u-boot/arch/arm/mach-at91/mpddrc.c
Tom Rini 83d290c56f SPDX: Convert all of our single license tags to Linux Kernel style
When U-Boot started using SPDX tags we were among the early adopters and
there weren't a lot of other examples to borrow from.  So we picked the
area of the file that usually had a full license text and replaced it
with an appropriate SPDX-License-Identifier: entry.  Since then, the
Linux Kernel has adopted SPDX tags and they place it as the very first
line in a file (except where shebangs are used, then it's second line)
and with slightly different comment styles than us.

In part due to community overlap, in part due to better tag visibility
and in part for other minor reasons, switch over to that style.

This commit changes all instances where we have a single declared
license in the tag as both the before and after are identical in tag
contents.  There's also a few places where I found we did not have a tag
and have introduced one.

Signed-off-by: Tom Rini <trini@konsulko.com>
2018-05-07 09:34:12 -04:00

229 lines
6.8 KiB
C

// SPDX-License-Identifier: GPL-2.0+
/*
* Copyright (C) 2013 Atmel Corporation
* Bo Shen <voice.shen@atmel.com>
*
* Copyright (C) 2015 Atmel Corporation
* Wenyou Yang <wenyou.yang@atmel.com>
*/
#include <common.h>
#include <asm/io.h>
#include <asm/arch/atmel_mpddrc.h>
#define SAMA5D3_MPDDRC_VERSION 0x140
static inline void atmel_mpddr_op(const struct atmel_mpddr *mpddr,
int mode,
u32 ram_address)
{
writel(mode, &mpddr->mr);
writel(0, ram_address);
}
static int ddr2_decodtype_is_seq(const unsigned int base, u32 cr)
{
struct atmel_mpddr *mpddr = (struct atmel_mpddr *)base;
u16 version = readl(&mpddr->version) & 0xffff;
if ((version >= SAMA5D3_MPDDRC_VERSION) &&
(cr & ATMEL_MPDDRC_CR_DECOD_INTERLEAVED))
return 0;
return 1;
}
int ddr2_init(const unsigned int base,
const unsigned int ram_address,
const struct atmel_mpddrc_config *mpddr_value)
{
const struct atmel_mpddr *mpddr = (struct atmel_mpddr *)base;
u32 ba_off, cr;
/* Compute bank offset according to NC in configuration register */
ba_off = (mpddr_value->cr & ATMEL_MPDDRC_CR_NC_MASK) + 9;
if (ddr2_decodtype_is_seq(base, mpddr_value->cr))
ba_off += ((mpddr_value->cr & ATMEL_MPDDRC_CR_NR_MASK) >> 2) + 11;
ba_off += (mpddr_value->md & ATMEL_MPDDRC_MD_DBW_MASK) ? 1 : 2;
/* Program the memory device type into the memory device register */
writel(mpddr_value->md, &mpddr->md);
/* Program the configuration register */
writel(mpddr_value->cr, &mpddr->cr);
/* Program the timing register */
writel(mpddr_value->tpr0, &mpddr->tpr0);
writel(mpddr_value->tpr1, &mpddr->tpr1);
writel(mpddr_value->tpr2, &mpddr->tpr2);
/* Issue a NOP command */
atmel_mpddr_op(mpddr, ATMEL_MPDDRC_MR_MODE_NOP_CMD, ram_address);
/* A 200 us is provided to precede any signal toggle */
udelay(200);
/* Issue a NOP command */
atmel_mpddr_op(mpddr, ATMEL_MPDDRC_MR_MODE_NOP_CMD, ram_address);
/* Issue an all banks precharge command */
atmel_mpddr_op(mpddr, ATMEL_MPDDRC_MR_MODE_PRCGALL_CMD, ram_address);
/* Issue an extended mode register set(EMRS2) to choose operation */
atmel_mpddr_op(mpddr, ATMEL_MPDDRC_MR_MODE_EXT_LMR_CMD,
ram_address + (0x2 << ba_off));
/* Issue an extended mode register set(EMRS3) to set EMSR to 0 */
atmel_mpddr_op(mpddr, ATMEL_MPDDRC_MR_MODE_EXT_LMR_CMD,
ram_address + (0x3 << ba_off));
/*
* Issue an extended mode register set(EMRS1) to enable DLL and
* program D.I.C (output driver impedance control)
*/
atmel_mpddr_op(mpddr, ATMEL_MPDDRC_MR_MODE_EXT_LMR_CMD,
ram_address + (0x1 << ba_off));
/* Enable DLL reset */
cr = readl(&mpddr->cr);
writel(cr | ATMEL_MPDDRC_CR_DLL_RESET_ENABLED, &mpddr->cr);
/* A mode register set(MRS) cycle is issued to reset DLL */
atmel_mpddr_op(mpddr, ATMEL_MPDDRC_MR_MODE_LMR_CMD, ram_address);
/* Issue an all banks precharge command */
atmel_mpddr_op(mpddr, ATMEL_MPDDRC_MR_MODE_PRCGALL_CMD, ram_address);
/* Two auto-refresh (CBR) cycles are provided */
atmel_mpddr_op(mpddr, ATMEL_MPDDRC_MR_MODE_RFSH_CMD, ram_address);
atmel_mpddr_op(mpddr, ATMEL_MPDDRC_MR_MODE_RFSH_CMD, ram_address);
/* Disable DLL reset */
cr = readl(&mpddr->cr);
writel(cr & (~ATMEL_MPDDRC_CR_DLL_RESET_ENABLED), &mpddr->cr);
/* A mode register set (MRS) cycle is issued to disable DLL reset */
atmel_mpddr_op(mpddr, ATMEL_MPDDRC_MR_MODE_LMR_CMD, ram_address);
/* Set OCD calibration in default state */
cr = readl(&mpddr->cr);
writel(cr | ATMEL_MPDDRC_CR_OCD_DEFAULT, &mpddr->cr);
/*
* An extended mode register set (EMRS1) cycle is issued
* to OCD default value
*/
atmel_mpddr_op(mpddr, ATMEL_MPDDRC_MR_MODE_EXT_LMR_CMD,
ram_address + (0x1 << ba_off));
/* OCD calibration mode exit */
cr = readl(&mpddr->cr);
writel(cr & (~ATMEL_MPDDRC_CR_OCD_DEFAULT), &mpddr->cr);
/*
* An extended mode register set (EMRS1) cycle is issued
* to enable OCD exit
*/
atmel_mpddr_op(mpddr, ATMEL_MPDDRC_MR_MODE_EXT_LMR_CMD,
ram_address + (0x1 << ba_off));
/* A nornal mode command is provided */
atmel_mpddr_op(mpddr, ATMEL_MPDDRC_MR_MODE_NORMAL_CMD, ram_address);
/* Perform a write access to any DDR2-SDRAM address */
writel(0, ram_address);
/* Write the refresh rate */
writel(mpddr_value->rtr, &mpddr->rtr);
return 0;
}
int ddr3_init(const unsigned int base,
const unsigned int ram_address,
const struct atmel_mpddrc_config *mpddr_value)
{
struct atmel_mpddr *mpddr = (struct atmel_mpddr *)base;
u32 ba_off;
/* Compute bank offset according to NC in configuration register */
ba_off = (mpddr_value->cr & ATMEL_MPDDRC_CR_NC_MASK) + 9;
if (ddr2_decodtype_is_seq(base, mpddr_value->cr))
ba_off += ((mpddr_value->cr &
ATMEL_MPDDRC_CR_NR_MASK) >> 2) + 11;
ba_off += (mpddr_value->md & ATMEL_MPDDRC_MD_DBW_MASK) ? 1 : 2;
/* Program the memory device type */
writel(mpddr_value->md, &mpddr->md);
/*
* Program features of the DDR3-SDRAM device and timing parameters
*/
writel(mpddr_value->cr, &mpddr->cr);
writel(mpddr_value->tpr0, &mpddr->tpr0);
writel(mpddr_value->tpr1, &mpddr->tpr1);
writel(mpddr_value->tpr2, &mpddr->tpr2);
/* A NOP command is issued to the DDR3-SRAM */
atmel_mpddr_op(mpddr, ATMEL_MPDDRC_MR_MODE_NOP_CMD, ram_address);
/* A pause of at least 500us must be observed before a single toggle. */
udelay(500);
/* A NOP command is issued to the DDR3-SDRAM */
atmel_mpddr_op(mpddr, ATMEL_MPDDRC_MR_MODE_NOP_CMD, ram_address);
/*
* An Extended Mode Register Set (EMRS2) cycle is issued to choose
* between commercial or high temperature operations.
*/
atmel_mpddr_op(mpddr, ATMEL_MPDDRC_MR_MODE_EXT_LMR_CMD,
ram_address + (0x2 << ba_off));
/*
* Step 7: An Extended Mode Register Set (EMRS3) cycle is issued to set
* the Extended Mode Register to 0.
*/
atmel_mpddr_op(mpddr, ATMEL_MPDDRC_MR_MODE_EXT_LMR_CMD,
ram_address + (0x3 << ba_off));
/*
* An Extended Mode Register Set (EMRS1) cycle is issued to disable and
* to program O.D.S. (Output Driver Strength).
*/
atmel_mpddr_op(mpddr, ATMEL_MPDDRC_MR_MODE_EXT_LMR_CMD,
ram_address + (0x1 << ba_off));
/*
* Write a one to the DLL bit (enable DLL reset) in the MPDDRC
* Configuration Register.
*/
/* A Mode Register Set (MRS) cycle is issued to reset DLL. */
atmel_mpddr_op(mpddr, ATMEL_MPDDRC_MR_MODE_LMR_CMD, ram_address);
udelay(50);
/*
* A Calibration command (MRS) is issued to calibrate RTT and RON
* values for the Process Voltage Temperature (PVT).
*/
atmel_mpddr_op(mpddr, ATMEL_MPDDRC_MR_MODE_DEEP_CMD, ram_address);
/* A Normal Mode command is provided. */
atmel_mpddr_op(mpddr, ATMEL_MPDDRC_MR_MODE_NORMAL_CMD, ram_address);
/* Perform a write access to any DDR3-SDRAM address. */
writel(0, ram_address);
/*
* Write the refresh rate into the COUNT field in the MPDDRC
* Refresh Timer Register (MPDDRC_RTR):
*/
writel(mpddr_value->rtr, &mpddr->rtr);
return 0;
}