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meminfo.c
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meminfo.c
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/*
* Copyright (C) 2012 Floris Bos <[email protected]>
* Copyright (c) 2014 Luc Verhaegen <[email protected]>
*
* 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, either version 2 of the License, or
* (at your option) any later version.
*
* 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, see <http://www.gnu.org/licenses/>.
*/
#include <stdio.h>
#include <string.h>
#include <fcntl.h>
#include <sys/mman.h>
#include <stdint.h>
#include <errno.h>
#include <stdbool.h>
#include "common.h"
typedef uint32_t u32;
/* from u-boot code: */
struct sun4i_dram_para {
u32 baseaddr;
u32 clock;
u32 type;
u32 rank_num;
u32 density;
u32 io_width;
u32 bus_width;
u32 cas;
u32 zq;
u32 odt_en;
u32 size;
u32 tpr0;
u32 tpr1;
u32 tpr2;
u32 tpr3;
u32 tpr4;
u32 tpr5;
u32 emr1;
u32 emr2;
u32 emr3;
};
#define DEVMEM_FILE "/dev/mem"
static int devmem_fd;
enum sunxi_soc_version {
SUNXI_SOC_SUN4I = 0x1623, /* A10 */
SUNXI_SOC_SUN5I = 0x1625, /* A13, A10s */
SUNXI_SOC_SUN6I = 0x1633, /* A31 */
SUNXI_SOC_SUN7I = 0x1651, /* A20 */
SUNXI_SOC_SUN8I = 0x1650, /* A23 */
SUNXI_SOC_SUN9I = 0x1667, /* A33 */
SUNXI_SOC_SUN10I = 0x1635, /* A80 */
};
static enum sunxi_soc_version soc_version;
/*
* Libv's favourite register handling calls.
*/
unsigned int
sunxi_io_read(void *base, int offset)
{
return *(volatile unsigned int*) (base + offset);
}
void
sunxi_io_write(void *base, int offset, unsigned int value)
{
*(volatile unsigned int*) (base + offset) = value;
}
void
sunxi_io_mask(void *base, int offset, unsigned int value, unsigned int mask)
{
unsigned int tmp = sunxi_io_read(base, offset);
tmp &= ~mask;
tmp |= value & mask;
sunxi_io_write(base, offset, tmp);
}
/*
* Find out exactly which SoC we are dealing with.
*/
#define SUNXI_IO_SRAM_BASE 0x01C00000
#define SUNXI_IO_SRAM_SIZE 0x00001000
#define SUNXI_IO_SRAM_VERSION 0x24
static int
soc_version_read(void)
{
void *base;
unsigned int restore;
base = mmap(NULL, SUNXI_IO_SRAM_SIZE, PROT_READ|PROT_WRITE,
MAP_SHARED, devmem_fd, SUNXI_IO_SRAM_BASE);
if (base == MAP_FAILED) {
fprintf(stderr, "Failed to map sram registers: %s\n",
strerror(errno));
return errno;
}
restore = sunxi_io_read(base, SUNXI_IO_SRAM_VERSION);
sunxi_io_mask(base, SUNXI_IO_SRAM_VERSION, 0x8000, 0x8000);
soc_version = sunxi_io_read(base, SUNXI_IO_SRAM_VERSION) >> 16;
sunxi_io_mask(base, SUNXI_IO_SRAM_VERSION, restore, 0x8000);
munmap(base, SUNXI_IO_SRAM_SIZE);
return 0;
}
/*
* Read DRAM clock.
*/
#define SUNXI_IO_CCM_BASE 0x01C20000
#define SUNXI_IO_CCM_SIZE 0x00001000
#define SUNXI_IO_CCM_PLL5_CFG 0x20
static int
sunxi_dram_clock_read(unsigned int *clock)
{
void *base;
unsigned int tmp;
int n, k, m;
base = mmap(NULL, SUNXI_IO_CCM_SIZE, PROT_READ,
MAP_SHARED, devmem_fd, SUNXI_IO_CCM_BASE);
if (base == MAP_FAILED) {
fprintf(stderr, "Failed to map ccm registers: %s\n",
strerror(errno));
return errno;
}
tmp = sunxi_io_read(base, SUNXI_IO_CCM_PLL5_CFG);
munmap(base, SUNXI_IO_CCM_SIZE);
n = (tmp >> 8) & 0x1F;
k = ((tmp >> 4) & 0x03) + 1;
m = (tmp & 0x03) + 1;
switch (soc_version) {
case SUNXI_SOC_SUN6I:
case SUNXI_SOC_SUN8I:
n++;
break;
default:
break;
}
*clock = (24 * n * k) / m;
return 0;
}
struct regs {
int offset;
char *name;
};
static int
dram_registers_print(unsigned int address, int size, const struct regs *regs,
const char *description, const char *prefix)
{
void *base;
int i, j;
base = mmap(NULL, size, PROT_READ, MAP_SHARED, devmem_fd, address);
if (base == MAP_FAILED) {
fprintf(stderr, "Failed to map %s registers: %s\n",
description, strerror(errno));
return errno;
}
printf("/*\n");
printf(" * %s Registers\n", description);
printf(" */\n");
for (i = 0; i < size; i += 4) {
unsigned int reg = sunxi_io_read(base, i);
for (j = 0; regs[j].name; j++)
if (i == regs[j].offset) {
printf("%s = 0x%08x;\n", regs[j].name, reg);
}
if (reg && !regs[j].name)
printf("%s_%03X = 0x%08x;\n", prefix, i, reg);
}
printf("\n");
munmap(base, size);
return 0;
}
static int
dram_register_range_print(unsigned int address, int size,
const char *description, const char *prefix)
{
void *base;
int i;
base = mmap(NULL, size, PROT_READ, MAP_SHARED, devmem_fd, address);
if (base == MAP_FAILED) {
fprintf(stderr, "Failed to map %s registers: %s\n",
description, strerror(errno));
return errno;
}
printf("/*\n");
printf(" * %s Registers\n", description);
printf(" */\n");
for (i = 0; i < size; i += 4) {
unsigned int reg = sunxi_io_read(base, i);
if (reg)
printf("%s_%03X = 0x%08x;\n", prefix, i, reg);
}
printf("\n");
munmap(base, size);
return 0;
}
/*
* Read DRAM parameters.
*/
#define SUN4I_IO_DRAM_BASE 0x01C01000
#define SUN4I_IO_DRAM_SIZE 0x00001000
#define SUN4I_IO_DRAM_CCR 0x000 /* controller configuration register */
#define SUN4I_IO_DRAM_DCR 0x004 /* dram configuration */
#define SUN4I_IO_DRAM_IOCR 0x008 /* i/o configuration */
#define SUN4I_IO_DRAM_TPR0 0x014 /* dram timing parameters register 0 */
#define SUN4I_IO_DRAM_TPR1 0x018 /* dram timing parameters register 1 */
#define SUN4I_IO_DRAM_TPR2 0x01C /* dram timing parameters register 2 */
#define SUN4I_IO_DRAM_ZQCR0 0x0A8 /* zq control register 0 */
#define SUN4I_IO_DRAM_ZQCR1 0x0AC /* zq control register 1 */
#define SUN4I_IO_DRAM_MR 0x1F0 /* mode register */
#define SUN4I_IO_DRAM_EMR 0x1F4 /* extended mode register */
#define SUN4I_IO_DRAM_EMR2 0x1F8 /* extended mode register */
#define SUN4I_IO_DRAM_EMR3 0x1FC /* extended mode register */
#define SUN4I_IO_DRAM_DLLCR0 0x204 /* dll control register 0(byte 0) */
#define SUN4I_IO_DRAM_DLLCR1 0x208 /* dll control register 1(byte 1) */
#define SUN4I_IO_DRAM_DLLCR2 0x20C /* dll control register 2(byte 2) */
#define SUN4I_IO_DRAM_DLLCR3 0x210 /* dll control register 3(byte 3) */
#define SUN4I_IO_DRAM_DLLCR4 0x214 /* dll control register 4(byte 4) */
static int
sun4i_dram_parameters_read(struct sun4i_dram_para *dram_para)
{
void *base;
unsigned int zqcr0, dcr;
unsigned int dllcr0, dllcr1, dllcr2, dllcr3, dllcr4;
base = mmap(NULL, SUN4I_IO_DRAM_SIZE, PROT_READ,
MAP_SHARED, devmem_fd, SUN4I_IO_DRAM_BASE);
if (base == MAP_FAILED) {
fprintf(stderr, "Failed to map dram registers: %s\n",
strerror(errno));
return errno;
}
dram_para->tpr0 = sunxi_io_read(base, SUN4I_IO_DRAM_TPR0);
dram_para->tpr1 = sunxi_io_read(base, SUN4I_IO_DRAM_TPR1);
dram_para->tpr2 = sunxi_io_read(base, SUN4I_IO_DRAM_TPR2);
dllcr0 = (sunxi_io_read(base, SUN4I_IO_DRAM_DLLCR0) >> 6) & 0x3F;
dllcr1 = (sunxi_io_read(base, SUN4I_IO_DRAM_DLLCR1) >> 14) & 0x0F;
dllcr2 = (sunxi_io_read(base, SUN4I_IO_DRAM_DLLCR2) >> 14) & 0x0F;
dllcr3 = (sunxi_io_read(base, SUN4I_IO_DRAM_DLLCR3) >> 14) & 0x0F;
dllcr4 = (sunxi_io_read(base, SUN4I_IO_DRAM_DLLCR4) >> 14) & 0x0F;
dram_para->tpr3 = (dllcr0 << 16) |
(dllcr4 << 12) | (dllcr3 << 8) | (dllcr2 << 4) | dllcr1;
if (soc_version == SUNXI_SOC_SUN7I) {
if (sunxi_io_read(base, SUN4I_IO_DRAM_CCR) & 0x20)
dram_para->tpr4 |= 0x01;
if (!(sunxi_io_read(base, SUN4I_IO_DRAM_ZQCR1) & 0x01000000))
dram_para->tpr4 |= 0x02;
}
dram_para->cas = (sunxi_io_read(base, SUN4I_IO_DRAM_MR) >> 4) & 0x0F;
dram_para->emr1 = sunxi_io_read(base, SUN4I_IO_DRAM_EMR);
dram_para->emr2 = sunxi_io_read(base, SUN4I_IO_DRAM_EMR2);
dram_para->emr3 = sunxi_io_read(base, SUN4I_IO_DRAM_EMR3);
dram_para->odt_en = sunxi_io_read(base, SUN4I_IO_DRAM_IOCR) & 0x03;
zqcr0 = sunxi_io_read(base, SUN4I_IO_DRAM_ZQCR0);
dram_para->zq = (zqcr0 & 0xf0000000) |
((zqcr0 >> 20) & 0xff) |
((zqcr0 & 0xfffff) << 8);
dcr = sunxi_io_read(base, SUN4I_IO_DRAM_DCR);
if (dcr & 0x01) {
dram_para->cas += 4;
dram_para->type = 3;
} else
dram_para->type = 2;
dram_para->density = (1 << ((dcr >> 3) & 0x07)) * 256;
dram_para->rank_num = ((dcr >> 10) & 0x03) + 1;
dram_para->io_width = ((dcr >> 1) & 0x03) * 8;
dram_para->bus_width = (((dcr >> 6) & 3) + 1) * 8;
munmap(base, SUN4I_IO_DRAM_SIZE);
return 0;
}
/*
* Print a dram.c that can be stuck immediately into u-boot.
*/
void
sun4i_dram_para_print_uboot(struct sun4i_dram_para *dram_para)
{
printf("// place this file in board/sunxi/ in u-boot\n");
printf("/* this file is generated, don't edit it yourself */\n");
printf("\n");
printf("#include \"common.h\"\n");
printf("#include <asm/arch/dram.h>\n");
printf("\n");
printf("static struct dram_para dram_para = {\n");
printf("\t.clock = %d,\n", dram_para->clock);
printf("\t.type = %d,\n", dram_para->type);
printf("\t.rank_num = %d,\n", dram_para->rank_num);
printf("\t.density = %d,\n", dram_para->density);
printf("\t.io_width = %d,\n", dram_para->io_width);
printf("\t.bus_width = %d,\n", dram_para->bus_width);
printf("\t.cas = %d,\n", dram_para->cas);
printf("\t.zq = 0x%02x,\n", dram_para->zq);
printf("\t.odt_en = %d,\n", dram_para->odt_en);
printf("\t.size = !!! FIXME !!!, /* in MiB */\n");
printf("\t.tpr0 = 0x%08x,\n", dram_para->tpr0);
printf("\t.tpr1 = 0x%04x,\n", dram_para->tpr1);
printf("\t.tpr2 = 0x%05x,\n", dram_para->tpr2);
printf("\t.tpr3 = 0x%02x,\n", dram_para->tpr3);
printf("\t.tpr4 = 0x%02x,\n", dram_para->tpr4);
printf("\t.tpr5 = 0x%02x,\n", dram_para->tpr5);
printf("\t.emr1 = 0x%02x,\n", dram_para->emr1);
printf("\t.emr2 = 0x%02x,\n", dram_para->emr2);
printf("\t.emr3 = 0x%02x,\n", dram_para->emr3);
printf("};\n");
printf("\n");
printf("unsigned long sunxi_dram_init(void)\n");
printf("{\n");
printf("\treturn dramc_init(&dram_para);\n");
printf("}\n");
}
/*
* Print output matching the .fex output, so it can be stuck in a
* fex file directly.
*/
void
sun4i_dram_para_print_fex(struct sun4i_dram_para *dram_para)
{
printf("; Insert this section into your .fex file\n");
printf("[dram_para]\n");
printf("dram_baseaddr = 0x40000000\n");
printf("dram_clk = %d\n", dram_para->clock);
printf("dram_type = %d\n", dram_para->type);
printf("dram_rank_num = %d\n", dram_para->rank_num);
printf("dram_chip_density = %d\n", dram_para->density);
printf("dram_io_width = %d\n", dram_para->io_width);
printf("dram_bus_width = %d\n", dram_para->bus_width);
printf("dram_cas = %d\n", dram_para->cas);
printf("dram_zq = 0x%02x\n", dram_para->zq);
printf("dram_odt_en = %d\n", dram_para->odt_en);
printf("dram_size = !!! FIXME !!!\n");
printf("dram_tpr0 = 0x%08x\n", dram_para->tpr0);
printf("dram_tpr1 = 0x%04x\n", dram_para->tpr1);
printf("dram_tpr2 = 0x%05x\n", dram_para->tpr2);
printf("dram_tpr3 = 0x%02x\n", dram_para->tpr3);
printf("dram_tpr4 = 0x%02x\n", dram_para->tpr4);
printf("dram_tpr5 = 0x%02x\n", dram_para->tpr5);
printf("dram_emr1 = 0x%02x\n", dram_para->emr1);
printf("dram_emr2 = 0x%02x\n", dram_para->emr2);
printf("dram_emr3 = 0x%02x\n", dram_para->emr3);
}
static int
sun4i_dram_para_print(bool uboot)
{
struct sun4i_dram_para dram_para = { .baseaddr = 0 };
int ret;
ret = sunxi_dram_clock_read(&dram_para.clock);
if (ret)
return ret;
ret = sun4i_dram_parameters_read(&dram_para);
if (ret)
return ret;
if (uboot)
sun4i_dram_para_print_uboot(&dram_para);
else
sun4i_dram_para_print_fex(&dram_para);
return 0;
}
/*
*
*/
#define SUN6I_IO_DRAMCOM_BASE 0x01C62000
#define SUN6I_IO_DRAMCOM_SIZE 0x0300
#define SUN6I_IO_DRAMCTL_BASE 0x01C63000
#define SUN6I_IO_DRAMCTL_SIZE 0x0400
#define SUN6I_IO_DRAMPHY_BASE 0x01C65000
#define SUN6I_IO_DRAMPHY_SIZE 0x0400
static struct regs
sun6i_dramcom_regs[] = {
{0x00, "SDR_COM_CR"},
{0x04, "SDR_COM_CCR"},
{0x10, "SDR_COM_MFACR"},
{0x30, "SDR_COM_MSACR"},
{0x50, "SDR_COM_MBACR"},
{0, NULL}
};
static struct regs
sun6i_dramctl_regs[] = {
{0x004, "SDR_SCTL"},
{0x008, "SDR_SSTAT"},
{0x040, "SDR_MCMD"},
{0x04c, "SDR_CMDSTAT"},
{0x050, "SDR_CMDSTATEN"},
{0x060, "SDR_MRRCFG0"},
{0x064, "SDR_MRRSTAT0"},
{0x068, "SDR_MRRSTAT1"},
{0x07c, "SDR_MCFG1"},
{0x080, "SDR_MCFG"},
{0x084, "SDR_PPCFG"},
{0x088, "SDR_MSTAT"},
{0x08c, "SDR_LP2ZQCFG"},
{0x094, "SDR_DTUSTAT"},
{0x098, "SDR_DTUNA"},
{0x09c, "SDR_DTUNE"},
{0x0a0, "SDR_DTUPRD0"},
{0x0a4, "SDR_DTUPRD1"},
{0x0a8, "SDR_DTUPRD2"},
{0x0ac, "SDR_DTUPRD3"},
{0x0b0, "SDR_DTUAWDT"},
{0x0c0, "SDR_TOGCNT1U"},
{0x0cc, "SDR_TOGCNT100N"},
{0x0d0, "SDR_TREFI"},
{0x0d4, "SDR_TMRD"},
{0x0d8, "SDR_TRFC"},
{0x0dc, "SDR_TRP"},
{0x0e0, "SDR_TRTW"},
{0x0e4, "SDR_TAL"},
{0x0e8, "SDR_TCL"},
{0x0ec, "SDR_TCWL"},
{0x0f0, "SDR_TRAS"},
{0x0f4, "SDR_TRC"},
{0x0f8, "SDR_TRCD"},
{0x0fc, "SDR_TRRD"},
{0x100, "SDR_TRTP"},
{0x104, "SDR_TWR"},
{0x108, "SDR_TWTR"},
{0x10c, "SDR_TEXSR"},
{0x110, "SDR_TXP"},
{0x114, "SDR_TXPDLL"},
{0x118, "SDR_TZQCS"},
{0x11c, "SDR_TZQCSI"},
{0x120, "SDR_TDQS"},
{0x124, "SDR_TCKSRE"},
{0x128, "SDR_TCKSRX"},
{0x12c, "SDR_TCKE"},
{0x130, "SDR_TMOD"},
{0x134, "SDR_TRSTL"},
{0x138, "SDR_TZQCL"},
{0x13c, "SDR_TMRR"},
{0x140, "SDR_TCKESR"},
{0x144, "SDR_TDPD"},
{0x200, "SDR_DTUWACTL"},
{0x204, "SDR_DTURACTL"},
{0x208, "SDR_DTUCFG"},
{0x20c, "SDR_DTUECTL"},
{0x210, "SDR_DTUWD0"},
{0x214, "SDR_DTUWD1"},
{0x218, "SDR_DTUWD2"},
{0x21c, "SDR_DTUWD3"},
{0x220, "SDR_DTUWDM"},
{0x224, "SDR_DTURD0"},
{0x224, "SDR_DTURD1"},
{0x22c, "SDR_DTURD2"},
{0x230, "SDR_DTURD3"},
{0x234, "SDR_DTULFSRWD"},
{0x238, "SDR_DTULFSRRD"},
{0x23c, "SDR_DTUEAF"},
{0x240, "SDR_DFITCTLDLY"},
{0x244, "SDR_DFIODTCFG"},
{0x248, "SDR_DFIODTCFG1"},
{0x24c, "SDR_DFIODTRMAP"},
{0x250, "SDR_DFITPHYWRD"},
{0x254, "SDR_DFITPHYWRL"},
{0x260, "SDR_DFITRDDEN"},
{0x264, "SDR_DFITPHYRDL"},
{0x270, "SDR_DFITPHYUPDTYPE0"},
{0x274, "SDR_DFITPHYUPDTYPE1"},
{0x278, "SDR_DFITPHYUPDTYPE2"},
{0x27c, "SDR_DFITPHYUPDTYPE3"},
{0x280, "SDR_DFITCTRLUPDMIN"},
{0x284, "SDR_DFITCTRLUPDMAX"},
{0x288, "SDR_DFITCTRLUPDDLY"},
{0x290, "SDR_DFIUPDCFG"},
{0x294, "SDR_DFITREFMSKI"},
{0x298, "SDR_DFITCRLUPDI"},
{0x2ac, "SDR_DFITRCFG0"},
{0x2b0, "SDR_DFITRSTAT0"},
{0x2b4, "SDR_DFITRWRLVLEN"},
{0x2b8, "SDR_DFITRRDLVLEN"},
{0x2bc, "SDR_DFITRRDLVLGATEEN"},
{0x2c4, "SDR_DFISTCFG0"},
{0x2c8, "SDR_DFISTCFG1"},
{0x2d0, "SDR_DFITDRAMCLKEN"},
{0x2d4, "SDR_DFITDRAMCLKDIS"},
{0x2f0, "SDR_DFILPCFG0"},
{0, NULL}
};
static struct regs
sun6i_dramphy_regs[] = {
{0x004, "SDR_PIR"},
{0x008, "SDR_PGCR"},
{0x00c, "SDR_PGSR"},
{0x010, "SDR_DLLGCR"},
{0x014, "SDR_ACDLLCR"},
{0x018, "SDR_PTR0"},
{0x01c, "SDR_PTR1"},
{0x020, "SDR_PTR2"},
{0x024, "SDR_ACIOCR"},
{0x028, "SDR_DXCCR"},
{0x02c, "SDR_DSGCR"},
{0x030, "SDR_DCR"},
{0x034, "SDR_DTPR0"},
{0x038, "SDR_DTPR1"},
{0x03c, "SDR_DTPR2"},
{0x040, "SDR_MR0"},
{0x044, "SDR_MR1"},
{0x048, "SDR_MR2"},
{0x04c, "SDR_MR3"},
{0x050, "SDR_ODTCR"},
{0x054, "SDR_DTAR"},
{0x058, "SDR_DTDT0"},
{0x05c, "SDR_DTDT1"},
{0x0c0, "SDR_DCUAR"},
{0x0c4, "SDR_DCUDR"},
{0x0c8, "SDR_DCURR"},
{0x0cc, "SDR_DCULR"},
{0x0d0, "SDR_DCUGCR"},
{0x0d4, "SDR_DCUTPR"},
{0x0d8, "SDR_DCUSR0"},
{0x0dc, "SDR_DCUSR1"},
{0x100, "SDR_BISTRR"},
{0x104, "SDR_BISTMSKR0"},
{0x108, "SDR_BISTMSKR1"},
{0x10c, "SDR_BISTWCR"},
{0x110, "SDR_BISTLSR"},
{0x114, "SDR_BISTAR0"},
{0x118, "SDR_BISTAR1"},
{0x11c, "SDR_BISTAR2"},
{0x120, "SDR_BISTUDPR"},
{0x124, "SDR_BISTGSR"},
{0x128, "SDR_BISTWER"},
{0x12c, "SDR_BISTBER0"},
{0x130, "SDR_BISTBER1"},
{0x134, "SDR_BISTBER2"},
{0x138, "SDR_BISTWCSR"},
{0x13c, "SDR_BISTFWR0"},
{0x140, "SDR_BISTFWR1"},
{0x180, "SDR_ZQ0CR0"},
{0x184, "SDR_ZQ0CR1"},
{0x188, "SDR_ZQ0SR0"},
{0x18c, "SDR_ZQ0SR1"},
{0x1c0, "SDR_DX0GCR"},
{0x1c4, "SDR_DX0GSR0"},
{0x1c8, "SDR_DX0GSR1"},
{0x1cc, "SDR_DX0DLLCR"},
{0x1d0, "SDR_DX0DQTR"},
{0x1d4, "SDR_DX0DQSTR"},
{0x200, "SDR_DX1GCR"},
{0x204, "SDR_DX1GSR0"},
{0x208, "SDR_DX1GSR1"},
{0x20c, "SDR_DX1DLLCR"},
{0x210, "SDR_DX1DQTR"},
{0x214, "SDR_DX1DQSTR"},
{0x240, "SDR_DX2GCR"},
{0x244, "SDR_DX2GSR0"},
{0x248, "SDR_DX2GSR1"},
{0x24c, "SDR_DX2DLLCR"},
{0x250, "SDR_DX2DQTR"},
{0x254, "SDR_DX2DQSTR"},
{0x280, "SDR_DX3GCR"},
{0x284, "SDR_DX3GSR0"},
{0x288, "SDR_DX3GSR1"},
{0x28c, "SDR_DX3DLLCR"},
{0x290, "SDR_DX3DQTR"},
{0x294, "SDR_DX3DQSTR"},
{0, NULL}
};
static int
sun6i_dram_regs_print(void)
{
unsigned int clock;
int ret;
ret = sunxi_dram_clock_read(&clock);
if (ret)
return ret;
printf("DRAM Clock: %dMHz\n", clock);
ret = dram_registers_print(SUN6I_IO_DRAMCOM_BASE,
SUN6I_IO_DRAMCOM_SIZE,
&sun6i_dramcom_regs[0],
"DRAM COM", "SDR_COM");
if (ret)
return ret;
ret = dram_registers_print(SUN6I_IO_DRAMCTL_BASE,
SUN6I_IO_DRAMCTL_SIZE,
&sun6i_dramctl_regs[0],
"DRAM CTL", "SDR_CTL");
if (ret)
return ret;
ret = dram_registers_print(SUN6I_IO_DRAMPHY_BASE,
SUN6I_IO_DRAMPHY_SIZE,
&sun6i_dramphy_regs[0],
"DRAM PHY", "SDR_PHY");
if (ret)
return ret;
return 0;
}
/*
*
*/
static int
sun8i_dram_regs_print(void)
{
unsigned int clock;
int ret;
ret = sunxi_dram_clock_read(&clock);
if (ret)
return ret;
printf("DRAM Clock: %dMHz\n", clock);
ret = dram_register_range_print(SUN6I_IO_DRAMCOM_BASE,
SUN6I_IO_DRAMCOM_SIZE,
"DRAM COM", "SDR_COM");
if (ret)
return ret;
ret = dram_register_range_print(SUN6I_IO_DRAMCTL_BASE,
SUN6I_IO_DRAMCTL_SIZE,
"DRAM CTL", "SDR_CTL");
if (ret)
return ret;
ret = dram_register_range_print(SUN6I_IO_DRAMPHY_BASE,
SUN6I_IO_DRAMPHY_SIZE,
"DRAM PHY", "SDR_PHY");
if (ret)
return ret;
return 0;
}
static void
print_usage(const char *name)
{
puts("sunxi-meminfo " VERSION "\n");
printf("Utility to retrieve DRAM information from registers on "
"Allwinner SoCs.\n");
printf("\n");
printf("This is part of the sunxi-tools package from the sunxi "
"project. ");
printf("For more \ninformation visit "
"http://linux-sunxi.org/Sunxi-tools.\n");
printf("\n");
printf("Usage: %s [OPTION]\n", name);
printf("\n");
printf("Options:\n");
printf(" -f: print in FEX format (default).\n");
printf(" -u: print in sunxi U-Boot dram.c file format.\n");
printf(" -h: print this usage information.\n");
}
int
main(int argc, char *argv[])
{
bool uboot;
int ret;
if (argc == 2) {
if (argv[1][0] == '-') {
if (argv[1][1] == 'f')
uboot = false;
else if (argv[1][1] == 'u')
uboot = true;
else if (argv[1][1] == 'h')
goto help;
else if ((argv[1][1] == '-') && (argv[1][2] == 'h'))
goto help;
else
goto usage;
if (argv[1][2] != 0)
goto usage;
} else
goto usage;
} else if (argc == 1)
uboot = false;
else
goto usage;
devmem_fd = open(DEVMEM_FILE, O_RDWR);
if (devmem_fd == -1) {
fprintf(stderr, "Error: failed to open %s: %s\n", DEVMEM_FILE,
strerror(errno));
return errno;
}
ret = soc_version_read();
if (ret)
return ret;
switch (soc_version) {
case SUNXI_SOC_SUN4I:
case SUNXI_SOC_SUN5I:
case SUNXI_SOC_SUN7I:
return sun4i_dram_para_print(uboot);
case SUNXI_SOC_SUN6I:
return sun6i_dram_regs_print();
case SUNXI_SOC_SUN8I:
return sun8i_dram_regs_print();
default:
fprintf(stderr, "Error: unknown or unhandled Soc: 0x%04X\n",
soc_version);
return -1;
}
usage:
fprintf(stderr, "Error: wrong argument(s).\n");
print_usage(argv[0]);
return EINVAL;
help:
print_usage(argv[0]);
return 0;
}