Atmosphere/exosphere/src/fuse.c

#include <string.h>

#include "fuse.h"
#include "utils.h"
#include "timers.h"

/* Prototypes for internal commands. */
void fuse_make_regs_visible(void);

void fuse_enable_power(void);
void fuse_disable_power(void);
void fuse_wait_idle(void);

/* Initialize the FUSE driver */
void fuse_init(void)
{
    fuse_make_regs_visible();

    /* TODO: Overrides (iROM patches) and various reads happen here */
}

/* Make all fuse registers visible */
void fuse_make_regs_visible(void)
{
    /* TODO: Replace this with a proper CLKRST driver */
    volatile uint32_t* misc_clk_reg = (volatile uint32_t *)MMIO_GET_DEVICE_ADDRESS(MMIO_DEVID_CLKRST) + 0x48;
    uint32_t misc_clk_val = *misc_clk_reg;
    *misc_clk_reg = (misc_clk_val | (1 << 28));
}

/* Enable power to the fuse hardware array */
void fuse_enable_power(void)
{
    FUSE_REGS->FUSE_PWR_GOOD_SW = 1;
    wait(1);
}

/* Disable power to the fuse hardware array */
void fuse_disable_power(void)
{
    FUSE_REGS->FUSE_PWR_GOOD_SW = 0;
    wait(1);
}

/* Wait for the fuse driver to go idle */
void fuse_wait_idle(void)
{
    uint32_t ctrl_val = 0;

    /* Wait for STATE_IDLE */
    while ((ctrl_val & (0xF0000)) != 0x40000)
    {
        wait(1);
        ctrl_val = FUSE_REGS->FUSE_CTRL;
    }
}

/* Read a fuse from the hardware array */
uint32_t fuse_hw_read(uint32_t addr)
{
    fuse_wait_idle();

    /* Program the target address */
    FUSE_REGS->FUSE_REG_ADDR = addr;

    /* Enable read operation in control register */
    uint32_t ctrl_val = FUSE_REGS->FUSE_CTRL;
    ctrl_val &= ~0x3;
    ctrl_val |= 0x1;    /* Set FUSE_READ command */
    FUSE_REGS->FUSE_CTRL = ctrl_val;

    fuse_wait_idle();

    return FUSE_REGS->FUSE_REG_READ;
}

/* Write a fuse in the hardware array */
void fuse_hw_write(uint32_t value, uint32_t addr)
{
    fuse_wait_idle();

    /* Program the target address and value */
    FUSE_REGS->FUSE_REG_ADDR = addr;
    FUSE_REGS->FUSE_REG_WRITE = value;

    /* Enable write operation in control register */
    uint32_t ctrl_val = FUSE_REGS->FUSE_CTRL;
    ctrl_val &= ~0x3;
    ctrl_val |= 0x2;    /* Set FUSE_WRITE command */
    FUSE_REGS->FUSE_CTRL = ctrl_val;

    fuse_wait_idle();
}

/* Sense the fuse hardware array into the shadow cache */
void fuse_hw_sense(void)
{
    fuse_wait_idle();

    /* Enable sense operation in control register */
    uint32_t ctrl_val = FUSE_REGS->FUSE_CTRL;
    ctrl_val &= ~0x3;
    ctrl_val |= 0x3;    /* Set FUSE_SENSE command */
    FUSE_REGS->FUSE_CTRL = ctrl_val;

    fuse_wait_idle();
}

/* Disables all fuse programming. */
void fuse_disable_programming(void) {
    FUSE_REGS->FUSE_DIS_PGM = 1;
}

/* Unknown exactly what this does, but it alters the contents read from the fuse cache. */
void fuse_secondary_private_key_disable(void) {
    FUSE_REGS->FUSE_PRIVATEKEYDISABLE = 0x10;
}


/* Read the SKU info register from the shadow cache */
uint32_t fuse_get_sku_info(void)
{
    return FUSE_CHIP_REGS->FUSE_SKU_INFO;
}

/* Read the bootrom patch version from a register in the shadow cache */
uint32_t fuse_get_bootrom_patch_version(void)
{
    return FUSE_CHIP_REGS->FUSE_SOC_SPEEDO_1;
}

/* Read a spare bit register from the shadow cache */
uint32_t fuse_get_spare_bit(uint32_t idx)
{
    if (idx >= 32) {
        return 0;
    }

    return FUSE_CHIP_REGS->FUSE_SPARE_BIT[idx];
}

/* Read a reserved ODM register from the shadow cache */
uint32_t fuse_get_reserved_odm(uint32_t idx)
{
    if (idx >= 8) {
        return 0;
    }

    return FUSE_CHIP_REGS->FUSE_RESERVED_ODM[idx];
}

/* Derive the Device ID using values in the shadow cache */
uint64_t fuse_get_device_id(void) {
    uint64_t device_id = 0;
    uint64_t y_coord = FUSE_CHIP_REGS->FUSE_Y_COORDINATE & 0x1FF;
    uint64_t x_coord = FUSE_CHIP_REGS->FUSE_X_COORDINATE & 0x1FF;
    uint64_t wafer_id = FUSE_CHIP_REGS->FUSE_WAFER_ID & 0x3F;
    uint32_t lot_code = FUSE_CHIP_REGS->FUSE_LOT_CODE_0;
    uint64_t fab_code = FUSE_CHIP_REGS->FUSE_FAB_CODE & 0x3F;
    uint64_t derived_lot_code = 0;
    for (unsigned int i = 0; i < 5; i++) {
        derived_lot_code = (derived_lot_code * 0x24) + ((lot_code >> (24 - 6*i)) & 0x3F);
    }
    derived_lot_code &= 0x03FFFFFF;

    device_id |= y_coord << 0;
    device_id |= x_coord << 9;
    device_id |= wafer_id << 18;
    device_id |= derived_lot_code << 24;
    device_id |= fab_code << 50;
    return device_id;
}

/* Get the DRAM ID using values in the shadow cache */
uint32_t fuse_get_dram_id(void) {
    return (FUSE_CHIP_REGS->FUSE_RESERVED_ODM[4] >> 3) & 0x7;
}

/* Derive the Hardware Type using values in the shadow cache */
uint32_t fuse_get_hardware_type(void) {
    uint32_t hardware_type = ((FUSE_CHIP_REGS->FUSE_RESERVED_ODM[4] >> 7) & 2) | ((FUSE_CHIP_REGS->FUSE_RESERVED_ODM[4] >> 2) & 1);
    if (hardware_type) {
        if (hardware_type == 1) {
            return 0;
        }
        if (hardware_type == 2) {
            return 1;
        }
    } else if ((FUSE_CHIP_REGS->FUSE_SPARE_BIT[9] & 1) == 0) {
        return 0;
    }
    return 3;
}

/* Derive the Retail Type using values in the shadow cache */
uint32_t fuse_get_retail_type(void) {
    /* Retail type = IS_RETAIL | UNIT_TYPE */
    uint32_t retail_type = ((FUSE_CHIP_REGS->FUSE_RESERVED_ODM[4] >> 7) & 4) | (FUSE_CHIP_REGS->FUSE_RESERVED_ODM[4] & 3);
    if (retail_type == 4) { /* Standard retail unit, IS_RETAIL | 0. */
        return 1;
    } else if (retail_type == 3) { /* Standard dev unit, 0 | DEV_UNIT. */
        return 0;
    }
    return 2; /* IS_RETAIL | DEV_UNIT */
}

/* Derive the 16-byte Hardware Info using values in the shadow cache, and copy to output buffer. */
void fuse_get_hardware_info(void *dst) {
    uint32_t hw_info[0x4];

    uint32_t unk_hw_fuse = FUSE_CHIP_REGS->_0x120 & 0x3F;
    uint32_t y_coord = FUSE_CHIP_REGS->FUSE_Y_COORDINATE & 0x1FF;
    uint32_t x_coord = FUSE_CHIP_REGS->FUSE_X_COORDINATE & 0x1FF;
    uint32_t wafer_id = FUSE_CHIP_REGS->FUSE_WAFER_ID & 0x3F;
    uint32_t lot_code_0 = FUSE_CHIP_REGS->FUSE_LOT_CODE_0;
    uint32_t lot_code_1 = FUSE_CHIP_REGS->FUSE_LOT_CODE_1 & 0x0FFFFFFF;
    uint32_t fab_code = FUSE_CHIP_REGS->FUSE_FAB_CODE & 0x3F;
    uint32_t vendor_code = FUSE_CHIP_REGS->FUSE_VENDOR_CODE & 0xF;

    /* Hardware Info = unk_hw_fuse || Y_COORD || X_COORD || WAFER_ID || LOT_CODE || FAB_CODE || VENDOR_ID */
    hw_info[0] = (uint32_t)((lot_code_1 << 30) | (wafer_id << 24) | (x_coord << 15) | (y_coord << 6) | (unk_hw_fuse));
    hw_info[1] = (uint32_t)((lot_code_0 << 26) | (lot_code_1 >> 2));
    hw_info[2] = (uint32_t)((fab_code << 26) | (lot_code_0 >> 6));
    hw_info[3] = (uint32_t)(vendor_code);

    memcpy(dst, hw_info, 0x10);
}
Preliminary Exosphere FUSE driver 2018-02-24 18:15:47 +00:00			`#include <string.h>`

			`#include "fuse.h"`
			`#include "utils.h"`
			`#include "timers.h"`

			`/* Prototypes for internal commands. */`
			`void fuse_make_regs_visible(void);`

			`void fuse_enable_power(void);`
			`void fuse_disable_power(void);`
			`void fuse_wait_idle(void);`

			`/* Initialize the FUSE driver */`
			`void fuse_init(void)`
			`{`
			`fuse_make_regs_visible();`
Move source files to src/, add Makefile, fix all build and linkage errors, etc. 2018-02-25 19:00:50 +00:00
Preliminary Exosphere FUSE driver 2018-02-24 18:15:47 +00:00			`/* TODO: Overrides (iROM patches) and various reads happen here */`
			`}`

			`/* Make all fuse registers visible */`
			`void fuse_make_regs_visible(void)`
			`{`
			`/* TODO: Replace this with a proper CLKRST driver */`
Rewrite the memory map-related code... ...other style fixes, etc. 2018-02-26 21:09:35 +00:00			`volatile uint32_t* misc_clk_reg = (volatile uint32_t *)MMIO_GET_DEVICE_ADDRESS(MMIO_DEVID_CLKRST) + 0x48;`
Preliminary Exosphere FUSE driver 2018-02-24 18:15:47 +00:00			`uint32_t misc_clk_val = *misc_clk_reg;`
			`*misc_clk_reg = (misc_clk_val \| (1 << 28));`
			`}`

			`/* Enable power to the fuse hardware array */`
			`void fuse_enable_power(void)`
			`{`
			`FUSE_REGS->FUSE_PWR_GOOD_SW = 1;`
			`wait(1);`
			`}`

			`/* Disable power to the fuse hardware array */`
			`void fuse_disable_power(void)`
			`{`
			`FUSE_REGS->FUSE_PWR_GOOD_SW = 0;`
			`wait(1);`
			`}`

			`/* Wait for the fuse driver to go idle */`
			`void fuse_wait_idle(void)`
			`{`
			`uint32_t ctrl_val = 0;`
Move source files to src/, add Makefile, fix all build and linkage errors, etc. 2018-02-25 19:00:50 +00:00
Preliminary Exosphere FUSE driver 2018-02-24 18:15:47 +00:00			`/* Wait for STATE_IDLE */`
			`while ((ctrl_val & (0xF0000)) != 0x40000)`
			`{`
			`wait(1);`
			`ctrl_val = FUSE_REGS->FUSE_CTRL;`
			`}`
			`}`

			`/* Read a fuse from the hardware array */`
			`uint32_t fuse_hw_read(uint32_t addr)`
			`{`
			`fuse_wait_idle();`
Move source files to src/, add Makefile, fix all build and linkage errors, etc. 2018-02-25 19:00:50 +00:00
Preliminary Exosphere FUSE driver 2018-02-24 18:15:47 +00:00			`/* Program the target address */`
			`FUSE_REGS->FUSE_REG_ADDR = addr;`
Move source files to src/, add Makefile, fix all build and linkage errors, etc. 2018-02-25 19:00:50 +00:00
Preliminary Exosphere FUSE driver 2018-02-24 18:15:47 +00:00			`/* Enable read operation in control register */`
			`uint32_t ctrl_val = FUSE_REGS->FUSE_CTRL;`
			`ctrl_val &= ~0x3;`
			`ctrl_val \|= 0x1; /* Set FUSE_READ command */`
			`FUSE_REGS->FUSE_CTRL = ctrl_val;`
Move source files to src/, add Makefile, fix all build and linkage errors, etc. 2018-02-25 19:00:50 +00:00
Preliminary Exosphere FUSE driver 2018-02-24 18:15:47 +00:00			`fuse_wait_idle();`
Move source files to src/, add Makefile, fix all build and linkage errors, etc. 2018-02-25 19:00:50 +00:00
Preliminary Exosphere FUSE driver 2018-02-24 18:15:47 +00:00			`return FUSE_REGS->FUSE_REG_READ;`
			`}`

			`/* Write a fuse in the hardware array */`
Move source files to src/, add Makefile, fix all build and linkage errors, etc. 2018-02-25 19:00:50 +00:00			`void fuse_hw_write(uint32_t value, uint32_t addr)`
Preliminary Exosphere FUSE driver 2018-02-24 18:15:47 +00:00			`{`
			`fuse_wait_idle();`
Move source files to src/, add Makefile, fix all build and linkage errors, etc. 2018-02-25 19:00:50 +00:00
Preliminary Exosphere FUSE driver 2018-02-24 18:15:47 +00:00			`/* Program the target address and value */`
			`FUSE_REGS->FUSE_REG_ADDR = addr;`
			`FUSE_REGS->FUSE_REG_WRITE = value;`
Move source files to src/, add Makefile, fix all build and linkage errors, etc. 2018-02-25 19:00:50 +00:00
Preliminary Exosphere FUSE driver 2018-02-24 18:15:47 +00:00			`/* Enable write operation in control register */`
			`uint32_t ctrl_val = FUSE_REGS->FUSE_CTRL;`
			`ctrl_val &= ~0x3;`
			`ctrl_val \|= 0x2; /* Set FUSE_WRITE command */`
			`FUSE_REGS->FUSE_CTRL = ctrl_val;`
Move source files to src/, add Makefile, fix all build and linkage errors, etc. 2018-02-25 19:00:50 +00:00
Preliminary Exosphere FUSE driver 2018-02-24 18:15:47 +00:00			`fuse_wait_idle();`
			`}`

			`/* Sense the fuse hardware array into the shadow cache */`
			`void fuse_hw_sense(void)`
			`{`
			`fuse_wait_idle();`
Move source files to src/, add Makefile, fix all build and linkage errors, etc. 2018-02-25 19:00:50 +00:00
Preliminary Exosphere FUSE driver 2018-02-24 18:15:47 +00:00			`/* Enable sense operation in control register */`
			`uint32_t ctrl_val = FUSE_REGS->FUSE_CTRL;`
			`ctrl_val &= ~0x3;`
			`ctrl_val \|= 0x3; /* Set FUSE_SENSE command */`
			`FUSE_REGS->FUSE_CTRL = ctrl_val;`
Move source files to src/, add Makefile, fix all build and linkage errors, etc. 2018-02-25 19:00:50 +00:00
Preliminary Exosphere FUSE driver 2018-02-24 18:15:47 +00:00			`fuse_wait_idle();`
			`}`

Implement getters for fuse values, fill out smcGetConfig 2018-02-25 09:21:52 +00:00			`/* Disables all fuse programming. */`
			`void fuse_disable_programming(void) {`
			`FUSE_REGS->FUSE_DIS_PGM = 1;`
			`}`

			`/* Unknown exactly what this does, but it alters the contents read from the fuse cache. */`
			`void fuse_secondary_private_key_disable(void) {`
			`FUSE_REGS->FUSE_PRIVATEKEYDISABLE = 0x10;`
			`}`


Preliminary Exosphere FUSE driver 2018-02-24 18:15:47 +00:00			`/* Read the SKU info register from the shadow cache */`
			`uint32_t fuse_get_sku_info(void)`
			`{`
			`return FUSE_CHIP_REGS->FUSE_SKU_INFO;`
			`}`

			`/* Read the bootrom patch version from a register in the shadow cache */`
			`uint32_t fuse_get_bootrom_patch_version(void)`
			`{`
			`return FUSE_CHIP_REGS->FUSE_SOC_SPEEDO_1;`
			`}`

			`/* Read a spare bit register from the shadow cache */`
			`uint32_t fuse_get_spare_bit(uint32_t idx)`
			`{`
fuse: simplify checks in fuse_get_reserved_odm and fuse_get_spare_bit (#54) A separate variable isn't particularly necessary here, and given that the type is unsigned, we only need to test the upper bound. This also resolves two -Wtype-limits warnings 2018-02-26 05:23:31 +00:00			`if (idx >= 32) {`
			`return 0;`
			`}`
Move source files to src/, add Makefile, fix all build and linkage errors, etc. 2018-02-25 19:00:50 +00:00
fuse: simplify checks in fuse_get_reserved_odm and fuse_get_spare_bit (#54) A separate variable isn't particularly necessary here, and given that the type is unsigned, we only need to test the upper bound. This also resolves two -Wtype-limits warnings 2018-02-26 05:23:31 +00:00			`return FUSE_CHIP_REGS->FUSE_SPARE_BIT[idx];`
Preliminary Exosphere FUSE driver 2018-02-24 18:15:47 +00:00			`}`

			`/* Read a reserved ODM register from the shadow cache */`
			`uint32_t fuse_get_reserved_odm(uint32_t idx)`
			`{`
fuse: simplify checks in fuse_get_reserved_odm and fuse_get_spare_bit (#54) A separate variable isn't particularly necessary here, and given that the type is unsigned, we only need to test the upper bound. This also resolves two -Wtype-limits warnings 2018-02-26 05:23:31 +00:00			`if (idx >= 8) {`
			`return 0;`
			`}`

			`return FUSE_CHIP_REGS->FUSE_RESERVED_ODM[idx];`
Implement getters for fuse values, fill out smcGetConfig 2018-02-25 09:21:52 +00:00			`}`

			`/* Derive the Device ID using values in the shadow cache */`
			`uint64_t fuse_get_device_id(void) {`
			`uint64_t device_id = 0;`
			`uint64_t y_coord = FUSE_CHIP_REGS->FUSE_Y_COORDINATE & 0x1FF;`
			`uint64_t x_coord = FUSE_CHIP_REGS->FUSE_X_COORDINATE & 0x1FF;`
			`uint64_t wafer_id = FUSE_CHIP_REGS->FUSE_WAFER_ID & 0x3F;`
			`uint32_t lot_code = FUSE_CHIP_REGS->FUSE_LOT_CODE_0;`
			`uint64_t fab_code = FUSE_CHIP_REGS->FUSE_FAB_CODE & 0x3F;`
			`uint64_t derived_lot_code = 0;`
			`for (unsigned int i = 0; i < 5; i++) {`
			`derived_lot_code = (derived_lot_code * 0x24) + ((lot_code >> (24 - 6*i)) & 0x3F);`
			`}`
			`derived_lot_code &= 0x03FFFFFF;`
Rewrite the memory map-related code... ...other style fixes, etc. 2018-02-26 21:09:35 +00:00
Implement getters for fuse values, fill out smcGetConfig 2018-02-25 09:21:52 +00:00			`device_id \|= y_coord << 0;`
Rewrite the memory map-related code... ...other style fixes, etc. 2018-02-26 21:09:35 +00:00			`device_id \|= x_coord << 9;`
Implement getters for fuse values, fill out smcGetConfig 2018-02-25 09:21:52 +00:00			`device_id \|= wafer_id << 18;`
			`device_id \|= derived_lot_code << 24;`
			`device_id \|= fab_code << 50;`
			`return device_id;`
			`}`

			`/* Get the DRAM ID using values in the shadow cache */`
			`uint32_t fuse_get_dram_id(void) {`
			`return (FUSE_CHIP_REGS->FUSE_RESERVED_ODM[4] >> 3) & 0x7;`
			`}`

			`/* Derive the Hardware Type using values in the shadow cache */`
			`uint32_t fuse_get_hardware_type(void) {`
			`uint32_t hardware_type = ((FUSE_CHIP_REGS->FUSE_RESERVED_ODM[4] >> 7) & 2) \| ((FUSE_CHIP_REGS->FUSE_RESERVED_ODM[4] >> 2) & 1);`
			`if (hardware_type) {`
			`if (hardware_type == 1) {`
			`return 0;`
			`}`
			`if (hardware_type == 2) {`
			`return 1;`
			`}`
			`} else if ((FUSE_CHIP_REGS->FUSE_SPARE_BIT[9] & 1) == 0) {`
			`return 0;`
			`}`
			`return 3;`
			`}`

			`/* Derive the Retail Type using values in the shadow cache */`
			`uint32_t fuse_get_retail_type(void) {`
			`/* Retail type = IS_RETAIL \| UNIT_TYPE */`
			`uint32_t retail_type = ((FUSE_CHIP_REGS->FUSE_RESERVED_ODM[4] >> 7) & 4) \| (FUSE_CHIP_REGS->FUSE_RESERVED_ODM[4] & 3);`
			`if (retail_type == 4) { /* Standard retail unit, IS_RETAIL \| 0. */`
			`return 1;`
			`} else if (retail_type == 3) { /* Standard dev unit, 0 \| DEV_UNIT. */`
			`return 0;`
Rewrite the memory map-related code... ...other style fixes, etc. 2018-02-26 21:09:35 +00:00			`}`
Implement getters for fuse values, fill out smcGetConfig 2018-02-25 09:21:52 +00:00			`return 2; /* IS_RETAIL \| DEV_UNIT */`
			`}`

			`/* Derive the 16-byte Hardware Info using values in the shadow cache, and copy to output buffer. */`
			`void fuse_get_hardware_info(void *dst) {`
			`uint32_t hw_info[0x4];`
Move source files to src/, add Makefile, fix all build and linkage errors, etc. 2018-02-25 19:00:50 +00:00
Implement getters for fuse values, fill out smcGetConfig 2018-02-25 09:21:52 +00:00			`uint32_t unk_hw_fuse = FUSE_CHIP_REGS->_0x120 & 0x3F;`
			`uint32_t y_coord = FUSE_CHIP_REGS->FUSE_Y_COORDINATE & 0x1FF;`
			`uint32_t x_coord = FUSE_CHIP_REGS->FUSE_X_COORDINATE & 0x1FF;`
			`uint32_t wafer_id = FUSE_CHIP_REGS->FUSE_WAFER_ID & 0x3F;`
			`uint32_t lot_code_0 = FUSE_CHIP_REGS->FUSE_LOT_CODE_0;`
			`uint32_t lot_code_1 = FUSE_CHIP_REGS->FUSE_LOT_CODE_1 & 0x0FFFFFFF;`
			`uint32_t fab_code = FUSE_CHIP_REGS->FUSE_FAB_CODE & 0x3F;`
			`uint32_t vendor_code = FUSE_CHIP_REGS->FUSE_VENDOR_CODE & 0xF;`
Rewrite the memory map-related code... ...other style fixes, etc. 2018-02-26 21:09:35 +00:00
Implement getters for fuse values, fill out smcGetConfig 2018-02-25 09:21:52 +00:00			`/* Hardware Info = unk_hw_fuse \|\| Y_COORD \|\| X_COORD \|\| WAFER_ID \|\| LOT_CODE \|\| FAB_CODE \|\| VENDOR_ID */`
			`hw_info[0] = (uint32_t)((lot_code_1 << 30) \| (wafer_id << 24) \| (x_coord << 15) \| (y_coord << 6) \| (unk_hw_fuse));`
			`hw_info[1] = (uint32_t)((lot_code_0 << 26) \| (lot_code_1 >> 2));`
			`hw_info[2] = (uint32_t)((fab_code << 26) \| (lot_code_0 >> 6));`
			`hw_info[3] = (uint32_t)(vendor_code);`
Move source files to src/, add Makefile, fix all build and linkage errors, etc. 2018-02-25 19:00:50 +00:00
Implement getters for fuse values, fill out smcGetConfig 2018-02-25 09:21:52 +00:00			`memcpy(dst, hw_info, 0x10);`
Move source files to src/, add Makefile, fix all build and linkage errors, etc. 2018-02-25 19:00:50 +00:00			`}`