board/freescale/imx8mq_phanbell/ddr/ddr_init_micron_1gb.c - uboot-imx - Git at Google

 /*
  * Copyright 2017 NXP
  *
  * SPDX-License-Identifier:	GPL-2.0+
  *
  * Generated code from MX8M_DDR_tool
  * Align with uboot-imx_v2017.03_4.9.51_imx8m_ga
  */

 #include "ddr.h"
 #include <asm/arch/clock.h>
 #include <asm/arch/ddr_memory_map.h>
 #include <asm/io.h>
 #include <common.h>
 #include <errno.h>

 #ifndef SRC_DDRC_RCR_ADDR
 #define SRC_DDRC_RCR_ADDR SRC_IPS_BASE_ADDR +0x1000
 #endif
 #ifndef DDR_CSD1_BASE_ADDR
 #define DDR_CSD1_BASE_ADDR 0x40000000
 #endif
 #define SILICON_TRAIN

 void ddr_cfg_phy_micron_1gb(void);
 static volatile unsigned int tmp, tmp_t, i;
 void ddr_init_micron_1gb(void)
 {
 	/** Initialize DDR clock and DDRC registers **/
 	reg32_write(0x30330234,0x0);
 	reg32_write(0x30330238,0x0);
 	reg32_write(0x3033049c,0xe);
 	reg32_write(0x303304a0,0xe);
 	reg32_write(0x303304f4,0x0);
 	reg32_write(0x3038a088,0x7070000);
 	reg32_write(0x3038a084,0x4030000);
 	reg32_write(0x303a00ec,0xffff);
 	tmp=reg32_read(0x303a00f8);
 	tmp |= 0x20;
 	reg32_write(0x303a00f8,tmp);
 	reg32_write(0x30391000,0x8f000000);
 	reg32_write(0x30391004,0x8f000000);
 	reg32_write(0x30360068,0xece580);
 	tmp=reg32_read(0x30360060);
 	tmp &= ~0x80;
 	reg32_write(0x30360060,tmp);
 	tmp=reg32_read(0x30360060);
 	tmp |= 0x200;
 	reg32_write(0x30360060,tmp);
 	tmp=reg32_read(0x30360060);
 	tmp &= ~0x20;
 	reg32_write(0x30360060,tmp);
 	tmp=reg32_read(0x30360060);
 	tmp &= ~0x10;
 	reg32_write(0x30360060,tmp);
 	do{
 		tmp=reg32_read(0x30360060);
 		if(tmp&0x80000000) break;
 	}while(1);
 	reg32_write(0x30391000,0x8f000006);
 	reg32_write(0x3d400304,0x1);
 	reg32_write(0x3d400030,0x1);
 	reg32_write(0x3d400000,0xa1080020);
 	reg32_write(0x3d400028,0x0);
 	reg32_write(0x3d400020,0x203);
 	reg32_write(0x3d400024,0x186a000);
 	reg32_write(0x3d400064,0x610090);
 	reg32_write(0x3d4000d0,0xc003061c);
 	reg32_write(0x3d4000d4,0x9e0000);
 	reg32_write(0x3d4000dc,0xdc002d);
 	reg32_write(0x3d4000e0,0x310008);
 	reg32_write(0x3d4000e8,0x66004a);
 	reg32_write(0x3d4000ec,0x16004a);
 	reg32_write(0x3d400100,0x1a201b22);
 	reg32_write(0x3d400104,0x60633);
 	reg32_write(0x3d40010c,0xc0c000);
 	reg32_write(0x3d400110,0xf04080f);
 	reg32_write(0x3d400114,0x2040c0c);
 	reg32_write(0x3d400118,0x1010007);
 	reg32_write(0x3d40011c,0x401);
 	reg32_write(0x3d400130,0x20600);
 	reg32_write(0x3d400134,0xc100002);
 	reg32_write(0x3d400138,0x96);
 	reg32_write(0x3d400144,0xa00050);
 	reg32_write(0x3d400180,0xc3200018);
 	reg32_write(0x3d400184,0x28061a8);
 	reg32_write(0x3d400188,0x0);
 	reg32_write(0x3d400190,0x497820a);
 	reg32_write(0x3d400194,0x80303);
 	reg32_write(0x3d4001a0,0xe0400018);
 	reg32_write(0x3d4001a4,0xdf00e4);
 	reg32_write(0x3d4001a8,0x80000000);
 	reg32_write(0x3d4001b0,0x11);
 	reg32_write(0x3d4001b4,0x170a);
 	reg32_write(0x3d4001c0,0x1);
 	reg32_write(0x3d4001c4,0x0);
 	reg32_write(0x3d4000f4,0x639);
 	reg32_write(0x3d400108,0x70e1617);
 	reg32_write(0x3d400200,0x1f);
 	reg32_write(0x3d40020c,0x0);
 	reg32_write(0x3d400210,0x1f1f);
 	reg32_write(0x3d400204,0x80808);
 	reg32_write(0x3d400214,0x7070707);
 	reg32_write(0x3d400218,0xf070707);
 	reg32_write(0x3d402020,0x1);
 	reg32_write(0x3d402024,0x518b00);
 	reg32_write(0x3d402050,0x20d040);
 	reg32_write(0x3d402064,0x14001f);
 	reg32_write(0x3d4020dc,0x940009);
 	reg32_write(0x3d4020e0,0x310000);
 	reg32_write(0x3d4020e8,0x66004a);
 	reg32_write(0x3d4020ec,0x16004a);
 	reg32_write(0x3d402100,0xb070508);
 	reg32_write(0x3d402104,0x3040b);
 	reg32_write(0x3d402108,0x305090c);
 	reg32_write(0x3d40210c,0x505000);
 	reg32_write(0x3d402110,0x4040204);
 	reg32_write(0x3d402114,0x2030303);
 	reg32_write(0x3d402118,0x1010004);
 	reg32_write(0x3d40211c,0x301);
 	reg32_write(0x3d402130,0x20300);
 	reg32_write(0x3d402134,0xa100002);
 	reg32_write(0x3d402138,0x20);
 	reg32_write(0x3d402144,0x220011);
 	reg32_write(0x3d402180,0xc0a70006);
 	reg32_write(0x3d402190,0x3858202);
 	reg32_write(0x3d402194,0x80303);
 	reg32_write(0x3d4021b4,0x502);
 	reg32_write(0x3d400244,0x0);
 	reg32_write(0x3d400250,0x29001505);
 	reg32_write(0x3d400254,0x2c);
 	reg32_write(0x3d40025c,0x5900575b);
 	reg32_write(0x3d400264,0x90000096);
 	reg32_write(0x3d40026c,0x1000012c);
 	reg32_write(0x3d400300,0x16);
 	reg32_write(0x3d400304,0x0);
 	reg32_write(0x3d40030c,0x0);
 	reg32_write(0x3d400320,0x1);
 	reg32_write(0x3d40036c,0x11);
 	reg32_write(0x3d400400,0x111);
 	reg32_write(0x3d400404,0x10f3);
 	reg32_write(0x3d400408,0x72ff);
 	reg32_write(0x3d400490,0x1);
 	reg32_write(0x3d400494,0xe00);
 	reg32_write(0x3d400498,0x62ffff);
 	reg32_write(0x3d40049c,0xe00);
 	reg32_write(0x3d4004a0,0xffff);
 	reg32_write(0x30391000,0x8f000004);
 	reg32_write(0x30391000,0x8f000000);
 	reg32_write(0x3d400030,0xa8);
 	do{
 		tmp=reg32_read(0x3d400004);
 		if(tmp&0x223) break;
 	}while(1);
 	reg32_write(0x3d400320,0x0);
 	reg32_write(0x3d000000,0x1);
 	reg32_write(0x3d4001b0,0x10);
 	reg32_write(0x3c040280,0x0);
 	reg32_write(0x3c040284,0x1);
 	reg32_write(0x3c040288,0x2);
 	reg32_write(0x3c04028c,0x3);
 	reg32_write(0x3c040290,0x4);
 	reg32_write(0x3c040294,0x5);
 	reg32_write(0x3c040298,0x6);
 	reg32_write(0x3c04029c,0x7);
 	reg32_write(0x3c044280,0x0);
 	reg32_write(0x3c044284,0x1);
 	reg32_write(0x3c044288,0x2);
 	reg32_write(0x3c04428c,0x3);
 	reg32_write(0x3c044290,0x4);
 	reg32_write(0x3c044294,0x5);
 	reg32_write(0x3c044298,0x6);
 	reg32_write(0x3c04429c,0x7);
 	reg32_write(0x3c048280,0x0);
 	reg32_write(0x3c048284,0x1);
 	reg32_write(0x3c048288,0x2);
 	reg32_write(0x3c04828c,0x3);
 	reg32_write(0x3c048290,0x4);
 	reg32_write(0x3c048294,0x5);
 	reg32_write(0x3c048298,0x6);
 	reg32_write(0x3c04829c,0x7);
 	reg32_write(0x3c04c280,0x0);
 	reg32_write(0x3c04c284,0x1);
 	reg32_write(0x3c04c288,0x2);
 	reg32_write(0x3c04c28c,0x3);
 	reg32_write(0x3c04c290,0x4);
 	reg32_write(0x3c04c294,0x5);
 	reg32_write(0x3c04c298,0x6);
 	reg32_write(0x3c04c29c,0x7);

 	/* Configure DDR PHY's registers */
 	ddr_cfg_phy_micron_1gb();

 	reg32_write(DDRC_RFSHCTL3(0), 0x00000000);
 	reg32_write(DDRC_SWCTL(0), 0x0000);
 	/*
 	 * ------------------- 9 -------------------
 	 * Set DFIMISC.dfi_init_start to 1
 	 *  -----------------------------------------
 	 */
 	reg32_write(DDRC_DFIMISC(0), 0x00000030);
 	reg32_write(DDRC_SWCTL(0), 0x0001);

 	/* wait DFISTAT.dfi_init_complete to 1 */
 	tmp_t = 0;
 	while(tmp_t==0){
 		tmp  = reg32_read(DDRC_DFISTAT(0));
 		tmp_t = tmp & 0x01;
 		tmp  = reg32_read(DDRC_MRSTAT(0));
 	}

 	reg32_write(DDRC_SWCTL(0), 0x0000);

 	/* clear DFIMISC.dfi_init_complete_en */
 	reg32_write(DDRC_DFIMISC(0), 0x00000010);
 	reg32_write(DDRC_DFIMISC(0), 0x00000011);
 	reg32_write(DDRC_PWRCTL(0), 0x00000088);

 	tmp = reg32_read(DDRC_CRCPARSTAT(0));
 	/*
 	 * set SWCTL.sw_done to enable quasi-dynamic register
 	 * programming outside reset.
 	 */
 	reg32_write(DDRC_SWCTL(0), 0x00000001);

 	/* wait SWSTAT.sw_done_ack to 1 */
 	while((reg32_read(DDRC_SWSTAT(0)) & 0x1) == 0)
 		;

 	/* wait STAT.operating_mode([1:0] for ddr3) to normal state */
 	while ((reg32_read(DDRC_STAT(0)) & 0x3) != 0x1)
 		;

 	reg32_write(DDRC_PWRCTL(0), 0x00000088);
 	/* reg32_write(DDRC_PWRCTL(0), 0x018a); */
 	tmp = reg32_read(DDRC_CRCPARSTAT(0));

 	/* enable port 0 */
 	reg32_write(DDRC_PCTRL_0(0), 0x00000001);
 	/* enable DDR auto-refresh mode */
 	tmp = reg32_read(DDRC_RFSHCTL3(0)) & ~0x1;
 	reg32_write(DDRC_RFSHCTL3(0), tmp);
 }
	/*
	* Copyright 2017 NXP
	*
	* SPDX-License-Identifier: GPL-2.0+
	*
	* Generated code from MX8M_DDR_tool
	* Align with uboot-imx_v2017.03_4.9.51_imx8m_ga
	*/

	#include "ddr.h"
	#include <asm/arch/clock.h>
	#include <asm/arch/ddr_memory_map.h>
	#include <asm/io.h>
	#include <common.h>
	#include <errno.h>

	#ifndef SRC_DDRC_RCR_ADDR
	#define SRC_DDRC_RCR_ADDR SRC_IPS_BASE_ADDR +0x1000
	#endif
	#ifndef DDR_CSD1_BASE_ADDR
	#define DDR_CSD1_BASE_ADDR 0x40000000
	#endif
	#define SILICON_TRAIN

	void ddr_cfg_phy_micron_1gb(void);
	static volatile unsigned int tmp, tmp_t, i;
	void ddr_init_micron_1gb(void)
	{
	/ Initialize DDR clock and DDRC registers /
	reg32_write(0x30330234,0x0);
	reg32_write(0x30330238,0x0);
	reg32_write(0x3033049c,0xe);
	reg32_write(0x303304a0,0xe);
	reg32_write(0x303304f4,0x0);
	reg32_write(0x3038a088,0x7070000);
	reg32_write(0x3038a084,0x4030000);
	reg32_write(0x303a00ec,0xffff);
	tmp=reg32_read(0x303a00f8);
	tmp \|= 0x20;
	reg32_write(0x303a00f8,tmp);
	reg32_write(0x30391000,0x8f000000);
	reg32_write(0x30391004,0x8f000000);
	reg32_write(0x30360068,0xece580);
	tmp=reg32_read(0x30360060);
	tmp &= ~0x80;
	reg32_write(0x30360060,tmp);
	tmp=reg32_read(0x30360060);
	tmp \|= 0x200;
	reg32_write(0x30360060,tmp);
	tmp=reg32_read(0x30360060);
	tmp &= ~0x20;
	reg32_write(0x30360060,tmp);
	tmp=reg32_read(0x30360060);
	tmp &= ~0x10;
	reg32_write(0x30360060,tmp);
	do{
	tmp=reg32_read(0x30360060);
	if(tmp&0x80000000) break;
	}while(1);
	reg32_write(0x30391000,0x8f000006);
	reg32_write(0x3d400304,0x1);
	reg32_write(0x3d400030,0x1);
	reg32_write(0x3d400000,0xa1080020);
	reg32_write(0x3d400028,0x0);
	reg32_write(0x3d400020,0x203);
	reg32_write(0x3d400024,0x186a000);
	reg32_write(0x3d400064,0x610090);
	reg32_write(0x3d4000d0,0xc003061c);
	reg32_write(0x3d4000d4,0x9e0000);
	reg32_write(0x3d4000dc,0xdc002d);
	reg32_write(0x3d4000e0,0x310008);
	reg32_write(0x3d4000e8,0x66004a);
	reg32_write(0x3d4000ec,0x16004a);
	reg32_write(0x3d400100,0x1a201b22);
	reg32_write(0x3d400104,0x60633);
	reg32_write(0x3d40010c,0xc0c000);
	reg32_write(0x3d400110,0xf04080f);
	reg32_write(0x3d400114,0x2040c0c);
	reg32_write(0x3d400118,0x1010007);
	reg32_write(0x3d40011c,0x401);
	reg32_write(0x3d400130,0x20600);
	reg32_write(0x3d400134,0xc100002);
	reg32_write(0x3d400138,0x96);
	reg32_write(0x3d400144,0xa00050);
	reg32_write(0x3d400180,0xc3200018);
	reg32_write(0x3d400184,0x28061a8);
	reg32_write(0x3d400188,0x0);
	reg32_write(0x3d400190,0x497820a);
	reg32_write(0x3d400194,0x80303);
	reg32_write(0x3d4001a0,0xe0400018);
	reg32_write(0x3d4001a4,0xdf00e4);
	reg32_write(0x3d4001a8,0x80000000);
	reg32_write(0x3d4001b0,0x11);
	reg32_write(0x3d4001b4,0x170a);
	reg32_write(0x3d4001c0,0x1);
	reg32_write(0x3d4001c4,0x0);
	reg32_write(0x3d4000f4,0x639);
	reg32_write(0x3d400108,0x70e1617);
	reg32_write(0x3d400200,0x1f);
	reg32_write(0x3d40020c,0x0);
	reg32_write(0x3d400210,0x1f1f);
	reg32_write(0x3d400204,0x80808);
	reg32_write(0x3d400214,0x7070707);
	reg32_write(0x3d400218,0xf070707);
	reg32_write(0x3d402020,0x1);
	reg32_write(0x3d402024,0x518b00);
	reg32_write(0x3d402050,0x20d040);
	reg32_write(0x3d402064,0x14001f);
	reg32_write(0x3d4020dc,0x940009);
	reg32_write(0x3d4020e0,0x310000);
	reg32_write(0x3d4020e8,0x66004a);
	reg32_write(0x3d4020ec,0x16004a);
	reg32_write(0x3d402100,0xb070508);
	reg32_write(0x3d402104,0x3040b);
	reg32_write(0x3d402108,0x305090c);
	reg32_write(0x3d40210c,0x505000);
	reg32_write(0x3d402110,0x4040204);
	reg32_write(0x3d402114,0x2030303);
	reg32_write(0x3d402118,0x1010004);
	reg32_write(0x3d40211c,0x301);
	reg32_write(0x3d402130,0x20300);
	reg32_write(0x3d402134,0xa100002);
	reg32_write(0x3d402138,0x20);
	reg32_write(0x3d402144,0x220011);
	reg32_write(0x3d402180,0xc0a70006);
	reg32_write(0x3d402190,0x3858202);
	reg32_write(0x3d402194,0x80303);
	reg32_write(0x3d4021b4,0x502);
	reg32_write(0x3d400244,0x0);
	reg32_write(0x3d400250,0x29001505);
	reg32_write(0x3d400254,0x2c);
	reg32_write(0x3d40025c,0x5900575b);
	reg32_write(0x3d400264,0x90000096);
	reg32_write(0x3d40026c,0x1000012c);
	reg32_write(0x3d400300,0x16);
	reg32_write(0x3d400304,0x0);
	reg32_write(0x3d40030c,0x0);
	reg32_write(0x3d400320,0x1);
	reg32_write(0x3d40036c,0x11);
	reg32_write(0x3d400400,0x111);
	reg32_write(0x3d400404,0x10f3);
	reg32_write(0x3d400408,0x72ff);
	reg32_write(0x3d400490,0x1);
	reg32_write(0x3d400494,0xe00);
	reg32_write(0x3d400498,0x62ffff);
	reg32_write(0x3d40049c,0xe00);
	reg32_write(0x3d4004a0,0xffff);
	reg32_write(0x30391000,0x8f000004);
	reg32_write(0x30391000,0x8f000000);
	reg32_write(0x3d400030,0xa8);
	do{
	tmp=reg32_read(0x3d400004);
	if(tmp&0x223) break;
	}while(1);
	reg32_write(0x3d400320,0x0);
	reg32_write(0x3d000000,0x1);
	reg32_write(0x3d4001b0,0x10);
	reg32_write(0x3c040280,0x0);
	reg32_write(0x3c040284,0x1);
	reg32_write(0x3c040288,0x2);
	reg32_write(0x3c04028c,0x3);
	reg32_write(0x3c040290,0x4);
	reg32_write(0x3c040294,0x5);
	reg32_write(0x3c040298,0x6);
	reg32_write(0x3c04029c,0x7);
	reg32_write(0x3c044280,0x0);
	reg32_write(0x3c044284,0x1);
	reg32_write(0x3c044288,0x2);
	reg32_write(0x3c04428c,0x3);
	reg32_write(0x3c044290,0x4);
	reg32_write(0x3c044294,0x5);
	reg32_write(0x3c044298,0x6);
	reg32_write(0x3c04429c,0x7);
	reg32_write(0x3c048280,0x0);
	reg32_write(0x3c048284,0x1);
	reg32_write(0x3c048288,0x2);
	reg32_write(0x3c04828c,0x3);
	reg32_write(0x3c048290,0x4);
	reg32_write(0x3c048294,0x5);
	reg32_write(0x3c048298,0x6);
	reg32_write(0x3c04829c,0x7);
	reg32_write(0x3c04c280,0x0);
	reg32_write(0x3c04c284,0x1);
	reg32_write(0x3c04c288,0x2);
	reg32_write(0x3c04c28c,0x3);
	reg32_write(0x3c04c290,0x4);
	reg32_write(0x3c04c294,0x5);
	reg32_write(0x3c04c298,0x6);
	reg32_write(0x3c04c29c,0x7);

	/* Configure DDR PHY's registers */
	ddr_cfg_phy_micron_1gb();

	reg32_write(DDRC_RFSHCTL3(0), 0x00000000);
	reg32_write(DDRC_SWCTL(0), 0x0000);
	/*
	* ------------------- 9 -------------------
	* Set DFIMISC.dfi_init_start to 1
	* -----------------------------------------
	*/
	reg32_write(DDRC_DFIMISC(0), 0x00000030);
	reg32_write(DDRC_SWCTL(0), 0x0001);

	/* wait DFISTAT.dfi_init_complete to 1 */
	tmp_t = 0;
	while(tmp_t==0){
	tmp = reg32_read(DDRC_DFISTAT(0));
	tmp_t = tmp & 0x01;
	tmp = reg32_read(DDRC_MRSTAT(0));
	}

	reg32_write(DDRC_SWCTL(0), 0x0000);

	/* clear DFIMISC.dfi_init_complete_en */
	reg32_write(DDRC_DFIMISC(0), 0x00000010);
	reg32_write(DDRC_DFIMISC(0), 0x00000011);
	reg32_write(DDRC_PWRCTL(0), 0x00000088);

	tmp = reg32_read(DDRC_CRCPARSTAT(0));
	/*
	* set SWCTL.sw_done to enable quasi-dynamic register
	* programming outside reset.
	*/
	reg32_write(DDRC_SWCTL(0), 0x00000001);

	/* wait SWSTAT.sw_done_ack to 1 */
	while((reg32_read(DDRC_SWSTAT(0)) & 0x1) == 0)
	;

	/* wait STAT.operating_mode([1:0] for ddr3) to normal state */
	while ((reg32_read(DDRC_STAT(0)) & 0x3) != 0x1)
	;

	reg32_write(DDRC_PWRCTL(0), 0x00000088);
	/* reg32_write(DDRC_PWRCTL(0), 0x018a); */
	tmp = reg32_read(DDRC_CRCPARSTAT(0));

	/* enable port 0 */
	reg32_write(DDRC_PCTRL_0(0), 0x00000001);
	/* enable DDR auto-refresh mode */
	tmp = reg32_read(DDRC_RFSHCTL3(0)) & ~0x1;
	reg32_write(DDRC_RFSHCTL3(0), tmp);
	}