src/soc/samsung/exynos5420/dmc.h - mirrors/cros/chromiumos/third_party/coreboot - Git at Google

 /*
  * This file is part of the coreboot project.
  *
  * This program is free software; you can redistribute it and/or modify
  * it under the terms of the GNU General Public License as published by
  * the Free Software Foundation; version 2 of the License.
  *
  * This program is distributed in the hope that it will be useful,
  * but WITHOUT ANY WARRANTY; without even the implied warranty of
  * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the
  * GNU General Public License for more details.
  *
  * You should have received a copy of the GNU General Public License
  * along with this program; if not, write to the Free Software
  * Foundation, Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301 USA
  */

 #ifndef CPU_SAMSUNG_EXYNOS5420_DMC_H
 #define CPU_SAMSUNG_EXYNOS5420_DMC_H

 #define DMC_INTERLEAVE_SIZE		0x1f

 #define PAD_RETENTION_DRAM_COREBLK_VAL	0x10000000

 /* CONCONTROL register fields */
 #define CONCONTROL_DFI_INIT_START_SHIFT	28
 #define CONCONTROL_RD_FETCH_SHIFT	12
 #define CONCONTROL_RD_FETCH_MASK	(0x7 << CONCONTROL_RD_FETCH_SHIFT)
 #define CONCONTROL_AREF_EN_SHIFT	5

 /* PRECHCONFIG register field */
 #define PRECHCONFIG_TP_CNT_SHIFT	24

 /* PWRDNCONFIG register field */
 #define PWRDNCONFIG_DPWRDN_CYC_SHIFT	0
 #define PWRDNCONFIG_DSREF_CYC_SHIFT	16

 /* PHY_CON0 register fields */
 #define PHY_CON0_T_WRRDCMD_SHIFT	17
 #define PHY_CON0_T_WRRDCMD_MASK		(0x7 << PHY_CON0_T_WRRDCMD_SHIFT)
 #define PHY_CON0_CTRL_DDR_MODE_MASK	0x3
 #define PHY_CON0_CTRL_DDR_MODE_SHIFT	11

 /* PHY_CON1 register fields */
 #define PHY_CON1_RDLVL_RDDATA_ADJ_SHIFT	0

 /* PHY_CON12 register fields */
 #define PHY_CON12_CTRL_START_POINT_SHIFT	24
 #define PHY_CON12_CTRL_INC_SHIFT	16
 #define PHY_CON12_CTRL_FORCE_SHIFT	8
 #define PHY_CON12_CTRL_START_SHIFT	6
 #define PHY_CON12_CTRL_START_MASK	(1 << PHY_CON12_CTRL_START_SHIFT)
 #define PHY_CON12_CTRL_DLL_ON_SHIFT	5
 #define PHY_CON12_CTRL_DLL_ON_MASK	(1 << PHY_CON12_CTRL_DLL_ON_SHIFT)
 #define PHY_CON12_CTRL_REF_SHIFT	1

 /* PHY_CON16 register fields */
 #define PHY_CON16_ZQ_MODE_DDS_SHIFT	24
 #define PHY_CON16_ZQ_MODE_DDS_MASK	(0x7 << PHY_CON16_ZQ_MODE_DDS_SHIFT)

 #define PHY_CON16_ZQ_MODE_TERM_SHIFT 21
 #define PHY_CON16_ZQ_MODE_TERM_MASK	(0x7 << PHY_CON16_ZQ_MODE_TERM_SHIFT)

 #define PHY_CON16_ZQ_MODE_NOTERM_MASK	(1 << 19)

 /* PHY_CON42 register fields */
 #define PHY_CON42_CTRL_BSTLEN_SHIFT	8
 #define PHY_CON42_CTRL_BSTLEN_MASK	(0xff << PHY_CON42_CTRL_BSTLEN_SHIFT)

 #define PHY_CON42_CTRL_RDLAT_SHIFT	0
 #define PHY_CON42_CTRL_RDLAT_MASK	(0x1f << PHY_CON42_CTRL_RDLAT_SHIFT)

 #ifndef __ASSEMBLER__

 #include "cpu.h"

 struct exynos5_dmc {
 	uint32_t concontrol;
 	uint32_t memcontrol;
 	uint32_t cgcontrol;
 	uint32_t memconfig1;
 	uint32_t directcmd;
 	uint32_t prechconfig0;
 	uint32_t phycontrol0;
 	uint32_t prechconfig1;
 	uint8_t res1[0x8];
 	uint32_t pwrdnconfig;	/* 0x0028*/
 	uint32_t timingpzq;
 	uint32_t timingref;
 	uint32_t timingrow;
 	uint32_t timingdata;
 	uint32_t timingpower;
 	uint32_t phystatus;
 	uint8_t res2[0x4];
 	uint32_t chipstatus_ch0;	/* 0x0048 */
 	uint32_t chipstatus_ch1;
 	uint8_t res3[0x4];
 	uint32_t mrstatus;
 	uint8_t res4[0x8];
 	uint32_t qoscontrol0;	/* 0x0060 */
 	uint8_t resr5[0x4];
 	uint32_t qoscontrol1;
 	uint8_t res6[0x4];
 	uint32_t qoscontrol2;
 	uint8_t res7[0x4];
 	uint32_t qoscontrol3;
 	uint8_t res8[0x4];
 	uint32_t qoscontrol4;
 	uint8_t res9[0x4];
 	uint32_t qoscontrol5;
 	uint8_t res10[0x4];
 	uint32_t qoscontrol6;
 	uint8_t res11[0x4];
 	uint32_t qoscontrol7;
 	uint8_t res12[0x4];
 	uint32_t qoscontrol8;
 	uint8_t res13[0x4];
 	uint32_t qoscontrol9;
 	uint8_t res14[0x4];
 	uint32_t qoscontrol10;
 	uint8_t res15[0x4];
 	uint32_t qoscontrol11;
 	uint8_t res16[0x4];
 	uint32_t qoscontrol12;
 	uint8_t res17[0x4];
 	uint32_t qoscontrol13;
 	uint8_t res18[0x4];
 	uint32_t qoscontrol14;
 	uint8_t res19[0x4];
 	uint32_t qoscontrol15;
 	uint8_t res20[0x4];
 	uint32_t timing_set_sw;	/* 0x00e0 */
 	uint32_t timingrow1;
 	uint32_t timingdata1;
 	uint32_t timingpower1;
 	uint32_t ivcontrol;
 	uint32_t wrtra_config;
 	uint32_t rdlvl_config;
 	uint8_t res21[0x4];
 	uint32_t brbrsvcontrol;	/* 0x0100*/
 	uint32_t brbrsvconfig;
 	uint32_t brbqosconfig;
 	uint32_t membaseconfig0;
 	uint32_t membaseconfig1;	/* 0x0110 */
 	uint8_t res22[0xc];
 	uint32_t wrlvl_config0;	/* 0x0120 */
 	uint32_t wrlvl_config1;
 	uint32_t wrlvl_status;
 	uint8_t res23[0x4];
 	uint32_t perevcontrol;	/* 0x0130 */
 	uint32_t perev0config;
 	uint32_t perev1config;
 	uint32_t perev2config;
 	uint32_t perev3config;
 	uint8_t res22a[0xc];
 	uint32_t ctrl_io_rdata_ch0;
 	uint32_t ctrl_io_rdata_ch1;
 	uint8_t res23a[0x8];
 	uint32_t cacal_config0;
 	uint32_t cacal_config1;
 	uint32_t cacal_status;
 	uint8_t res24[0x94];
 	uint32_t emergent_config0;	/* 0x0200 */
 	uint32_t emergent_config1;
 	uint8_t res25[0x8];
 	uint32_t bp_control0;
 	uint32_t bp_control0_r;
 	uint32_t bp_control0_w;
 	uint8_t res26[0x4];
 	uint32_t bp_control1;
 	uint32_t bp_control1_r;
 	uint32_t bp_control1_w;
 	uint8_t res27[0x4];
 	uint32_t bp_control2;
 	uint32_t bp_control2_r;
 	uint32_t bp_control2_w;
 	uint8_t res28[0x4];
 	uint32_t bp_control3;
 	uint32_t bp_control3_r;
 	uint32_t bp_control3_w;
 	uint8_t res29[0xb4];
 	uint32_t winconfig_odt_w;	/* 0x0300 */
 	uint8_t res30[0x4];
 	uint32_t winconfig_ctrl_read;
 	uint32_t winconfig_ctrl_gate;
 	uint8_t res31[0xdcf0];
 	uint32_t pmnc_ppc;
 	uint8_t res32[0xc];
 	uint32_t cntens_ppc;
 	uint8_t res33[0xc];
 	uint32_t cntenc_ppc;
 	uint8_t res34[0xc];
 	uint32_t intens_ppc;
 	uint8_t res35[0xc];
 	uint32_t intenc_ppc;
 	uint8_t res36[0xc];
 	uint32_t flag_ppc;		/* 0xe050 */
 	uint8_t res37[0xac];
 	uint32_t ccnt_ppc;
 	uint8_t res38[0xc];
 	uint32_t pmcnt0_ppc;
 	uint8_t res39[0xc];
 	uint32_t pmcnt1_ppc;
 	uint8_t res40[0xc];
 	uint32_t pmcnt2_ppc;
 	uint8_t res41[0xc];
 	uint32_t pmcnt3_ppc;	/* 0xe140 */
 } __attribute__((packed));

 static struct exynos5_dmc * const exynos_drex0 = (void *)EXYNOS5420_DMC_DREXI_0;
 static struct exynos5_dmc * const exynos_drex1 = (void *)EXYNOS5420_DMC_DREXI_1;

 struct exynos5_phy_control {
 	uint32_t phy_con0;
 	uint32_t phy_con1;
 	uint32_t phy_con2;
 	uint32_t phy_con3;
 	uint32_t phy_con4;
 	uint8_t res1[4];
 	uint32_t phy_con6;
 	uint8_t res2[4];
 	uint32_t phy_con8;
 	uint32_t phy_con9;
 	uint32_t phy_con10;
 	uint8_t res3[4];
 	uint32_t phy_con12;
 	uint32_t phy_con13;
 	uint32_t phy_con14;
 	uint32_t phy_con15;
 	uint32_t phy_con16;
 	uint8_t res4[4];
 	uint32_t phy_con17;
 	uint32_t phy_con18;
 	uint32_t phy_con19;
 	uint32_t phy_con20;
 	uint32_t phy_con21;
 	uint32_t phy_con22;
 	uint32_t phy_con23;
 	uint32_t phy_con24;
 	uint32_t phy_con25;
 	uint32_t phy_con26;
 	uint32_t phy_con27;
 	uint32_t phy_con28;
 	uint32_t phy_con29;
 	uint32_t phy_con30;
 	uint32_t phy_con31;
 	uint32_t phy_con32;
 	uint32_t phy_con33;
 	uint32_t phy_con34;
 	uint32_t phy_con35;
 	uint32_t phy_con36;
 	uint32_t phy_con37;
 	uint32_t phy_con38;
 	uint32_t phy_con39;
 	uint32_t phy_con40;
 	uint32_t phy_con41;
 	uint32_t phy_con42;
 } __attribute__((packed));

 static struct exynos5_phy_control * const exynos_phy0_control =
 		(void *)EXYNOS5_DMC_PHY0_BASE;
 static struct exynos5_phy_control * const exynos_phy1_control =
 		(void *)EXYNOS5_DMC_PHY1_BASE;

 struct exynos5_tzasc {
 	uint8_t res1[0xf00];
 	uint32_t membaseconfig0;
 	uint32_t membaseconfig1;
 	uint8_t res2[0x8];
 	uint32_t memconfig0;
 	uint32_t memconfig1;
 } __attribute__((packed));

 static struct exynos5_tzasc * const exynos_tzasc0 =
 		(void *)EXYNOS5420_DMC_TZASC_0;
 static struct exynos5_tzasc * const exynos_tzasc1 =
 		(void *)EXYNOS5420_DMC_TZASC_1;

 enum ddr_mode {
 	/* This is in order of ctrl_ddr_mode values. Do not change. */
 	DDR_MODE_DDR2	= 0x0,
 	DDR_MODE_DDR3	= 0x1,
 	DDR_MODE_LPDDR2	= 0x2,
 	DDR_MODE_LPDDR3	= 0x3,

 	DDR_MODE_COUNT,
 };

 /* For reasons unknown, people are in the habit of taking a 32-bit
  * field with 2 possible values and packing it with, say, 2 bits. A
  * non-robust encoding, using only 2 bits of a 32-bit field, is
  * incredibly difficult to deal with when things go wrong, because
  * there are a lot of things that get expressed as 0, 1, or 2. If
  * you're scanning with jtag or dumping memory it is really hard to
  * tell when you've hit the beginning of the struct. So, let's be a
  * bit smart here. First, while it's common to let the enum count
  * entries for you, when there are two of them, we can do the
  * counting. And, let's set the values to something we can easily scan
  * for in memory. Since '1' and '2' are rather common, we pick
  * something that's actually of some value when things go wrong.  This
  * setup motivated by a use case: something's going wrong and having a
  * manuf name of '1' or '2' is completely useless!
  */
 enum mem_manuf {
 	MEM_MANUF_AUTODETECT,
 	MEM_MANUF_ELPIDA = 0xe7b1da,
 	MEM_MANUF_SAMSUNG = 0x5a5096,

 	MEM_MANUF_COUNT = 2, // fancy that.
 };

 enum {
 	MEM_TIMINGS_MSR_COUNT	= 5,
 };


 /* These are the memory timings for a particular memory type and speed */
 struct mem_timings {
 	enum mem_manuf mem_manuf;	/* Memory manufacturer */
 	enum ddr_mode mem_type;		/* Memory type */
 	unsigned int frequency_mhz;	/* Frequency of memory in MHz */

 	/* Here follow the timing parameters for the selected memory */
 	uint8_t apll_mdiv;
 	uint8_t apll_pdiv;
 	uint8_t apll_sdiv;
 	uint8_t mpll_mdiv;
 	uint8_t mpll_pdiv;
 	uint8_t mpll_sdiv;
 	uint8_t cpll_mdiv;
 	uint8_t cpll_pdiv;
 	uint8_t cpll_sdiv;
 	uint8_t gpll_pdiv;
 	uint16_t gpll_mdiv;
 	uint8_t gpll_sdiv;
 	uint8_t epll_mdiv;
 	uint8_t epll_pdiv;
 	uint8_t epll_sdiv;
 	uint8_t vpll_mdiv;
 	uint8_t vpll_pdiv;
 	uint8_t vpll_sdiv;
 	uint8_t bpll_mdiv;
 	uint8_t bpll_pdiv;
 	uint8_t bpll_sdiv;
 	uint8_t use_bpll;       /* 1 to use BPLL for cdrex, 0 to use MPLL */
 	uint8_t pclk_cdrex_ratio;
 	unsigned int direct_cmd_msr[MEM_TIMINGS_MSR_COUNT];

 	unsigned int timing_ref;
 	unsigned int timing_row;
 	unsigned int timing_data;
 	unsigned int timing_power;

 	/* DQS, DQ, DEBUG offsets */
 	unsigned int phy0_dqs;
 	unsigned int phy1_dqs;
 	unsigned int phy0_dq;
 	unsigned int phy1_dq;
 	uint8_t phy0_tFS;
 	uint8_t phy1_tFS;
 	uint8_t phy0_pulld_dqs;
 	uint8_t phy1_pulld_dqs;

 	uint8_t lpddr3_ctrl_phy_reset;
 	uint8_t ctrl_start_point;
 	uint8_t ctrl_inc;
 	uint8_t ctrl_start;
 	uint8_t ctrl_dll_on;
 	uint8_t ctrl_ref;

 	uint8_t ctrl_force;
 	uint8_t ctrl_rdlat;
 	uint8_t ctrl_bstlen;

 	uint8_t fp_resync;
 	uint8_t iv_size;
 	uint8_t dfi_init_start;
 	uint8_t aref_en;

 	uint8_t rd_fetch;

 	uint8_t zq_mode_dds;
 	uint8_t zq_mode_term;
 	uint8_t zq_mode_noterm;	/* 1 to allow termination disable */

 	unsigned int memcontrol;
 	unsigned int memconfig;

 	unsigned int membaseconfig0;
 	unsigned int membaseconfig1;
 	unsigned int prechconfig_tp_cnt;
 	unsigned int dpwrdn_cyc;
 	unsigned int dsref_cyc;
 	unsigned int concontrol;
 	/* Channel and Chip Selection */
 	uint8_t dmc_channels;		/* number of memory channels */
 	uint8_t chips_per_channel;	/* number of chips per channel */
 	uint8_t chips_to_configure;	/* number of chips to configure */
 	uint8_t send_zq_init;		/* 1 to send this command */
 	unsigned int impedance;		/* drive strength impedeance */
 	uint8_t gate_leveling_enable;	/* check gate leveling is enabled */
 };

 /**
  * Get the correct memory timings for our selected memory type and speed.
  *
  * @return pointer to the memory timings that we should use
  */
 struct mem_timings *get_mem_timings(void);

 #endif
 #endif
	/*
	* This file is part of the coreboot project.
	*
	* This program is free software; you can redistribute it and/or modify
	* it under the terms of the GNU General Public License as published by
	* the Free Software Foundation; version 2 of the License.
	*
	* This program is distributed in the hope that it will be useful,
	* but WITHOUT ANY WARRANTY; without even the implied warranty of
	* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
	* GNU General Public License for more details.
	*
	* You should have received a copy of the GNU General Public License
	* along with this program; if not, write to the Free Software
	* Foundation, Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301 USA
	*/

	#ifndef CPU_SAMSUNG_EXYNOS5420_DMC_H
	#define CPU_SAMSUNG_EXYNOS5420_DMC_H

	#define DMC_INTERLEAVE_SIZE 0x1f

	#define PAD_RETENTION_DRAM_COREBLK_VAL 0x10000000

	/* CONCONTROL register fields */
	#define CONCONTROL_DFI_INIT_START_SHIFT 28
	#define CONCONTROL_RD_FETCH_SHIFT 12
	#define CONCONTROL_RD_FETCH_MASK (0x7 << CONCONTROL_RD_FETCH_SHIFT)
	#define CONCONTROL_AREF_EN_SHIFT 5

	/* PRECHCONFIG register field */
	#define PRECHCONFIG_TP_CNT_SHIFT 24

	/* PWRDNCONFIG register field */
	#define PWRDNCONFIG_DPWRDN_CYC_SHIFT 0
	#define PWRDNCONFIG_DSREF_CYC_SHIFT 16

	/* PHY_CON0 register fields */
	#define PHY_CON0_T_WRRDCMD_SHIFT 17
	#define PHY_CON0_T_WRRDCMD_MASK (0x7 << PHY_CON0_T_WRRDCMD_SHIFT)
	#define PHY_CON0_CTRL_DDR_MODE_MASK 0x3
	#define PHY_CON0_CTRL_DDR_MODE_SHIFT 11

	/* PHY_CON1 register fields */
	#define PHY_CON1_RDLVL_RDDATA_ADJ_SHIFT 0

	/* PHY_CON12 register fields */
	#define PHY_CON12_CTRL_START_POINT_SHIFT 24
	#define PHY_CON12_CTRL_INC_SHIFT 16
	#define PHY_CON12_CTRL_FORCE_SHIFT 8
	#define PHY_CON12_CTRL_START_SHIFT 6
	#define PHY_CON12_CTRL_START_MASK (1 << PHY_CON12_CTRL_START_SHIFT)
	#define PHY_CON12_CTRL_DLL_ON_SHIFT 5
	#define PHY_CON12_CTRL_DLL_ON_MASK (1 << PHY_CON12_CTRL_DLL_ON_SHIFT)
	#define PHY_CON12_CTRL_REF_SHIFT 1

	/* PHY_CON16 register fields */
	#define PHY_CON16_ZQ_MODE_DDS_SHIFT 24
	#define PHY_CON16_ZQ_MODE_DDS_MASK (0x7 << PHY_CON16_ZQ_MODE_DDS_SHIFT)

	#define PHY_CON16_ZQ_MODE_TERM_SHIFT 21
	#define PHY_CON16_ZQ_MODE_TERM_MASK (0x7 << PHY_CON16_ZQ_MODE_TERM_SHIFT)

	#define PHY_CON16_ZQ_MODE_NOTERM_MASK (1 << 19)

	/* PHY_CON42 register fields */
	#define PHY_CON42_CTRL_BSTLEN_SHIFT 8
	#define PHY_CON42_CTRL_BSTLEN_MASK (0xff << PHY_CON42_CTRL_BSTLEN_SHIFT)

	#define PHY_CON42_CTRL_RDLAT_SHIFT 0
	#define PHY_CON42_CTRL_RDLAT_MASK (0x1f << PHY_CON42_CTRL_RDLAT_SHIFT)

	#ifndef __ASSEMBLER__

	#include "cpu.h"

	struct exynos5_dmc {
	uint32_t concontrol;
	uint32_t memcontrol;
	uint32_t cgcontrol;
	uint32_t memconfig1;
	uint32_t directcmd;
	uint32_t prechconfig0;
	uint32_t phycontrol0;
	uint32_t prechconfig1;
	uint8_t res1[0x8];
	uint32_t pwrdnconfig; /* 0x0028*/
	uint32_t timingpzq;
	uint32_t timingref;
	uint32_t timingrow;
	uint32_t timingdata;
	uint32_t timingpower;
	uint32_t phystatus;
	uint8_t res2[0x4];
	uint32_t chipstatus_ch0; /* 0x0048 */
	uint32_t chipstatus_ch1;
	uint8_t res3[0x4];
	uint32_t mrstatus;
	uint8_t res4[0x8];
	uint32_t qoscontrol0; /* 0x0060 */
	uint8_t resr5[0x4];
	uint32_t qoscontrol1;
	uint8_t res6[0x4];
	uint32_t qoscontrol2;
	uint8_t res7[0x4];
	uint32_t qoscontrol3;
	uint8_t res8[0x4];
	uint32_t qoscontrol4;
	uint8_t res9[0x4];
	uint32_t qoscontrol5;
	uint8_t res10[0x4];
	uint32_t qoscontrol6;
	uint8_t res11[0x4];
	uint32_t qoscontrol7;
	uint8_t res12[0x4];
	uint32_t qoscontrol8;
	uint8_t res13[0x4];
	uint32_t qoscontrol9;
	uint8_t res14[0x4];
	uint32_t qoscontrol10;
	uint8_t res15[0x4];
	uint32_t qoscontrol11;
	uint8_t res16[0x4];
	uint32_t qoscontrol12;
	uint8_t res17[0x4];
	uint32_t qoscontrol13;
	uint8_t res18[0x4];
	uint32_t qoscontrol14;
	uint8_t res19[0x4];
	uint32_t qoscontrol15;
	uint8_t res20[0x4];
	uint32_t timing_set_sw; /* 0x00e0 */
	uint32_t timingrow1;
	uint32_t timingdata1;
	uint32_t timingpower1;
	uint32_t ivcontrol;
	uint32_t wrtra_config;
	uint32_t rdlvl_config;
	uint8_t res21[0x4];
	uint32_t brbrsvcontrol; /* 0x0100*/
	uint32_t brbrsvconfig;
	uint32_t brbqosconfig;
	uint32_t membaseconfig0;
	uint32_t membaseconfig1; /* 0x0110 */
	uint8_t res22[0xc];
	uint32_t wrlvl_config0; /* 0x0120 */
	uint32_t wrlvl_config1;
	uint32_t wrlvl_status;
	uint8_t res23[0x4];
	uint32_t perevcontrol; /* 0x0130 */
	uint32_t perev0config;
	uint32_t perev1config;
	uint32_t perev2config;
	uint32_t perev3config;
	uint8_t res22a[0xc];
	uint32_t ctrl_io_rdata_ch0;
	uint32_t ctrl_io_rdata_ch1;
	uint8_t res23a[0x8];
	uint32_t cacal_config0;
	uint32_t cacal_config1;
	uint32_t cacal_status;
	uint8_t res24[0x94];
	uint32_t emergent_config0; /* 0x0200 */
	uint32_t emergent_config1;
	uint8_t res25[0x8];
	uint32_t bp_control0;
	uint32_t bp_control0_r;
	uint32_t bp_control0_w;
	uint8_t res26[0x4];
	uint32_t bp_control1;
	uint32_t bp_control1_r;
	uint32_t bp_control1_w;
	uint8_t res27[0x4];
	uint32_t bp_control2;
	uint32_t bp_control2_r;
	uint32_t bp_control2_w;
	uint8_t res28[0x4];
	uint32_t bp_control3;
	uint32_t bp_control3_r;
	uint32_t bp_control3_w;
	uint8_t res29[0xb4];
	uint32_t winconfig_odt_w; /* 0x0300 */
	uint8_t res30[0x4];
	uint32_t winconfig_ctrl_read;
	uint32_t winconfig_ctrl_gate;
	uint8_t res31[0xdcf0];
	uint32_t pmnc_ppc;
	uint8_t res32[0xc];
	uint32_t cntens_ppc;
	uint8_t res33[0xc];
	uint32_t cntenc_ppc;
	uint8_t res34[0xc];
	uint32_t intens_ppc;
	uint8_t res35[0xc];
	uint32_t intenc_ppc;
	uint8_t res36[0xc];
	uint32_t flag_ppc; /* 0xe050 */
	uint8_t res37[0xac];
	uint32_t ccnt_ppc;
	uint8_t res38[0xc];
	uint32_t pmcnt0_ppc;
	uint8_t res39[0xc];
	uint32_t pmcnt1_ppc;
	uint8_t res40[0xc];
	uint32_t pmcnt2_ppc;
	uint8_t res41[0xc];
	uint32_t pmcnt3_ppc; /* 0xe140 */
	} __attribute__((packed));

	static struct exynos5_dmc * const exynos_drex0 = (void *)EXYNOS5420_DMC_DREXI_0;
	static struct exynos5_dmc * const exynos_drex1 = (void *)EXYNOS5420_DMC_DREXI_1;

	struct exynos5_phy_control {
	uint32_t phy_con0;
	uint32_t phy_con1;
	uint32_t phy_con2;
	uint32_t phy_con3;
	uint32_t phy_con4;
	uint8_t res1[4];
	uint32_t phy_con6;
	uint8_t res2[4];
	uint32_t phy_con8;
	uint32_t phy_con9;
	uint32_t phy_con10;
	uint8_t res3[4];
	uint32_t phy_con12;
	uint32_t phy_con13;
	uint32_t phy_con14;
	uint32_t phy_con15;
	uint32_t phy_con16;
	uint8_t res4[4];
	uint32_t phy_con17;
	uint32_t phy_con18;
	uint32_t phy_con19;
	uint32_t phy_con20;
	uint32_t phy_con21;
	uint32_t phy_con22;
	uint32_t phy_con23;
	uint32_t phy_con24;
	uint32_t phy_con25;
	uint32_t phy_con26;
	uint32_t phy_con27;
	uint32_t phy_con28;
	uint32_t phy_con29;
	uint32_t phy_con30;
	uint32_t phy_con31;
	uint32_t phy_con32;
	uint32_t phy_con33;
	uint32_t phy_con34;
	uint32_t phy_con35;
	uint32_t phy_con36;
	uint32_t phy_con37;
	uint32_t phy_con38;
	uint32_t phy_con39;
	uint32_t phy_con40;
	uint32_t phy_con41;
	uint32_t phy_con42;
	} __attribute__((packed));

	static struct exynos5_phy_control * const exynos_phy0_control =
	(void *)EXYNOS5_DMC_PHY0_BASE;
	static struct exynos5_phy_control * const exynos_phy1_control =
	(void *)EXYNOS5_DMC_PHY1_BASE;

	struct exynos5_tzasc {
	uint8_t res1[0xf00];
	uint32_t membaseconfig0;
	uint32_t membaseconfig1;
	uint8_t res2[0x8];
	uint32_t memconfig0;
	uint32_t memconfig1;
	} __attribute__((packed));

	static struct exynos5_tzasc * const exynos_tzasc0 =
	(void *)EXYNOS5420_DMC_TZASC_0;
	static struct exynos5_tzasc * const exynos_tzasc1 =
	(void *)EXYNOS5420_DMC_TZASC_1;

	enum ddr_mode {
	/* This is in order of ctrl_ddr_mode values. Do not change. */
	DDR_MODE_DDR2 = 0x0,
	DDR_MODE_DDR3 = 0x1,
	DDR_MODE_LPDDR2 = 0x2,
	DDR_MODE_LPDDR3 = 0x3,

	DDR_MODE_COUNT,
	};

	/* For reasons unknown, people are in the habit of taking a 32-bit
	* field with 2 possible values and packing it with, say, 2 bits. A
	* non-robust encoding, using only 2 bits of a 32-bit field, is
	* incredibly difficult to deal with when things go wrong, because
	* there are a lot of things that get expressed as 0, 1, or 2. If
	* you're scanning with jtag or dumping memory it is really hard to
	* tell when you've hit the beginning of the struct. So, let's be a
	* bit smart here. First, while it's common to let the enum count
	* entries for you, when there are two of them, we can do the
	* counting. And, let's set the values to something we can easily scan
	* for in memory. Since '1' and '2' are rather common, we pick
	* something that's actually of some value when things go wrong. This
	* setup motivated by a use case: something's going wrong and having a
	* manuf name of '1' or '2' is completely useless!
	*/
	enum mem_manuf {
	MEM_MANUF_AUTODETECT,
	MEM_MANUF_ELPIDA = 0xe7b1da,
	MEM_MANUF_SAMSUNG = 0x5a5096,

	MEM_MANUF_COUNT = 2, // fancy that.
	};

	enum {
	MEM_TIMINGS_MSR_COUNT = 5,
	};


	/* These are the memory timings for a particular memory type and speed */
	struct mem_timings {
	enum mem_manuf mem_manuf; /* Memory manufacturer */
	enum ddr_mode mem_type; /* Memory type */
	unsigned int frequency_mhz; /* Frequency of memory in MHz */

	/* Here follow the timing parameters for the selected memory */
	uint8_t apll_mdiv;
	uint8_t apll_pdiv;
	uint8_t apll_sdiv;
	uint8_t mpll_mdiv;
	uint8_t mpll_pdiv;
	uint8_t mpll_sdiv;
	uint8_t cpll_mdiv;
	uint8_t cpll_pdiv;
	uint8_t cpll_sdiv;
	uint8_t gpll_pdiv;
	uint16_t gpll_mdiv;
	uint8_t gpll_sdiv;
	uint8_t epll_mdiv;
	uint8_t epll_pdiv;
	uint8_t epll_sdiv;
	uint8_t vpll_mdiv;
	uint8_t vpll_pdiv;
	uint8_t vpll_sdiv;
	uint8_t bpll_mdiv;
	uint8_t bpll_pdiv;
	uint8_t bpll_sdiv;
	uint8_t use_bpll; /* 1 to use BPLL for cdrex, 0 to use MPLL */
	uint8_t pclk_cdrex_ratio;
	unsigned int direct_cmd_msr[MEM_TIMINGS_MSR_COUNT];

	unsigned int timing_ref;
	unsigned int timing_row;
	unsigned int timing_data;
	unsigned int timing_power;

	/* DQS, DQ, DEBUG offsets */
	unsigned int phy0_dqs;
	unsigned int phy1_dqs;
	unsigned int phy0_dq;
	unsigned int phy1_dq;
	uint8_t phy0_tFS;
	uint8_t phy1_tFS;
	uint8_t phy0_pulld_dqs;
	uint8_t phy1_pulld_dqs;

	uint8_t lpddr3_ctrl_phy_reset;
	uint8_t ctrl_start_point;
	uint8_t ctrl_inc;
	uint8_t ctrl_start;
	uint8_t ctrl_dll_on;
	uint8_t ctrl_ref;

	uint8_t ctrl_force;
	uint8_t ctrl_rdlat;
	uint8_t ctrl_bstlen;

	uint8_t fp_resync;
	uint8_t iv_size;
	uint8_t dfi_init_start;
	uint8_t aref_en;

	uint8_t rd_fetch;

	uint8_t zq_mode_dds;
	uint8_t zq_mode_term;
	uint8_t zq_mode_noterm; /* 1 to allow termination disable */

	unsigned int memcontrol;
	unsigned int memconfig;

	unsigned int membaseconfig0;
	unsigned int membaseconfig1;
	unsigned int prechconfig_tp_cnt;
	unsigned int dpwrdn_cyc;
	unsigned int dsref_cyc;
	unsigned int concontrol;
	/* Channel and Chip Selection */
	uint8_t dmc_channels; /* number of memory channels */
	uint8_t chips_per_channel; /* number of chips per channel */
	uint8_t chips_to_configure; /* number of chips to configure */
	uint8_t send_zq_init; /* 1 to send this command */
	unsigned int impedance; /* drive strength impedeance */
	uint8_t gate_leveling_enable; /* check gate leveling is enabled */
	};

	/**
	* Get the correct memory timings for our selected memory type and speed.
	*
	* @return pointer to the memory timings that we should use
	*/
	struct mem_timings *get_mem_timings(void);

	#endif
	#endif