u-boot-brain/arch/arm/mach-uniphier/dram/ddrphy-regs.h

/*
 * UniPhier DDR PHY registers
 *
 * Copyright (C) 2014-2015 Masahiro Yamada <yamada.masahiro@socionext.com>
 *
 * SPDX-License-Identifier:	GPL-2.0+
 */

#ifndef ARCH_DDRPHY_REGS_H
#define ARCH_DDRPHY_REGS_H

#include <linux/bitops.h>
#include <linux/compiler.h>
#include <linux/types.h>

#ifndef __ASSEMBLY__

struct ddrphy {
	u32 ridr;		/* Revision Identification Register */
	u32 pir;		/* PHY Initialixation Register */
	u32 pgcr[2];		/* PHY General Configuration Register */
	u32 pgsr[2];		/* PHY General Status Register */
	u32 pllcr;		/* PLL Control Register */
	u32 ptr[5];		/* PHY Timing Register */
	u32 acmdlr;		/* AC Master Delay Line Register */
	u32 acbdlr;		/* AC Bit Delay Line Register */
	u32 aciocr;		/* AC I/O Configuration Register */
	u32 dxccr;		/* DATX8 Common Configuration Register */
	u32 dsgcr;		/* DDR System General Configuration Register */
	u32 dcr;		/* DRAM Configuration Register */
	u32 dtpr[3];		/* DRAM Timing Parameters Register */
	u32 mr0;		/* Mode Register 0 */
	u32 mr1;		/* Mode Register 1 */
	u32 mr2;		/* Mode Register 2 */
	u32 mr3;		/* Mode Register 3 */
	u32 odtcr;		/* ODT Configuration Register */
	u32 dtcr;		/* Data Training Configuration Register */
	u32 dtar[4];		/* Data Training Address Register */
	u32 dtdr[2];		/* Data Training Data Register */
	u32 dtedr[2];		/* Data Training Eye Data Register */
	u32 pgcr2;		/* PHY General Configuration Register 2 */
	u32 rsv0[8];		/* Reserved */
	u32 rdimmgcr[2];	/* RDIMM General Configuration Register */
	u32 rdimmcr0[2];	/* RDIMM Control Register */
	u32 dcuar;		/* DCU Address Register */
	u32 dcudr;		/* DCU Data Register */
	u32 dcurr;		/* DCU Run Register */
	u32 dculr;		/* DCU Loop Register */
	u32 dcugcr;		/* DCU General Configuration Register */
	u32 dcutpr;		/* DCU Timing Parameters Register */
	u32 dcusr[2];		/* DCU Status Register */
	u32 rsv1[8];		/* Reserved */
	u32 bistrr;		/* BIST Run Register */
	u32 bistwcr;		/* BIST Word Count Register */
	u32 bistmskr[3];	/* BIST Mask Register */
	u32 bistlsr;		/* BIST LFSR Sed Register */
	u32 bistar[3];		/* BIST Address Register */
	u32 bistudpr;		/* BIST User Data Pattern Register */
	u32 bistgsr;		/* BIST General Status Register */
	u32 bistwer;		/* BIST Word Error Register */
	u32 bistber[4];		/* BIST Bit Error Register */
	u32 bistwcsr;		/* BIST Word Count Status Register */
	u32 bistfwr[3];		/* BIST Fail Word Register */
	u32 rsv2[10];		/* Reserved */
	u32 gpr[2];		/* General Purpose Register */
	struct ddrphy_zq {	/* ZQ */
		u32 cr[2];	/* Impedance Control Register */
		u32 sr[2];	/* Impedance Status Register */
	} zq[4];
	struct ddrphy_datx8 {	/* DATX8 */
		u32 gcr;	/* General Configuration Register */
		u32 gsr[2];	/* General Status Register */
		u32 bdlr[5];	/* Bit Delay Line Register */
		u32 lcdlr[3];	/* Local Calibrated Delay Line Register */
		u32 mdlr;	/* Master Delay Line Register */
		u32 gtr;	/* General Timing Register */
		u32 gsr2;	/* General Status Register 2 */
		u32 rsv[2];	/* Reserved */
	} dx[9];
};

#endif /* __ASSEMBLY__ */

#define PIR_INIT		BIT(0)		/* Initialization Trigger */
#define PIR_ZCAL		BIT(1)		/* Impedance Calibration */
#define PIR_PLLINIT		BIT(4)		/* PLL Initialization */
#define PIR_DCAL		BIT(5)		/* DDL Calibration */
#define PIR_PHYRST		BIT(6)		/* PHY Reset */
#define PIR_DRAMRST		BIT(7)		/* DRAM Reset */
#define PIR_DRAMINIT		BIT(8)		/* DRAM Initialization */
#define PIR_WL			BIT(9)		/* Write Leveling */
#define PIR_QSGATE		BIT(10)		/* Read DQS Gate Training */
#define PIR_WLADJ		BIT(11)		/* Write Leveling Adjust */
#define PIR_RDDSKW		BIT(12)		/* Read Data Bit Deskew */
#define PIR_WRDSKW		BIT(13)		/* Write Data Bit Deskew */
#define PIR_RDEYE		BIT(14)		/* Read Data Eye Training */
#define PIR_WREYE		BIT(15)		/* Write Data Eye Training */
#define PIR_LOCKBYP		BIT(28)		/* PLL Lock Bypass */
#define PIR_DCALBYP		BIT(29)		/* DDL Calibration Bypass */
#define PIR_ZCALBYP		BIT(30)		/* Impedance Calib Bypass */
#define PIR_INITBYP		BIT(31)		/* Initialization Bypass */

#define PGSR0_IDONE		BIT(0)		/* Initialization Done */
#define PGSR0_PLDONE		BIT(1)		/* PLL Lock Done */
#define PGSR0_DCDONE		BIT(2)		/* DDL Calibration Done */
#define PGSR0_ZCDONE		BIT(3)		/* Impedance Calibration Done */
#define PGSR0_DIDONE		BIT(4)		/* DRAM Initialization Done */
#define PGSR0_WLDONE		BIT(5)		/* Write Leveling Done */
#define PGSR0_QSGDONE		BIT(6)		/* DQS Gate Training Done */
#define PGSR0_WLADONE		BIT(7)		/* Write Leveling Adjust Done */
#define PGSR0_RDDONE		BIT(8)		/* Read Bit Deskew Done */
#define PGSR0_WDDONE		BIT(9)		/* Write Bit Deskew Done */
#define PGSR0_REDONE		BIT(10)		/* Read Eye Training Done */
#define PGSR0_WEDONE		BIT(11)		/* Write Eye Training Done */
#define PGSR0_IERR		BIT(16)		/* Initialization Error */
#define PGSR0_PLERR		BIT(17)		/* PLL Lock Error */
#define PGSR0_DCERR		BIT(18)		/* DDL Calibration Error */
#define PGSR0_ZCERR		BIT(19)		/* Impedance Calib Error */
#define PGSR0_DIERR		BIT(20)		/* DRAM Initialization Error */
#define PGSR0_WLERR		BIT(21)		/* Write Leveling Error */
#define PGSR0_QSGERR		BIT(22)		/* DQS Gate Training Error */
#define PGSR0_WLAERR		BIT(23)		/* Write Leveling Adj Error */
#define PGSR0_RDERR		BIT(24)		/* Read Bit Deskew Error */
#define PGSR0_WDERR		BIT(25)		/* Write Bit Deskew Error */
#define PGSR0_REERR		BIT(26)		/* Read Eye Training Error */
#define PGSR0_WEERR		BIT(27)		/* Write Eye Training Error */
#define PGSR0_DTERR_SHIFT	28		/* Data Training Error Status*/
#define PGSR0_DTERR		(7 << (PGSR0_DTERR_SHIFT))
#define PGSR0_APLOCK		BIT(31)		/* AC PLL Lock */

#define DXCCR_DQSRES_OPEN	(0 << 5)
#define DXCCR_DQSRES_688_OHM	(1 << 5)
#define DXCCR_DQSRES_611_OHM	(2 << 5)
#define DXCCR_DQSRES_550_OHM	(3 << 5)
#define DXCCR_DQSRES_500_OHM	(4 << 5)
#define DXCCR_DQSRES_458_OHM	(5 << 5)
#define DXCCR_DQSRES_393_OHM	(6 << 5)
#define DXCCR_DQSRES_344_OHM	(7 << 5)

#define DXCCR_DQSNRES_OPEN	(0 << 9)
#define DXCCR_DQSNRES_688_OHM	(1 << 9)
#define DXCCR_DQSNRES_611_OHM	(2 << 9)
#define DXCCR_DQSNRES_550_OHM	(3 << 9)
#define DXCCR_DQSNRES_500_OHM	(4 << 9)
#define DXCCR_DQSNRES_458_OHM	(5 << 9)
#define DXCCR_DQSNRES_393_OHM	(6 << 9)
#define DXCCR_DQSNRES_344_OHM	(7 << 9)

#define DTCR_DTRANK_SHIFT	4		/* Data Training Rank */
#define DTCR_DTRANK_MASK	(0x3 << (DTCR_DTRANK_SHIFT))
#define DTCR_DTMPR		BIT(6)		/* Data Training using MPR */
#define DTCR_RANKEN_SHIFT	24		/* Rank Enable */
#define DTCR_RANKEN_MASK	(0xf << (DTCR_RANKEN_SHIFT))

#define DXGCR_WLRKEN_SHIFT	26		/* Write Level Rank Enable */
#define DXGCR_WLRKEN_MASK	(0xf << (DXGCR_WLRKEN_SHIFT))

/* SoC-specific parameters */
#define NR_DATX8_PER_DDRPHY	2

#ifndef __ASSEMBLY__
int uniphier_ld4_ddrphy_init(struct ddrphy __iomem *phy, int freq,
			     bool ddr3plus);
void ddrphy_prepare_training(struct ddrphy __iomem *phy, int rank);
int ddrphy_training(struct ddrphy __iomem *phy);
#endif

#endif /* ARCH_DDRPHY_REGS_H */
ARM: UniPhier: add DDR PHY training code This training code provides run-time adjustment of DDR PHY parameters for stable DDR operation. Signed-off-by: Masahiro Yamada <yamada.m@jp.panasonic.com> 2014-12-19 20:20:52 +09:00			`/*`
			`* UniPhier DDR PHY registers`
			`*`
ARM: UniPhier: update DDR PHY register map for PH1-Pro5 PH1-Pro5 includes a newer version of DDR PHY IP. Some registers have been added to the reserved areas. Signed-off-by: Masahiro Yamada <yamada.masahiro@socionext.com> 2015-05-29 17:30:08 +09:00			`* Copyright (C) 2014-2015 Masahiro Yamada <yamada.masahiro@socionext.com>`
ARM: UniPhier: add DDR PHY training code This training code provides run-time adjustment of DDR PHY parameters for stable DDR operation. Signed-off-by: Masahiro Yamada <yamada.m@jp.panasonic.com> 2014-12-19 20:20:52 +09:00			`*`
			`* SPDX-License-Identifier: GPL-2.0+`
			`*/`

			`#ifndef ARCH_DDRPHY_REGS_H`
			`#define ARCH_DDRPHY_REGS_H`

ARM: uniphier: use BIT() macro for DDR PHY header Signed-off-by: Masahiro Yamada <yamada.masahiro@socionext.com> 2015-12-16 10:44:28 +09:00			`#include <linux/bitops.h>`
ARM: UniPhier: add DDR PHY training code This training code provides run-time adjustment of DDR PHY parameters for stable DDR operation. Signed-off-by: Masahiro Yamada <yamada.m@jp.panasonic.com> 2014-12-19 20:20:52 +09:00			`#include <linux/compiler.h>`
ARM: uniphier: add a field to specify DDR3+ Add a field to distinguish DDR3+ from (standard) DDR3. It also allows to delete CONFIG_DDR_STANDARD (this is not a software configuration, but a board attribute). Default DDR3 spec for each SoC: PH1-LD4, PH1-sLD8: DDR3+ Others: DDR3 Signed-off-by: Masahiro Yamada <yamada.masahiro@socionext.com> 2016-02-26 14:21:40 +09:00			`#include <linux/types.h>`
ARM: UniPhier: add DDR PHY training code This training code provides run-time adjustment of DDR PHY parameters for stable DDR operation. Signed-off-by: Masahiro Yamada <yamada.m@jp.panasonic.com> 2014-12-19 20:20:52 +09:00
			`#ifndef __ASSEMBLY__`

			`struct ddrphy {`
			`u32 ridr; /* Revision Identification Register */`
			`u32 pir; /* PHY Initialixation Register */`
			`u32 pgcr[2]; /* PHY General Configuration Register */`
			`u32 pgsr[2]; /* PHY General Status Register */`
			`u32 pllcr; /* PLL Control Register */`
			`u32 ptr[5]; /* PHY Timing Register */`
			`u32 acmdlr; /* AC Master Delay Line Register */`
			`u32 acbdlr; /* AC Bit Delay Line Register */`
			`u32 aciocr; /* AC I/O Configuration Register */`
			`u32 dxccr; /* DATX8 Common Configuration Register */`
			`u32 dsgcr; /* DDR System General Configuration Register */`
			`u32 dcr; /* DRAM Configuration Register */`
			`u32 dtpr[3]; /* DRAM Timing Parameters Register */`
			`u32 mr0; /* Mode Register 0 */`
			`u32 mr1; /* Mode Register 1 */`
			`u32 mr2; /* Mode Register 2 */`
			`u32 mr3; /* Mode Register 3 */`
			`u32 odtcr; /* ODT Configuration Register */`
			`u32 dtcr; /* Data Training Configuration Register */`
			`u32 dtar[4]; /* Data Training Address Register */`
			`u32 dtdr[2]; /* Data Training Data Register */`
			`u32 dtedr[2]; /* Data Training Eye Data Register */`
ARM: UniPhier: update DDR PHY register map for PH1-Pro5 PH1-Pro5 includes a newer version of DDR PHY IP. Some registers have been added to the reserved areas. Signed-off-by: Masahiro Yamada <yamada.masahiro@socionext.com> 2015-05-29 17:30:08 +09:00			`u32 pgcr2; /* PHY General Configuration Register 2 */`
			`u32 rsv0[8]; /* Reserved */`
			`u32 rdimmgcr[2]; /* RDIMM General Configuration Register */`
			`u32 rdimmcr0[2]; /* RDIMM Control Register */`
ARM: UniPhier: add DDR PHY training code This training code provides run-time adjustment of DDR PHY parameters for stable DDR operation. Signed-off-by: Masahiro Yamada <yamada.m@jp.panasonic.com> 2014-12-19 20:20:52 +09:00			`u32 dcuar; /* DCU Address Register */`
			`u32 dcudr; /* DCU Data Register */`
			`u32 dcurr; /* DCU Run Register */`
			`u32 dculr; /* DCU Loop Register */`
			`u32 dcugcr; /* DCU General Configuration Register */`
			`u32 dcutpr; /* DCU Timing Parameters Register */`
			`u32 dcusr[2]; /* DCU Status Register */`
			`u32 rsv1[8]; /* Reserved */`
			`u32 bistrr; /* BIST Run Register */`
			`u32 bistwcr; /* BIST Word Count Register */`
			`u32 bistmskr[3]; /* BIST Mask Register */`
			`u32 bistlsr; /* BIST LFSR Sed Register */`
			`u32 bistar[3]; /* BIST Address Register */`
			`u32 bistudpr; /* BIST User Data Pattern Register */`
			`u32 bistgsr; /* BIST General Status Register */`
			`u32 bistwer; /* BIST Word Error Register */`
			`u32 bistber[4]; /* BIST Bit Error Register */`
			`u32 bistwcsr; /* BIST Word Count Status Register */`
			`u32 bistfwr[3]; /* BIST Fail Word Register */`
			`u32 rsv2[10]; /* Reserved */`
			`u32 gpr[2]; /* General Purpose Register */`
			`struct ddrphy_zq { /* ZQ */`
			`u32 cr[2]; /* Impedance Control Register */`
			`u32 sr[2]; /* Impedance Status Register */`
			`} zq[4];`
			`struct ddrphy_datx8 { /* DATX8 */`
			`u32 gcr; /* General Configuration Register */`
			`u32 gsr[2]; /* General Status Register */`
			`u32 bdlr[5]; /* Bit Delay Line Register */`
			`u32 lcdlr[3]; /* Local Calibrated Delay Line Register */`
			`u32 mdlr; /* Master Delay Line Register */`
			`u32 gtr; /* General Timing Register */`
ARM: UniPhier: update DDR PHY register map for PH1-Pro5 PH1-Pro5 includes a newer version of DDR PHY IP. Some registers have been added to the reserved areas. Signed-off-by: Masahiro Yamada <yamada.masahiro@socionext.com> 2015-05-29 17:30:08 +09:00			`u32 gsr2; /* General Status Register 2 */`
			`u32 rsv[2]; /* Reserved */`
ARM: UniPhier: add DDR PHY training code This training code provides run-time adjustment of DDR PHY parameters for stable DDR operation. Signed-off-by: Masahiro Yamada <yamada.m@jp.panasonic.com> 2014-12-19 20:20:52 +09:00			`} dx[9];`
ARM: UniPhier: remove __packed that causes a problem on GCC 4.9 The DDR PHY training function, ddrphy_prepare_training() would not work if compiled with GCC 4.9. The struct ddrphy (arch/arm/include/asm/arch-uniphier/ddrphy-regs.h) is specified with __packed because it represents a hardware register mapping, but it turned out to cause a problem on GCC 4.9. If -mno-unaligned-access is specified (yes, it is in arch/arm/cpu/armv7/config.mk), GCC 4.9 is aware of the __attribute__((packed)) and generates extra instructions to perform the memory access in a way that does not cause unaligned access. (Actually it is not need here because the register base, the first argument of the ddrphy_prepare_training(), is always given with a 4-byte aligned address.) Anyway, as a result, readl() / writel() is divided into byte-wise accesses. The problem is that this hardware only accepts 4-byte register access. Byte-wise accesses lead to unexpected behavior. There are some options to avoid this problem. [1] Remove -mno-unaligned-access [2] Add __aligned(4) along with __packed to struct ddrphy [3] Remove __packed from struct ddrphy [1] solves the problem for ARMv7, but it does not for pre-ARMv6 and ARMv6-M architectures where -mno-unaligned-access is default. So, [1] does not seem reasonable in terms of code portability. Both [2] and [3] work well, but [2] seems too much. All the members of struct ddrphy have the u32 type. No padding would be inserted even if __packed is dropped. Signed-off-by: Masahiro Yamada <yamada.m@jp.panasonic.com> Reviewed-by: Tom Rini <trini@ti.com> 2015-01-07 19:41:38 +09:00			`};`
ARM: UniPhier: add DDR PHY training code This training code provides run-time adjustment of DDR PHY parameters for stable DDR operation. Signed-off-by: Masahiro Yamada <yamada.m@jp.panasonic.com> 2014-12-19 20:20:52 +09:00
			`#endif /* __ASSEMBLY__ */`

ARM: uniphier: use BIT() macro for DDR PHY header Signed-off-by: Masahiro Yamada <yamada.masahiro@socionext.com> 2015-12-16 10:44:28 +09:00			`#define PIR_INIT BIT(0) /* Initialization Trigger */`
			`#define PIR_ZCAL BIT(1) /* Impedance Calibration */`
			`#define PIR_PLLINIT BIT(4) /* PLL Initialization */`
			`#define PIR_DCAL BIT(5) /* DDL Calibration */`
			`#define PIR_PHYRST BIT(6) /* PHY Reset */`
			`#define PIR_DRAMRST BIT(7) /* DRAM Reset */`
			`#define PIR_DRAMINIT BIT(8) /* DRAM Initialization */`
			`#define PIR_WL BIT(9) /* Write Leveling */`
			`#define PIR_QSGATE BIT(10) /* Read DQS Gate Training */`
			`#define PIR_WLADJ BIT(11) /* Write Leveling Adjust */`
			`#define PIR_RDDSKW BIT(12) /* Read Data Bit Deskew */`
			`#define PIR_WRDSKW BIT(13) /* Write Data Bit Deskew */`
			`#define PIR_RDEYE BIT(14) /* Read Data Eye Training */`
			`#define PIR_WREYE BIT(15) /* Write Data Eye Training */`
			`#define PIR_LOCKBYP BIT(28) /* PLL Lock Bypass */`
			`#define PIR_DCALBYP BIT(29) /* DDL Calibration Bypass */`
			`#define PIR_ZCALBYP BIT(30) /* Impedance Calib Bypass */`
			`#define PIR_INITBYP BIT(31) /* Initialization Bypass */`

			`#define PGSR0_IDONE BIT(0) /* Initialization Done */`
			`#define PGSR0_PLDONE BIT(1) /* PLL Lock Done */`
			`#define PGSR0_DCDONE BIT(2) /* DDL Calibration Done */`
			`#define PGSR0_ZCDONE BIT(3) /* Impedance Calibration Done */`
			`#define PGSR0_DIDONE BIT(4) /* DRAM Initialization Done */`
			`#define PGSR0_WLDONE BIT(5) /* Write Leveling Done */`
			`#define PGSR0_QSGDONE BIT(6) /* DQS Gate Training Done */`
			`#define PGSR0_WLADONE BIT(7) /* Write Leveling Adjust Done */`
			`#define PGSR0_RDDONE BIT(8) /* Read Bit Deskew Done */`
			`#define PGSR0_WDDONE BIT(9) /* Write Bit Deskew Done */`
			`#define PGSR0_REDONE BIT(10) /* Read Eye Training Done */`
			`#define PGSR0_WEDONE BIT(11) /* Write Eye Training Done */`
			`#define PGSR0_IERR BIT(16) /* Initialization Error */`
			`#define PGSR0_PLERR BIT(17) /* PLL Lock Error */`
			`#define PGSR0_DCERR BIT(18) /* DDL Calibration Error */`
			`#define PGSR0_ZCERR BIT(19) /* Impedance Calib Error */`
			`#define PGSR0_DIERR BIT(20) /* DRAM Initialization Error */`
			`#define PGSR0_WLERR BIT(21) /* Write Leveling Error */`
			`#define PGSR0_QSGERR BIT(22) /* DQS Gate Training Error */`
			`#define PGSR0_WLAERR BIT(23) /* Write Leveling Adj Error */`
			`#define PGSR0_RDERR BIT(24) /* Read Bit Deskew Error */`
			`#define PGSR0_WDERR BIT(25) /* Write Bit Deskew Error */`
			`#define PGSR0_REERR BIT(26) /* Read Eye Training Error */`
			`#define PGSR0_WEERR BIT(27) /* Write Eye Training Error */`
ARM: UniPhier: add DDR PHY training code This training code provides run-time adjustment of DDR PHY parameters for stable DDR operation. Signed-off-by: Masahiro Yamada <yamada.m@jp.panasonic.com> 2014-12-19 20:20:52 +09:00			`#define PGSR0_DTERR_SHIFT 28 /* Data Training Error Status*/`
			`#define PGSR0_DTERR (7 << (PGSR0_DTERR_SHIFT))`
ARM: uniphier: use BIT() macro for DDR PHY header Signed-off-by: Masahiro Yamada <yamada.masahiro@socionext.com> 2015-12-16 10:44:28 +09:00			`#define PGSR0_APLOCK BIT(31) /* AC PLL Lock */`
ARM: UniPhier: add DDR PHY training code This training code provides run-time adjustment of DDR PHY parameters for stable DDR operation. Signed-off-by: Masahiro Yamada <yamada.m@jp.panasonic.com> 2014-12-19 20:20:52 +09:00
			`#define DXCCR_DQSRES_OPEN (0 << 5)`
			`#define DXCCR_DQSRES_688_OHM (1 << 5)`
			`#define DXCCR_DQSRES_611_OHM (2 << 5)`
			`#define DXCCR_DQSRES_550_OHM (3 << 5)`
			`#define DXCCR_DQSRES_500_OHM (4 << 5)`
			`#define DXCCR_DQSRES_458_OHM (5 << 5)`
			`#define DXCCR_DQSRES_393_OHM (6 << 5)`
			`#define DXCCR_DQSRES_344_OHM (7 << 5)`

			`#define DXCCR_DQSNRES_OPEN (0 << 9)`
			`#define DXCCR_DQSNRES_688_OHM (1 << 9)`
			`#define DXCCR_DQSNRES_611_OHM (2 << 9)`
			`#define DXCCR_DQSNRES_550_OHM (3 << 9)`
			`#define DXCCR_DQSNRES_500_OHM (4 << 9)`
			`#define DXCCR_DQSNRES_458_OHM (5 << 9)`
			`#define DXCCR_DQSNRES_393_OHM (6 << 9)`
			`#define DXCCR_DQSNRES_344_OHM (7 << 9)`

			`#define DTCR_DTRANK_SHIFT 4 /* Data Training Rank */`
			`#define DTCR_DTRANK_MASK (0x3 << (DTCR_DTRANK_SHIFT))`
ARM: uniphier: use BIT() macro for DDR PHY header Signed-off-by: Masahiro Yamada <yamada.masahiro@socionext.com> 2015-12-16 10:44:28 +09:00			`#define DTCR_DTMPR BIT(6) /* Data Training using MPR */`
ARM: uniphier: rename DTCR_RNKEN_* register bit to DTCR_RANKEN_* The bit 27-24 of the DTCR register is described as RANKEN in the DDR PHY databook. Follow this abbreviation. Signed-off-by: Masahiro Yamada <yamada.masahiro@socionext.com> 2015-12-16 10:42:29 +09:00			`#define DTCR_RANKEN_SHIFT 24 /* Rank Enable */`
			`#define DTCR_RANKEN_MASK (0xf << (DTCR_RANKEN_SHIFT))`
ARM: UniPhier: add DDR PHY training code This training code provides run-time adjustment of DDR PHY parameters for stable DDR operation. Signed-off-by: Masahiro Yamada <yamada.m@jp.panasonic.com> 2014-12-19 20:20:52 +09:00
			`#define DXGCR_WLRKEN_SHIFT 26 /* Write Level Rank Enable */`
			`#define DXGCR_WLRKEN_MASK (0xf << (DXGCR_WLRKEN_SHIFT))`

			`/* SoC-specific parameters */`
			`#define NR_DATX8_PER_DDRPHY 2`

			`#ifndef __ASSEMBLY__`
ARM: uniphier: rename function names ph1_* to uniphier_* Eliminate the "ph1"_ prefixes from function names because "uniphier_" describes the SoC familiy better. Signed-off-by: Masahiro Yamada <yamada.masahiro@socionext.com> 2016-03-30 20:17:02 +09:00			`int uniphier_ld4_ddrphy_init(struct ddrphy __iomem *phy, int freq,`
			`bool ddr3plus);`
ARM: UniPhier: add DDR PHY training code This training code provides run-time adjustment of DDR PHY parameters for stable DDR operation. Signed-off-by: Masahiro Yamada <yamada.m@jp.panasonic.com> 2014-12-19 20:20:52 +09:00			`void ddrphy_prepare_training(struct ddrphy __iomem *phy, int rank);`
			`int ddrphy_training(struct ddrphy __iomem *phy);`
			`#endif`

			`#endif /* ARCH_DDRPHY_REGS_H */`