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|
// SPDX-License-Identifier: GPL-2.0+
/*
* Copyright (c) 2016-2020 Toradex
*/
#include <common.h>
#include <asm/global_data.h>
#include "tdx-cfg-block.h"
#include "tdx-eeprom.h"
#include <command.h>
#include <asm/cache.h>
#include <cli.h>
#include <console.h>
#include <env.h>
#ifdef CONFIG_TDX_CFG_BLOCK_IS_IN_NOR
#include <flash.h>
#endif
#include <malloc.h>
#include <mmc.h>
#include <nand.h>
#include <asm/mach-types.h>
DECLARE_GLOBAL_DATA_PTR;
#define TAG_VALID 0xcf01
#define TAG_MAC 0x0000
#define TAG_CAR_SERIAL 0x0021
#define TAG_HW 0x0008
#define TAG_INVALID 0xffff
#define TAG_FLAG_VALID 0x1
#define TDX_EEPROM_ID_MODULE 0
#define TDX_EEPROM_ID_CARRIER 1
#if defined(CONFIG_TDX_CFG_BLOCK_IS_IN_MMC)
#define TDX_CFG_BLOCK_MAX_SIZE 512
#elif defined(CONFIG_TDX_CFG_BLOCK_IS_IN_NAND)
#define TDX_CFG_BLOCK_MAX_SIZE 64
#elif defined(CONFIG_TDX_CFG_BLOCK_IS_IN_NOR)
#define TDX_CFG_BLOCK_MAX_SIZE 64
#elif defined(CONFIG_TDX_CFG_BLOCK_IS_IN_EEPROM)
#define TDX_CFG_BLOCK_MAX_SIZE 64
#else
#error Toradex config block location not set
#endif
#ifdef CONFIG_TDX_CFG_BLOCK_EXTRA
#define TDX_CFG_BLOCK_EXTRA_MAX_SIZE 64
#endif
struct toradex_tag {
u32 len:14;
u32 flags:2;
u32 id:16;
};
bool valid_cfgblock;
struct toradex_hw tdx_hw_tag;
struct toradex_eth_addr tdx_eth_addr;
u32 tdx_serial;
#ifdef CONFIG_TDX_CFG_BLOCK_EXTRA
u32 tdx_car_serial;
bool valid_cfgblock_carrier;
struct toradex_hw tdx_car_hw_tag;
#endif
#define TARGET_IS_ENABLED(x) IS_ENABLED(CONFIG_TARGET_ ## x)
const struct toradex_som toradex_modules[] = {
[0] = { "UNKNOWN MODULE", 0 },
[1] = { "Colibri PXA270 312MHz", 0 },
[2] = { "Colibri PXA270 520MHz", 0 },
[3] = { "Colibri PXA320 806MHz", 0 },
[4] = { "Colibri PXA300 208MHz", 0 },
[5] = { "Colibri PXA310 624MHz", 0 },
[6] = { "Colibri PXA320IT 806MHz", 0 },
[7] = { "Colibri PXA300 208MHz XT", 0 },
[8] = { "Colibri PXA270 312MHz", 0 },
[9] = { "Colibri PXA270 520MHz", 0 },
[10] = { "Colibri VF50 128MB", TARGET_IS_ENABLED(COLIBRI_VF) },
[11] = { "Colibri VF61 256MB", TARGET_IS_ENABLED(COLIBRI_VF) },
[12] = { "Colibri VF61 256MB IT", TARGET_IS_ENABLED(COLIBRI_VF) },
[13] = { "Colibri VF50 128MB IT", TARGET_IS_ENABLED(COLIBRI_VF) },
[14] = { "Colibri iMX6S 256MB", TARGET_IS_ENABLED(COLIBRI_IMX6) },
[15] = { "Colibri iMX6DL 512MB", TARGET_IS_ENABLED(COLIBRI_IMX6) },
[16] = { "Colibri iMX6S 256MB IT", TARGET_IS_ENABLED(COLIBRI_IMX6) },
[17] = { "Colibri iMX6DL 512MB IT", TARGET_IS_ENABLED(COLIBRI_IMX6) },
[18] = { "UNKNOWN MODULE", 0 },
[19] = { "UNKNOWN MODULE", 0 },
[20] = { "Colibri T20 256MB", TARGET_IS_ENABLED(COLIBRI_T20) },
[21] = { "Colibri T20 512MB", TARGET_IS_ENABLED(COLIBRI_T20) },
[22] = { "Colibri T20 512MB IT", TARGET_IS_ENABLED(COLIBRI_T20) },
[23] = { "Colibri T30 1GB", TARGET_IS_ENABLED(COLIBRI_T30) },
[24] = { "Colibri T20 256MB IT", TARGET_IS_ENABLED(COLIBRI_T20) },
[25] = { "Apalis T30 2GB", TARGET_IS_ENABLED(APALIS_T30) },
[26] = { "Apalis T30 1GB", TARGET_IS_ENABLED(APALIS_T30) },
[27] = { "Apalis iMX6Q 1GB", TARGET_IS_ENABLED(APALIS_IMX6) },
[28] = { "Apalis iMX6Q 2GB IT", TARGET_IS_ENABLED(APALIS_IMX6) },
[29] = { "Apalis iMX6D 512MB", TARGET_IS_ENABLED(APALIS_IMX6) },
[30] = { "Colibri T30 1GB IT", TARGET_IS_ENABLED(COLIBRI_T30) },
[31] = { "Apalis T30 1GB IT", TARGET_IS_ENABLED(APALIS_T30) },
[32] = { "Colibri iMX7S 256MB", TARGET_IS_ENABLED(COLIBRI_IMX7) },
[33] = { "Colibri iMX7D 512MB", TARGET_IS_ENABLED(COLIBRI_IMX7) },
[34] = { "Apalis TK1 2GB", TARGET_IS_ENABLED(APALIS_TK1) },
[35] = { "Apalis iMX6D 1GB IT", TARGET_IS_ENABLED(APALIS_IMX6) },
[36] = { "Colibri iMX6ULL 256MB", TARGET_IS_ENABLED(COLIBRI_IMX6ULL) },
[37] = { "Apalis iMX8QM 4GB WB IT", TARGET_IS_ENABLED(APALIS_IMX8) },
[38] = { "Colibri iMX8QXP 2GB WB IT", TARGET_IS_ENABLED(COLIBRI_IMX8X) },
[39] = { "Colibri iMX7D 1GB", TARGET_IS_ENABLED(COLIBRI_IMX7) },
[40] = { "Colibri iMX6ULL 512MB WB IT", TARGET_IS_ENABLED(COLIBRI_IMX6ULL) },
[41] = { "Colibri iMX7D 512MB EPDC", TARGET_IS_ENABLED(COLIBRI_IMX7) },
[42] = { "Apalis TK1 4GB", TARGET_IS_ENABLED(APALIS_TK1) },
[43] = { "Colibri T20 512MB IT SETEK", TARGET_IS_ENABLED(COLIBRI_T20) },
[44] = { "Colibri iMX6ULL 512MB IT", TARGET_IS_ENABLED(COLIBRI_IMX6ULL) },
[45] = { "Colibri iMX6ULL 512MB WB", TARGET_IS_ENABLED(COLIBRI_IMX6ULL) },
[46] = { "Apalis iMX8QXP 2GB WB IT", 0 },
[47] = { "Apalis iMX8QM 4GB IT", TARGET_IS_ENABLED(APALIS_IMX8) },
[48] = { "Apalis iMX8QP 2GB WB", TARGET_IS_ENABLED(APALIS_IMX8) },
[49] = { "Apalis iMX8QP 2GB", TARGET_IS_ENABLED(APALIS_IMX8) },
[50] = { "Colibri iMX8QXP 2GB IT", TARGET_IS_ENABLED(COLIBRI_IMX8X) },
[51] = { "Colibri iMX8DX 1GB WB", TARGET_IS_ENABLED(COLIBRI_IMX8X) },
[52] = { "Colibri iMX8DX 1GB", TARGET_IS_ENABLED(COLIBRI_IMX8X) },
[53] = { "Apalis iMX8QXP 2GB ECC IT", 0 },
[54] = { "Apalis iMX8DXP 1GB", TARGET_IS_ENABLED(APALIS_IMX8) },
[55] = { "Verdin iMX8M Mini Quad 2GB WB IT", TARGET_IS_ENABLED(VERDIN_IMX8MM) },
[56] = { "Verdin iMX8M Nano Quad 1GB WB", 0 },
[57] = { "Verdin iMX8M Mini DualLite 1GB", TARGET_IS_ENABLED(VERDIN_IMX8MM) },
[58] = { "Verdin iMX8M Plus Quad 4GB WB IT", TARGET_IS_ENABLED(VERDIN_IMX8MP) },
[59] = { "Verdin iMX8M Mini Quad 2GB IT", TARGET_IS_ENABLED(VERDIN_IMX8MM) },
[60] = { "Verdin iMX8M Mini DualLite 1GB WB IT", TARGET_IS_ENABLED(VERDIN_IMX8MM) },
[61] = { "Verdin iMX8M Plus Quad 2GB", TARGET_IS_ENABLED(VERDIN_IMX8MP) },
[62] = { "Colibri iMX6ULL 1GB IT", TARGET_IS_ENABLED(COLIBRI_IMX6ULL) },
[63] = { "Verdin iMX8M Plus Quad 4GB IT", TARGET_IS_ENABLED(VERDIN_IMX8MP) },
[64] = { "Verdin iMX8M Plus Quad 2GB WB IT", TARGET_IS_ENABLED(VERDIN_IMX8MP) },
[65] = { "Verdin iMX8M Plus QuadLite 1GB IT", TARGET_IS_ENABLED(VERDIN_IMX8MP) },
[66] = { "Verdin iMX8M Plus Quad 8GB WB", TARGET_IS_ENABLED(VERDIN_IMX8MP) },
[67] = { "Apalis iMX8QM 8GB WB IT", TARGET_IS_ENABLED(APALIS_IMX8) },
[68] = { "Verdin iMX8M Mini Quad 2GB WB IT", TARGET_IS_ENABLED(VERDIN_IMX8MM) },
[69] = { "Verdin AM62 Quad 1GB WB IT", TARGET_IS_ENABLED(VERDIN_AM62_A53) },
[70] = { "Verdin iMX8M Plus Quad 8GB WB IT", TARGET_IS_ENABLED(VERDIN_IMX8MP) },
[71] = { "Verdin AM62 Solo 512MB", TARGET_IS_ENABLED(VERDIN_AM62_A53) },
[72] = { "Verdin AM62 Solo 512MB WB IT", TARGET_IS_ENABLED(VERDIN_AM62_A53) },
[73] = { "Verdin AM62 Dual 1GB ET", TARGET_IS_ENABLED(VERDIN_AM62_A53) },
[74] = { "Verdin AM62 Dual 1GB IT", TARGET_IS_ENABLED(VERDIN_AM62_A53) },
[75] = { "Verdin AM62 Dual 1GB WB IT", TARGET_IS_ENABLED(VERDIN_AM62_A53) },
[76] = { "Verdin AM62 Quad 2GB WB IT", TARGET_IS_ENABLED(VERDIN_AM62_A53) },
[77] = { "Colibri iMX6S 256MB", TARGET_IS_ENABLED(COLIBRI_IMX6) },
[78] = { "Colibri iMX6S 256MB IT", TARGET_IS_ENABLED(COLIBRI_IMX6) },
[79] = { "Colibri iMX6DL 512MB", TARGET_IS_ENABLED(COLIBRI_IMX6) },
[80] = { "Colibri iMX6DL 512MB IT", TARGET_IS_ENABLED(COLIBRI_IMX6) },
[81] = { "Colibri iMX7D 512MB", TARGET_IS_ENABLED(COLIBRI_IMX7) },
[82] = { "Apalis iMX6D 512MB", TARGET_IS_ENABLED(APALIS_IMX6) },
[83] = { "Apalis iMX6Q 1GB", TARGET_IS_ENABLED(APALIS_IMX6) },
[84] = { "Apalis iMX6D 1GB IT", TARGET_IS_ENABLED(APALIS_IMX6) },
[85] = { "Apalis iMX6Q 2GB IT", TARGET_IS_ENABLED(APALIS_IMX6) },
[86] = { "Verdin iMX8M Mini DualLite 2GB IT", TARGET_IS_ENABLED(VERDIN_IMX8MM) },
[87] = { "Verdin iMX8M Mini Quad 2GB IT", TARGET_IS_ENABLED(VERDIN_IMX8MM) },
};
struct pid4list {
int pid4;
char * const name;
};
const struct pid4list toradex_carrier_boards[] = {
/* the code assumes unknown at index 0 */
{0, "UNKNOWN CARRIER BOARD"},
{DAHLIA, "Dahlia"},
{VERDIN_DEVELOPMENT_BOARD, "Verdin Development Board"},
{YAVIA, "Yavia"},
};
const struct pid4list toradex_display_adapters[] = {
/* the code assumes unknown at index 0 */
{0, "UNKNOWN DISPLAY ADAPTER"},
{VERDIN_DSI_TO_HDMI_ADAPTER, "Verdin DSI to HDMI Adapter"},
{VERDIN_DSI_TO_LVDS_ADAPTER, "Verdin DSI to LVDS Adapter"},
};
const u32 toradex_ouis[] = {
[0] = 0x00142dUL,
[1] = 0x8c06cbUL,
};
const char * const get_toradex_carrier_boards(int pid4)
{
int i, index = 0;
for (i = 1; i < ARRAY_SIZE(toradex_carrier_boards); i++) {
if (pid4 == toradex_carrier_boards[i].pid4) {
index = i;
break;
}
}
return toradex_carrier_boards[index].name;
}
const char * const get_toradex_display_adapters(int pid4)
{
int i, index = 0;
for (i = 1; i < ARRAY_SIZE(toradex_display_adapters); i++) {
if (pid4 == toradex_display_adapters[i].pid4) {
index = i;
break;
}
}
return toradex_display_adapters[index].name;
}
static u32 get_serial_from_mac(struct toradex_eth_addr *eth_addr)
{
int i;
u32 oui = ntohl(eth_addr->oui) >> 8;
u32 nic = ntohl(eth_addr->nic) >> 8;
for (i = 0; i < ARRAY_SIZE(toradex_ouis); i++) {
if (toradex_ouis[i] == oui)
break;
}
return (u32)((i << 24) + nic);
}
void get_mac_from_serial(u32 tdx_serial, struct toradex_eth_addr *eth_addr)
{
u8 oui_index = tdx_serial >> 24;
u32 nic = tdx_serial & GENMASK(23, 0);
u32 oui;
if (oui_index >= ARRAY_SIZE(toradex_ouis)) {
puts("Can't find OUI for this serial#\n");
oui_index = 0;
}
oui = toradex_ouis[oui_index];
eth_addr->oui = htonl(oui << 8);
eth_addr->nic = htonl(nic << 8);
}
#ifdef CONFIG_TDX_CFG_BLOCK_IS_IN_MMC
static int tdx_cfg_block_mmc_storage(u8 *config_block, int write)
{
struct mmc *mmc;
int dev = CONFIG_TDX_CFG_BLOCK_DEV;
int offset = CONFIG_TDX_CFG_BLOCK_OFFSET;
uint part = CONFIG_TDX_CFG_BLOCK_PART;
uint blk_start;
int ret = 0;
/* Read production parameter config block from eMMC */
mmc = find_mmc_device(dev);
if (!mmc) {
puts("No MMC card found\n");
ret = -ENODEV;
goto out;
}
if (mmc_init(mmc)) {
puts("MMC init failed\n");
return -EINVAL;
}
if (part != mmc_get_blk_desc(mmc)->hwpart) {
if (blk_select_hwpart_devnum(UCLASS_MMC, dev, part)) {
puts("MMC partition switch failed\n");
ret = -ENODEV;
goto out;
}
}
if (offset < 0)
offset += mmc->capacity;
blk_start = ALIGN(offset, mmc->write_bl_len) / mmc->write_bl_len;
if (!write) {
/* Careful reads a whole block of 512 bytes into config_block */
if (blk_dread(mmc_get_blk_desc(mmc), blk_start, 1,
(unsigned char *)config_block) != 1) {
ret = -EIO;
goto out;
}
} else {
/* Just writing one 512 byte block */
if (blk_dwrite(mmc_get_blk_desc(mmc), blk_start, 1,
(unsigned char *)config_block) != 1) {
ret = -EIO;
goto out;
}
}
out:
/* Switch back to regular eMMC user partition */
blk_select_hwpart_devnum(UCLASS_MMC, 0, 0);
return ret;
}
#endif
#ifdef CONFIG_TDX_CFG_BLOCK_IS_IN_NAND
static int read_tdx_cfg_block_from_nand(unsigned char *config_block)
{
size_t size = TDX_CFG_BLOCK_MAX_SIZE;
struct mtd_info *mtd = get_nand_dev_by_index(0);
if (!mtd)
return -ENODEV;
/* Read production parameter config block from NAND page */
return nand_read_skip_bad(mtd, CONFIG_TDX_CFG_BLOCK_OFFSET,
&size, NULL, TDX_CFG_BLOCK_MAX_SIZE,
config_block);
}
static int write_tdx_cfg_block_to_nand(unsigned char *config_block)
{
size_t size = TDX_CFG_BLOCK_MAX_SIZE;
/* Write production parameter config block to NAND page */
return nand_write_skip_bad(get_nand_dev_by_index(0),
CONFIG_TDX_CFG_BLOCK_OFFSET,
&size, NULL, TDX_CFG_BLOCK_MAX_SIZE,
config_block, WITH_WR_VERIFY);
}
#endif
#ifdef CONFIG_TDX_CFG_BLOCK_IS_IN_NOR
static int read_tdx_cfg_block_from_nor(unsigned char *config_block)
{
/* Read production parameter config block from NOR flash */
memcpy(config_block, (void *)CONFIG_TDX_CFG_BLOCK_OFFSET,
TDX_CFG_BLOCK_MAX_SIZE);
return 0;
}
static int write_tdx_cfg_block_to_nor(unsigned char *config_block)
{
/* Write production parameter config block to NOR flash */
return flash_write((void *)config_block, CONFIG_TDX_CFG_BLOCK_OFFSET,
TDX_CFG_BLOCK_MAX_SIZE);
}
#endif
#ifdef CONFIG_TDX_CFG_BLOCK_IS_IN_EEPROM
static int read_tdx_cfg_block_from_eeprom(unsigned char *config_block)
{
return read_tdx_eeprom_data(TDX_EEPROM_ID_MODULE, 0x0, config_block,
TDX_CFG_BLOCK_MAX_SIZE);
}
static int write_tdx_cfg_block_to_eeprom(unsigned char *config_block)
{
return write_tdx_eeprom_data(TDX_EEPROM_ID_MODULE, 0x0, config_block,
TDX_CFG_BLOCK_MAX_SIZE);
}
#endif
int read_tdx_cfg_block(void)
{
int ret = 0;
u8 *config_block = NULL;
struct toradex_tag *tag;
size_t size = TDX_CFG_BLOCK_MAX_SIZE;
int offset;
/* Allocate RAM area for config block */
config_block = memalign(ARCH_DMA_MINALIGN, size);
if (!config_block) {
printf("Not enough malloc space available!\n");
return -ENOMEM;
}
memset(config_block, 0, size);
#if defined(CONFIG_TDX_CFG_BLOCK_IS_IN_MMC)
ret = tdx_cfg_block_mmc_storage(config_block, 0);
#elif defined(CONFIG_TDX_CFG_BLOCK_IS_IN_NAND)
ret = read_tdx_cfg_block_from_nand(config_block);
#elif defined(CONFIG_TDX_CFG_BLOCK_IS_IN_NOR)
ret = read_tdx_cfg_block_from_nor(config_block);
#elif defined(CONFIG_TDX_CFG_BLOCK_IS_IN_EEPROM)
ret = read_tdx_cfg_block_from_eeprom(config_block);
#else
ret = -EINVAL;
#endif
if (ret)
goto out;
/* Expect a valid tag first */
tag = (struct toradex_tag *)config_block;
if (tag->flags != TAG_FLAG_VALID || tag->id != TAG_VALID) {
valid_cfgblock = false;
ret = -EINVAL;
goto out;
}
valid_cfgblock = true;
offset = 4;
/*
* check if there is enough space for storing tag and value of the
* biggest element
*/
while (offset + sizeof(struct toradex_tag) +
sizeof(struct toradex_hw) < TDX_CFG_BLOCK_MAX_SIZE) {
tag = (struct toradex_tag *)(config_block + offset);
offset += 4;
if (tag->id == TAG_INVALID)
break;
if (tag->flags == TAG_FLAG_VALID) {
switch (tag->id) {
case TAG_MAC:
memcpy(&tdx_eth_addr, config_block + offset,
6);
tdx_serial = get_serial_from_mac(&tdx_eth_addr);
break;
case TAG_HW:
memcpy(&tdx_hw_tag, config_block + offset, 8);
break;
}
}
/* Get to next tag according to current tags length */
offset += tag->len * 4;
}
/* Cap product id to avoid issues with a yet unknown one */
if (tdx_hw_tag.prodid >= ARRAY_SIZE(toradex_modules))
tdx_hw_tag.prodid = 0;
out:
free(config_block);
return ret;
}
static int parse_assembly_string(char *string_to_parse, u16 *assembly)
{
if (string_to_parse[3] >= 'A' && string_to_parse[3] <= 'Z')
*assembly = string_to_parse[3] - 'A';
else if (string_to_parse[3] == '#')
*assembly = dectoul(&string_to_parse[4], NULL);
else
return -EINVAL;
return 0;
}
static int get_cfgblock_interactive(void)
{
char message[CONFIG_SYS_CBSIZE];
int len = 0;
int ret = 0;
unsigned int prodid;
int i;
printf("Enabled modules:\n");
for (i = 0; i < ARRAY_SIZE(toradex_modules); i++) {
if (toradex_modules[i].is_enabled)
printf(" %04d %s\n", i, toradex_modules[i].name);
}
sprintf(message, "Enter the module ID: ");
len = cli_readline(message);
prodid = dectoul(console_buffer, NULL);
if (prodid >= ARRAY_SIZE(toradex_modules) || !toradex_modules[prodid].is_enabled) {
printf("Parsing module id failed\n");
return -1;
}
tdx_hw_tag.prodid = prodid;
len = 0;
while (len < 4) {
sprintf(message, "Enter the module version (e.g. V1.1B or V1.1#26): V");
len = cli_readline(message);
}
tdx_hw_tag.ver_major = console_buffer[0] - '0';
tdx_hw_tag.ver_minor = console_buffer[2] - '0';
ret = parse_assembly_string(console_buffer, &tdx_hw_tag.ver_assembly);
if (ret) {
printf("Parsing module version failed\n");
return ret;
}
while (len < 8) {
sprintf(message, "Enter module serial number: ");
len = cli_readline(message);
}
tdx_serial = dectoul(console_buffer, NULL);
return 0;
}
static int get_cfgblock_barcode(char *barcode, struct toradex_hw *tag,
u32 *serial)
{
char revision[3] = {barcode[6], barcode[7], '\0'};
if (strlen(barcode) < 16) {
printf("Argument too short, barcode is 16 chars long\n");
return -1;
}
/* Get hardware information from the first 8 digits */
tag->ver_major = barcode[4] - '0';
tag->ver_minor = barcode[5] - '0';
tag->ver_assembly = dectoul(revision, NULL);
barcode[4] = '\0';
tag->prodid = dectoul(barcode, NULL);
/* Parse second part of the barcode (serial number */
barcode += 8;
*serial = dectoul(barcode, NULL);
return 0;
}
static int write_tag(u8 *config_block, int *offset, int tag_id,
u8 *tag_data, size_t tag_data_size)
{
struct toradex_tag *tag;
if (!offset || !config_block)
return -EINVAL;
tag = (struct toradex_tag *)(config_block + *offset);
tag->id = tag_id;
tag->flags = TAG_FLAG_VALID;
/* len is provided as number of 32bit values after the tag */
tag->len = (tag_data_size + sizeof(u32) - 1) / sizeof(u32);
*offset += sizeof(struct toradex_tag);
if (tag_data && tag_data_size) {
memcpy(config_block + *offset, tag_data,
tag_data_size);
*offset += tag_data_size;
}
return 0;
}
#ifdef CONFIG_TDX_CFG_BLOCK_EXTRA
int read_tdx_cfg_block_carrier(void)
{
int ret = 0;
u8 *config_block = NULL;
struct toradex_tag *tag;
size_t size = TDX_CFG_BLOCK_EXTRA_MAX_SIZE;
int offset;
/* Allocate RAM area for carrier config block */
config_block = memalign(ARCH_DMA_MINALIGN, size);
if (!config_block) {
printf("Not enough malloc space available!\n");
return -ENOMEM;
}
memset(config_block, 0, size);
ret = read_tdx_eeprom_data(TDX_EEPROM_ID_CARRIER, 0x0, config_block,
size);
if (ret)
return ret;
/* Expect a valid tag first */
tag = (struct toradex_tag *)config_block;
if (tag->flags != TAG_FLAG_VALID || tag->id != TAG_VALID) {
valid_cfgblock_carrier = false;
ret = -EINVAL;
goto out;
}
valid_cfgblock_carrier = true;
offset = 4;
while (offset + sizeof(struct toradex_tag) +
sizeof(struct toradex_hw) < TDX_CFG_BLOCK_MAX_SIZE) {
tag = (struct toradex_tag *)(config_block + offset);
offset += 4;
if (tag->id == TAG_INVALID)
break;
if (tag->flags == TAG_FLAG_VALID) {
switch (tag->id) {
case TAG_CAR_SERIAL:
memcpy(&tdx_car_serial, config_block + offset,
sizeof(tdx_car_serial));
break;
case TAG_HW:
memcpy(&tdx_car_hw_tag, config_block +
offset, 8);
break;
}
}
/* Get to next tag according to current tags length */
offset += tag->len * 4;
}
out:
free(config_block);
return ret;
}
int check_pid8_sanity(char *pid8)
{
char s_carrierid_verdin_dev[5];
char s_carrierid_dahlia[5];
sprintf(s_carrierid_verdin_dev, "0%d", VERDIN_DEVELOPMENT_BOARD);
sprintf(s_carrierid_dahlia, "0%d", DAHLIA);
/* sane value check, first 4 chars which represent carrier id */
if (!strncmp(pid8, s_carrierid_verdin_dev, 4))
return 0;
if (!strncmp(pid8, s_carrierid_dahlia, 4))
return 0;
return -EINVAL;
}
int try_migrate_tdx_cfg_block_carrier(void)
{
char pid8[8];
int offset = 0;
int ret = CMD_RET_SUCCESS;
size_t size = TDX_CFG_BLOCK_EXTRA_MAX_SIZE;
u8 *config_block;
memset(pid8, 0x0, 8);
ret = read_tdx_eeprom_data(TDX_EEPROM_ID_CARRIER, 0x0, (u8 *)pid8, 8);
if (ret)
return ret;
if (check_pid8_sanity(pid8))
return -EINVAL;
/* Allocate RAM area for config block */
config_block = memalign(ARCH_DMA_MINALIGN, size);
if (!config_block) {
printf("Not enough malloc space available!\n");
return CMD_RET_FAILURE;
}
memset(config_block, 0xff, size);
/* we try parse PID8 concatenating zeroed serial number */
tdx_car_hw_tag.ver_major = pid8[4] - '0';
tdx_car_hw_tag.ver_minor = pid8[5] - '0';
tdx_car_hw_tag.ver_assembly = pid8[7] - '0';
pid8[4] = '\0';
tdx_car_hw_tag.prodid = dectoul(pid8, NULL);
/* Valid Tag */
write_tag(config_block, &offset, TAG_VALID, NULL, 0);
/* Product Tag */
write_tag(config_block, &offset, TAG_HW, (u8 *)&tdx_car_hw_tag,
sizeof(tdx_car_hw_tag));
/* Serial Tag */
write_tag(config_block, &offset, TAG_CAR_SERIAL, (u8 *)&tdx_car_serial,
sizeof(tdx_car_serial));
memset(config_block + offset, 0, 32 - offset);
ret = write_tdx_eeprom_data(TDX_EEPROM_ID_CARRIER, 0x0, config_block,
size);
if (ret) {
printf("Failed to write Toradex Extra config block: %d\n",
ret);
ret = CMD_RET_FAILURE;
goto out;
}
printf("Successfully migrated to Toradex Config Block from PID8\n");
out:
free(config_block);
return ret;
}
static int get_cfgblock_carrier_interactive(void)
{
char message[CONFIG_SYS_CBSIZE];
int len;
int ret = 0;
printf("Supported carrier boards:\n");
printf("%30s\t[ID]\n", "CARRIER BOARD NAME");
for (int i = 0; i < ARRAY_SIZE(toradex_carrier_boards); i++)
printf("%30s\t[%d]\n",
toradex_carrier_boards[i].name,
toradex_carrier_boards[i].pid4);
sprintf(message, "Choose your carrier board (provide ID): ");
len = cli_readline(message);
tdx_car_hw_tag.prodid = dectoul(console_buffer, NULL);
do {
sprintf(message, "Enter carrier board version (e.g. V1.1B or V1.1#26): V");
len = cli_readline(message);
} while (len < 4);
tdx_car_hw_tag.ver_major = console_buffer[0] - '0';
tdx_car_hw_tag.ver_minor = console_buffer[2] - '0';
ret = parse_assembly_string(console_buffer, &tdx_car_hw_tag.ver_assembly);
if (ret) {
printf("Parsing module version failed\n");
return ret;
}
while (len < 8) {
sprintf(message, "Enter carrier board serial number: ");
len = cli_readline(message);
}
tdx_car_serial = dectoul(console_buffer, NULL);
return 0;
}
static int do_cfgblock_carrier_create(struct cmd_tbl *cmdtp, int flag, int argc,
char * const argv[])
{
u8 *config_block;
size_t size = TDX_CFG_BLOCK_EXTRA_MAX_SIZE;
int offset = 0;
int ret = CMD_RET_SUCCESS;
int err;
int force_overwrite = 0;
if (argc >= 3) {
if (argv[2][0] == '-' && argv[2][1] == 'y')
force_overwrite = 1;
}
/* Allocate RAM area for config block */
config_block = memalign(ARCH_DMA_MINALIGN, size);
if (!config_block) {
printf("Not enough malloc space available!\n");
return CMD_RET_FAILURE;
}
memset(config_block, 0xff, size);
read_tdx_cfg_block_carrier();
if (valid_cfgblock_carrier && !force_overwrite) {
char message[CONFIG_SYS_CBSIZE];
sprintf(message, "A valid Toradex Carrier config block is present, still recreate? [y/N] ");
if (!cli_readline(message))
goto out;
if (console_buffer[0] != 'y' &&
console_buffer[0] != 'Y')
goto out;
}
if (argc < 3 || (force_overwrite && argc < 4)) {
err = get_cfgblock_carrier_interactive();
} else {
if (force_overwrite)
err = get_cfgblock_barcode(argv[3], &tdx_car_hw_tag,
&tdx_car_serial);
else
err = get_cfgblock_barcode(argv[2], &tdx_car_hw_tag,
&tdx_car_serial);
}
if (err) {
ret = CMD_RET_FAILURE;
goto out;
}
/* Valid Tag */
write_tag(config_block, &offset, TAG_VALID, NULL, 0);
/* Product Tag */
write_tag(config_block, &offset, TAG_HW, (u8 *)&tdx_car_hw_tag,
sizeof(tdx_car_hw_tag));
/* Serial Tag */
write_tag(config_block, &offset, TAG_CAR_SERIAL, (u8 *)&tdx_car_serial,
sizeof(tdx_car_serial));
memset(config_block + offset, 0, 32 - offset);
err = write_tdx_eeprom_data(TDX_EEPROM_ID_CARRIER, 0x0, config_block,
size);
if (err) {
printf("Failed to write Toradex Extra config block: %d\n",
ret);
ret = CMD_RET_FAILURE;
goto out;
}
printf("Toradex Extra config block successfully written\n");
out:
free(config_block);
return ret;
}
#endif /* CONFIG_TDX_CFG_BLOCK_EXTRA */
static int do_cfgblock_create(struct cmd_tbl *cmdtp, int flag, int argc,
char * const argv[])
{
u8 *config_block;
size_t size = TDX_CFG_BLOCK_MAX_SIZE;
int offset = 0;
int ret = CMD_RET_SUCCESS;
int err;
int force_overwrite = 0;
if (argc >= 3) {
#ifdef CONFIG_TDX_CFG_BLOCK_EXTRA
if (!strcmp(argv[2], "carrier"))
return do_cfgblock_carrier_create(cmdtp, flag,
--argc, ++argv);
#endif /* CONFIG_TDX_CFG_BLOCK_EXTRA */
if (argv[2][0] == '-' && argv[2][1] == 'y')
force_overwrite = 1;
}
/* Allocate RAM area for config block */
config_block = memalign(ARCH_DMA_MINALIGN, size);
if (!config_block) {
printf("Not enough malloc space available!\n");
return CMD_RET_FAILURE;
}
memset(config_block, 0xff, size);
read_tdx_cfg_block();
if (valid_cfgblock) {
#if defined(CONFIG_TDX_CFG_BLOCK_IS_IN_NAND)
/*
* On NAND devices, recreation is only allowed if the page is
* empty (config block invalid...)
*/
printf("NAND erase block %d need to be erased before creating a Toradex config block\n",
CONFIG_TDX_CFG_BLOCK_OFFSET /
get_nand_dev_by_index(0)->erasesize);
goto out;
#elif defined(CONFIG_TDX_CFG_BLOCK_IS_IN_NOR)
/*
* On NOR devices, recreation is only allowed if the sector is
* empty and write protection is off (config block invalid...)
*/
printf("NOR sector at offset 0x%02x need to be erased and unprotected before creating a Toradex config block\n",
CONFIG_TDX_CFG_BLOCK_OFFSET);
goto out;
#else
if (!force_overwrite) {
char message[CONFIG_SYS_CBSIZE];
sprintf(message,
"A valid Toradex config block is present, still recreate? [y/N] ");
if (!cli_readline(message))
goto out;
if (console_buffer[0] != 'y' &&
console_buffer[0] != 'Y')
goto out;
}
#endif
}
/* Parse new Toradex config block data... */
if (argc < 3 || (force_overwrite && argc < 4)) {
err = get_cfgblock_interactive();
} else {
if (force_overwrite)
err = get_cfgblock_barcode(argv[3], &tdx_hw_tag,
&tdx_serial);
else
err = get_cfgblock_barcode(argv[2], &tdx_hw_tag,
&tdx_serial);
}
if (err) {
ret = CMD_RET_FAILURE;
goto out;
}
/* Convert serial number to MAC address (the storage format) */
get_mac_from_serial(tdx_serial, &tdx_eth_addr);
/* Valid Tag */
write_tag(config_block, &offset, TAG_VALID, NULL, 0);
/* Product Tag */
write_tag(config_block, &offset, TAG_HW, (u8 *)&tdx_hw_tag,
sizeof(tdx_hw_tag));
/* MAC Tag */
write_tag(config_block, &offset, TAG_MAC, (u8 *)&tdx_eth_addr,
sizeof(tdx_eth_addr));
memset(config_block + offset, 0, 32 - offset);
#if defined(CONFIG_TDX_CFG_BLOCK_IS_IN_MMC)
err = tdx_cfg_block_mmc_storage(config_block, 1);
#elif defined(CONFIG_TDX_CFG_BLOCK_IS_IN_NAND)
err = write_tdx_cfg_block_to_nand(config_block);
#elif defined(CONFIG_TDX_CFG_BLOCK_IS_IN_NOR)
err = write_tdx_cfg_block_to_nor(config_block);
#elif defined(CONFIG_TDX_CFG_BLOCK_IS_IN_EEPROM)
err = write_tdx_cfg_block_to_eeprom(config_block);
#else
err = -EINVAL;
#endif
if (err) {
printf("Failed to write Toradex config block: %d\n", ret);
ret = CMD_RET_FAILURE;
goto out;
}
printf("Toradex config block successfully written\n");
out:
free(config_block);
return ret;
}
static int do_cfgblock(struct cmd_tbl *cmdtp, int flag, int argc,
char *const argv[])
{
int ret;
if (argc < 2)
return CMD_RET_USAGE;
if (!strcmp(argv[1], "create")) {
return do_cfgblock_create(cmdtp, flag, argc, argv);
} else if (!strcmp(argv[1], "reload")) {
ret = read_tdx_cfg_block();
if (ret) {
printf("Failed to reload Toradex config block: %d\n",
ret);
return CMD_RET_FAILURE;
}
return CMD_RET_SUCCESS;
}
return CMD_RET_USAGE;
}
U_BOOT_CMD(
cfgblock, 5, 0, do_cfgblock,
"Toradex config block handling commands",
"create [-y] [barcode] - (Re-)create Toradex config block\n"
"create carrier [-y] [barcode] - (Re-)create Toradex Carrier config block\n"
"cfgblock reload - Reload Toradex config block from flash"
);
|