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// SPDX-License-Identifier: GPL-2.0+
/*
* Copyright (C) 2019
* Author(s): Giulio Benetti <giulio.benetti@benettiengineering.com>
*/
#include <common.h>
#include <clk.h>
#include <dm.h>
#include <ram.h>
#include <asm/io.h>
#include <linux/err.h>
/* SDRAM Command Code */
#define SD_CC_ARD 0x0 /* Master Bus (AXI) command - Read */
#define SD_CC_AWR 0x1 /* Master Bus (AXI) command - Write */
#define SD_CC_IRD 0x8 /* IP command - Read */
#define SD_CC_IWR 0x9 /* IP command - Write */
#define SD_CC_IMS 0xA /* IP command - Set Mode Register */
#define SD_CC_IACT 0xB /* IP command - ACTIVE */
#define SD_CC_IAF 0xC /* IP command - Auto Refresh */
#define SD_CC_ISF 0xD /* IP Command - Self Refresh */
#define SD_CC_IPRE 0xE /* IP command - Precharge */
#define SD_CC_IPREA 0xF /* IP command - Precharge ALL */
#define SEMC_MCR_MDIS BIT(1)
#define SEMC_MCR_DQSMD BIT(2)
#define SEMC_INTR_IPCMDERR BIT(1)
#define SEMC_INTR_IPCMDDONE BIT(0)
#define SEMC_IPCMD_KEY 0xA55A0000
struct imxrt_semc_regs {
/* 0x0 */
u32 mcr;
u32 iocr;
u32 bmcr0;
u32 bmcr1;
u32 br[9];
/* 0x34 */
u32 res1;
u32 inten;
u32 intr;
/* 0x40 */
u32 sdramcr0;
u32 sdramcr1;
u32 sdramcr2;
u32 sdramcr3;
/* 0x50 */
u32 nandcr0;
u32 nandcr1;
u32 nandcr2;
u32 nandcr3;
/* 0x60 */
u32 norcr0;
u32 norcr1;
u32 norcr2;
u32 norcr3;
/* 0x70 */
u32 sramcr0;
u32 sramcr1;
u32 sramcr2;
u32 sramcr3;
/* 0x80 */
u32 dbicr0;
u32 dbicr1;
u32 res2[2];
/* 0x90 */
u32 ipcr0;
u32 ipcr1;
u32 ipcr2;
u32 ipcmd;
/* 0xA0 */
u32 iptxdat;
u32 res3[3];
/* 0xB0 */
u32 iprxdat;
u32 res4[3];
/* 0xC0 */
u32 sts[16];
};
#define SEMC_IOCR_MUX_A8_SHIFT 0
#define SEMC_IOCR_MUX_CSX0_SHIFT 3
#define SEMC_IOCR_MUX_CSX1_SHIFT 6
#define SEMC_IOCR_MUX_CSX2_SHIFT 9
#define SEMC_IOCR_MUX_CSX3_SHIFT 12
#define SEMC_IOCR_MUX_RDY_SHIFT 15
struct imxrt_sdram_mux {
u8 a8;
u8 csx0;
u8 csx1;
u8 csx2;
u8 csx3;
u8 rdy;
};
#define SEMC_SDRAMCR0_PS_SHIFT 0
#define SEMC_SDRAMCR0_BL_SHIFT 4
#define SEMC_SDRAMCR0_COL_SHIFT 8
#define SEMC_SDRAMCR0_CL_SHIFT 10
struct imxrt_sdram_control {
u8 memory_width;
u8 burst_len;
u8 no_columns;
u8 cas_latency;
};
#define SEMC_SDRAMCR1_PRE2ACT_SHIFT 0
#define SEMC_SDRAMCR1_ACT2RW_SHIFT 4
#define SEMC_SDRAMCR1_RFRC_SHIFT 8
#define SEMC_SDRAMCR1_WRC_SHIFT 13
#define SEMC_SDRAMCR1_CKEOFF_SHIFT 16
#define SEMC_SDRAMCR1_ACT2PRE_SHIFT 20
#define SEMC_SDRAMCR2_SRRC_SHIFT 0
#define SEMC_SDRAMCR2_REF2REF_SHIFT 8
#define SEMC_SDRAMCR2_ACT2ACT_SHIFT 16
#define SEMC_SDRAMCR2_ITO_SHIFT 24
#define SEMC_SDRAMCR3_REN BIT(0)
#define SEMC_SDRAMCR3_REBL_SHIFT 1
#define SEMC_SDRAMCR3_PRESCALE_SHIFT 8
#define SEMC_SDRAMCR3_RT_SHIFT 16
#define SEMC_SDRAMCR3_UT_SHIFT 24
struct imxrt_sdram_timing {
u8 pre2act;
u8 act2rw;
u8 rfrc;
u8 wrc;
u8 ckeoff;
u8 act2pre;
u8 srrc;
u8 ref2ref;
u8 act2act;
u8 ito;
u8 rebl;
u8 prescale;
u8 rt;
u8 ut;
};
enum imxrt_semc_bank {
SDRAM_BANK1,
SDRAM_BANK2,
SDRAM_BANK3,
SDRAM_BANK4,
MAX_SDRAM_BANK,
};
#define SEMC_BR_VLD_MASK 1
#define SEMC_BR_MS_SHIFT 1
struct bank_params {
enum imxrt_semc_bank target_bank;
u32 base_address;
u32 memory_size;
};
struct imxrt_sdram_params {
struct imxrt_semc_regs *base;
struct imxrt_sdram_mux *sdram_mux;
struct imxrt_sdram_control *sdram_control;
struct imxrt_sdram_timing *sdram_timing;
struct bank_params bank_params[MAX_SDRAM_BANK];
u8 no_sdram_banks;
};
static int imxrt_sdram_wait_ipcmd_done(struct imxrt_semc_regs *regs)
{
do {
readl(®s->intr);
if (regs->intr & SEMC_INTR_IPCMDDONE)
return 0;
if (regs->intr & SEMC_INTR_IPCMDERR)
return -EIO;
mdelay(50);
} while (1);
}
static int imxrt_sdram_ipcmd(struct imxrt_semc_regs *regs, u32 mem_addr,
u32 ipcmd, u32 wd, u32 *rd)
{
int ret;
if (ipcmd == SD_CC_IWR || ipcmd == SD_CC_IMS)
writel(wd, ®s->iptxdat);
/* set slave address for every command as specified on RM */
writel(mem_addr, ®s->ipcr0);
/* execute command */
writel(SEMC_IPCMD_KEY | ipcmd, ®s->ipcmd);
ret = imxrt_sdram_wait_ipcmd_done(regs);
if (ret < 0)
return ret;
if (ipcmd == SD_CC_IRD) {
if (!rd)
return -EINVAL;
*rd = readl(®s->iprxdat);
}
return 0;
}
int imxrt_sdram_init(struct udevice *dev)
{
struct imxrt_sdram_params *params = dev_get_platdata(dev);
struct imxrt_sdram_mux *mux = params->sdram_mux;
struct imxrt_sdram_control *ctrl = params->sdram_control;
struct imxrt_sdram_timing *time = params->sdram_timing;
struct imxrt_semc_regs *regs = params->base;
struct bank_params *bank_params;
u32 rd;
int i;
/* enable the SEMC controller */
clrbits_le32(®s->mcr, SEMC_MCR_MDIS);
/* set DQS mode from DQS pad */
setbits_le32(®s->mcr, SEMC_MCR_DQSMD);
for (i = 0, bank_params = params->bank_params;
i < params->no_sdram_banks; bank_params++,
i++)
writel((bank_params->base_address & 0xfffff000)
| bank_params->memory_size << SEMC_BR_MS_SHIFT
| SEMC_BR_VLD_MASK,
®s->br[bank_params->target_bank]);
writel(mux->a8 << SEMC_IOCR_MUX_A8_SHIFT
| mux->csx0 << SEMC_IOCR_MUX_CSX0_SHIFT
| mux->csx1 << SEMC_IOCR_MUX_CSX1_SHIFT
| mux->csx2 << SEMC_IOCR_MUX_CSX2_SHIFT
| mux->csx3 << SEMC_IOCR_MUX_CSX3_SHIFT
| mux->rdy << SEMC_IOCR_MUX_RDY_SHIFT,
®s->iocr);
writel(ctrl->memory_width << SEMC_SDRAMCR0_PS_SHIFT
| ctrl->burst_len << SEMC_SDRAMCR0_BL_SHIFT
| ctrl->no_columns << SEMC_SDRAMCR0_COL_SHIFT
| ctrl->cas_latency << SEMC_SDRAMCR0_CL_SHIFT,
®s->sdramcr0);
writel(time->pre2act << SEMC_SDRAMCR1_PRE2ACT_SHIFT
| time->act2rw << SEMC_SDRAMCR1_ACT2RW_SHIFT
| time->rfrc << SEMC_SDRAMCR1_RFRC_SHIFT
| time->wrc << SEMC_SDRAMCR1_WRC_SHIFT
| time->ckeoff << SEMC_SDRAMCR1_CKEOFF_SHIFT
| time->act2pre << SEMC_SDRAMCR1_ACT2PRE_SHIFT,
®s->sdramcr1);
writel(time->srrc << SEMC_SDRAMCR2_SRRC_SHIFT
| time->ref2ref << SEMC_SDRAMCR2_REF2REF_SHIFT
| time->act2act << SEMC_SDRAMCR2_ACT2ACT_SHIFT
| time->ito << SEMC_SDRAMCR2_ITO_SHIFT,
®s->sdramcr2);
writel(time->rebl << SEMC_SDRAMCR3_REBL_SHIFT
| time->prescale << SEMC_SDRAMCR3_PRESCALE_SHIFT
| time->rt << SEMC_SDRAMCR3_RT_SHIFT
| time->ut << SEMC_SDRAMCR3_UT_SHIFT
| SEMC_SDRAMCR3_REN,
®s->sdramcr3);
writel(2, ®s->ipcr1);
for (i = 0, bank_params = params->bank_params;
i < params->no_sdram_banks; bank_params++,
i++) {
mdelay(250);
imxrt_sdram_ipcmd(regs, bank_params->base_address, SD_CC_IPREA,
0, &rd);
imxrt_sdram_ipcmd(regs, bank_params->base_address, SD_CC_IAF,
0, &rd);
imxrt_sdram_ipcmd(regs, bank_params->base_address, SD_CC_IAF,
0, &rd);
imxrt_sdram_ipcmd(regs, bank_params->base_address, SD_CC_IMS,
ctrl->burst_len | (ctrl->cas_latency << 4),
&rd);
mdelay(250);
}
return 0;
}
static int imxrt_semc_ofdata_to_platdata(struct udevice *dev)
{
struct imxrt_sdram_params *params = dev_get_platdata(dev);
ofnode bank_node;
u8 bank = 0;
params->sdram_mux =
(struct imxrt_sdram_mux *)
dev_read_u8_array_ptr(dev,
"fsl,sdram-mux",
sizeof(struct imxrt_sdram_mux));
if (!params->sdram_mux) {
pr_err("fsl,sdram-mux not found");
return -EINVAL;
}
params->sdram_control =
(struct imxrt_sdram_control *)
dev_read_u8_array_ptr(dev,
"fsl,sdram-control",
sizeof(struct imxrt_sdram_control));
if (!params->sdram_control) {
pr_err("fsl,sdram-control not found");
return -EINVAL;
}
params->sdram_timing =
(struct imxrt_sdram_timing *)
dev_read_u8_array_ptr(dev,
"fsl,sdram-timing",
sizeof(struct imxrt_sdram_timing));
if (!params->sdram_timing) {
pr_err("fsl,sdram-timing not found");
return -EINVAL;
}
dev_for_each_subnode(bank_node, dev) {
struct bank_params *bank_params;
char *bank_name;
int ret;
/* extract the bank index from DT */
bank_name = (char *)ofnode_get_name(bank_node);
strsep(&bank_name, "@");
if (!bank_name) {
pr_err("missing sdram bank index");
return -EINVAL;
}
bank_params = ¶ms->bank_params[bank];
strict_strtoul(bank_name, 10,
(unsigned long *)&bank_params->target_bank);
if (bank_params->target_bank >= MAX_SDRAM_BANK) {
pr_err("Found bank %d , but only bank 0,1,2,3 are supported",
bank_params->target_bank);
return -EINVAL;
}
ret = ofnode_read_u32(bank_node,
"fsl,memory-size",
&bank_params->memory_size);
if (ret < 0) {
pr_err("fsl,memory-size not found");
return -EINVAL;
}
ret = ofnode_read_u32(bank_node,
"fsl,base-address",
&bank_params->base_address);
if (ret < 0) {
pr_err("fsl,base-address not found");
return -EINVAL;
}
debug("Found bank %s %u\n", bank_name,
bank_params->target_bank);
bank++;
}
params->no_sdram_banks = bank;
debug("%s, no of banks = %d\n", __func__, params->no_sdram_banks);
return 0;
}
static int imxrt_semc_probe(struct udevice *dev)
{
struct imxrt_sdram_params *params = dev_get_platdata(dev);
int ret;
fdt_addr_t addr;
addr = dev_read_addr(dev);
if (addr == FDT_ADDR_T_NONE)
return -EINVAL;
params->base = (struct imxrt_semc_regs *)addr;
#ifdef CONFIG_CLK
struct clk clk;
ret = clk_get_by_index(dev, 0, &clk);
if (ret < 0)
return ret;
ret = clk_enable(&clk);
if (ret) {
dev_err(dev, "failed to enable clock\n");
return ret;
}
#endif
ret = imxrt_sdram_init(dev);
if (ret)
return ret;
return 0;
}
static int imxrt_semc_get_info(struct udevice *dev, struct ram_info *info)
{
return 0;
}
static struct ram_ops imxrt_semc_ops = {
.get_info = imxrt_semc_get_info,
};
static const struct udevice_id imxrt_semc_ids[] = {
{ .compatible = "fsl,imxrt-semc", .data = 0 },
{ }
};
U_BOOT_DRIVER(imxrt_semc) = {
.name = "imxrt_semc",
.id = UCLASS_RAM,
.of_match = imxrt_semc_ids,
.ops = &imxrt_semc_ops,
.ofdata_to_platdata = imxrt_semc_ofdata_to_platdata,
.probe = imxrt_semc_probe,
.platdata_auto_alloc_size = sizeof(struct imxrt_sdram_params),
};
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