u-boot/arch/arm/mach-omap2/am33xx/ti816x_emif4.c
Tom Rini 8627733941 ti816x: Rework DDR initialization sequence
The ti816x/am389x SoC is the first generation in what U-Boot calls the
"am33xx" family.  In the first generation of this family the DDR
initialization sequence is quite different from all of the subsequent
generations.  Whereas with ti814x (second generation) we can easily work
the minor differenced between that and am33xx (third generation), our
attempts to do this for ti816x weren't sufficient.  Rather than add a
large amount of #ifdef logic to make this different sequence work we add
a new file, ti816x_emif4.c to handle the various required undocumented
register writes and sequence and leverage what we can from
arch/arm/mach-omap2/am33xx/ddr.c still.  As DDR2 has similar problems
today but I am unable to test it, we drop the DDR2 defines from the code
rather than imply that it works by leaving it.  We also remove a bunch
of other untested code about changing the speed the DDR runs at.

Signed-off-by: Tom Rini <trini@konsulko.com>
2017-06-05 11:02:23 -04:00

165 lines
6.7 KiB
C

/*
* ti816x_emif4.c
*
* TI816x emif4 configuration file
*
* Copyright (C) 2017, Konsulko Group
*
* SPDX-License-Identifier: GPL-2.0+
*/
#include <common.h>
#include <asm/arch/cpu.h>
#include <asm/arch/ddr_defs.h>
#include <asm/arch/hardware.h>
#include <asm/arch/clock.h>
#include <asm/arch/sys_proto.h>
#include <asm/io.h>
#include <asm/emif.h>
/*********************************************************************
* Init DDR3 on TI816X EVM
*********************************************************************/
static void ddr_init_settings(const struct cmd_control *ctrl, int emif)
{
/*
* setup use_rank_delays to 1. This is only necessary when
* multiple ranks are in use. Though the EVM does not have
* multiple ranks, this is a good value to set.
*/
writel(1, DDRPHY_CONFIG_BASE + 0x134); // DATA0_REG_PHY_USE_RANK0_DELAYS
writel(1, DDRPHY_CONFIG_BASE + 0x1d8); // DATA1_REG_PHY_USE_RANK0_DELAYS
writel(1, DDRPHY_CONFIG_BASE + 0x27c); // DATA2_REG_PHY_USE_RANK0_DELAYS
writel(1, DDRPHY_CONFIG_BASE + 0x320); // DATA3_REG_PHY_USE_RANK0_DELAYS
config_cmd_ctrl(ctrl, emif);
/* for ddr3 this needs to be set to 1 */
writel(0x1, DDRPHY_CONFIG_BASE + 0x0F8); /* init mode */
writel(0x1, DDRPHY_CONFIG_BASE + 0x104);
writel(0x1, DDRPHY_CONFIG_BASE + 0x19C);
writel(0x1, DDRPHY_CONFIG_BASE + 0x1A8);
writel(0x1, DDRPHY_CONFIG_BASE + 0x240);
writel(0x1, DDRPHY_CONFIG_BASE + 0x24C);
writel(0x1, DDRPHY_CONFIG_BASE + 0x2E4);
writel(0x1, DDRPHY_CONFIG_BASE + 0x2F0);
/*
* This represents the initial value for the leveling process. The
* value is a ratio - so 0x100 represents one cycle. The real delay
* is determined through the leveling process.
*
* During the leveling process, 0x20 is subtracted from the value, so
* we have added that to the value we want to set. We also set the
* values such that byte3 completes leveling after byte2 and byte1
* after byte0.
*/
writel((0x20 << 10) | 0x20, DDRPHY_CONFIG_BASE + 0x0F0); /* data0 writelvl init ratio */
writel(0x0, DDRPHY_CONFIG_BASE + 0x0F4); /* */
writel((0x20 << 10) | 0x20, DDRPHY_CONFIG_BASE + 0x194); /* data1 writelvl init ratio */
writel(0x0, DDRPHY_CONFIG_BASE + 0x198); /* */
writel((0x20 << 10) | 0x20, DDRPHY_CONFIG_BASE + 0x238); /* data2 writelvl init ratio */
writel(0x0, DDRPHY_CONFIG_BASE + 0x23c); /* */
writel((0x20 << 10) | 0x20, DDRPHY_CONFIG_BASE + 0x2dc); /* data3 writelvl init ratio */
writel(0x0, DDRPHY_CONFIG_BASE + 0x2e0); /* */
writel((0x20 << 10) | 0x20, DDRPHY_CONFIG_BASE + 0x0FC); /* data0 gatelvl init ratio */
writel(0x0, DDRPHY_CONFIG_BASE + 0x100);
writel((0x20 << 10) | 0x20, DDRPHY_CONFIG_BASE + 0x1A0); /* data1 gatelvl init ratio */
writel(0x0, DDRPHY_CONFIG_BASE + 0x1A4);
writel((0x20 << 10) | 0x20, DDRPHY_CONFIG_BASE + 0x244); /* data2 gatelvl init ratio */
writel(0x0, DDRPHY_CONFIG_BASE + 0x248);
writel((0x20 << 10) | 0x20, DDRPHY_CONFIG_BASE + 0x2E8); /* data3 gatelvl init ratio */
writel(0x0, DDRPHY_CONFIG_BASE + 0x2EC);
writel(0x5, DDRPHY_CONFIG_BASE + 0x00C); /* cmd0 io config - output impedance of pad */
writel(0x5, DDRPHY_CONFIG_BASE + 0x010); /* cmd0 io clk config - output impedance of pad */
writel(0x5, DDRPHY_CONFIG_BASE + 0x040); /* cmd1 io config - output impedance of pad */
writel(0x5, DDRPHY_CONFIG_BASE + 0x044); /* cmd1 io clk config - output impedance of pad */
writel(0x5, DDRPHY_CONFIG_BASE + 0x074); /* cmd2 io config - output impedance of pad */
writel(0x5, DDRPHY_CONFIG_BASE + 0x078); /* cmd2 io clk config - output impedance of pad */
writel(0x4, DDRPHY_CONFIG_BASE + 0x0A8); /* data0 io config - output impedance of pad */
writel(0x4, DDRPHY_CONFIG_BASE + 0x0AC); /* data0 io clk config - output impedance of pad */
writel(0x4, DDRPHY_CONFIG_BASE + 0x14C); /* data1 io config - output impedance of pa */
writel(0x4, DDRPHY_CONFIG_BASE + 0x150); /* data1 io clk config - output impedance of pad */
writel(0x4, DDRPHY_CONFIG_BASE + 0x1F0); /* data2 io config - output impedance of pa */
writel(0x4, DDRPHY_CONFIG_BASE + 0x1F4); /* data2 io clk config - output impedance of pad */
writel(0x4, DDRPHY_CONFIG_BASE + 0x294); /* data3 io config - output impedance of pa */
writel(0x4, DDRPHY_CONFIG_BASE + 0x298); /* data3 io clk config - output impedance of pad */
}
static void ddr3_sw_levelling(const struct ddr_data *data, int emif)
{
/* Set the correct value to DDR_VTP_CTRL_0 */
writel(0x6, (DDRPHY_CONFIG_BASE + 0x358));
writel(data->datafwsratio0, (DDRPHY_CONFIG_BASE + 0x108));
writel(data->datafwsratio0, (DDRPHY_CONFIG_BASE + 0x1AC));
writel(data->datafwsratio0, (DDRPHY_CONFIG_BASE + 0x250));
writel(data->datafwsratio0, (DDRPHY_CONFIG_BASE + 0x2F4));
writel(data->datawdsratio0, (DDRPHY_CONFIG_BASE + 0x0DC));
writel(data->datawdsratio0, (DDRPHY_CONFIG_BASE + 0x180));
writel(data->datawdsratio0, (DDRPHY_CONFIG_BASE + 0x224));
writel(data->datawdsratio0, (DDRPHY_CONFIG_BASE + 0x2C8));
writel(data->datawrsratio0, (DDRPHY_CONFIG_BASE + 0x120));
writel(data->datawrsratio0, (DDRPHY_CONFIG_BASE + 0x1C4));
writel(data->datawrsratio0, (DDRPHY_CONFIG_BASE + 0x268));
writel(data->datawrsratio0, (DDRPHY_CONFIG_BASE + 0x30C));
writel(data->datardsratio0, (DDRPHY_CONFIG_BASE + 0x0C8));
writel(data->datardsratio0, (DDRPHY_CONFIG_BASE + 0x16C));
writel(data->datardsratio0, (DDRPHY_CONFIG_BASE + 0x210));
writel(data->datardsratio0, (DDRPHY_CONFIG_BASE + 0x2B4));
}
static struct dmm_lisa_map_regs *hw_lisa_map_regs =
(struct dmm_lisa_map_regs *)DMM_BASE;
#define DMM_PAT_BASE_ADDR (DMM_BASE + 0x420)
void config_dmm(const struct dmm_lisa_map_regs *regs)
{
writel(0, &hw_lisa_map_regs->dmm_lisa_map_3);
writel(0, &hw_lisa_map_regs->dmm_lisa_map_2);
writel(0, &hw_lisa_map_regs->dmm_lisa_map_1);
writel(0, &hw_lisa_map_regs->dmm_lisa_map_0);
writel(regs->dmm_lisa_map_3, &hw_lisa_map_regs->dmm_lisa_map_3);
writel(regs->dmm_lisa_map_2, &hw_lisa_map_regs->dmm_lisa_map_2);
writel(regs->dmm_lisa_map_1, &hw_lisa_map_regs->dmm_lisa_map_1);
writel(regs->dmm_lisa_map_0, &hw_lisa_map_regs->dmm_lisa_map_0);
/* Enable Tiled Access */
writel(0x80000000, DMM_PAT_BASE_ADDR);
}
void config_ddr(const struct ddr_data *data, const struct cmd_control *ctrl,
const struct emif_regs *regs,
const struct dmm_lisa_map_regs *lisa_regs, int nrs)
{
int i;
enable_emif_clocks();
for (i = 0; i < nrs; i++)
ddr_init_settings(ctrl, i);
enable_dmm_clocks();
/* Program the DMM to for non-interleaved configuration */
config_dmm(lisa_regs);
/* Program EMIF CFG Registers */
for (i = 0; i < nrs; i++) {
set_sdram_timings(regs, i);
config_sdram(regs, i);
}
udelay(1000);
for (i = 0; i < nrs; i++)
ddr3_sw_levelling(data, i);
udelay(50000); /* Some delay needed */
}