fusee: Implement BootConfig and Boot Reason handling.

This commit is contained in:
hexkyz 2018-08-29 18:28:21 +01:00
parent 1cbbdb43d3
commit 611e85e6ee
19 changed files with 299 additions and 109 deletions

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@ -138,9 +138,9 @@ void bootconfig_get_package2_hash_for_recovery(uint64_t *out_hash) {
} }
bool bootconfig_is_recovery_boot(void) { bool bootconfig_is_recovery_boot(void) {
return (g_boot_reason.is_recovery_boot != 0); return ((g_boot_reason.bootloader_attribute & 0x01) != 0);
} }
uint64_t bootconfig_get_boot_reason(void) { uint64_t bootconfig_get_boot_reason(void) {
return ((uint64_t)g_boot_reason.boot_reason_high << 24) | (g_boot_reason.boot_reason_low & 0xFFFFFF); return ((uint64_t)g_boot_reason.boot_reason_state << 24) | (g_boot_reason.boot_reason_value & 0xFFFFFF);
} }

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@ -34,11 +34,12 @@ static inline bootconfig_t *get_loaded_bootconfig(void) {
} }
typedef struct { typedef struct {
uint64_t _0x00; uint32_t bootloader_version;
uint32_t _0x08; uint32_t bootloader_start_block;
uint32_t is_recovery_boot; uint32_t bootloader_start_page;
uint32_t boot_reason_low; uint32_t bootloader_attribute;
uint32_t boot_reason_high; uint32_t boot_reason_value;
uint32_t boot_reason_state;
} boot_reason_t; } boot_reason_t;
void bootconfig_load_and_verify(const bootconfig_t *bootconfig); void bootconfig_load_and_verify(const bootconfig_t *bootconfig);

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@ -16,7 +16,7 @@ uint32_t btn_read()
res |= BTN_VOL_UP; res |= BTN_VOL_UP;
uint32_t val = 0; uint32_t val = 0;
if (i2c_query(4, 0x3C, 0x15, &val, 1)) if (i2c_query(I2C_5, MAX77620_PWR_I2C_ADDR, 0x15, &val, 1))
{ {
if (val & 0x4) if (val & 0x4)
res |= BTN_POWER; res |= BTN_POWER;

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@ -36,9 +36,9 @@ void display_init()
/* Power on. */ /* Power on. */
uint8_t val = 0xD0; uint8_t val = 0xD0;
i2c_send(4, 0x3C, MAX77620_REG_LDO0_CFG, &val, 1); i2c_send(I2C_5, MAX77620_PWR_I2C_ADDR, MAX77620_REG_LDO0_CFG, &val, 1);
val = 0x09; val = 0x09;
i2c_send(4, 0x3C, MAX77620_REG_GPIO7, &val, 1); i2c_send(I2C_5, MAX77620_PWR_I2C_ADDR, MAX77620_REG_GPIO7, &val, 1);
/* Enable MIPI CAL, DSI, DISP1, HOST1X, UART_FST_MIPI_CAL, DSIA LP clocks. */ /* Enable MIPI CAL, DSI, DISP1, HOST1X, UART_FST_MIPI_CAL, DSIA LP clocks. */
car->rst_dev_h_clr = 0x1010000; car->rst_dev_h_clr = 0x1010000;

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@ -203,33 +203,33 @@ void nx_hwinit()
clkrst_reboot(CARDEVICE_UNK); clkrst_reboot(CARDEVICE_UNK);
/* Initialize I2C1 and I2C5. */ /* Initialize I2C1 and I2C5. */
i2c_init(0); i2c_init(I2C_1);
i2c_init(4); i2c_init(I2C_5);
uint8_t val = 0x40; uint8_t val = 0x40;
i2c_send(4, 0x3C, MAX77620_REG_CNFGBBC, &val, 1); i2c_send(I2C_5, MAX77620_PWR_I2C_ADDR, MAX77620_REG_CNFGBBC, &val, 1);
val = 0x78; val = 0x78;
i2c_send(4, 0x3C, MAX77620_REG_ONOFFCNFG1, &val, 1); i2c_send(I2C_5, MAX77620_PWR_I2C_ADDR, MAX77620_REG_ONOFFCNFG1, &val, 1);
val = 0x38; val = 0x38;
i2c_send(4, 0x3C, MAX77620_REG_FPS_CFG0, &val, 1); i2c_send(I2C_5, MAX77620_PWR_I2C_ADDR, MAX77620_REG_FPS_CFG0, &val, 1);
val = 0x3A; val = 0x3A;
i2c_send(4, 0x3C, MAX77620_REG_FPS_CFG1, &val, 1); i2c_send(I2C_5, MAX77620_PWR_I2C_ADDR, MAX77620_REG_FPS_CFG1, &val, 1);
val = 0x38; val = 0x38;
i2c_send(4, 0x3C, MAX77620_REG_FPS_CFG2, &val, 1); i2c_send(I2C_5, MAX77620_PWR_I2C_ADDR, MAX77620_REG_FPS_CFG2, &val, 1);
val = 0xF; val = 0xF;
i2c_send(4, 0x3C, MAX77620_REG_FPS_LDO4, &val, 1); i2c_send(I2C_5, MAX77620_PWR_I2C_ADDR, MAX77620_REG_FPS_LDO4, &val, 1);
val = 0xC7; val = 0xC7;
i2c_send(4, 0x3C, MAX77620_REG_FPS_LDO8, &val, 1); i2c_send(I2C_5, MAX77620_PWR_I2C_ADDR, MAX77620_REG_FPS_LDO8, &val, 1);
val = 0x4F; val = 0x4F;
i2c_send(4, 0x3C, MAX77620_REG_FPS_SD0, &val, 1); i2c_send(I2C_5, MAX77620_PWR_I2C_ADDR, MAX77620_REG_FPS_SD0, &val, 1);
val = 0x29; val = 0x29;
i2c_send(4, 0x3C, MAX77620_REG_FPS_SD1, &val, 1); i2c_send(I2C_5, MAX77620_PWR_I2C_ADDR, MAX77620_REG_FPS_SD1, &val, 1);
val = 0x1B; val = 0x1B;
i2c_send(4, 0x3C, MAX77620_REG_FPS_SD3, &val, 1); i2c_send(I2C_5, MAX77620_PWR_I2C_ADDR, MAX77620_REG_FPS_SD3, &val, 1);
val = 42; /* 42 = (1125000 - 600000) / 12500 -> 1.125V */ val = 42; /* 42 = (1125000 - 600000) / 12500 -> 1.125V */
i2c_send(4, 0x3C, MAX77620_REG_SD0, &val, 1); i2c_send(I2C_5, MAX77620_PWR_I2C_ADDR, MAX77620_REG_SD0, &val, 1);
/* Configure and lock PMC scratch registers. */ /* Configure and lock PMC scratch registers. */
config_pmc_scratch(); config_pmc_scratch();

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@ -43,16 +43,16 @@ void i2c_init(unsigned int id) {
void i2c_send_pmic_cpu_shutdown_cmd(void) { void i2c_send_pmic_cpu_shutdown_cmd(void) {
uint32_t val = 0; uint32_t val = 0;
/* PMIC == Device 4:3C. */ /* PMIC == Device 4:3C. */
i2c_query(4, 0x3C, 0x41, &val, 1); i2c_query(I2C_5, MAX77620_PWR_I2C_ADDR, 0x41, &val, 1);
val |= 4; val |= 4;
i2c_send(4, 0x3C, 0x41, &val, 1); i2c_send(I2C_5, MAX77620_PWR_I2C_ADDR, 0x41, &val, 1);
} }
/* Queries the value of TI charger bit over I2C. */ /* Queries the value of TI charger bit over I2C. */
bool i2c_query_ti_charger_bit_7(void) { bool i2c_query_ti_charger_bit_7(void) {
uint32_t val = 0; uint32_t val = 0;
/* TI Charger = Device 0:6B. */ /* TI Charger = Device 0:6B. */
i2c_query(0, 0x6B, 0, &val, 1); i2c_query(I2C_1, BQ24193_I2C_ADDR, 0, &val, 1);
return (val & 0x80) != 0; return (val & 0x80) != 0;
} }
@ -60,34 +60,34 @@ bool i2c_query_ti_charger_bit_7(void) {
void i2c_clear_ti_charger_bit_7(void) { void i2c_clear_ti_charger_bit_7(void) {
uint32_t val = 0; uint32_t val = 0;
/* TI Charger = Device 0:6B. */ /* TI Charger = Device 0:6B. */
i2c_query(0, 0x6B, 0, &val, 1); i2c_query(I2C_1, BQ24193_I2C_ADDR, 0, &val, 1);
val &= 0x7F; val &= 0x7F;
i2c_send(0, 0x6B, 0, &val, 1); i2c_send(I2C_1, BQ24193_I2C_ADDR, 0, &val, 1);
} }
/* Sets TI charger bit over I2C. */ /* Sets TI charger bit over I2C. */
void i2c_set_ti_charger_bit_7(void) { void i2c_set_ti_charger_bit_7(void) {
uint32_t val = 0; uint32_t val = 0;
/* TI Charger = Device 0:6B. */ /* TI Charger = Device 0:6B. */
i2c_query(0, 0x6B, 0, &val, 1); i2c_query(I2C_1, BQ24193_I2C_ADDR, 0, &val, 1);
val |= 0x80; val |= 0x80;
i2c_send(0, 0x6B, 0, &val, 1); i2c_send(I2C_1, BQ24193_I2C_ADDR, 0, &val, 1);
} }
/* Get registers pointer based on I2C ID. */ /* Get registers pointer based on I2C ID. */
volatile tegra_i2c_t *i2c_get_registers_from_id(unsigned int id) { volatile tegra_i2c_t *i2c_get_registers_from_id(unsigned int id) {
switch (id) { switch (id) {
case 0: case I2C_1:
return I2C1_REGS; return I2C1_REGS;
case 1: case I2C_2:
return I2C2_REGS; return I2C2_REGS;
case 2: case I2C_3:
return I2C3_REGS; return I2C3_REGS;
case 3: case I2C_4:
return I2C4_REGS; return I2C4_REGS;
case 4: case I2C_5:
return I2C5_REGS; return I2C5_REGS;
case 5: case I2C_6:
return I2C6_REGS; return I2C6_REGS;
default: default:
generic_panic(); generic_panic();

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@ -8,6 +8,20 @@
#define I2C234_BASE 0x7000C000 #define I2C234_BASE 0x7000C000
#define I2C56_BASE 0x7000D000 #define I2C56_BASE 0x7000D000
#define I2C_1 0
#define I2C_2 1
#define I2C_3 2
#define I2C_4 3
#define I2C_5 4
#define I2C_6 5
#define MAX77621_CPU_I2C_ADDR 0x1B
#define MAX77621_GPU_I2C_ADDR 0x1C
#define MAX17050_I2C_ADDR 0x36
#define MAX77620_PWR_I2C_ADDR 0x3C
#define MAX77620_RTC_I2C_ADDR 0x68
#define BQ24193_I2C_ADDR 0x6B
typedef struct { typedef struct {
uint32_t I2C_I2C_CNFG_0; uint32_t I2C_I2C_CNFG_0;
uint32_t I2C_I2C_CMD_ADDR0_0; uint32_t I2C_I2C_CMD_ADDR0_0;

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@ -11,6 +11,36 @@
#ifndef _MFD_MAX77620_H_ #ifndef _MFD_MAX77620_H_
#define _MFD_MAX77620_H_ #define _MFD_MAX77620_H_
/* RTC Registers */
#define MAX77620_REG_RTCINT 0x00
#define MAX77620_REG_RTCINTM 0x01
#define MAX77620_REG_RTCCNTLM 0x02
#define MAX77620_REG_RTCCNTL 0x03
#define MAX77620_REG_RTCUPDATE0 0x04
#define MAX77620_REG_RTCUPDATE1 0x05
#define MAX77620_REG_RTCSMPL 0x06
#define MAX77620_REG_RTCSEC 0x07
#define MAX77620_REG_RTCMIN 0x08
#define MAX77620_REG_RTCHOUR 0x09
#define MAX77620_REG_RTCDOW 0x0A
#define MAX77620_REG_RTCMONTH 0x0B
#define MAX77620_REG_RTCYEAR 0x0C
#define MAX77620_REG_RTCDOM 0x0D
#define MAX77620_REG_RTCSECA1 0x0E
#define MAX77620_REG_RTCMINA1 0x0F
#define MAX77620_REG_RTCHOURA1 0x10
#define MAX77620_REG_RTCDOWA1 0x11
#define MAX77620_REG_RTCMONTHA1 0x12
#define MAX77620_REG_RTCYEARA1 0x13
#define MAX77620_REG_RTCDOMA1 0x14
#define MAX77620_REG_RTCSECA2 0x15
#define MAX77620_REG_RTCMINA2 0x16
#define MAX77620_REG_RTCHOURA2 0x17
#define MAX77620_REG_RTCDOWA2 0x18
#define MAX77620_REG_RTCMONTHA2 0x19
#define MAX77620_REG_RTCYEARA2 0x1A
#define MAX77620_REG_RTCDOMA2 0x1B
/* GLOBAL, PMIC, GPIO, FPS, ONOFFC, CID Registers */ /* GLOBAL, PMIC, GPIO, FPS, ONOFFC, CID Registers */
#define MAX77620_REG_CNFGGLBL1 0x00 #define MAX77620_REG_CNFGGLBL1 0x00
#define MAX77620_REG_CNFGGLBL2 0x01 #define MAX77620_REG_CNFGGLBL2 0x01

View file

@ -55,11 +55,11 @@ int max77620_regulator_get_status(uint32_t id)
uint8_t val = 0; uint8_t val = 0;
if (reg->type == REGULATOR_SD) { if (reg->type == REGULATOR_SD) {
if (i2c_query(4, 0x3C, MAX77620_REG_STATSD, &val, 1)) if (i2c_query(I2C_5, MAX77620_PWR_I2C_ADDR, MAX77620_REG_STATSD, &val, 1))
return (val & reg->status_mask) ? 0 : 1; return (val & reg->status_mask) ? 0 : 1;
} }
if (i2c_query(4, 0x3C, reg->cfg_addr, &val, 1)) if (i2c_query(I2C_5, MAX77620_PWR_I2C_ADDR, reg->cfg_addr, &val, 1))
return (val & 8) ? 0 : 1; return (val & 8) ? 0 : 1;
return 0; return 0;
@ -73,7 +73,7 @@ int max77620_regulator_config_fps(uint32_t id)
const max77620_regulator_t *reg = &_pmic_regulators[id]; const max77620_regulator_t *reg = &_pmic_regulators[id];
uint8_t val = ((reg->fps_src << 6) | (reg->pu_period << 3) | (reg->pd_period)); uint8_t val = ((reg->fps_src << 6) | (reg->pu_period << 3) | (reg->pd_period));
if (i2c_send(4, 0x3C, reg->fps_addr, &val, 1)) { if (i2c_send(I2C_5, MAX77620_PWR_I2C_ADDR, reg->fps_addr, &val, 1)) {
return 1; return 1;
} }
@ -93,11 +93,11 @@ int max77620_regulator_set_voltage(uint32_t id, uint32_t mv)
uint32_t mult = (mv + reg->mv_step - 1 - reg->mv_min) / reg->mv_step; uint32_t mult = (mv + reg->mv_step - 1 - reg->mv_min) / reg->mv_step;
uint8_t val = 0; uint8_t val = 0;
if (i2c_query(4, 0x3C, reg->volt_addr, &val, 1)) if (i2c_query(I2C_5, MAX77620_PWR_I2C_ADDR, reg->volt_addr, &val, 1))
{ {
val = ((val & ~reg->volt_mask) | (mult & reg->volt_mask)); val = ((val & ~reg->volt_mask) | (mult & reg->volt_mask));
if (i2c_send(4, 0x3C, reg->volt_addr, &val, 1)) if (i2c_send(I2C_5, MAX77620_PWR_I2C_ADDR, reg->volt_addr, &val, 1))
{ {
udelay(1000); udelay(1000);
return 1; return 1;
@ -117,14 +117,14 @@ int max77620_regulator_enable(uint32_t id, int enable)
uint32_t addr = (reg->type == REGULATOR_SD) ? reg->cfg_addr : reg->volt_addr; uint32_t addr = (reg->type == REGULATOR_SD) ? reg->cfg_addr : reg->volt_addr;
uint8_t val = 0; uint8_t val = 0;
if (i2c_query(4, 0x3C, addr, &val, 1)) if (i2c_query(I2C_5, MAX77620_PWR_I2C_ADDR, addr, &val, 1))
{ {
if (enable) if (enable)
val = ((val & ~reg->enable_mask) | ((3 << reg->enable_shift) & reg->enable_mask)); val = ((val & ~reg->enable_mask) | ((3 << reg->enable_shift) & reg->enable_mask));
else else
val &= ~reg->enable_mask; val &= ~reg->enable_mask;
if (i2c_send(4, 0x3C, addr, &val, 1)) if (i2c_send(I2C_5, MAX77620_PWR_I2C_ADDR, addr, &val, 1))
{ {
udelay(1000); udelay(1000);
return 1; return 1;
@ -139,7 +139,7 @@ void max77620_config_default()
for (uint32_t i = 1; i <= REGULATOR_MAX; i++) for (uint32_t i = 1; i <= REGULATOR_MAX; i++)
{ {
uint8_t val = 0; uint8_t val = 0;
if (i2c_query(4, 0x3C, MAX77620_REG_CID4, &val, 1)) if (i2c_query(I2C_5, MAX77620_PWR_I2C_ADDR, MAX77620_REG_CID4, &val, 1))
{ {
max77620_regulator_config_fps(i); max77620_regulator_config_fps(i);
max77620_regulator_set_voltage(i, _pmic_regulators[i].mv_default); max77620_regulator_set_voltage(i, _pmic_regulators[i].mv_default);
@ -151,11 +151,11 @@ void max77620_config_default()
} }
uint8_t val = 4; uint8_t val = 4;
i2c_send(4, 0x3C, MAX77620_REG_SD_CFG2, &val, 1); i2c_send(I2C_5, MAX77620_PWR_I2C_ADDR, MAX77620_REG_SD_CFG2, &val, 1);
} }
void max77620_low_battery_monitor_config() void max77620_low_battery_monitor_config()
{ {
uint8_t val = (MAX77620_CNFGGLBL1_LBDAC_EN | MAX77620_CNFGGLBL1_LBHYST_N | MAX77620_CNFGGLBL1_LBDAC_N); uint8_t val = (MAX77620_CNFGGLBL1_LBDAC_EN | MAX77620_CNFGGLBL1_LBHYST_N | MAX77620_CNFGGLBL1_LBDAC_N);
i2c_send(4, 0x3C, MAX77620_REG_CNFGGLBL1, &val, 1); i2c_send(I2C_5, MAX77620_PWR_I2C_ADDR, MAX77620_REG_CNFGGLBL1, &val, 1);
} }

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@ -542,9 +542,9 @@ void sdram_init()
const sdram_params_t *params = (const sdram_params_t *)sdram_get_params(); const sdram_params_t *params = (const sdram_params_t *)sdram_get_params();
uint8_t val = 5; uint8_t val = 5;
i2c_send(4, 0x3C, MAX77620_REG_SD_CFG2, &val, 1); i2c_send(I2C_5, MAX77620_PWR_I2C_ADDR, MAX77620_REG_SD_CFG2, &val, 1);
val = 40; /* 40 = (1000 * 1100 - 600000) / 12500 -> 1.1V */ val = 40; /* 40 = (1000 * 1100 - 600000) / 12500 -> 1.1V */
i2c_send(4, 0x3C, MAX77620_REG_SD1, &val, 1); i2c_send(I2C_5, MAX77620_PWR_I2C_ADDR, MAX77620_REG_SD1, &val, 1);
pmc->vddp_sel = params->pmc_vddp_sel; pmc->vddp_sel = params->pmc_vddp_sel;
udelay(params->pmc_vddp_sel_wait); udelay(params->pmc_vddp_sel_wait);

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@ -16,7 +16,7 @@ uint32_t btn_read()
res |= BTN_VOL_UP; res |= BTN_VOL_UP;
uint32_t val = 0; uint32_t val = 0;
if (i2c_query(4, 0x3C, 0x15, &val, 1)) if (i2c_query(I2C_5, MAX77620_PWR_I2C_ADDR, 0x15, &val, 1))
{ {
if (val & 0x4) if (val & 0x4)
res |= BTN_POWER; res |= BTN_POWER;

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@ -12,22 +12,22 @@
void _cluster_enable_power() void _cluster_enable_power()
{ {
uint8_t val = 0; uint8_t val = 0;
i2c_query(4, 0x3C, MAX77620_REG_AME_GPIO, &val, 1); i2c_query(I2C_5, MAX77620_PWR_I2C_ADDR, MAX77620_REG_AME_GPIO, &val, 1);
val &= 0xDF; val &= 0xDF;
i2c_send(4, 0x3C, MAX77620_REG_AME_GPIO, &val, 1); i2c_send(I2C_5, MAX77620_PWR_I2C_ADDR, MAX77620_REG_AME_GPIO, &val, 1);
val = 0x09; val = 0x09;
i2c_send(4, 0x3C, MAX77620_REG_GPIO5, &val, 1); i2c_send(I2C_5, MAX77620_PWR_I2C_ADDR, MAX77620_REG_GPIO5, &val, 1);
/* Enable power. */ /* Enable power. */
val = 0x20; val = 0x20;
i2c_send(4, 0x1B, MAX77620_REG_CNFGGLBL3, &val, 1); i2c_send(I2C_5, MAX77621_CPU_I2C_ADDR, 0x02, &val, 1);
val = 0x8D; val = 0x8D;
i2c_send(4, 0x1B, MAX77620_REG_CNFG1_32K, &val, 1); i2c_send(I2C_5, MAX77621_CPU_I2C_ADDR, 0x03, &val, 1);
val = 0xB7; val = 0xB7;
i2c_send(4, 0x1B, MAX77620_REG_CNFGGLBL1, &val, 1); i2c_send(I2C_5, MAX77621_CPU_I2C_ADDR, 0x00, &val, 1);
val = 0xB7; val = 0xB7;
i2c_send(4, 0x1B, MAX77620_REG_CNFGGLBL2, &val, 1); i2c_send(I2C_5, MAX77621_CPU_I2C_ADDR, 0x01, &val, 1);
} }
int _cluster_pmc_enable_partition(uint32_t part, uint32_t toggle) int _cluster_pmc_enable_partition(uint32_t part, uint32_t toggle)

View file

@ -36,9 +36,9 @@ void display_init()
/* Power on. */ /* Power on. */
uint8_t val = 0xD0; uint8_t val = 0xD0;
i2c_send(4, 0x3C, MAX77620_REG_LDO0_CFG, &val, 1); i2c_send(I2C_5, MAX77620_PWR_I2C_ADDR, MAX77620_REG_LDO0_CFG, &val, 1);
val = 0x09; val = 0x09;
i2c_send(4, 0x3C, MAX77620_REG_GPIO7, &val, 1); i2c_send(I2C_5, MAX77620_PWR_I2C_ADDR, MAX77620_REG_GPIO7, &val, 1);
/* Enable MIPI CAL, DSI, DISP1, HOST1X, UART_FST_MIPI_CAL, DSIA LP clocks. */ /* Enable MIPI CAL, DSI, DISP1, HOST1X, UART_FST_MIPI_CAL, DSIA LP clocks. */
car->rst_dev_h_clr = 0x1010000; car->rst_dev_h_clr = 0x1010000;

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@ -43,16 +43,16 @@ void i2c_init(unsigned int id) {
void i2c_send_pmic_cpu_shutdown_cmd(void) { void i2c_send_pmic_cpu_shutdown_cmd(void) {
uint32_t val = 0; uint32_t val = 0;
/* PMIC == Device 4:3C. */ /* PMIC == Device 4:3C. */
i2c_query(4, 0x3C, 0x41, &val, 1); i2c_query(I2C_5, MAX77620_PWR_I2C_ADDR, 0x41, &val, 1);
val |= 4; val |= 4;
i2c_send(4, 0x3C, 0x41, &val, 1); i2c_send(I2C_5, MAX77620_PWR_I2C_ADDR, 0x41, &val, 1);
} }
/* Queries the value of TI charger bit over I2C. */ /* Queries the value of TI charger bit over I2C. */
bool i2c_query_ti_charger_bit_7(void) { bool i2c_query_ti_charger_bit_7(void) {
uint32_t val = 0; uint32_t val = 0;
/* TI Charger = Device 0:6B. */ /* TI Charger = Device 0:6B. */
i2c_query(0, 0x6B, 0, &val, 1); i2c_query(I2C_1, BQ24193_I2C_ADDR, 0, &val, 1);
return (val & 0x80) != 0; return (val & 0x80) != 0;
} }
@ -60,34 +60,34 @@ bool i2c_query_ti_charger_bit_7(void) {
void i2c_clear_ti_charger_bit_7(void) { void i2c_clear_ti_charger_bit_7(void) {
uint32_t val = 0; uint32_t val = 0;
/* TI Charger = Device 0:6B. */ /* TI Charger = Device 0:6B. */
i2c_query(0, 0x6B, 0, &val, 1); i2c_query(I2C_1, BQ24193_I2C_ADDR, 0, &val, 1);
val &= 0x7F; val &= 0x7F;
i2c_send(0, 0x6B, 0, &val, 1); i2c_send(I2C_1, BQ24193_I2C_ADDR, 0, &val, 1);
} }
/* Sets TI charger bit over I2C. */ /* Sets TI charger bit over I2C. */
void i2c_set_ti_charger_bit_7(void) { void i2c_set_ti_charger_bit_7(void) {
uint32_t val = 0; uint32_t val = 0;
/* TI Charger = Device 0:6B. */ /* TI Charger = Device 0:6B. */
i2c_query(0, 0x6B, 0, &val, 1); i2c_query(I2C_1, BQ24193_I2C_ADDR, 0, &val, 1);
val |= 0x80; val |= 0x80;
i2c_send(0, 0x6B, 0, &val, 1); i2c_send(I2C_1, BQ24193_I2C_ADDR, 0, &val, 1);
} }
/* Get registers pointer based on I2C ID. */ /* Get registers pointer based on I2C ID. */
volatile tegra_i2c_t *i2c_get_registers_from_id(unsigned int id) { volatile tegra_i2c_t *i2c_get_registers_from_id(unsigned int id) {
switch (id) { switch (id) {
case 0: case I2C_1:
return I2C1_REGS; return I2C1_REGS;
case 1: case I2C_2:
return I2C2_REGS; return I2C2_REGS;
case 2: case I2C_3:
return I2C3_REGS; return I2C3_REGS;
case 3: case I2C_4:
return I2C4_REGS; return I2C4_REGS;
case 4: case I2C_5:
return I2C5_REGS; return I2C5_REGS;
case 5: case I2C_6:
return I2C6_REGS; return I2C6_REGS;
default: default:
generic_panic(); generic_panic();

View file

@ -8,6 +8,20 @@
#define I2C234_BASE 0x7000C000 #define I2C234_BASE 0x7000C000
#define I2C56_BASE 0x7000D000 #define I2C56_BASE 0x7000D000
#define I2C_1 0
#define I2C_2 1
#define I2C_3 2
#define I2C_4 3
#define I2C_5 4
#define I2C_6 5
#define MAX77621_CPU_I2C_ADDR 0x1B
#define MAX77621_GPU_I2C_ADDR 0x1C
#define MAX17050_I2C_ADDR 0x36
#define MAX77620_PWR_I2C_ADDR 0x3C
#define MAX77620_RTC_I2C_ADDR 0x68
#define BQ24193_I2C_ADDR 0x6B
typedef struct { typedef struct {
uint32_t I2C_I2C_CNFG_0; uint32_t I2C_I2C_CNFG_0;
uint32_t I2C_I2C_CMD_ADDR0_0; uint32_t I2C_I2C_CMD_ADDR0_0;

View file

@ -11,6 +11,36 @@
#ifndef _MFD_MAX77620_H_ #ifndef _MFD_MAX77620_H_
#define _MFD_MAX77620_H_ #define _MFD_MAX77620_H_
/* RTC Registers */
#define MAX77620_REG_RTCINT 0x00
#define MAX77620_REG_RTCINTM 0x01
#define MAX77620_REG_RTCCNTLM 0x02
#define MAX77620_REG_RTCCNTL 0x03
#define MAX77620_REG_RTCUPDATE0 0x04
#define MAX77620_REG_RTCUPDATE1 0x05
#define MAX77620_REG_RTCSMPL 0x06
#define MAX77620_REG_RTCSEC 0x07
#define MAX77620_REG_RTCMIN 0x08
#define MAX77620_REG_RTCHOUR 0x09
#define MAX77620_REG_RTCDOW 0x0A
#define MAX77620_REG_RTCMONTH 0x0B
#define MAX77620_REG_RTCYEAR 0x0C
#define MAX77620_REG_RTCDOM 0x0D
#define MAX77620_REG_RTCSECA1 0x0E
#define MAX77620_REG_RTCMINA1 0x0F
#define MAX77620_REG_RTCHOURA1 0x10
#define MAX77620_REG_RTCDOWA1 0x11
#define MAX77620_REG_RTCMONTHA1 0x12
#define MAX77620_REG_RTCYEARA1 0x13
#define MAX77620_REG_RTCDOMA1 0x14
#define MAX77620_REG_RTCSECA2 0x15
#define MAX77620_REG_RTCMINA2 0x16
#define MAX77620_REG_RTCHOURA2 0x17
#define MAX77620_REG_RTCDOWA2 0x18
#define MAX77620_REG_RTCMONTHA2 0x19
#define MAX77620_REG_RTCYEARA2 0x1A
#define MAX77620_REG_RTCDOMA2 0x1B
/* GLOBAL, PMIC, GPIO, FPS, ONOFFC, CID Registers */ /* GLOBAL, PMIC, GPIO, FPS, ONOFFC, CID Registers */
#define MAX77620_REG_CNFGGLBL1 0x00 #define MAX77620_REG_CNFGGLBL1 0x00
#define MAX77620_REG_CNFGGLBL2 0x01 #define MAX77620_REG_CNFGGLBL2 0x01

View file

@ -55,11 +55,11 @@ int max77620_regulator_get_status(uint32_t id)
uint8_t val = 0; uint8_t val = 0;
if (reg->type == REGULATOR_SD) { if (reg->type == REGULATOR_SD) {
if (i2c_query(4, 0x3C, MAX77620_REG_STATSD, &val, 1)) if (i2c_query(I2C_5, MAX77620_PWR_I2C_ADDR, MAX77620_REG_STATSD, &val, 1))
return (val & reg->status_mask) ? 0 : 1; return (val & reg->status_mask) ? 0 : 1;
} }
if (i2c_query(4, 0x3C, reg->cfg_addr, &val, 1)) if (i2c_query(I2C_5, MAX77620_PWR_I2C_ADDR, reg->cfg_addr, &val, 1))
return (val & 8) ? 0 : 1; return (val & 8) ? 0 : 1;
return 0; return 0;
@ -73,7 +73,7 @@ int max77620_regulator_config_fps(uint32_t id)
const max77620_regulator_t *reg = &_pmic_regulators[id]; const max77620_regulator_t *reg = &_pmic_regulators[id];
uint8_t val = ((reg->fps_src << 6) | (reg->pu_period << 3) | (reg->pd_period)); uint8_t val = ((reg->fps_src << 6) | (reg->pu_period << 3) | (reg->pd_period));
if (i2c_send(4, 0x3C, reg->fps_addr, &val, 1)) { if (i2c_send(I2C_5, MAX77620_PWR_I2C_ADDR, reg->fps_addr, &val, 1)) {
return 1; return 1;
} }
@ -93,11 +93,11 @@ int max77620_regulator_set_voltage(uint32_t id, uint32_t mv)
uint32_t mult = (mv + reg->mv_step - 1 - reg->mv_min) / reg->mv_step; uint32_t mult = (mv + reg->mv_step - 1 - reg->mv_min) / reg->mv_step;
uint8_t val = 0; uint8_t val = 0;
if (i2c_query(4, 0x3C, reg->volt_addr, &val, 1)) if (i2c_query(I2C_5, MAX77620_PWR_I2C_ADDR, reg->volt_addr, &val, 1))
{ {
val = ((val & ~reg->volt_mask) | (mult & reg->volt_mask)); val = ((val & ~reg->volt_mask) | (mult & reg->volt_mask));
if (i2c_send(4, 0x3C, reg->volt_addr, &val, 1)) if (i2c_send(I2C_5, MAX77620_PWR_I2C_ADDR, reg->volt_addr, &val, 1))
{ {
udelay(1000); udelay(1000);
return 1; return 1;
@ -117,14 +117,14 @@ int max77620_regulator_enable(uint32_t id, int enable)
uint32_t addr = (reg->type == REGULATOR_SD) ? reg->cfg_addr : reg->volt_addr; uint32_t addr = (reg->type == REGULATOR_SD) ? reg->cfg_addr : reg->volt_addr;
uint8_t val = 0; uint8_t val = 0;
if (i2c_query(4, 0x3C, addr, &val, 1)) if (i2c_query(I2C_5, MAX77620_PWR_I2C_ADDR, addr, &val, 1))
{ {
if (enable) if (enable)
val = ((val & ~reg->enable_mask) | ((3 << reg->enable_shift) & reg->enable_mask)); val = ((val & ~reg->enable_mask) | ((3 << reg->enable_shift) & reg->enable_mask));
else else
val &= ~reg->enable_mask; val &= ~reg->enable_mask;
if (i2c_send(4, 0x3C, addr, &val, 1)) if (i2c_send(I2C_5, MAX77620_PWR_I2C_ADDR, addr, &val, 1))
{ {
udelay(1000); udelay(1000);
return 1; return 1;
@ -139,7 +139,7 @@ void max77620_config_default()
for (uint32_t i = 1; i <= REGULATOR_MAX; i++) for (uint32_t i = 1; i <= REGULATOR_MAX; i++)
{ {
uint8_t val = 0; uint8_t val = 0;
if (i2c_query(4, 0x3C, MAX77620_REG_CID4, &val, 1)) if (i2c_query(I2C_5, MAX77620_PWR_I2C_ADDR, MAX77620_REG_CID4, &val, 1))
{ {
max77620_regulator_config_fps(i); max77620_regulator_config_fps(i);
max77620_regulator_set_voltage(i, _pmic_regulators[i].mv_default); max77620_regulator_set_voltage(i, _pmic_regulators[i].mv_default);
@ -151,11 +151,11 @@ void max77620_config_default()
} }
uint8_t val = 4; uint8_t val = 4;
i2c_send(4, 0x3C, MAX77620_REG_SD_CFG2, &val, 1); i2c_send(I2C_5, MAX77620_PWR_I2C_ADDR, MAX77620_REG_SD_CFG2, &val, 1);
} }
void max77620_low_battery_monitor_config() void max77620_low_battery_monitor_config()
{ {
uint8_t val = (MAX77620_CNFGGLBL1_LBDAC_EN | MAX77620_CNFGGLBL1_LBHYST_N | MAX77620_CNFGGLBL1_LBDAC_N); uint8_t val = (MAX77620_CNFGGLBL1_LBDAC_EN | MAX77620_CNFGGLBL1_LBHYST_N | MAX77620_CNFGGLBL1_LBDAC_N);
i2c_send(4, 0x3C, MAX77620_REG_CNFGGLBL1, &val, 1); i2c_send(I2C_5, MAX77620_PWR_I2C_ADDR, MAX77620_REG_CNFGGLBL1, &val, 1);
} }

View file

@ -7,10 +7,13 @@
#include "fs_utils.h" #include "fs_utils.h"
#include "nxboot.h" #include "nxboot.h"
#include "nxfs.h" #include "nxfs.h"
#include "bct.h"
#include "di.h" #include "di.h"
#include "mc.h" #include "mc.h"
#include "se.h" #include "se.h"
#include "pmc.h" #include "pmc.h"
#include "i2c.h"
#include "max77620.h"
#include "cluster.h" #include "cluster.h"
#include "flow.h" #include "flow.h"
#include "timers.h" #include "timers.h"
@ -78,13 +81,98 @@ static void nxboot_configure_exosphere(uint32_t target_firmware) {
*(MAILBOX_EXOSPHERE_CONFIGURATION) = exo_cfg; *(MAILBOX_EXOSPHERE_CONFIGURATION) = exo_cfg;
} }
static void nxboot_set_bootreason() {
boot_reason_t boot_reason = {0};
FILE *boot0;
nvboot_config_table *bct;
nv_bootloader_info *bootloader_info;
/* Allocate memory for the BCT. */
bct = malloc(sizeof(nvboot_config_table));
if (bct == NULL) {
fatal_error("[NXBOOT]: Out of memory!\n");
}
/* Open boot0. */
boot0 = fopen("boot0:/", "rb");
if (boot0 == NULL) {
fatal_error("[NXBOOT]: Failed to open boot0!\n");
}
/* Read the BCT. */
if (fread(bct, sizeof(nvboot_config_table), 1, boot0) == 0) {
fatal_error("[NXBOOT]: Failed to read the BCT!\n");
}
/* Close boot0. */
fclose(boot0);
/* Populate bootloader parameters. */
bootloader_info = &bct->bootloader[0];
boot_reason.bootloader_version = bootloader_info->version;
boot_reason.bootloader_start_block = bootloader_info->start_blk;
boot_reason.bootloader_start_page = bootloader_info->start_page;
boot_reason.bootloader_attribute = bootloader_info->attribute;
uint8_t power_key_intr = 0;
uint8_t rtc_intr = 0;
i2c_query(I2C_5, MAX77620_PWR_I2C_ADDR, MAX77620_REG_ONOFFIRQ, &power_key_intr, 1);
i2c_query(I2C_5, MAX77620_RTC_I2C_ADDR, MAX77620_REG_RTCINT, &rtc_intr, 1);
/* Set PMIC value. */
boot_reason.boot_reason_value = ((rtc_intr << 0x08) | power_key_intr);
/* TODO: Find out what these mean. */
if (power_key_intr & 0x80)
boot_reason.boot_reason_state = 0x01;
else if (power_key_intr & 0x08)
boot_reason.boot_reason_state = 0x02;
else if (rtc_intr & 0x02)
boot_reason.boot_reason_state = 0x03;
else if (rtc_intr & 0x04)
boot_reason.boot_reason_state = 0x04;
/* Set in memory. */
memcpy((void *)MAILBOX_NX_BOOTLOADER_BOOT_REASON, &boot_reason, sizeof(boot_reason));
/* Clean up. */
free(bct);
}
static void nxboot_move_bootconfig() {
FILE *bcfile;
void *bootconfig;
/* Allocate memory for reading BootConfig. */
bootconfig = memalign(0x1000, 0x4000);
if (bootconfig == NULL) {
fatal_error("[NXBOOT]: Out of memory!\n");
}
/* Get BootConfig from the Package2 partition. */
bcfile = fopen("bcpkg21:/", "rb");
if (bcfile == NULL) {
fatal_error("[NXBOOT]: Failed to open BootConfig from eMMC!\n");
}
if (fread(bootconfig, 0x4000, 1, bcfile) < 1) {
fatal_error("[NXBOOT]: Failed to read BootConfig!\n");
}
fclose(bcfile);
/* Copy the first 0x3000 bytes into IRAM. */
memset((void *)0x4003D000, 0, 0x3000);
memcpy((void *)0x4003D000, bootconfig, 0x3000);
/* Clean up. */
free(bootconfig);
}
/* This is the main function responsible for booting Horizon. */ /* This is the main function responsible for booting Horizon. */
static nx_keyblob_t __attribute__((aligned(16))) g_keyblobs[32]; static nx_keyblob_t __attribute__((aligned(16))) g_keyblobs[32];
void nxboot_main(void) { void nxboot_main(void) {
volatile tegra_pmc_t *pmc = pmc_get_regs(); volatile tegra_pmc_t *pmc = pmc_get_regs();
volatile tegra_se_t *se = se_get_regs(); volatile tegra_se_t *se = se_get_regs();
loader_ctx_t *loader_ctx = get_loader_ctx(); loader_ctx_t *loader_ctx = get_loader_ctx();
/* void *bootconfig; */
package2_header_t *package2; package2_header_t *package2;
size_t package2_size; size_t package2_size;
void *tsec_fw; void *tsec_fw;
@ -101,7 +189,7 @@ void nxboot_main(void) {
void *exosphere_memaddr; void *exosphere_memaddr;
/* Allocate memory for reading Package2. */ /* Allocate memory for reading Package2. */
package2 = memalign(4096, PACKAGE2_SIZE_MAX); package2 = memalign(0x1000, PACKAGE2_SIZE_MAX);
if (package2 == NULL) { if (package2 == NULL) {
fatal_error("[NXBOOT]: Out of memory!\n"); fatal_error("[NXBOOT]: Out of memory!\n");
} }
@ -115,10 +203,12 @@ void nxboot_main(void) {
} }
} else { } else {
pk2file = fopen("bcpkg21:/", "rb"); pk2file = fopen("bcpkg21:/", "rb");
if (pk2file == NULL || fseek(pk2file, 0x4000, SEEK_SET) != 0) { if (pk2file == NULL) {
printf("[NXBOOT]: Failed to open Package2 from eMMC: %s!\n", strerror(errno)); fatal_error("[NXBOOT]: Failed to open Package2 from eMMC: %s!\n", strerror(errno));
}
if (fseek(pk2file, 0x4000, SEEK_SET) != 0) {
fatal_error("[NXBOOT]: Failed to seek Package2 in eMMC: %s!\n", strerror(errno));
fclose(pk2file); fclose(pk2file);
generic_panic();
} }
} }
@ -127,7 +217,7 @@ void nxboot_main(void) {
fatal_error("[NXBOOT]: Failed to read Package2!\n"); fatal_error("[NXBOOT]: Failed to read Package2!\n");
} }
package2_size = package2_meta_get_size(&package2->metadata); package2_size = package2_meta_get_size(&package2->metadata);
if (package2_size > PACKAGE2_SIZE_MAX || package2_size <= sizeof(package2_header_t)) { if ((package2_size > PACKAGE2_SIZE_MAX) || (package2_size <= sizeof(package2_header_t))) {
fatal_error("[NXBOOT]: Package2 is too big or too small!\n"); fatal_error("[NXBOOT]: Package2 is too big or too small!\n");
} }
if (fread(package2->data, package2_size - sizeof(package2_header_t), 1, pk2file) < 1) { if (fread(package2->data, package2_size - sizeof(package2_header_t), 1, pk2file) < 1) {
@ -138,7 +228,7 @@ void nxboot_main(void) {
/* Read and parse boot0. */ /* Read and parse boot0. */
printf("[NXBOOT]: Reading boot0...\n"); printf("[NXBOOT]: Reading boot0...\n");
boot0 = fopen("boot0:/", "rb"); boot0 = fopen("boot0:/", "rb");
if (boot0 == NULL || package1_read_and_parse_boot0(&package1loader, &package1loader_size, g_keyblobs, &available_revision, boot0) == -1) { if ((boot0 == NULL) || (package1_read_and_parse_boot0(&package1loader, &package1loader_size, g_keyblobs, &available_revision, boot0) == -1)) {
fatal_error("[NXBOOT]: Couldn't parse boot0: %s!\n", strerror(errno)); fatal_error("[NXBOOT]: Couldn't parse boot0: %s!\n", strerror(errno));
} }
fclose(boot0); fclose(boot0);
@ -146,13 +236,15 @@ void nxboot_main(void) {
/* Read the TSEC firmware from a file, otherwise from PK1L. */ /* Read the TSEC firmware from a file, otherwise from PK1L. */
if (loader_ctx->tsecfw_path[0] != '\0') { if (loader_ctx->tsecfw_path[0] != '\0') {
tsec_fw_size = get_file_size(loader_ctx->tsecfw_path); tsec_fw_size = get_file_size(loader_ctx->tsecfw_path);
if (tsec_fw_size != 0 && tsec_fw_size != 0xF00) { if ((tsec_fw_size != 0) && (tsec_fw_size != 0xF00)) {
fatal_error("[NXBOOT]: TSEC firmware from %s has a wrong size!\n", loader_ctx->tsecfw_path); fatal_error("[NXBOOT]: TSEC firmware from %s has a wrong size!\n", loader_ctx->tsecfw_path);
} else if (tsec_fw_size == 0) { } else if (tsec_fw_size == 0) {
fatal_error("[NXBOOT]: Could not read the TSEC firmware from %s!\n", loader_ctx->tsecfw_path); fatal_error("[NXBOOT]: Could not read the TSEC firmware from %s!\n", loader_ctx->tsecfw_path);
} }
/* Allocate memory for the TSEC firmware. */
tsec_fw = memalign(0x100, tsec_fw_size); tsec_fw = memalign(0x100, tsec_fw_size);
if (tsec_fw == NULL) { if (tsec_fw == NULL) {
fatal_error("[NXBOOT]: Out of memory!\n"); fatal_error("[NXBOOT]: Out of memory!\n");
} }
@ -166,10 +258,6 @@ void nxboot_main(void) {
} }
} }
/* TODO: Validate that we're capable of booting. */
/* TODO: Initialize Boot Reason. */
/* Find the system's target firmware. */ /* Find the system's target firmware. */
uint32_t target_firmware = nxboot_get_target_firmware(package1loader); uint32_t target_firmware = nxboot_get_target_firmware(package1loader);
if (!target_firmware) if (!target_firmware)
@ -180,6 +268,12 @@ void nxboot_main(void) {
/* Setup boot configuration for Exosphère. */ /* Setup boot configuration for Exosphère. */
nxboot_configure_exosphere(target_firmware); nxboot_configure_exosphere(target_firmware);
/* Initialize Boot Reason on older firmware versions. */
if (MAILBOX_EXOSPHERE_CONFIGURATION->target_firmware < EXOSPHERE_TARGET_FIRMWARE_400) {
printf("[NXBOOT]: Initializing Boot Reason...\n");
nxboot_set_bootreason();
}
/* Derive keydata. */ /* Derive keydata. */
if (derive_nx_keydata(MAILBOX_EXOSPHERE_CONFIGURATION->target_firmware, g_keyblobs, available_revision, tsec_fw, tsec_fw_size) != 0) { if (derive_nx_keydata(MAILBOX_EXOSPHERE_CONFIGURATION->target_firmware, g_keyblobs, available_revision, tsec_fw, tsec_fw_size) != 0) {
fatal_error("[NXBOOT]: Key derivation failed!\n"); fatal_error("[NXBOOT]: Key derivation failed!\n");
@ -192,7 +286,9 @@ void nxboot_main(void) {
fatal_error("[NXBOOT]: Could not read the warmboot firmware from %s!\n", loader_ctx->warmboot_path); fatal_error("[NXBOOT]: Could not read the warmboot firmware from %s!\n", loader_ctx->warmboot_path);
} }
/* Allocate memory for the warmboot firmware. */
warmboot_fw = malloc(warmboot_fw_size); warmboot_fw = malloc(warmboot_fw_size);
if (warmboot_fw == NULL) { if (warmboot_fw == NULL) {
fatal_error("[NXBOOT]: Out of memory!\n"); fatal_error("[NXBOOT]: Out of memory!\n");
} }
@ -236,32 +332,36 @@ void nxboot_main(void) {
/* Patch package2, adding Thermosphère + custom KIPs. */ /* Patch package2, adding Thermosphère + custom KIPs. */
package2_rebuild_and_copy(package2, MAILBOX_EXOSPHERE_CONFIGURATION->target_firmware); package2_rebuild_and_copy(package2, MAILBOX_EXOSPHERE_CONFIGURATION->target_firmware);
printf(u8"Reading Exosphère...\n"); printf(u8"[NXBOOT]: Reading Exosphère...\n");
/* Select the right address for Exosphère. */ /* Select the right address for Exosphère. */
if (MAILBOX_EXOSPHERE_CONFIGURATION->target_firmware <= EXOSPHERE_TARGET_FIRMWARE_400) { if (MAILBOX_EXOSPHERE_CONFIGURATION->target_firmware <= EXOSPHERE_TARGET_FIRMWARE_400) {
exosphere_memaddr = (void *)0x40020000; exosphere_memaddr = (void *)0x4002D000;
} else { } else {
exosphere_memaddr = (void *)0x40018000; /* 5.x has its secmon's crt0 around this region. */ exosphere_memaddr = (void *)0x4002B000;
} }
/* Copy Exosphère to a good location or read it directly to it. */ /* Copy Exosphère to a good location or read it directly to it. */
if (loader_ctx->exosphere_path[0] != '\0') { if (loader_ctx->exosphere_path[0] != '\0') {
size_t exosphere_size = get_file_size(loader_ctx->exosphere_path); size_t exosphere_size = get_file_size(loader_ctx->exosphere_path);
if (exosphere_size == 0) { if (exosphere_size == 0) {
fatal_error(u8"Could not read Exosphère from %s!\n", loader_ctx->exosphere_path); fatal_error(u8"[NXBOOT]: Could not read Exosphère from %s!\n", loader_ctx->exosphere_path);
} else if (exosphere_size > 0x10000) { } else if (exosphere_size > 0x10000) {
/* The maximum is actually a bit less than that. */ /* The maximum is actually a bit less than that. */
fatal_error(u8"Exosphère from %s is too big!\n", loader_ctx->exosphere_path); fatal_error(u8"[NXBOOT]: Exosphère from %s is too big!\n", loader_ctx->exosphere_path);
} }
if (read_from_file(exosphere_memaddr, exosphere_size, loader_ctx->exosphere_path) != exosphere_size) { if (read_from_file(exosphere_memaddr, exosphere_size, loader_ctx->exosphere_path) != exosphere_size) {
fatal_error(u8"Could not read Exosphère from %s!\n", loader_ctx->exosphere_path); fatal_error(u8"[NXBOOT]: Could not read Exosphère from %s!\n", loader_ctx->exosphere_path);
} }
} else { } else {
memcpy(exosphere_memaddr, exosphere_bin, exosphere_bin_size); memcpy(exosphere_memaddr, exosphere_bin, exosphere_bin_size);
} }
/* Move BootConfig. */
printf("[NXBOOT]: Moving BootConfig...\n");
nxboot_move_bootconfig();
/* Clean up. */ /* Clean up. */
free(package1loader); free(package1loader);
if (loader_ctx->tsecfw_path[0] != '\0') { if (loader_ctx->tsecfw_path[0] != '\0') {
@ -287,9 +387,6 @@ void nxboot_main(void) {
set_aes_keyslot_flags(KEYSLOT_SWITCH_4XOLDDEVICEKEY, 0xFF); set_aes_keyslot_flags(KEYSLOT_SWITCH_4XOLDDEVICEKEY, 0xFF);
} }
/* TODO: Handle bootconfig. */
memset((void *)0x4003D000, 0, 0x3000);
/* Finalize the GPU UCODE carveout. */ /* Finalize the GPU UCODE carveout. */
mc_config_carveout_finalize(); mc_config_carveout_finalize();

View file

@ -5,22 +5,26 @@
#define MAILBOX_NX_BOOTLOADER_BASE ((void *)(0x40002000)) #define MAILBOX_NX_BOOTLOADER_BASE ((void *)(0x40002000))
#define MAILBOX_NX_BOOTLOADER_BOOT_REASON (MAILBOX_NX_BOOTLOADER_BASE + 0xE10)
#define MAILBOX_NX_BOOTLOADER_SETUP_STATE MAKE_REG32(MAILBOX_NX_BOOTLOADER_BASE + 0xEF8) #define MAILBOX_NX_BOOTLOADER_SETUP_STATE MAKE_REG32(MAILBOX_NX_BOOTLOADER_BASE + 0xEF8)
#define MAILBOX_NX_BOOTLOADER_IS_SECMON_AWAKE MAKE_REG32(MAILBOX_NX_BOOTLOADER_BASE + 0xEFC)
#define NX_BOOTLOADER_STATE_INIT 0 #define NX_BOOTLOADER_STATE_INIT 0
#define NX_BOOTLOADER_STATE_MOVED_BOOTCONFIG 1 #define NX_BOOTLOADER_STATE_MOVED_BOOTCONFIG 1
#define NX_BOOTLOADER_STATE_LOADED_PACKAGE2 2 #define NX_BOOTLOADER_STATE_LOADED_PACKAGE2 2
#define NX_BOOTLOADER_STATE_FINISHED 3 #define NX_BOOTLOADER_STATE_FINISHED 3
#define NX_BOOTLOADER_STATE_DRAM_INITIALIZED_4X 2 #define NX_BOOTLOADER_STATE_DRAM_INITIALIZED_4X 2
#define NX_BOOTLOADER_STATE_LOADED_PACKAGE2_4X 3 #define NX_BOOTLOADER_STATE_LOADED_PACKAGE2_4X 3
#define NX_BOOTLOADER_STATE_FINISHED_4X 4 #define NX_BOOTLOADER_STATE_FINISHED_4X 4
/* Physaddr 0x40002EFC */ typedef struct {
#define MAILBOX_NX_BOOTLOADER_IS_SECMON_AWAKE MAKE_REG32(MAILBOX_NX_BOOTLOADER_BASE + 0xEFC) uint32_t bootloader_version;
uint32_t bootloader_start_block;
#define MAILBOX_NX_BOOTLOADER_BOOT_REASON (MAILBOX_NX_BOOTLOADER_BASE + 0xE10) uint32_t bootloader_start_page;
uint32_t bootloader_attribute;
uint32_t boot_reason_value;
uint32_t boot_reason_state;
} boot_reason_t;
void nxboot_main(void); void nxboot_main(void);