint32_t)1U << 1U)
#define GPSR2_VI0_CLK ((uint32_t)1U << 0U)
#define GPSR3_VI1_FIELD ((uint32_t)1U << 16U)
#define GPSR3_VI1_DATA11 ((uint32_t)1U << 15U)
#define GPSR3_VI1_DATA10 ((uint32_t)1U << 14U)
#define GPSR3_VI1_DATA9 ((uint32_t)1U << 13U)
#define GPSR3_VI1_DATA8 ((uint32_t)1U << 12U)
#define GPSR3_VI1_DATA7 ((uint32_t)1U << 11U)
#define GPSR3_VI1_DATA6 ((uint32_t)1U << 10U)
#define GPSR3_VI1_DATA5 ((uint32_t)1U << 9U)
#define GPSR3_VI1_DATA4 ((uint32_t)1U << 8U)
#define GPSR3_VI1_DATA3 ((uint32_t)1U << 7U)
#define GPSR3_VI1_DATA2 ((uint32_t)1U << 6U)
#define GPSR3_VI1_DATA1 ((uint32_t)1U << 5U)
#define GPSR3_VI1_DATA0 ((uint32_t)1U << 4U)
#define GPSR3_VI1_VSYNC_N ((uint32_t)1U << 3U)
#define GPSR3_VI1_HSYNC_N ((uint32_t)1U << 2U)
#define GPSR3_VI1_CLKENB ((uint32_t)1U << 1U)
#define GPSR3_VI1_CLK ((uint32_t)1U << 0U)
#define GPSR4_SDA2 ((uint32_t)1U << 5U)
#define GPSR4_SCL2 ((uint32_t)1U << 4U)
#define GPSR4_SDA1 ((uint32_t)1U << 3U)
#define GPSR4_SCL1 ((uint32_t)1U << 2U)
#define GPSR4_SDA0 ((uint32_t)1U << 1U)
#define GPSR4_SCL0 ((uint32_t)1U << 0U)
#define GPSR5_RPC_INT_N ((uint32_t)1U << 14U)
#define GPSR5_RPC_WP_N ((uint32_t)1U << 13U)
#define GPSR5_RPC_RESET_N ((uint32_t)1U << 12U)
#define GPSR5_QSPI1_SSL ((uint32_t)1U << 11U)
#define GPSR5_QSPI1_IO3 ((uint32_t)1U << 10U)
#define GPSR5_QSPI1_IO2 ((uint32_t)1U << 9U)
#define GPSR5_QSPI1_MISO_IO1 ((uint32_t)1U << 8U)
#define GPSR5_QSPI1_MOSI_IO0 ((uint32_t)1U << 7U)
#define GPSR5_QSPI1_SPCLK ((uint32_t)1U << 6U)
#define GPSR5_QSPI0_SSL ((uint32_t)1U << 5U)
#define GPSR5_QSPI0_IO3 ((uint32_t)1U << 4U)
#define GPSR5_QSPI0_IO2 ((uint32_t)1U << 3U)
#define GPSR5_QSPI0_MISO_IO1 ((uint32_t)1U << 2U)
#define GPSR5_QSPI0_MOSI_IO0 ((uint32_t)1U << 1U)
#define GPSR5_QSPI0_SPCLK ((uint32_t)1U << 0U)
#define IPSR_28_FUNC(x) ((uint32_t)(x) << 28U)
#define IPSR_24_FUNC(x) ((uint32_t)(x) << 24U)
#define IPSR_20_FUNC(x) ((uint32_t)(x) << 20U)
#define IPSR_16_FUNC(x) ((uint32_t)(x) << 16U)
#define IPSR_12_FUNC(x) ((uint32_t)(x) << 12U)
#define IPSR_8_FUNC(x) ((uint32_t)(x) << 8U)
#define IPSR_4_FUNC(x) ((uint32_t)(x) << 4U)
#define IPSR_0_FUNC(x) ((uint32_t)(x) << 0U)
#define IOCTRL30_POC_VI0_DATA5 ((uint32_t)1U << 31U)
#define IOCTRL30_POC_VI0_DATA4 ((uint32_t)1U << 30U)
#define IOCTRL30_POC_VI0_DATA3 ((uint32_t)1U << 29U)
#define IOCTRL30_POC_VI0_DATA2 ((uint32_t)1U << 28U)
#define IOCTRL30_POC_VI0_DATA1 ((uint32_t)1U << 27U)
#define IOCTRL30_POC_VI0_DATA0 ((uint32_t)1U << 26U)
#define IOCTRL30_POC_VI0_VSYNC_N ((uint32_t)1U << 25U)
#define IOCTRL30_POC_VI0_HSYNC_N ((uint32_t)1U << 24U)
#define IOCTRL30_POC_VI0_CLKENB ((uint32_t)1U << 23U)
#define IOCTRL30_POC_VI0_CLK ((uint32_t)1U << 22U)
#define IOCTRL30_POC_DU_EXODDF_DU_ODDF_DISP_CDE ((uint32_t)1U << 21U)
#define IOCTRL30_POC_DU_EXVSYNC_DU_VSYNC ((uint32_t)1U << 20U)
#define IOCTRL30_POC_DU_EXHSYNC_DU_HSYNC ((uint32_t)1U << 19U)
#define IOCTRL30_POC_DU_DOTCLKOUT ((uint32_t)1U << 18U)
#define IOCTRL30_POC_DU_DB7 ((uint32_t)1U << 17U)
#define IOCTRL30_POC_DU_DB6 ((uint32_t)1U << 16U)
#define IOCTRL30_POC_DU_DB5 ((uint32_t)1U << 15U)
#define IOCTRL30_POC_DU_DB4 ((uint32_t)1U << 14U)
#define IOCTRL30_POC_DU_DB3 ((uint32_t)1U << 13U)
#define IOCTRL30_POC_DU_DB2 ((uint32_t)1U << 12U)
#define IOCTRL30_POC_DU_DG7 ((uint32_t)1U << 11U)
#define IOCTRL30_POC_DU_DG6 ((uint32_t)1U << 10U)
#define IOCTRL30_POC_DU_DG5 ((uint32_t)1U << 9U)
#define IOCTRL30_POC_DU_DG4 ((uint32_t)1U << 8U)
#define IOCTRL30_POC_DU_DG3 ((uint32_t)1U << 7U)
#define IOCTRL30_POC_DU_DG2 ((uint32_t)1U << 6U)
#define IOCTRL30_POC_DU_DR7 ((uint32_t)1U << 5U)
#define IOCTRL30_POC_DU_DR6 ((uint32_t)1U << 4U)
#define IOCTRL30_POC_DU_DR5 ((uint32_t)1U << 3U)
#define IOCTRL30_POC_DU_DR4 ((uint32_t)1U << 2U)
#define IOCTRL30_POC_DU_DR3 ((uint32_t)1U << 1U)
#define IOCTRL30_POC_DU_DR2 ((uint32_t)1U << 0U)
#define IOCTRL31_POC_DUMMY_31 ((uint32_t)1U << 31U)
#define IOCTRL31_POC_DUMMY_30 ((uint32_t)1U << 30U)
#define IOCTRL31_POC_DUMMY_29 ((uint32_t)1U << 29U)
#define IOCTRL31_POC_DUMMY_28 ((uint32_t)1U << 28U)
#define IOCTRL31_POC_DUMMY_27 ((uint32_t)1U << 27U)
#define IOCTRL31_POC_DUMMY_26 ((uint32_t)1U << 26U)
#define IOCTRL31_POC_DUMMY_25 ((uint32_t)1U << 25U)
#define IOCTRL31_POC_DUMMY_24 ((uint32_t)1U << 24U)
#define IOCTRL31_POC_VI1_FIELD ((uint32_t)1U << 23U)
#define IOCTRL31_POC_VI1_DATA11 ((uint32_t)1U << 22U)
#define IOCTRL31_POC_VI1_DATA10 ((uint32_t)1U << 21U)
#define IOCTRL31_POC_VI1_DATA9 ((uint32_t)1U << 20U)
#define IOCTRL31_POC_VI1_DATA8 ((uint32_t)1U << 19U)
#define IOCTRL31_POC_VI1_DATA7 ((uint32_t)1U << 18U)
#define IOCTRL31_POC_VI1_DATA6 ((uint32_t)1U << 17U)
#define IOCTRL31_POC_VI1_DATA5 ((uint32_t)1U << 16U)
#define IOCTRL31_POC_VI1_DATA4 ((uint32_t)1U << 15U)
#define IOCTRL31_POC_VI1_DATA3 ((uint32_t)1U << 14U)
#define IOCTRL31_POC_VI1_DATA2 ((uint32_t)1U << 13U)
#define IOCTRL31_POC_VI1_DATA1 ((uint32_t)1U << 12U)
#define IOCTRL31_POC_VI1_DATA0 ((uint32_t)1U << 11U)
#define IOCTRL31_POC_VI1_VSYNC_N ((uint32_t)1U << 10U)
#define IOCTRL31_POC_VI1_HSYNC_N ((uint32_t)1U << 9U)
#define IOCTRL31_POC_VI1_CLKENB ((uint32_t)1U << 8U)
#define IOCTRL31_POC_VI1_CLK ((uint32_t)1U << 7U)
#define IOCTRL31_POC_VI0_FIELD ((uint32_t)1U << 6U)
#define IOCTRL31_POC_VI0_DATA11 ((uint32_t)1U << 5U)
#define IOCTRL31_POC_VI0_DATA10 ((uint32_t)1U << 4U)
#define IOCTRL31_POC_VI0_DATA9 ((uint32_t)1U << 3U)
#define IOCTRL31_POC_VI0_DATA8 ((uint32_t)1U << 2U)
#define IOCTRL31_POC_VI0_DATA7 ((uint32_t)1U << 1U)
#define IOCTRL31_POC_VI0_DATA6 ((uint32_t)1U << 0U)
#define IOCTRL32_POC2_VREF ((uint32_t)1U << 0U)
#define IOCTRL40_SD0TDSEL1 ((uint32_t)1U << 1U)
#define IOCTRL40_SD0TDSEL0 ((uint32_t)1U << 0U)
#define PUEN0_PUEN_VI0_CLK ((uint32_t)1U << 31U)
#define PUEN0_PUEN_TDI ((uint32_t)1U << 30U)
#define PUEN0_PUEN_TMS ((uint32_t)1U << 29U)
#define PUEN0_PUEN_TCK ((uint32_t)1U << 28U)
#define PUEN0_PUEN_TRST_N ((uint32_t)1U << 27U)
#define PUEN0_PUEN_IRQ0 ((uint32_t)1U << 26U)
#define PUEN0_PUEN_FSCLKST_N ((uint32_t)1U << 25U)
#define PUEN0_PUEN_EXTALR ((uint32_t)1U << 24U)
#define PUEN0_PUEN_PRESETOUT_N ((uint32_t)1U << 23U)
#define PUEN0_PUEN_DU_DOTCLKIN ((uint32_t)1U << 22U)
#define PUEN0_PUEN_DU_EXODDF_DU_ODDF_DISP_CDE ((uint32_t)1U << 21U)
#define PUEN0_PUEN_DU_EXVSYNC_DU_VSYNC ((uint32_t)1U << 20U)
#define PUEN0_PUEN_DU_EXHSYNC_DU_HSYNC ((uint32_t)1U << 19U)
#define PUEN0_PUEN_DU_DOTCLKOUT ((uint32_t)1U << 18U)
#define PUEN0_PUEN_DU_DB7 ((uint32_t)1U << 17U)
#define PUEN0_PUEN_DU_DB6 ((uint32_t)1U << 16U)
#define PUEN0_PUEN_DU_DB5 ((uint32_t)1U << 15U)
#define PUEN0_PUEN_DU_DB4 ((uint32_t)1U << 14U)
#define PUEN0_PUEN_DU_DB3 ((uint32_t)1U << 13U)
#define PUEN0_PUEN_DU_DB2 ((uint32_t)1U << 12U)
#define PUEN0_PUEN_DU_DG7 ((uint32_t)1U << 11U)
#define PUEN0_PUEN_DU_DG6 ((uint32_t)1U << 10U)
#define PUEN0_PUEN_DU_DG5 ((uint32_t)1U << 9U)
#define PUEN0_PUEN_DU_DG4 ((uint32_t)1U << 8U)
#define PUEN0_PUEN_DU_DG3 ((uint32_t)1U << 7U)
#define PUEN0_PUEN_DU_DG2 ((uint32_t)1U << 6U)
#define PUEN0_PUEN_DU_DR7 ((uint32_t)1U << 5U)
#define PUEN0_PUEN_DU_DR6 ((uint32_t)1U << 4U)
#define PUEN0_PUEN_DU_DR5 ((uint32_t)1U << 3U)
#define PUEN0_PUEN_DU_DR4 ((uint32_t)1U << 2U)
#define PUEN0_PUEN_DU_DR3 ((uint32_t)1U << 1U)
#define PUEN0_PUEN_DU_DR2 ((uint32_t)1U << 0U)
#define PUEN1_PUEN_VI1_DATA11 ((uint32_t)1U << 31U)
#define PUEN1_PUEN_VI1_DATA10 ((uint32_t)1U << 30U)
#define PUEN1_PUEN_VI1_DATA9 ((uint32_t)1U << 29U)
#define PUEN1_PUEN_VI1_DATA8 ((uint32_t)1U << 28U)
#define PUEN1_PUEN_VI1_DATA7 ((uint32_t)1U << 27U)
#define PUEN1_PUEN_VI1_DATA6 ((uint32_t)1U << 26U)
#define PUEN1_PUEN_VI1_DATA5 ((uint32_t)1U << 25U)
#define PUEN1_PUEN_VI1_DATA4 ((uint32_t)1U << 24U)
#define PUEN1_PUEN_VI1_DATA3 ((uint32_t)1U << 23U)
#define PUEN1_PUEN_VI1_DATA2 ((uint32_t)1U << 22U)
#define PUEN1_PUEN_VI1_DATA1 ((uint32_t)1U << 21U)
#define PUEN1_PUEN_VI1_DATA0 ((uint32_t)1U << 20U)
#define PUEN1_PUEN_VI1_VSYNC_N ((uint32_t)1U << 19U)
#define PUEN1_PUEN_VI1_HSYNC_N ((uint32_t)1U << 18U)
#define PUEN1_PUEN_VI1_CLKENB ((uint32_t)1U << 17U)
#define PUEN1_PUEN_VI1_CLK ((uint32_t)1U << 16U)
#define PUEN1_PUEN_VI0_FIELD ((uint32_t)1U << 15U)
#define PUEN1_PUEN_VI0_DATA11 ((uint32_t)1U << 14U)
#define PUEN1_PUEN_VI0_DATA10 ((uint32_t)1U << 13U)
#define PUEN1_PUEN_VI0_DATA9 ((uint32_t)1U << 12U)
#define PUEN1_PUEN_VI0_DATA8 ((uint32_t)1U << 11U)
#define PUEN1_PUEN_VI0_DATA7 ((uint32_t)1U << 10U)
#define PUEN1_PUEN_VI0_DATA6 ((uint32_t)1U << 9U)
#define PUEN1_PUEN_VI0_DATA5 ((uint32_t)1U << 8U)
#define PUEN1_PUEN_VI0_DATA4 ((uint32_t)1U << 7U)
#define PUEN1_PUEN_VI0_DATA3 ((uint32_t)1U << 6U)
#define PUEN1_PUEN_VI0_DATA2 ((uint32_t)1U << 5U)
#define PUEN1_PUEN_VI0_DATA1 ((uint32_t)1U << 4U)
#define PUEN1_PUEN_VI0_DATA0 ((uint32_t)1U << 3U)
#define PUEN1_PUEN_VI0_VSYNC_N ((uint32_t)1U << 2U)
#define PUEN1_PUEN_VI0_HSYNC_N ((uint32_t)1U << 1U)
#define PUEN1_PUEN_VI0_CLKENB ((uint32_t)1U << 0U)
#define PUEN2_PUEN_CANFD_CLK ((uint32_t)1U << 31U)
#define PUEN2_PUEN_CANFD1_RX ((uint32_t)1U << 30U)
#define PUEN2_PUEN_CANFD1_TX ((uint32_t)1U << 29U)
#define PUEN2_PUEN_CANFD0_RX ((uint32_t)1U << 28U)
#define PUEN2_PUEN_CANFD0_TX ((uint32_t)1U << 27U)
#define PUEN2_PUEN_AVB0_AVTP_CAPTURE ((uint32_t)1U << 26U)
#define PUEN2_PUEN_AVB0_AVTP_MATCH ((uint32_t)1U << 25U)
#define PUEN2_PUEN_AVB0_LINK ((uint32_t)1U << 24U)
#define PUEN2_PUEN_AVB0_PHY_INT ((uint32_t)1U << 23U)
#define PUEN2_PUEN_AVB0_MAGIC ((uint32_t)1U << 22U)
#define PUEN2_PUEN_AVB0_MDC ((uint32_t)1U << 21U)
#define PUEN2_PUEN_AVB0_MDIO ((uint32_t)1U << 20U)
#define PUEN2_PUEN_AVB0_TXCREFCLK ((uint32_t)1U << 19U)
#define PUEN2_PUEN_AVB0_TD3 ((uint32_t)1U << 18U)
#define PUEN2_PUEN_AVB0_TD2 ((uint32_t)1U << 17U)
#define PUEN2_PUEN_AVB0_TD1 ((uint32_t)1U << 16U)
#define PUEN2_PUEN_AVB0_TD0 ((uint32_t)1U << 15U)
#define PUEN2_PUEN_AVB0_TXC ((uint32_t)1U << 14U)
#define PUEN2_PUEN_AVB0_TX_CTL ((uint32_t)1U << 13U)
#define PUEN2_PUEN_AVB0_RD3 ((uint32_t)1U << 12U)
#define PUEN2_PUEN_AVB0_RD2 ((uint32_t)1U << 11U)
#define PUEN2_PUEN_AVB0_RD1 ((uint32_t)1U << 10U)
#define PUEN2_PUEN_AVB0_RD0 ((uint32_t)1U << 9U)
#define PUEN2_PUEN_AVB0_RXC ((uint32_t)1U << 8U)
#define PUEN2_PUEN_AVB0_RX_CTL ((uint32_t)1U << 7U)
#define PUEN2_PUEN_SDA2 ((uint32_t)1U << 6U)
#define PUEN2_PUEN_SCL2 ((uint32_t)1U << 5U)
#define PUEN2_PUEN_SDA1 ((uint32_t)1U << 4U)
#define PUEN2_PUEN_SCL1 ((uint32_t)1U << 3U)
#define PUEN2_PUEN_SDA0 ((uint32_t)1U << 2U)
#define PUEN2_PUEN_SCL0 ((uint32_t)1U << 1U)
#define PUEN2_PUEN_VI1_FIELD ((uint32_t)1U << 0U)
#define PUEN3_PUEN_DIGRF_CLKOUT ((uint32_t)1U << 16U)
#define PUEN3_PUEN_DIGRF_CLKIN ((uint32_t)1U << 15U)
#define PUEN3_PUEN_RPC_INT_N ((uint32_t)1U << 14U)
#define PUEN3_PUEN_RPC_WP_N ((uint32_t)1U << 13U)
#define PUEN3_PUEN_RPC_RESET_N ((uint32_t)1U << 12U)
#define PUEN3_PUEN_QSPI1_SSL ((uint32_t)1U << 11U)
#define PUEN3_PUEN_QSPI1_IO3 ((uint32_t)1U << 10U)
#define PUEN3_PUEN_QSPI1_IO2 ((uint32_t)1U << 9U)
#define PUEN3_PUEN_QSPI1_MISO_IO1 ((uint32_t)1U << 8U)
#define PUEN3_PUEN_QSPI1_MOSI_IO0 ((uint32_t)1U << 7U)
#define PUEN3_PUEN_QSPI1_SPCLK ((uint32_t)1U << 6U)
#define PUEN3_PUEN_QSPI0_SSL ((uint32_t)1U << 5U)
#define PUEN3_PUEN_QSPI0_IO3 ((uint32_t)1U << 4U)
#define PUEN3_PUEN_QSPI0_IO2 ((uint32_t)1U << 3U)
#define PUEN3_PUEN_QSPI0_MISO_IO1 ((uint32_t)1U << 2U)
#define PUEN3_PUEN_QSPI0_MOSI_IO0 ((uint32_t)1U << 1U)
#define PUEN3_PUEN_QSPI0_SPCLK ((uint32_t)1U << 0U)
#define PUD0_PUD_VI0_CLK ((uint32_t)1U << 31U)
#define PUD0_PUD_IRQ0 ((uint32_t)1U << 26U)
#define PUD0_PUD_FSCLKST_N ((uint32_t)1U << 25U)
#define PUD0_PUD_PRESETOUT_N ((uint32_t)1U << 23U)
#define PUD0_PUD_DU_EXODDF_DU_ODDF_DISP_CDE ((uint32_t)1U << 21U)
#define PUD0_PUD_DU_EXVSYNC_DU_VSYNC ((uint32_t)1U << 20U)
#define PUD0_PUD_DU_EXHSYNC_DU_HSYNC ((uint32_t)1U << 19U)
#define PUD0_PUD_DU_DOTCLKOUT ((uint32_t)1U << 18U)
#define PUD0_PUD_DU_DB7 ((uint32_t)1U << 17U)
#define PUD0_PUD_DU_DB6 ((uint32_t)1U << 16U)
#define PUD0_PUD_DU_DB5 ((uint32_t)1U << 15U)
#define PUD0_PUD_DU_DB4 ((uint32_t)1U << 14U)
#define PUD0_PUD_DU_DB3 ((uint32_t)1U << 13U)
#define PUD0_PUD_DU_DB2 ((uint32_t)1U << 12U)
#define PUD0_PUD_DU_DG7 ((uint32_t)1U << 11U)
#define PUD0_PUD_DU_DG6 ((uint32_t)1U << 10U)
#define PUD0_PUD_DU_DG5 ((uint32_t)1U << 9U)
#define PUD0_PUD_DU_DG4 ((uint32_t)1U << 8U)
#define PUD0_PUD_DU_DG3 ((uint32_t)1U << 7U)
#define PUD0_PUD_DU_DG2 ((uint32_t)1U << 6U)
#define PUD0_PUD_DU_DR7 ((uint32_t)1U << 5U)
#define PUD0_PUD_DU_DR6 ((uint32_t)1U << 4U)
#define PUD0_PUD_DU_DR5 ((uint32_t)1U << 3U)
#define PUD0_PUD_DU_DR4 ((uint32_t)1U << 2U)
#define PUD0_PUD_DU_DR3 ((uint32_t)1U << 1U)
#define PUD0_PUD_DU_DR2 ((uint32_t)1U << 0U)
#define PUD1_PUD_VI1_DATA11 ((uint32_t)1U << 31U)
#define PUD1_PUD_VI1_DATA10 ((uint32_t)1U << 30U)
#define PUD1_PUD_VI1_DATA9 ((uint32_t)1U << 29U)
#define PUD1_PUD_VI1_DATA8 ((uint32_t)1U << 28U)
#define PUD1_PUD_VI1_DATA7 ((uint32_t)1U << 27U)
#define PUD1_PUD_VI1_DATA6 ((uint32_t)1U << 26U)
#define PUD1_PUD_VI1_DATA5 ((uint32_t)1U << 25U)
#define PUD1_PUD_VI1_DATA4 ((uint32_t)1U << 24U)
#define PUD1_PUD_VI1_DATA3 ((uint32_t)1U << 23U)
#define PUD1_PUD_VI1_DATA2 ((uint32_t)1U << 22U)
#define PUD1_PUD_VI1_DATA1 ((uint32_t)1U << 21U)
#define PUD1_PUD_VI1_DATA0 ((uint32_t)1U << 20U)
#define PUD1_PUD_VI1_VSYNC_N ((uint32_t)1U << 19U)
#define PUD1_PUD_VI1_HSYNC_N ((uint32_t)1U << 18U)
#define PUD1_PUD_VI1_CLKENB ((uint32_t)1U << 17U)
#define PUD1_PUD_VI1_CLK ((uint32_t)1U << 16U)
#define PUD1_PUD_VI0_FIELD ((uint32_t)1U << 15U)
#define PUD1_PUD_VI0_DATA11 ((uint32_t)1U << 14U)
#define PUD1_PUD_VI0_DATA10 ((uint32_t)1U << 13U)
#define PUD1_PUD_VI0_DATA9 ((uint32_t)1U << 12U)
#define PUD1_PUD_VI0_DATA8 ((uint32_t)1U << 11U)
#define PUD1_PUD_VI0_DATA7 ((uint32_t)1U << 10U)
#define PUD1_PUD_VI0_DATA6 ((uint32_t)1U << 9U)
#define PUD1_PUD_VI0_DATA5 ((uint32_t)1U << 8U)
#define PUD1_PUD_VI0_DATA4 ((uint32_t)1U << 7U)
#define PUD1_PUD_VI0_DATA3 ((uint32_t)1U << 6U)
#define PUD1_PUD_VI0_DATA2 ((uint32_t)1U << 5U)
#define PUD1_PUD_VI0_DATA1 ((uint32_t)1U << 4U)
#define PUD1_PUD_VI0_DATA0 ((uint32_t)1U << 3U)
#define PUD1_PUD_VI0_VSYNC_N ((uint32_t)1U << 2U)
#define PUD1_PUD_VI0_HSYNC_N ((uint32_t)1U << 1U)
#define PUD1_PUD_VI0_CLKENB ((uint32_t)1U << 0U)
#define PUD2_PUD_CANFD_CLK ((uint32_t)1U << 31U)
#define PUD2_PUD_CANFD1_RX ((uint32_t)1U << 30U)
#define PUD2_PUD_CANFD1_TX ((uint32_t)1U << 29U)
#define PUD2_PUD_CANFD0_RX ((uint32_t)1U << 28U)
#define PUD2_PUD_CANFD0_TX ((uint32_t)1U << 27U)
#define PUD2_PUD_AVB0_AVTP_CAPTURE ((uint32_t)1U << 26U)
#define PUD2_PUD_AVB0_AVTP_MATCH ((uint32_t)1U << 25U)
#define PUD2_PUD_AVB0_LINK ((uint32_t)1U << 24U)
#define PUD2_PUD_AVB0_PHY_INT ((uint32_t)1U << 23U)
#define PUD2_PUD_AVB0_MAGIC ((uint32_t)1U << 22U)
#define PUD2_PUD_AVB0_MDC ((uint32_t)1U << 21U)
#define PUD2_PUD_AVB0_MDIO ((uint32_t)1U << 20U)
#define PUD2_PUD_AVB0_TXCREFCLK ((uint32_t)1U << 19U)
#define PUD2_PUD_AVB0_TD3 ((uint32_t)1U << 18U)
#define PUD2_PUD_AVB0_TD2 ((uint32_t)1U << 17U)
#define PUD2_PUD_AVB0_TD1 ((uint32_t)1U << 16U)
#define PUD2_PUD_AVB0_TD0 ((uint32_t)1U << 15U)
#define PUD2_PUD_AVB0_TXC ((uint32_t)1U << 14U)
#define PUD2_PUD_AVB0_TX_CTL ((uint32_t)1U << 13U)
#define PUD2_PUD_AVB0_RD3 ((uint32_t)1U << 12U)
#define PUD2_PUD_AVB0_RD2 ((uint32_t)1U << 11U)
#define PUD2_PUD_AVB0_RD1 ((uint32_t)1U << 10U)
#define PUD2_PUD_AVB0_RD0 ((uint32_t)1U << 9U)
#define PUD2_PUD_AVB0_RXC ((uint32_t)1U << 8U)
#define PUD2_PUD_AVB0_RX_CTL ((uint32_t)1U << 7U)
#define PUD2_PUD_SDA2 ((uint32_t)1U << 6U)
#define PUD2_PUD_SCL2 ((uint32_t)1U << 5U)
#define PUD2_PUD_SDA1 ((uint32_t)1U << 4U)
#define PUD2_PUD_SCL1 ((uint32_t)1U << 3U)
#define PUD2_PUD_SDA0 ((uint32_t)1U << 2U)
#define PUD2_PUD_SCL0 ((uint32_t)1U << 1U)
#define PUD2_PUD_VI1_FIELD ((uint32_t)1U << 0U)
#define PUD3_PUD_DIGRF_CLKOUT ((uint32_t)1U << 16U)
#define PUD3_PUD_DIGRF_CLKIN ((uint32_t)1U << 15U)
#define PUD3_PUD_RPC_INT_N ((uint32_t)1U << 14U)
#define PUD3_PUD_RPC_WP_N ((uint32_t)1U << 13U)
#define PUD3_PUD_RPC_RESET_N ((uint32_t)1U << 12U)
#define PUD3_PUD_QSPI1_SSL ((uint32_t)1U << 11U)
#define PUD3_PUD_QSPI1_IO3 ((uint32_t)1U << 10U)
#define PUD3_PUD_QSPI1_IO2 ((uint32_t)1U << 9U)
#define PUD3_PUD_QSPI1_MISO_IO1 ((uint32_t)1U << 8U)
#define PUD3_PUD_QSPI1_MOSI_IO0 ((uint32_t)1U << 7U)
#define PUD3_PUD_QSPI1_SPCLK ((uint32_t)1U << 6U)
#define PUD3_PUD_QSPI0_SSL ((uint32_t)1U << 5U)
#define PUD3_PUD_QSPI0_IO3 ((uint32_t)1U << 4U)
#define PUD3_PUD_QSPI0_IO2 ((uint32_t)1U << 3U)
#define PUD3_PUD_QSPI0_MISO_IO1 ((uint32_t)1U << 2U)
#define PUD3_PUD_QSPI0_MOSI_IO0 ((uint32_t)1U << 1U)
#define PUD3_PUD_QSPI0_SPCLK ((uint32_t)1U << 0U)
#define MOD_SEL0_sel_hscif0 ((uint32_t)1U << 10U)
#define MOD_SEL0_sel_scif1 ((uint32_t)1U << 9U)
#define MOD_SEL0_sel_canfd0 ((uint32_t)1U << 8U)
#define MOD_SEL0_sel_pwm4 ((uint32_t)1U << 7U)
#define MOD_SEL0_sel_pwm3 ((uint32_t)1U << 6U)
#define MOD_SEL0_sel_pwm2 ((uint32_t)1U << 5U)
#define MOD_SEL0_sel_pwm1 ((uint32_t)1U << 4U)
#define MOD_SEL0_sel_pwm0 ((uint32_t)1U << 3U)
#define MOD_SEL0_sel_rfso ((uint32_t)1U << 2U)
#define MOD_SEL0_sel_rsp ((uint32_t)1U << 1U)
#define MOD_SEL0_sel_tmu ((uint32_t)1U << 0U)
/* SCIF3 Registers for Dummy write */
#define SCIF3_BASE (0xE6C50000U)
#define SCIF3_SCFCR (SCIF3_BASE + 0x0018U)
#define SCIF3_SCFDR (SCIF3_BASE + 0x001CU)
#define SCFCR_DATA (0x0000U)
/* Realtime module stop control */
#define CPG_BASE (0xE6150000U)
#define CPG_MSTPSR0 (CPG_BASE + 0x0030U)
#define CPG_RMSTPCR0 (CPG_BASE + 0x0110U)
#define RMSTPCR0_RTDMAC (0x00200000U)
/* RT-DMAC Registers */
#define RTDMAC_CH (0U) /* choose 0 to 15 */
#define RTDMAC_BASE (0xFFC10000U)
#define RTDMAC_RDMOR (RTDMAC_BASE + 0x0060U)
#define RTDMAC_RDMCHCLR (RTDMAC_BASE + 0x0080U)
#define RTDMAC_RDMSAR(x) (RTDMAC_BASE + 0x8000U + (0x80U * (x)))
#define RTDMAC_RDMDAR(x) (RTDMAC_BASE + 0x8004U + (0x80U * (x)))
#define RTDMAC_RDMTCR(x) (RTDMAC_BASE + 0x8008U + (0x80U * (x)))
#define RTDMAC_RDMCHCR(x) (RTDMAC_BASE + 0x800CU + (0x80U * (x)))
#define RTDMAC_RDMCHCRB(x) (RTDMAC_BASE + 0x801CU + (0x80U * (x)))
#define RTDMAC_RDMDPBASE(x) (RTDMAC_BASE + 0x8050U + (0x80U * (x)))
#define RTDMAC_DESC_BASE (RTDMAC_BASE + 0xA000U)
#define RTDMAC_DESC_RDMSAR (RTDMAC_DESC_BASE + 0x0000U)
#define RTDMAC_DESC_RDMDAR (RTDMAC_DESC_BASE + 0x0004U)
#define RTDMAC_DESC_RDMTCR (RTDMAC_DESC_BASE + 0x0008U)
#define RDMOR_DME (0x0001U) /* DMA Master Enable */
#define RDMCHCR_DPM_INFINITE (0x30000000U) /* Infinite repeat mode */
#define RDMCHCR_RPT_TCR (0x02000000U) /* enable to update TCR */
#define RDMCHCR_TS_2 (0x00000008U) /* Word(2byte) units transfer */
#define RDMCHCR_RS_AUTO (0x00000400U) /* Auto request */
#define RDMCHCR_DE (0x00000001U) /* DMA Enable */
#define RDMCHCRB_DRST (0x00008000U) /* Descriptor reset */
#define RDMCHCRB_SLM_256 (0x00000080U) /* once in 256 clock cycle */
#define RDMDPBASE_SEL_EXT (0x00000001U) /* External memory use */
static void pfc_reg_write(uint32_t addr, uint32_t data);
static void StartRtDma0_Descriptor(void);
static void pfc_reg_write(uint32_t addr, uint32_t data)
{
mmio_write_32(PFC_PMMR, ~data);
mmio_write_32((uintptr_t)addr, data);
}
static void StartRtDma0_Descriptor(void)
{
uint32_t reg;
/* Module stop clear */
while((mmio_read_32(CPG_MSTPSR0) & RMSTPCR0_RTDMAC) != 0U) {
reg = mmio_read_32(CPG_RMSTPCR0);
reg &= ~RMSTPCR0_RTDMAC;
cpg_write(CPG_RMSTPCR0, reg);
}
/* Initialize ch0, Reset Descriptor */
mmio_write_32(RTDMAC_RDMCHCLR, ((uint32_t)1U << RTDMAC_CH));
mmio_write_32(RTDMAC_RDMCHCRB(RTDMAC_CH), RDMCHCRB_DRST);
/* Enable DMA */
mmio_write_16(RTDMAC_RDMOR, RDMOR_DME);
/* Set first transfer */
mmio_write_32(RTDMAC_RDMSAR(RTDMAC_CH), RCAR_PRR);
mmio_write_32(RTDMAC_RDMDAR(RTDMAC_CH), SCIF3_SCFDR);
mmio_write_32(RTDMAC_RDMTCR(RTDMAC_CH), 0x00000001U);
/* Set descriptor */
mmio_write_32(RTDMAC_DESC_RDMSAR, 0x00000000U);
mmio_write_32(RTDMAC_DESC_RDMDAR, 0x00000000U);
mmio_write_32(RTDMAC_DESC_RDMTCR, 0x00200000U);
mmio_write_32(RTDMAC_RDMCHCRB(RTDMAC_CH), RDMCHCRB_SLM_256);
mmio_write_32(RTDMAC_RDMDPBASE(RTDMAC_CH), RTDMAC_DESC_BASE
| RDMDPBASE_SEL_EXT);
/* Set transfer parameter, Start transfer */
mmio_write_32(RTDMAC_RDMCHCR(RTDMAC_CH), RDMCHCR_DPM_INFINITE
| RDMCHCR_RPT_TCR
| RDMCHCR_TS_2
| RDMCHCR_RS_AUTO
| RDMCHCR_DE);
}
void pfc_init_v3m(void)
{
/* Work around for PFC eratta */
StartRtDma0_Descriptor();
// pin function
// md[4:1]!=0000
/* initialize GPIO/perihperal function select */
pfc_reg_write(PFC_GPSR0, 0x00000000);
pfc_reg_write(PFC_GPSR1, GPSR1_CANFD_CLK);
pfc_reg_write(PFC_GPSR2, 0x00000000);
pfc_reg_write(PFC_GPSR3, 0x00000000);
pfc_reg_write(PFC_GPSR4, GPSR4_SDA2
| GPSR4_SCL2);
pfc_reg_write(PFC_GPSR5, GPSR5_QSPI1_SSL
| GPSR5_QSPI1_IO3
| GPSR5_QSPI1_IO2
| GPSR5_QSPI1_MISO_IO1
| GPSR5_QSPI1_MOSI_IO0
| GPSR5_QSPI1_SPCLK
| GPSR5_QSPI0_SSL
| GPSR5_QSPI0_IO3
| GPSR5_QSPI0_IO2
| GPSR5_QSPI0_MISO_IO1
| GPSR5_QSPI0_MOSI_IO0
| GPSR5_QSPI0_SPCLK);
/* initialize peripheral function select */
pfc_reg_write(PFC_IPSR0, IPSR_28_FUNC(0)
| IPSR_24_FUNC(0)
| IPSR_20_FUNC(0)
| IPSR_16_FUNC(0)
| IPSR_12_FUNC(0)
| IPSR_8_FUNC(0)
| IPSR_4_FUNC(0)
| IPSR_0_FUNC(0));
pfc_reg_write(PFC_IPSR1, IPSR_28_FUNC(0)
| IPSR_24_FUNC(0)
| IPSR_20_FUNC(0)
| IPSR_16_FUNC(0)
| IPSR_12_FUNC(0)
| IPSR_8_FUNC(0)
| IPSR_4_FUNC(0)
| IPSR_0_FUNC(0));
pfc_reg_write(PFC_IPSR2, IPSR_28_FUNC(0)
| IPSR_24_FUNC(0)
| IPSR_20_FUNC(0)
| IPSR_16_FUNC(0)
| IPSR_12_FUNC(0)
| IPSR_8_FUNC(0)
| IPSR_4_FUNC(0)
| IPSR_0_FUNC(0));
pfc_reg_write(PFC_IPSR3, IPSR_28_FUNC(0)
| IPSR_24_FUNC(0)
| IPSR_20_FUNC(0)
| IPSR_16_FUNC(0)
| IPSR_12_FUNC(0)
| IPSR_8_FUNC(0)
| IPSR_4_FUNC(0)
| IPSR_0_FUNC(0));
pfc_reg_write(PFC_IPSR4, IPSR_28_FUNC(0)
| IPSR_24_FUNC(0)
| IPSR_20_FUNC(0)
| IPSR_16_FUNC(0)
| IPSR_12_FUNC(0)
| IPSR_8_FUNC(0)
| IPSR_4_FUNC(0)
| IPSR_0_FUNC(0));
pfc_reg_write(PFC_IPSR5, IPSR_28_FUNC(0)
| IPSR_24_FUNC(0)
| IPSR_20_FUNC(0)
| IPSR_16_FUNC(0)
| IPSR_12_FUNC(0)
| IPSR_8_FUNC(0)
| IPSR_4_FUNC(0)
| IPSR_0_FUNC(0));
pfc_reg_write(PFC_IPSR6, IPSR_28_FUNC(0)
| IPSR_24_FUNC(0)
| IPSR_20_FUNC(0)
| IPSR_16_FUNC(0)
| IPSR_12_FUNC(0)
| IPSR_8_FUNC(0)
| IPSR_4_FUNC(0)
| IPSR_0_FUNC(0));
pfc_reg_write(PFC_IPSR7, IPSR_28_FUNC(0)
| IPSR_24_FUNC(4)
| IPSR_20_FUNC(4)
| IPSR_16_FUNC(4)
| IPSR_12_FUNC(4)
| IPSR_8_FUNC(0)
| IPSR_4_FUNC(0)
| IPSR_0_FUNC(0));
pfc_reg_write(PFC_IPSR8, IPSR_28_FUNC(0)
| IPSR_24_FUNC(0)
| IPSR_20_FUNC(0)
| IPSR_16_FUNC(4)
| IPSR_12_FUNC(0)
| IPSR_8_FUNC(0)
| IPSR_4_FUNC(0)
| IPSR_0_FUNC(0));
/* initialize POC Control */
pfc_reg_write(PFC_IOCTRL30, IOCTRL30_POC_VI0_DATA5
| IOCTRL30_POC_VI0_DATA4
| IOCTRL30_POC_VI0_DATA3
| IOCTRL30_POC_VI0_DATA2
| IOCTRL30_POC_VI0_DATA1
| IOCTRL30_POC_VI0_DATA0
| IOCTRL30_POC_VI0_VSYNC_N
| IOCTRL30_POC_VI0_HSYNC_N
| IOCTRL30_POC_VI0_CLKENB
| IOCTRL30_POC_VI0_CLK
| IOCTRL30_POC_DU_EXODDF_DU_ODDF_DISP_CDE
| IOCTRL30_POC_DU_EXVSYNC_DU_VSYNC
| IOCTRL30_POC_DU_EXHSYNC_DU_HSYNC
| IOCTRL30_POC_DU_DOTCLKOUT
| IOCTRL30_POC_DU_DB7
| IOCTRL30_POC_DU_DB6
| IOCTRL30_POC_DU_DB5
| IOCTRL30_POC_DU_DB4
| IOCTRL30_POC_DU_DB3
| IOCTRL30_POC_DU_DB2
| IOCTRL30_POC_DU_DG7
| IOCTRL30_POC_DU_DG6
| IOCTRL30_POC_DU_DG5
| IOCTRL30_POC_DU_DG4
| IOCTRL30_POC_DU_DG3
| IOCTRL30_POC_DU_DG2
| IOCTRL30_POC_DU_DR7
| IOCTRL30_POC_DU_DR6
| IOCTRL30_POC_DU_DR5
| IOCTRL30_POC_DU_DR4
| IOCTRL30_POC_DU_DR3
| IOCTRL30_POC_DU_DR2);
pfc_reg_write(PFC_IOCTRL31, IOCTRL31_POC_DUMMY_31
| IOCTRL31_POC_DUMMY_30
| IOCTRL31_POC_DUMMY_29
| IOCTRL31_POC_DUMMY_28
| IOCTRL31_POC_DUMMY_27
| IOCTRL31_POC_DUMMY_26
| IOCTRL31_POC_DUMMY_25
| IOCTRL31_POC_DUMMY_24
| IOCTRL31_POC_VI1_FIELD
| IOCTRL31_POC_VI1_DATA11
| IOCTRL31_POC_VI1_DATA10
| IOCTRL31_POC_VI1_DATA9
| IOCTRL31_POC_VI1_DATA8
| IOCTRL31_POC_VI1_DATA7
| IOCTRL31_POC_VI1_DATA6
| IOCTRL31_POC_VI1_DATA5
| IOCTRL31_POC_VI1_DATA4
| IOCTRL31_POC_VI1_DATA3
| IOCTRL31_POC_VI1_DATA2
| IOCTRL31_POC_VI1_DATA1
| IOCTRL31_POC_VI1_DATA0
| IOCTRL31_POC_VI1_VSYNC_N
| IOCTRL31_POC_VI1_HSYNC_N
| IOCTRL31_POC_VI1_CLKENB
| IOCTRL31_POC_VI1_CLK
| IOCTRL31_POC_VI0_FIELD
| IOCTRL31_POC_VI0_DATA11
| IOCTRL31_POC_VI0_DATA10
| IOCTRL31_POC_VI0_DATA9
| IOCTRL31_POC_VI0_DATA8
| IOCTRL31_POC_VI0_DATA7
| IOCTRL31_POC_VI0_DATA6);
pfc_reg_write(PFC_IOCTRL32,0x00000000);
pfc_reg_write(PFC_IOCTRL40,0x00000000);
/* initialize Pull enable */
pfc_reg_write(PFC_PUEN0,PUEN0_PUEN_VI0_CLK
| PUEN0_PUEN_TDI
| PUEN0_PUEN_TMS
| PUEN0_PUEN_TCK
| PUEN0_PUEN_TRST_N
| PUEN0_PUEN_IRQ0
| PUEN0_PUEN_FSCLKST_N
| PUEN0_PUEN_DU_EXHSYNC_DU_HSYNC
| PUEN0_PUEN_DU_DOTCLKOUT
| PUEN0_PUEN_DU_DB7
| PUEN0_PUEN_DU_DB6
| PUEN0_PUEN_DU_DB5
| PUEN0_PUEN_DU_DB4
| PUEN0_PUEN_DU_DB3
| PUEN0_PUEN_DU_DB2
| PUEN0_PUEN_DU_DG7
| PUEN0_PUEN_DU_DG6
| PUEN0_PUEN_DU_DG5
| PUEN0_PUEN_DU_DG4
| PUEN0_PUEN_DU_DG3
| PUEN0_PUEN_DU_DG2
| PUEN0_PUEN_DU_DR7
| PUEN0_PUEN_DU_DR6
| PUEN0_PUEN_DU_DR5
| PUEN0_PUEN_DU_DR4
| PUEN0_PUEN_DU_DR3
| PUEN0_PUEN_DU_DR2);
pfc_reg_write(PFC_PUEN1,PUEN1_PUEN_VI1_DATA11
| PUEN1_PUEN_VI1_DATA10
| PUEN1_PUEN_VI1_DATA9
| PUEN1_PUEN_VI1_DATA8
| PUEN1_PUEN_VI1_DATA7
| PUEN1_PUEN_VI1_DATA6
| PUEN1_PUEN_VI1_DATA5
| PUEN1_PUEN_VI1_DATA4
| PUEN1_PUEN_VI1_DATA3
| PUEN1_PUEN_VI1_DATA2
| PUEN1_PUEN_VI1_DATA1
| PUEN1_PUEN_VI1_DATA0
| PUEN1_PUEN_VI1_VSYNC_N
| PUEN1_PUEN_VI1_HSYNC_N
| PUEN1_PUEN_VI1_CLKENB
| PUEN1_PUEN_VI1_CLK
| PUEN1_PUEN_VI0_DATA11
| PUEN1_PUEN_VI0_DATA10
| PUEN1_PUEN_VI0_DATA9
| PUEN1_PUEN_VI0_DATA8
| PUEN1_PUEN_VI0_DATA7
| PUEN1_PUEN_VI0_DATA6
| PUEN1_PUEN_VI0_DATA5
| PUEN1_PUEN_VI0_DATA4
| PUEN1_PUEN_VI0_DATA3
| PUEN1_PUEN_VI0_DATA2
| PUEN1_PUEN_VI0_DATA1);
pfc_reg_write(PFC_PUEN2,PUEN2_PUEN_CANFD_CLK
| PUEN2_PUEN_CANFD1_RX
| PUEN2_PUEN_CANFD1_TX
| PUEN2_PUEN_CANFD0_RX
| PUEN2_PUEN_CANFD0_TX
| PUEN2_PUEN_AVB0_AVTP_CAPTURE
| PUEN2_PUEN_AVB0_AVTP_MATCH
| PUEN2_PUEN_AVB0_LINK
| PUEN2_PUEN_AVB0_PHY_INT
| PUEN2_PUEN_AVB0_MAGIC
| PUEN2_PUEN_AVB0_TXCREFCLK
| PUEN2_PUEN_AVB0_TD3
| PUEN2_PUEN_AVB0_TD2
| PUEN2_PUEN_AVB0_TD1
| PUEN2_PUEN_AVB0_TD0
| PUEN2_PUEN_AVB0_TXC
| PUEN2_PUEN_AVB0_TX_CTL
| PUEN2_PUEN_AVB0_RD3
| PUEN2_PUEN_AVB0_RD2
| PUEN2_PUEN_AVB0_RD1
| PUEN2_PUEN_AVB0_RD0
| PUEN2_PUEN_AVB0_RXC
| PUEN2_PUEN_AVB0_RX_CTL
| PUEN2_PUEN_VI1_FIELD);
pfc_reg_write(PFC_PUEN3,PUEN3_PUEN_DIGRF_CLKOUT
| PUEN3_PUEN_DIGRF_CLKIN);
/* initialize PUD Control */
pfc_reg_write(PFC_PUD0,PUD0_PUD_VI0_CLK
| PUD0_PUD_IRQ0
| PUD0_PUD_FSCLKST_N
| PUD0_PUD_DU_EXODDF_DU_ODDF_DISP_CDE
| PUD0_PUD_DU_EXVSYNC_DU_VSYNC
| PUD0_PUD_DU_EXHSYNC_DU_HSYNC
| PUD0_PUD_DU_DOTCLKOUT
| PUD0_PUD_DU_DB7
| PUD0_PUD_DU_DB6
| PUD0_PUD_DU_DB5
| PUD0_PUD_DU_DB4
| PUD0_PUD_DU_DB3
| PUD0_PUD_DU_DB2
| PUD0_PUD_DU_DG7
| PUD0_PUD_DU_DG6
| PUD0_PUD_DU_DG5
| PUD0_PUD_DU_DG4
| PUD0_PUD_DU_DG3
| PUD0_PUD_DU_DG2
| PUD0_PUD_DU_DR7
| PUD0_PUD_DU_DR6
| PUD0_PUD_DU_DR5
| PUD0_PUD_DU_DR4
| PUD0_PUD_DU_DR3
| PUD0_PUD_DU_DR2);
pfc_reg_write(PFC_PUD1,PUD1_PUD_VI1_DATA11
| PUD1_PUD_VI1_DATA10
| PUD1_PUD_VI1_DATA9
| PUD1_PUD_VI1_DATA8
| PUD1_PUD_VI1_DATA7
| PUD1_PUD_VI1_DATA6
| PUD1_PUD_VI1_DATA5
| PUD1_PUD_VI1_DATA4
| PUD1_PUD_VI1_DATA3
| PUD1_PUD_VI1_DATA2
| PUD1_PUD_VI1_DATA1
| PUD1_PUD_VI1_DATA0
| PUD1_PUD_VI1_VSYNC_N
| PUD1_PUD_VI1_HSYNC_N
| PUD1_PUD_VI1_CLKENB
| PUD1_PUD_VI1_CLK
| PUD1_PUD_VI0_DATA11
| PUD1_PUD_VI0_DATA10
| PUD1_PUD_VI0_DATA9
| PUD1_PUD_VI0_DATA8
| PUD1_PUD_VI0_DATA7
| PUD1_PUD_VI0_DATA6
| PUD1_PUD_VI0_DATA5
| PUD1_PUD_VI0_DATA4
| PUD1_PUD_VI0_DATA3
| PUD1_PUD_VI0_DATA2
| PUD1_PUD_VI0_DATA1
| PUD1_PUD_VI0_DATA0
| PUD1_PUD_VI0_VSYNC_N
| PUD1_PUD_VI0_HSYNC_N
| PUD1_PUD_VI0_CLKENB);
pfc_reg_write(PFC_PUD2,PUD2_PUD_CANFD_CLK
| PUD2_PUD_CANFD1_RX
| PUD2_PUD_CANFD1_TX
| PUD2_PUD_CANFD0_RX
| PUD2_PUD_CANFD0_TX
| PUD2_PUD_AVB0_AVTP_CAPTURE
| PUD2_PUD_VI1_FIELD);
pfc_reg_write(PFC_PUD3,PUD3_PUD_DIGRF_CLKOUT
| PUD3_PUD_DIGRF_CLKIN);
/* initialize Module Select */
pfc_reg_write(PFC_MOD_SEL0,0x00000000);
// gpio
/* initialize positive/negative logic select */
mmio_write_32(GPIO_POSNEG0, 0x00000000U);
mmio_write_32(GPIO_POSNEG1, 0x00000000U);
mmio_write_32(GPIO_POSNEG2, 0x00000000U);
mmio_write_32(GPIO_POSNEG3, 0x00000000U);
mmio_write_32(GPIO_POSNEG4, 0x00000000U);
mmio_write_32(GPIO_POSNEG5, 0x00000000U);
/* initialize general IO/interrupt switching */
mmio_write_32(GPIO_IOINTSEL0, 0x00000000U);
mmio_write_32(GPIO_IOINTSEL1, 0x00000000U);
mmio_write_32(GPIO_IOINTSEL2, 0x00000000U);
mmio_write_32(GPIO_IOINTSEL3, 0x00000000U);
mmio_write_32(GPIO_IOINTSEL4, 0x00000000U);
mmio_write_32(GPIO_IOINTSEL5, 0x00000000U);
/* initialize general output register */
mmio_write_32(GPIO_OUTDT0, 0x00000000U);
mmio_write_32(GPIO_OUTDT1, 0x00000000U);
mmio_write_32(GPIO_OUTDT2, 0x00000000U);
mmio_write_32(GPIO_OUTDT3, 0x00000000U);
mmio_write_32(GPIO_OUTDT4, 0x00000000U);
mmio_write_32(GPIO_OUTDT5, 0x00000000U);
/* initialize general input/output switching */
mmio_write_32(GPIO_INOUTSEL0, 0x00000000U);
mmio_write_32(GPIO_INOUTSEL1, 0x00000000U);
mmio_write_32(GPIO_INOUTSEL2, 0x00000000U);
mmio_write_32(GPIO_INOUTSEL3, 0x00000000U);
mmio_write_32(GPIO_INOUTSEL4, 0x00000000U);
mmio_write_32(GPIO_INOUTSEL5, 0x00000000U);
}
/*
* Copyright (c) 2015-2017, Renesas Electronics Corporation
* All rights reserved.
*
* SPDX-License-Identifier: BSD-3-Clause
*/
#ifndef PFC_INIT_V3M_H__
#define PFC_INIT_V3M_H__
void pfc_init_v3m(void);
#endif /* PFC_INIT_V3M_H__ */
......@@ -9,6 +9,7 @@ ifeq (${RCAR_LSI},${RCAR_AUTO})
BL2_SOURCES += drivers/staging/renesas/rcar/pfc/H3/pfc_init_h3_v2.c
BL2_SOURCES += drivers/staging/renesas/rcar/pfc/M3/pfc_init_m3.c
BL2_SOURCES += drivers/staging/renesas/rcar/pfc/M3N/pfc_init_m3n.c
BL2_SOURCES += drivers/staging/renesas/rcar/pfc/V3M/pfc_init_v3m.c
else ifdef RCAR_LSI_CUT_COMPAT
ifeq (${RCAR_LSI},${RCAR_H3})
......@@ -25,6 +26,9 @@ else ifdef RCAR_LSI_CUT_COMPAT
ifeq (${RCAR_LSI},${RCAR_M3N})
BL2_SOURCES += drivers/staging/renesas/rcar/pfc/M3N/pfc_init_m3n.c
endif
ifeq (${RCAR_LSI},${RCAR_V3M})
BL2_SOURCES += drivers/staging/renesas/rcar/pfc/V3M/pfc_init_v3m.c
endif
ifeq (${RCAR_LSI},${RCAR_E3})
BL2_SOURCES += drivers/staging/renesas/rcar/pfc/E3/pfc_init_e3.c
endif
......@@ -51,6 +55,9 @@ else
ifeq (${RCAR_LSI},${RCAR_M3N})
BL2_SOURCES += drivers/staging/renesas/rcar/pfc/M3N/pfc_init_m3n.c
endif
ifeq (${RCAR_LSI},${RCAR_V3M})
BL2_SOURCES += drivers/staging/renesas/rcar/pfc/V3M/pfc_init_v3m.c
endif
ifeq (${RCAR_LSI},${RCAR_E3})
BL2_SOURCES += drivers/staging/renesas/rcar/pfc/E3/pfc_init_e3.c
endif
......
......@@ -15,6 +15,7 @@
#include "H3/pfc_init_h3_v2.h"
#include "M3/pfc_init_m3.h"
#include "M3N/pfc_init_m3n.h"
#include "V3M/pfc_init_v3m.h"
#endif
#if (RCAR_LSI == RCAR_H3) || (RCAR_LSI == RCAR_H3N) /* H3 */
#include "H3/pfc_init_h3_v1.h"
......@@ -26,6 +27,9 @@
#if RCAR_LSI == RCAR_M3N /* M3N */
#include "M3N/pfc_init_m3n.h"
#endif
#if RCAR_LSI == RCAR_V3M /* V3M */
#include "V3M/pfc_init_v3m.h"
#endif
#if RCAR_LSI == RCAR_E3 /* E3 */
#include "E3/pfc_init_e3.h"
#endif
......@@ -39,6 +43,7 @@
#define PRR_CUT_MASK (0x000000FFU)
#define PRR_PRODUCT_H3 (0x00004F00U) /* R-Car H3 */
#define PRR_PRODUCT_M3 (0x00005200U) /* R-Car M3 */
#define PRR_PRODUCT_V3M (0x00005400U) /* R-Car V3M */
#define PRR_PRODUCT_M3N (0x00005500U) /* R-Car M3N */
#define PRR_PRODUCT_E3 (0x00005700U) /* R-Car E3 */
#define PRR_PRODUCT_D3 (0x00005800U) /* R-Car D3 */
......@@ -83,6 +88,9 @@ void rcar_pfc_init(void)
case RCAR_PRODUCT_M3N:
pfc_init_m3n();
break;
case RCAR_PRODUCT_V3M:
pfc_init_v3m();
break;
default:
PRR_PRODUCT_ERR(reg);
break;
......@@ -119,6 +127,13 @@ void rcar_pfc_init(void)
PRR_PRODUCT_ERR(reg);
#else
pfc_init_m3n();
#endif
break;
case PRR_PRODUCT_V3M:
#if RCAR_LSI != RCAR_V3M
PRR_PRODUCT_ERR(reg);
#else
pfc_init_v3m();
#endif
break;
case PRR_PRODUCT_E3:
......@@ -173,6 +188,11 @@ void rcar_pfc_init(void)
PRR_PRODUCT_ERR(reg);
}
pfc_init_m3n();
#elif RCAR_LSI == RCAR_V3M /* V3M */
if ((PRR_PRODUCT_V3M) != (reg & PRR_PRODUCT_MASK)) {
PRR_PRODUCT_ERR(reg);
}
pfc_init_v3m();
#elif RCAR_LSI == RCAR_E3 /* E3 */
if ((PRR_PRODUCT_E3) != (reg & PRR_PRODUCT_MASK)) {
PRR_PRODUCT_ERR(reg);
......
/*
* Copyright (c) 2015-2017, Renesas Electronics Corporation
* All rights reserved.
*
* SPDX-License-Identifier: BSD-3-Clause
*/
#include <stdint.h>
#include <common/debug.h>
#include "qos_init_v3m.h"
#define RCAR_QOS_VERSION "rev.0.01"
#define RCAR_QOS_NONE (3U)
#define RCAR_QOS_TYPE_DEFAULT (0U)
#define RCAR_DRAM_SPLIT_LINEAR (0U)
#define RCAR_DRAM_SPLIT_4CH (1U)
#define RCAR_DRAM_SPLIT_2CH (2U)
#define DBSC_BASE (0xE6790000U)
#define DBSC_AXARB (DBSC_BASE + 0x0800U)
#define DBSC_DBCAM0CNF0 (DBSC_BASE + 0x0900U)
#define DBSC_DBCAM0CNF1 (DBSC_BASE + 0x0904U)
#define DBSC_DBCAM0CNF2 (DBSC_BASE + 0x0908U)
#define DBSC_DBCAM0CNF3 (DBSC_BASE + 0x090CU)
#define DBSC_DBCAMDIS (DBSC_BASE + 0x09fCU)
#define DBSC_DBSCHCNT0 (DBSC_BASE + 0x1000U)
#define DBSC_DBSCHCNT1 (DBSC_BASE + 0x1004U)
#define DBSC_DBSCHSZ0 (DBSC_BASE + 0x1010U)
#define DBSC_DBSCHRW0 (DBSC_BASE + 0x1020U)
#define DBSC_DBSCHRW1 (DBSC_BASE + 0x1024U)
#define DBSC_DBSCHQOS_0_0 (DBSC_BASE + 0x1030U)
#define DBSC_DBSCHQOS_0_1 (DBSC_BASE + 0x1034U)
#define DBSC_DBSCHQOS_0_2 (DBSC_BASE + 0x1038U)
#define DBSC_DBSCHQOS_0_3 (DBSC_BASE + 0x103CU)
#define DBSC_DBSCHQOS_1_0 (DBSC_BASE + 0x1040U)
#define DBSC_DBSCHQOS_1_1 (DBSC_BASE + 0x1044U)
#define DBSC_DBSCHQOS_1_2 (DBSC_BASE + 0x1048U)
#define DBSC_DBSCHQOS_1_3 (DBSC_BASE + 0x104CU)
#define DBSC_DBSCHQOS_2_0 (DBSC_BASE + 0x1050U)
#define DBSC_DBSCHQOS_2_1 (DBSC_BASE + 0x1054U)
#define DBSC_DBSCHQOS_2_2 (DBSC_BASE + 0x1058U)
#define DBSC_DBSCHQOS_2_3 (DBSC_BASE + 0x105CU)
#define DBSC_DBSCHQOS_3_0 (DBSC_BASE + 0x1060U)
#define DBSC_DBSCHQOS_3_1 (DBSC_BASE + 0x1064U)
#define DBSC_DBSCHQOS_3_2 (DBSC_BASE + 0x1068U)
#define DBSC_DBSCHQOS_3_3 (DBSC_BASE + 0x106CU)
#define DBSC_DBSCHQOS_4_0 (DBSC_BASE + 0x1070U)
#define DBSC_DBSCHQOS_4_1 (DBSC_BASE + 0x1074U)
#define DBSC_DBSCHQOS_4_2 (DBSC_BASE + 0x1078U)
#define DBSC_DBSCHQOS_4_3 (DBSC_BASE + 0x107CU)
#define DBSC_DBSCHQOS_5_0 (DBSC_BASE + 0x1080U)
#define DBSC_DBSCHQOS_5_1 (DBSC_BASE + 0x1084U)
#define DBSC_DBSCHQOS_5_2 (DBSC_BASE + 0x1088U)
#define DBSC_DBSCHQOS_5_3 (DBSC_BASE + 0x108CU)
#define DBSC_DBSCHQOS_6_0 (DBSC_BASE + 0x1090U)
#define DBSC_DBSCHQOS_6_1 (DBSC_BASE + 0x1094U)
#define DBSC_DBSCHQOS_6_2 (DBSC_BASE + 0x1098U)
#define DBSC_DBSCHQOS_6_3 (DBSC_BASE + 0x109CU)
#define DBSC_DBSCHQOS_7_0 (DBSC_BASE + 0x10A0U)
#define DBSC_DBSCHQOS_7_1 (DBSC_BASE + 0x10A4U)
#define DBSC_DBSCHQOS_7_2 (DBSC_BASE + 0x10A8U)
#define DBSC_DBSCHQOS_7_3 (DBSC_BASE + 0x10ACU)
#define DBSC_DBSCHQOS_8_0 (DBSC_BASE + 0x10B0U)
#define DBSC_DBSCHQOS_8_1 (DBSC_BASE + 0x10B4U)
#define DBSC_DBSCHQOS_8_2 (DBSC_BASE + 0x10B8U)
#define DBSC_DBSCHQOS_8_3 (DBSC_BASE + 0x10BCU)
#define DBSC_DBSCHQOS_9_0 (DBSC_BASE + 0x10C0U)
#define DBSC_DBSCHQOS_9_1 (DBSC_BASE + 0x10C4U)
#define DBSC_DBSCHQOS_9_2 (DBSC_BASE + 0x10C8U)
#define DBSC_DBSCHQOS_9_3 (DBSC_BASE + 0x10CCU)
#define DBSC_DBSCHQOS_10_0 (DBSC_BASE + 0x10D0U)
#define DBSC_DBSCHQOS_10_1 (DBSC_BASE + 0x10D4U)
#define DBSC_DBSCHQOS_10_2 (DBSC_BASE + 0x10D8U)
#define DBSC_DBSCHQOS_10_3 (DBSC_BASE + 0x10DCU)
#define DBSC_DBSCHQOS_11_0 (DBSC_BASE + 0x10E0U)
#define DBSC_DBSCHQOS_11_1 (DBSC_BASE + 0x10E4U)
#define DBSC_DBSCHQOS_11_2 (DBSC_BASE + 0x10E8U)
#define DBSC_DBSCHQOS_11_3 (DBSC_BASE + 0x10ECU)
#define DBSC_DBSCHQOS_12_0 (DBSC_BASE + 0x10F0U)
#define DBSC_DBSCHQOS_12_1 (DBSC_BASE + 0x10F4U)
#define DBSC_DBSCHQOS_12_2 (DBSC_BASE + 0x10F8U)
#define DBSC_DBSCHQOS_12_3 (DBSC_BASE + 0x10FCU)
#define DBSC_DBSCHQOS_13_0 (DBSC_BASE + 0x1100U)
#define DBSC_DBSCHQOS_13_1 (DBSC_BASE + 0x1104U)
#define DBSC_DBSCHQOS_13_2 (DBSC_BASE + 0x1108U)
#define DBSC_DBSCHQOS_13_3 (DBSC_BASE + 0x110CU)
#define DBSC_DBSCHQOS_14_0 (DBSC_BASE + 0x1110U)
#define DBSC_DBSCHQOS_14_1 (DBSC_BASE + 0x1114U)
#define DBSC_DBSCHQOS_14_2 (DBSC_BASE + 0x1118U)
#define DBSC_DBSCHQOS_14_3 (DBSC_BASE + 0x111CU)
#define DBSC_DBSCHQOS_15_0 (DBSC_BASE + 0x1120U)
#define DBSC_DBSCHQOS_15_1 (DBSC_BASE + 0x1124U)
#define DBSC_DBSCHQOS_15_2 (DBSC_BASE + 0x1128U)
#define DBSC_DBSCHQOS_15_3 (DBSC_BASE + 0x112CU)
#define DBSC_SCFCTST0 (DBSC_BASE + 0x1700U)
#define DBSC_SCFCTST1 (DBSC_BASE + 0x1708U)
#define DBSC_SCFCTST2 (DBSC_BASE + 0x170CU)
#define AXI_BASE (0xE6784000U)
#define AXI_ADSPLCR0 (AXI_BASE + 0x0008U)
#define AXI_ADSPLCR1 (AXI_BASE + 0x000CU)
#define AXI_ADSPLCR2 (AXI_BASE + 0x0010U)
#define AXI_ADSPLCR3 (AXI_BASE + 0x0014U)
#define ADSPLCR0_ADRMODE_DEFAULT ((uint32_t)0U << 31U)
#define ADSPLCR0_ADRMODE_GEN2 ((uint32_t)1U << 31U)
#define ADSPLCR0_SPLITSEL(x) ((uint32_t)(x) << 16U)
#define ADSPLCR0_AREA(x) ((uint32_t)(x) << 8U)
#define ADSPLCR0_SWP (0x0CU)
#define MSTAT_BASE (0xE67E0000U)
#define MSTAT_FIX_QOS_BANK0 (MSTAT_BASE + 0x0000U)
#define MSTAT_FIX_QOS_BANK1 (MSTAT_BASE + 0x1000U)
#define MSTAT_BE_QOS_BANK0 (MSTAT_BASE + 0x2000U)
#define MSTAT_BE_QOS_BANK1 (MSTAT_BASE + 0x3000U)
#define MSTAT_SL_INIT (MSTAT_BASE + 0x8000U)
#define MSTAT_REF_ARS (MSTAT_BASE + 0x8004U)
#define MSTAT_STATQC (MSTAT_BASE + 0x8008U)
#define RALLOC_BASE (0xE67F0000U)
#define RALLOC_RAS (RALLOC_BASE + 0x0000U)
#define RALLOC_FIXTH (RALLOC_BASE + 0x0004U)
#define RALLOC_RAEN (RALLOC_BASE + 0x0018U)
#define RALLOC_REGGD (RALLOC_BASE + 0x0020U)
#define RALLOC_DANN (RALLOC_BASE + 0x0030U)
#define RALLOC_DANT (RALLOC_BASE + 0x0038U)
#define RALLOC_EC (RALLOC_BASE + 0x003CU)
#define RALLOC_EMS (RALLOC_BASE + 0x0040U)
#define RALLOC_INSFC (RALLOC_BASE + 0x0050U)
#define RALLOC_BERR (RALLOC_BASE + 0x0054U)
#define RALLOC_RACNT0 (RALLOC_BASE + 0x0080U)
#define ARRAY_SIZE(a) (sizeof(a) / sizeof((a)[0]))
static inline void io_write_32(uintptr_t addr, uint32_t value)
{
*(volatile uint32_t*)addr = value;
}
static inline void io_write_64(uintptr_t addr, uint64_t value)
{
*(volatile uint64_t*)addr = value;
}
typedef struct {
uintptr_t addr;
uint64_t value;
} mstat_slot_t;
#if RCAR_QOS_TYPE == RCAR_QOS_TYPE_DEFAULT
static const mstat_slot_t mstat_fix[] = {
{0x0000U, 0x000000000000FFFFU},
{0x0008U, 0x000000000000FFFFU},
{0x0010U, 0x000000000000FFFFU},
{0x0018U, 0x000000000000FFFFU},
{0x0020U, 0x001414090000FFFFU},
{0x0028U, 0x000C00000000FFFFU},
{0x0030U, 0x001008040000FFFFU},
{0x0038U, 0x001004040000FFFFU},
{0x0040U, 0x001004040000FFFFU},
{0x0048U, 0x000000000000FFFFU},
{0x0050U, 0x001004040000FFFFU},
{0x0058U, 0x001004040000FFFFU},
{0x0060U, 0x000000000000FFFFU},
{0x0068U, 0x001404040000FFFFU},
{0x0070U, 0x001008030000FFFFU},
{0x0078U, 0x001004030000FFFFU},
{0x0080U, 0x001004030000FFFFU},
{0x0088U, 0x000000000000FFFFU},
{0x0090U, 0x001004040000FFFFU},
{0x0098U, 0x001004040000FFFFU},
{0x00A0U, 0x000000000000FFFFU},
{0x00A8U, 0x000000000000FFFFU},
{0x00B0U, 0x000000000000FFFFU},
{0x00B8U, 0x000000000000FFFFU},
{0x00C0U, 0x000000000000FFFFU},
{0x00C8U, 0x000000000000FFFFU},
{0x00D0U, 0x000000000000FFFFU},
{0x00D8U, 0x000000000000FFFFU},
{0x00E0U, 0x001404020000FFFFU},
{0x00E8U, 0x000000000000FFFFU},
{0x00F0U, 0x000000000000FFFFU},
{0x00F8U, 0x000000000000FFFFU},
{0x0100U, 0x000000000000FFFFU},
{0x0108U, 0x000C04020000FFFFU},
{0x0110U, 0x000000000000FFFFU},
{0x0118U, 0x001404020000FFFFU},
{0x0120U, 0x000000000000FFFFU},
{0x0128U, 0x000000000000FFFFU},
{0x0130U, 0x000000000000FFFFU},
{0x0138U, 0x000000000000FFFFU},
{0x0140U, 0x000000000000FFFFU},
{0x0148U, 0x000000000000FFFFU},
};
static const mstat_slot_t mstat_be[] = {
{0x0000U, 0x00100020447FFC01U},
{0x0008U, 0x00100020447FFC01U},
{0x0010U, 0x00100040447FFC01U},
{0x0018U, 0x00100040447FFC01U},
{0x0020U, 0x0000000000000000U},
{0x0028U, 0x0000000000000000U},
{0x0030U, 0x0000000000000000U},
{0x0038U, 0x0000000000000000U},
{0x0040U, 0x0000000000000000U},
{0x0048U, 0x0000000000000000U},
{0x0050U, 0x0000000000000000U},
{0x0058U, 0x0000000000000000U},
{0x0060U, 0x0000000000000000U},
{0x0068U, 0x0000000000000000U},
{0x0070U, 0x0000000000000000U},
{0x0078U, 0x0000000000000000U},
{0x0080U, 0x0000000000000000U},
{0x0088U, 0x0000000000000000U},
{0x0090U, 0x0000000000000000U},
{0x0098U, 0x0000000000000000U},
{0x00A0U, 0x00100010447FFC01U},
{0x00A8U, 0x00100010447FFC01U},
{0x00B0U, 0x00100010447FFC01U},
{0x00B8U, 0x00100010447FFC01U},
{0x00C0U, 0x00100010447FFC01U},
{0x00C8U, 0x00100010447FFC01U},
{0x00D0U, 0x0000000000000000U},
{0x00D8U, 0x00100010447FFC01U},
{0x00E0U, 0x0000000000000000U},
{0x00E8U, 0x00100010447FFC01U},
{0x00F0U, 0x00100010447FFC01U},
{0x00F8U, 0x00100010447FFC01U},
{0x0100U, 0x00100010447FFC01U},
{0x0108U, 0x0000000000000000U},
{0x0110U, 0x00100010447FFC01U},
{0x0118U, 0x0000000000000000U},
{0x0120U, 0x00100010447FFC01U},
{0x0128U, 0x00100010447FFC01U},
{0x0130U, 0x00100010447FFC01U},
{0x0138U, 0x00100010447FFC01U},
{0x0140U, 0x00100020447FFC01U},
{0x0148U, 0x00100020447FFC01U},
};
#endif
static void dbsc_setting(void)
{
/* BUFCAM settings */
//DBSC_DBCAM0CNF0 not set
io_write_32(DBSC_DBCAM0CNF1, 0x00044218); //dbcam0cnf1
io_write_32(DBSC_DBCAM0CNF2, 0x000000F4); //dbcam0cnf2
//io_write_32(DBSC_DBCAM0CNF3, 0x00000007); //dbcam0cnf3
io_write_32(DBSC_DBSCHCNT0, 0x080F003F); //dbschcnt0
io_write_32(DBSC_DBSCHCNT1, 0x00001010); //dbschcnt0
io_write_32(DBSC_DBSCHSZ0, 0x00000001); //dbschsz0
io_write_32(DBSC_DBSCHRW0, 0x22421111); //dbschrw0
io_write_32(DBSC_DBSCHRW1, 0x00180034); //dbschrw1
io_write_32(DBSC_SCFCTST0,0x180B1708);
io_write_32(DBSC_SCFCTST1,0x0808070C);
io_write_32(DBSC_SCFCTST2,0x012F1123);
/* QoS Settings */
io_write_32(DBSC_DBSCHQOS_0_0, 0x0000F000);
io_write_32(DBSC_DBSCHQOS_0_1, 0x0000E000);
io_write_32(DBSC_DBSCHQOS_0_2, 0x00007000);
io_write_32(DBSC_DBSCHQOS_0_3, 0x00000000);
//DBSC_DBSCHQOS_1_0 not set
//DBSC_DBSCHQOS_1_1 not set
//DBSC_DBSCHQOS_1_2 not set
//DBSC_DBSCHQOS_1_3 not set
//DBSC_DBSCHQOS_2_0 not set
//DBSC_DBSCHQOS_2_1 not set
//DBSC_DBSCHQOS_2_2 not set
//DBSC_DBSCHQOS_2_3 not set
//DBSC_DBSCHQOS_3_0 not set
//DBSC_DBSCHQOS_3_1 not set
//DBSC_DBSCHQOS_3_2 not set
//DBSC_DBSCHQOS_3_3 not set
io_write_32(DBSC_DBSCHQOS_4_0, 0x0000F000);
io_write_32(DBSC_DBSCHQOS_4_1, 0x0000EFFF);
io_write_32(DBSC_DBSCHQOS_4_2, 0x0000B000);
io_write_32(DBSC_DBSCHQOS_4_3, 0x00000000);
//DBSC_DBSCHQOS_5_0 not set
//DBSC_DBSCHQOS_5_1 not set
//DBSC_DBSCHQOS_5_2 not set
//DBSC_DBSCHQOS_5_3 not set
//DBSC_DBSCHQOS_6_0 not set
//DBSC_DBSCHQOS_6_1 not set
//DBSC_DBSCHQOS_6_2 not set
//DBSC_DBSCHQOS_6_3 not set
//DBSC_DBSCHQOS_7_0 not set
//DBSC_DBSCHQOS_7_1 not set
//DBSC_DBSCHQOS_7_2 not set
//DBSC_DBSCHQOS_7_3 not set
//DBSC_DBSCHQOS_8_0 not set
//DBSC_DBSCHQOS_8_1 not set
//DBSC_DBSCHQOS_8_2 not set
//DBSC_DBSCHQOS_8_3 not set
io_write_32(DBSC_DBSCHQOS_9_0, 0x0000F000);
io_write_32(DBSC_DBSCHQOS_9_1, 0x0000EFFF);
io_write_32(DBSC_DBSCHQOS_9_2, 0x0000D000);
io_write_32(DBSC_DBSCHQOS_9_3, 0x00000000);
//DBSC_DBSCHQOS_10_0 not set
//DBSC_DBSCHQOS_10_1 not set
//DBSC_DBSCHQOS_10_2 not set
//DBSC_DBSCHQOS_10_3 not set
//DBSC_DBSCHQOS_11_0 not set
//DBSC_DBSCHQOS_11_1 not set
//DBSC_DBSCHQOS_11_2 not set
//DBSC_DBSCHQOS_11_3 not set
//DBSC_DBSCHQOS_12_0 not set
//DBSC_DBSCHQOS_12_1 not set
//DBSC_DBSCHQOS_12_2 not set
//DBSC_DBSCHQOS_12_3 not set
io_write_32(DBSC_DBSCHQOS_13_0, 0x0000F000);
io_write_32(DBSC_DBSCHQOS_13_1, 0x0000EFFF);
io_write_32(DBSC_DBSCHQOS_13_2, 0x0000E800);
io_write_32(DBSC_DBSCHQOS_13_3, 0x00007000);
io_write_32(DBSC_DBSCHQOS_14_0, 0x0000F000);
io_write_32(DBSC_DBSCHQOS_14_1, 0x0000EFFF);
io_write_32(DBSC_DBSCHQOS_14_2, 0x0000E800);
io_write_32(DBSC_DBSCHQOS_14_3, 0x0000B000);
io_write_32(DBSC_DBSCHQOS_15_0, 0x000007D0);
io_write_32(DBSC_DBSCHQOS_15_1, 0x000007CF);
io_write_32(DBSC_DBSCHQOS_15_2, 0x000005D0);
io_write_32(DBSC_DBSCHQOS_15_3, 0x000003D0);
}
void qos_init_v3m(void)
{
return;
dbsc_setting();
#if !(RCAR_QOS_TYPE == RCAR_QOS_NONE)
#if RCAR_QOS_TYPE == RCAR_QOS_TYPE_DEFAULT
NOTICE("BL2: QoS is default setting(%s)\n", RCAR_QOS_VERSION);
#endif
/* Resource Alloc setting */
io_write_32(RALLOC_RAS, 0x00000020U);
io_write_32(RALLOC_FIXTH, 0x000F0005U);
io_write_32(RALLOC_REGGD, 0x00000004U);
io_write_64(RALLOC_DANN, 0x0202020104040200U);
io_write_32(RALLOC_DANT, 0x00201008U);
io_write_32(RALLOC_EC, 0x00080001U); /* need for H3 ES1 */
io_write_64(RALLOC_EMS, 0x0000000000000000U);
io_write_32(RALLOC_INSFC, 0x63C20001U);
io_write_32(RALLOC_BERR, 0x00000000U);
/* MSTAT setting */
io_write_32(MSTAT_SL_INIT, 0x0305007DU);
io_write_32(MSTAT_REF_ARS, 0x00330000U);
/* MSTAT SRAM setting */
{
uint32_t i;
for (i = 0U; i < ARRAY_SIZE(mstat_fix); i++) {
io_write_64(MSTAT_FIX_QOS_BANK0 + mstat_fix[i].addr,
mstat_fix[i].value);
io_write_64(MSTAT_FIX_QOS_BANK1 + mstat_fix[i].addr,
mstat_fix[i].value);
}
for (i = 0U; i < ARRAY_SIZE(mstat_be); i++) {
io_write_64(MSTAT_BE_QOS_BANK0 + mstat_be[i].addr,
mstat_be[i].value);
io_write_64(MSTAT_BE_QOS_BANK1 + mstat_be[i].addr,
mstat_be[i].value);
}
}
/* AXI-IF arbitration setting */
io_write_32(DBSC_AXARB, 0x18010000U);
/* Resource Alloc start */
io_write_32(RALLOC_RAEN, 0x00000001U);
/* MSTAT start */
io_write_32(MSTAT_STATQC, 0x00000001U);
#else
NOTICE("BL2: QoS is None\n");
#endif /* !(RCAR_QOS_TYPE == RCAR_QOS_NONE) */
}
/*
* Copyright (c) 2015-2017, Renesas Electronics Corporation
* All rights reserved.
*
* SPDX-License-Identifier: BSD-3-Clause
*/
#ifndef QOS_INIT_H_V3M__
#define QOS_INIT_H_V3M__
void qos_init_v3m(void);
#endif /* QOS_INIT_H_V3M__ */
......@@ -14,6 +14,7 @@ ifeq (${RCAR_LSI},${RCAR_AUTO})
BL2_SOURCES += drivers/staging/renesas/rcar/qos/M3/qos_init_m3_v11.c
BL2_SOURCES += drivers/staging/renesas/rcar/qos/M3/qos_init_m3_v30.c
BL2_SOURCES += drivers/staging/renesas/rcar/qos/M3N/qos_init_m3n_v10.c
BL2_SOURCES += drivers/staging/renesas/rcar/qos/V3M/qos_init_v3m.c
else ifdef RCAR_LSI_CUT_COMPAT
ifeq (${RCAR_LSI},${RCAR_H3})
BL2_SOURCES += drivers/staging/renesas/rcar/qos/H3/qos_init_h3_v10.c
......@@ -32,6 +33,9 @@ else ifdef RCAR_LSI_CUT_COMPAT
ifeq (${RCAR_LSI},${RCAR_M3N})
BL2_SOURCES += drivers/staging/renesas/rcar/qos/M3N/qos_init_m3n_v10.c
endif
ifeq (${RCAR_LSI},${RCAR_V3M})
BL2_SOURCES += drivers/staging/renesas/rcar/qos/V3M/qos_init_v3m.c
endif
ifeq (${RCAR_LSI},${RCAR_E3})
BL2_SOURCES += drivers/staging/renesas/rcar/qos/E3/qos_init_e3_v10.c
endif
......@@ -83,6 +87,9 @@ else
BL2_SOURCES += drivers/staging/renesas/rcar/qos/M3N/qos_init_m3n_v10.c
endif
endif
ifeq (${RCAR_LSI},${RCAR_V3M})
BL2_SOURCES += drivers/staging/renesas/rcar/qos/V3M/qos_init_v3m.c
endif
ifeq (${RCAR_LSI},${RCAR_E3})
ifeq (${LSI_CUT},10)
BL2_SOURCES += drivers/staging/renesas/rcar/qos/E3/qos_init_e3_v10.c
......
......@@ -20,6 +20,7 @@
#include "M3/qos_init_m3_v11.h"
#include "M3/qos_init_m3_v30.h"
#include "M3N/qos_init_m3n_v10.h"
#include "V3M/qos_init_v3m.h"
#endif
#if RCAR_LSI == RCAR_H3 /* H3 */
#include "H3/qos_init_h3_v10.h"
......@@ -38,6 +39,9 @@
#if RCAR_LSI == RCAR_M3N /* M3N */
#include "M3N/qos_init_m3n_v10.h"
#endif
#if RCAR_LSI == RCAR_V3M /* V3M */
#include "V3M/qos_init_v3m.h"
#endif
#if RCAR_LSI == RCAR_E3 /* E3 */
#include "E3/qos_init_e3_v10.h"
#endif
......@@ -51,6 +55,7 @@
#define PRR_CUT_MASK (0x000000FFU)
#define PRR_PRODUCT_H3 (0x00004F00U) /* R-Car H3 */
#define PRR_PRODUCT_M3 (0x00005200U) /* R-Car M3 */
#define PRR_PRODUCT_V3M (0x00005400U) /* R-Car V3M */
#define PRR_PRODUCT_M3N (0x00005500U) /* R-Car M3N */
#define PRR_PRODUCT_E3 (0x00005700U) /* R-Car E3 */
#define PRR_PRODUCT_D3 (0x00005800U) /* R-Car D3 */
......@@ -60,7 +65,7 @@
#define PRR_PRODUCT_21 (0x11U)
#define PRR_PRODUCT_30 (0x20U)
#if (RCAR_LSI != RCAR_E3) && (RCAR_LSI != RCAR_D3)
#if (RCAR_LSI != RCAR_E3) && (RCAR_LSI != RCAR_D3) && (RCAR_LSI != RCAR_V3M)
#define DRAM_CH_CNT 0x04
uint32_t qos_init_ddr_ch;
......@@ -85,7 +90,7 @@ uint8_t qos_init_ddr_phyvalid;
void rcar_qos_init(void)
{
uint32_t reg;
#if (RCAR_LSI != RCAR_E3) && (RCAR_LSI != RCAR_D3)
#if (RCAR_LSI != RCAR_E3) && (RCAR_LSI != RCAR_D3) && (RCAR_LSI != RCAR_V3M)
uint32_t i;
qos_init_ddr_ch = 0;
......@@ -156,6 +161,19 @@ void rcar_qos_init(void)
}
#else
PRR_PRODUCT_ERR(reg);
#endif
break;
case PRR_PRODUCT_V3M:
#if (RCAR_LSI == RCAR_AUTO) || (RCAR_LSI == RCAR_V3M)
switch (reg & PRR_CUT_MASK) {
case PRR_PRODUCT_10:
case PRR_PRODUCT_20:
default:
qos_init_v3m();
break;
}
#else
PRR_PRODUCT_ERR(reg);
#endif
break;
case PRR_PRODUCT_E3:
......@@ -261,6 +279,13 @@ void rcar_qos_init(void)
PRR_PRODUCT_ERR(reg);
}
qos_init_m3n_v10();
#elif RCAR_LSI == RCAR_V3M /* V3M */
/* V3M Cut 10 or later */
if ((PRR_PRODUCT_V3M)
!= (reg & (PRR_PRODUCT_MASK))) {
PRR_PRODUCT_ERR(reg);
}
qos_init_v3m();
#elif RCAR_LSI == RCAR_D3 /* D3 */
/* D3 Cut 10 or later */
if ((PRR_PRODUCT_D3)
......@@ -281,7 +306,7 @@ void rcar_qos_init(void)
#endif
}
#if (RCAR_LSI != RCAR_E3) && (RCAR_LSI != RCAR_D3)
#if (RCAR_LSI != RCAR_E3) && (RCAR_LSI != RCAR_D3) && (RCAR_LSI != RCAR_V3M)
uint32_t get_refperiod(void)
{
uint32_t refperiod = QOSWT_WTSET0_CYCLE;
......
......@@ -28,6 +28,11 @@ static void bl2_realtime_cpg_init_m3n(void);
static void bl2_system_cpg_init_m3n(void);
#endif
#if (RCAR_LSI == RCAR_AUTO) || (RCAR_LSI == RCAR_V3M)
static void bl2_realtime_cpg_init_v3m(void);
static void bl2_system_cpg_init_v3m(void);
#endif
#if (RCAR_LSI == RCAR_AUTO) || (RCAR_LSI == RCAR_E3)
static void bl2_realtime_cpg_init_e3(void);
static void bl2_system_cpg_init_e3(void);
......@@ -216,6 +221,38 @@ static void bl2_system_cpg_init_m3n(void)
}
#endif
#if (RCAR_LSI == RCAR_AUTO) || (RCAR_LSI == RCAR_V3M)
static void bl2_realtime_cpg_init_v3m(void)
{
/* Realtime Module Stop Control Registers */
cpg_write(RMSTPCR0, 0x00230000U);
cpg_write(RMSTPCR1, 0xFFFFFFFFU);
cpg_write(RMSTPCR2, 0x14062FD8U);
cpg_write(RMSTPCR3, 0xFFFFFFDFU);
cpg_write(RMSTPCR4, 0x80000184U);
cpg_write(RMSTPCR5, 0x83FFFFFFU);
cpg_write(RMSTPCR6, 0xFFFFFFFFU);
cpg_write(RMSTPCR7, 0xFFFFFFFFU);
cpg_write(RMSTPCR8, 0x7FF3FFF4U);
cpg_write(RMSTPCR9, 0xFFFFFFFEU);
}
static void bl2_system_cpg_init_v3m(void)
{
/* System Module Stop Control Registers */
cpg_write(SMSTPCR0, 0x00210000U);
cpg_write(SMSTPCR1, 0xFFFFFFFFU);
cpg_write(SMSTPCR2, 0x340E2FDCU);
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, 0xFFFFFFFEU);
}
#endif
#if (RCAR_LSI == RCAR_AUTO) || (RCAR_LSI == RCAR_E3)
static void bl2_realtime_cpg_init_e3(void)
{
......@@ -310,6 +347,9 @@ void bl2_cpg_init(void)
case RCAR_PRODUCT_M3N:
bl2_realtime_cpg_init_m3n();
break;
case RCAR_PRODUCT_V3M:
bl2_realtime_cpg_init_v3m();
break;
case RCAR_PRODUCT_E3:
bl2_realtime_cpg_init_e3();
break;
......@@ -326,6 +366,8 @@ void bl2_cpg_init(void)
bl2_realtime_cpg_init_m3();
#elif RCAR_LSI == RCAR_M3N
bl2_realtime_cpg_init_m3n();
#elif RCAR_LSI == RCAR_V3M
bl2_realtime_cpg_init_v3m();
#elif RCAR_LSI == RCAR_E3
bl2_realtime_cpg_init_e3();
#elif RCAR_LSI == RCAR_D3
......@@ -351,6 +393,9 @@ void bl2_system_cpg_init(void)
case RCAR_PRODUCT_M3N:
bl2_system_cpg_init_m3n();
break;
case RCAR_PRODUCT_V3M:
bl2_system_cpg_init_v3m();
break;
case RCAR_PRODUCT_E3:
bl2_system_cpg_init_e3();
break;
......@@ -367,6 +412,8 @@ void bl2_system_cpg_init(void)
bl2_system_cpg_init_m3();
#elif RCAR_LSI == RCAR_M3N
bl2_system_cpg_init_m3n();
#elif RCAR_LSI == RCAR_V3M
bl2_system_cpg_init_v3m();
#elif RCAR_LSI == RCAR_E3
bl2_system_cpg_init_e3();
#elif RCAR_LSI == RCAR_D3
......
......@@ -73,6 +73,9 @@ static void bl2_init_generic_timer(void);
#elif RCAR_LSI == RCAR_M3N
#define TARGET_PRODUCT RCAR_PRODUCT_M3N
#define TARGET_NAME "R-Car M3N"
#elif RCAR_LSI == RCAR_V3M
#define TARGET_PRODUCT RCAR_PRODUCT_V3M
#define TARGET_NAME "R-Car V3M"
#elif RCAR_LSI == RCAR_E3
#define TARGET_PRODUCT RCAR_PRODUCT_E3
#define TARGET_NAME "R-Car E3"
......@@ -80,7 +83,7 @@ static void bl2_init_generic_timer(void);
#define TARGET_PRODUCT RCAR_PRODUCT_D3
#define TARGET_NAME "R-Car D3"
#elif RCAR_LSI == RCAR_AUTO
#define TARGET_NAME "R-Car H3/M3/M3N"
#define TARGET_NAME "R-Car H3/M3/M3N/V3M"
#endif
#if (RCAR_LSI == RCAR_E3)
......@@ -431,6 +434,10 @@ static void bl2_populate_compatible_string(void *fdt)
ret = fdt_setprop_string(fdt, 0, "compatible",
"renesas,h3ulcb");
break;
case BOARD_EAGLE:
ret = fdt_setprop_string(fdt, 0, "compatible",
"renesas,eagle");
break;
case BOARD_EBISU:
case BOARD_EBISU_4D:
ret = fdt_setprop_string(fdt, 0, "compatible",
......@@ -464,6 +471,10 @@ static void bl2_populate_compatible_string(void *fdt)
ret = fdt_appendprop_string(fdt, 0, "compatible",
"renesas,r8a77965");
break;
case RCAR_PRODUCT_V3M:
ret = fdt_appendprop_string(fdt, 0, "compatible",
"renesas,r8a77970");
break;
case RCAR_PRODUCT_E3:
ret = fdt_appendprop_string(fdt, 0, "compatible",
"renesas,r8a77990");
......@@ -600,6 +611,11 @@ static void bl2_advertise_dram_size(uint32_t product)
dram_config[1] = 0x80000000ULL;
break;
case RCAR_PRODUCT_V3M:
/* 1GB(512MBx2) */
dram_config[1] = 0x40000000ULL;
break;
case RCAR_PRODUCT_E3:
#if (RCAR_DRAM_DDR3L_MEMCONF == 0)
/* 1GB(512MBx2) */
......@@ -637,6 +653,7 @@ void bl2_el3_early_platform_setup(u_register_t arg1, u_register_t arg2,
const char *product_m3 = "M3";
const char *product_e3 = "E3";
const char *product_d3 = "D3";
const char *product_v3m = "V3M";
const char *lcs_secure = "SE";
const char *lcs_cm = "CM";
const char *lcs_dm = "DM";
......@@ -713,6 +730,9 @@ void bl2_el3_early_platform_setup(u_register_t arg1, u_register_t arg2,
case RCAR_PRODUCT_M3N:
str = product_m3n;
break;
case RCAR_PRODUCT_V3M:
str = product_v3m;
break;
case RCAR_PRODUCT_E3:
str = product_e3;
break;
......@@ -760,6 +780,7 @@ void bl2_el3_early_platform_setup(u_register_t arg1, u_register_t arg2,
case BOARD_STARTER_KIT_PRE:
case BOARD_EBISU_4D:
case BOARD_DRAAK:
case BOARD_EAGLE:
break;
default:
type = BOARD_UNKNOWN;
......@@ -972,6 +993,7 @@ void bl2_platform_setup(void)
static void bl2_init_generic_timer(void)
{
/* FIXME: V3M 16.666 MHz ? */
#if RCAR_LSI == RCAR_D3
uint32_t reg_cntfid = EXTAL_DRAAK;
#elif RCAR_LSI == RCAR_E3
......
......@@ -109,10 +109,14 @@
#define BL2_LIMIT U(0xE6360000)
#endif
#define BL2_BASE U(0xE6304000)
#if (RCAR_LSI == RCAR_E3) || (RCAR_LSI == RCAR_D3)
#define BL2_BASE U(0xE6304000)
#define BL2_IMAGE_LIMIT U(0xE6318000)
#elif (RCAR_LSI == RCAR_V3M)
#define BL2_BASE U(0xE6344000)
#define BL2_IMAGE_LIMIT U(0xE636E800)
#else
#define BL2_BASE U(0xE6304000)
#define BL2_IMAGE_LIMIT U(0xE632E800)
#endif
#define RCAR_SYSRAM_SIZE (BL2_BASE - RCAR_SYSRAM_BASE)
......
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