iBoot/platform/t8010/chipid/chipid.c

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2023-07-08 13:03:17 -07:00
/*
* Copyright (C) 2012-2014 Apple Inc. All rights reserved.
*
* This document is the property of Apple Inc.
* It is considered confidential and proprietary.
*
* This document may not be reproduced or transmitted in any form,
* in whole or in part, without the express written permission of
* Apple Inc.
*/
#include <debug.h>
#include <platform.h>
#include <platform/soc/chipid.h>
#include <platform/soc/hwclocks.h>
#define MINIMUM_FUSE_REVISION 0x0
#define CHIPID_VOLTAGE_FIXED 0
#define CHIPID_MODE_NONE 0
struct chipid_voltage_config {
uint32_t safe_voltage;
uint32_t mode;
};
static struct chipid_voltage_config chipid_cpu_voltages[] = {
[CHIPID_CPU_VOLTAGE_BYPASS] = { 610, CHIPID_MODE_NONE},
[CHIPID_CPU_VOLTAGE_SECUREROM] = { 610, CHIPID_MODE_NONE},
[CHIPID_CPU_VOLTAGE_396] = { 610, CHIPID_MODE_NONE},
};
static struct chipid_voltage_config chipid_cpu_sram_voltages[] = {
[CHIPID_CPU_VOLTAGE_BYPASS] = { 800, CHIPID_MODE_NONE},
[CHIPID_CPU_VOLTAGE_SECUREROM] = { 800, CHIPID_MODE_NONE},
[CHIPID_CPU_VOLTAGE_396] = { 800, CHIPID_MODE_NONE},
};
static struct chipid_voltage_config chipid_soc_voltages[] = {
[CHIPID_SOC_VOLTAGE_BYPASS] = {725, CHIPID_MODE_NONE},
[CHIPID_SOC_VOLTAGE_SECUREROM] = {725, CHIPID_MODE_NONE},
[CHIPID_SOC_VOLTAGE_VMIN] = {725, CHIPID_MODE_NONE},
[CHIPID_SOC_VOLTAGE_VNOM] = {825, CHIPID_MODE_NONE},
};
static struct chipid_voltage_config chipid_gpu_voltages[] = {
[CHIPID_GPU_VOLTAGE_OFF] = { 0, CHIPID_MODE_NONE},
};
static struct chipid_voltage_config chipid_gpu_sram_voltages[] = {
[CHIPID_GPU_VOLTAGE_OFF] = { 0, CHIPID_MODE_NONE},
};
static struct chipid_voltage_config chipid_sram_voltages[] = {
[CHIPID_VOLTAGE_FIXED] = {850, CHIPID_MODE_NONE},
};
struct chipid_voltadj_entry {
uint64_t voltage_index:8;
uint64_t chipid:32;
uint64_t chip_rev_min:8;
uint64_t fuse_rev_min:8;
struct chipid_vol_adj voltages;
};
#define CHIPID_ALL 0x0
// .voltages = {volAdj0, volAdj1, volAdj2, volAdj3, dvfmMaxAdj, dvmrAdj0, dvmrAdj1, dvmrAdj2}
static const struct chipid_voltadj_entry chipid_voltadj_entry[] = {
{CHIPID_CPU_VOLTAGE_BYPASS, CHIPID_ALL, CHIP_REVISION_A0, 0, .voltages = {0, 0, 0, 0, 0, 0, 0, 0}},
{CHIPID_SOC_VOLTAGE_SECUREROM, CHIPID_ALL, CHIP_REVISION_A0, 0, .voltages = {0, 0, 0, 0, 0, 0, 0, 0}},
{CHIPID_CPU_VOLTAGE_396, 0x8010, CHIP_REVISION_A0, 0, .voltages = {0, 0, 0, 0, 0, 0, 0, 0}},
};
const struct chipid_vol_adj *chipid_get_vol_adj(enum chipid_voltage_index voltage_index)
{
uint32_t chipid = chipid_get_chip_id();
uint32_t chip_rev = chipid_get_chip_revision();
uint32_t fuse_rev = chipid_get_fuse_revision();
for (size_t i = 0; i < sizeof(chipid_voltadj_entry)/sizeof(chipid_voltadj_entry[0]); i++) {
if (voltage_index != chipid_voltadj_entry[i].voltage_index) {
continue;
}
if ((chipid != chipid_voltadj_entry[i].chipid) && (chipid_voltadj_entry[i].chipid != CHIPID_ALL)) {
continue;
}
if ((chip_rev < chipid_voltadj_entry[i].chip_rev_min)) {
continue;
}
if ((fuse_rev < chipid_voltadj_entry[i].fuse_rev_min)) {
continue;
}
return &chipid_voltadj_entry[i].voltages;
}
return NULL;
}
static uint32_t chipid_get_base_voltage(void)
{
uint32_t voltage = 0;
// TODO
return voltage;
}
static uint32_t chipid_get_cpu_binfuse_for_mode(uint32_t mode)
{
uint32_t binfuse = 0;
// TODO
return binfuse;
}
static uint32_t chipid_get_cpu_sram_binfuse_for_mode(uint32_t mode)
{
uint32_t binfuse = 0;
// TODO
return binfuse;
}
static uint32_t chipid_get_soc_binfuse_for_mode(uint32_t mode)
{
uint32_t binfuse = 0;
// TODO
return binfuse;
}
static uint32_t chipid_get_gpu_binfuse_for_mode(uint32_t mode)
{
uint32_t binfuse = 0;
// TODO
return binfuse;
}
static uint32_t chipid_get_gpu_sram_binfuse_for_mode(uint32_t mode)
{
uint32_t binfuse = 0;
// TODO
return binfuse;
}
static uint32_t chipid_get_sram_binfuse_for_mode(uint32_t mode)
{
uint32_t binfuse = 0;
// TODO
return binfuse;
}
static uint32_t chipid_get_cpu_bin_voltage(uint32_t volt_index)
{
uint32_t mode, binfuse;
mode = chipid_cpu_voltages[volt_index].mode;
// Return safe voltage if no binned voltage
if (mode == CHIPID_MODE_NONE)
return chipid_cpu_voltages[volt_index].safe_voltage;
binfuse = chipid_get_cpu_binfuse_for_mode(mode);
return (chipid_get_base_voltage() + binfuse * 5);
}
static uint32_t chipid_get_cpu_sram_bin_voltage(uint32_t volt_index)
{
uint32_t mode, binfuse;
mode = chipid_cpu_sram_voltages[volt_index].mode;
// Return safe voltage if no binned voltage
if (mode == CHIPID_MODE_NONE)
return chipid_cpu_sram_voltages[volt_index].safe_voltage;
binfuse = chipid_get_cpu_sram_binfuse_for_mode(mode);
return (chipid_get_base_voltage() + binfuse * 5);
}
static uint32_t chipid_get_soc_bin_voltage(uint32_t volt_index)
{
uint32_t mode, binfuse;
mode = chipid_soc_voltages[volt_index].mode;
// Return safe voltage if no binned voltage
if (mode == CHIPID_MODE_NONE)
return chipid_soc_voltages[volt_index].safe_voltage;
binfuse = chipid_get_soc_binfuse_for_mode(mode);
return (chipid_get_base_voltage() + binfuse * 5);
}
static uint32_t chipid_get_gpu_bin_voltage(uint32_t volt_index)
{
uint32_t mode, binfuse;
mode = chipid_gpu_voltages[volt_index].mode;
// Return safe voltage if no binned voltage
if (mode == CHIPID_MODE_NONE)
return chipid_gpu_voltages[volt_index].safe_voltage;
binfuse = chipid_get_gpu_binfuse_for_mode(mode);
return (chipid_get_base_voltage() + binfuse * 5);
}
static uint32_t chipid_get_gpu_sram_bin_voltage(uint32_t volt_index)
{
uint32_t mode, binfuse;
mode = chipid_gpu_sram_voltages[volt_index].mode;
// Return safe voltage if no binned voltage
if (mode == CHIPID_MODE_NONE)
return chipid_gpu_sram_voltages[volt_index].safe_voltage;
binfuse = chipid_get_gpu_sram_binfuse_for_mode(mode);
return (chipid_get_base_voltage() + binfuse * 5);
}
static uint32_t chipid_get_sram_bin_voltage(uint32_t volt_index)
{
uint32_t mode, binfuse;
mode = chipid_sram_voltages[volt_index].mode;
// Return safe voltage if no binned voltage
if (mode == CHIPID_MODE_NONE)
return chipid_sram_voltages[volt_index].safe_voltage;
binfuse = chipid_get_sram_binfuse_for_mode(mode);
return (chipid_get_base_voltage() + binfuse * 5);
}
bool chipid_get_current_production_mode(void)
{
return MINIPMGR_FUSE_CFG_FUSE0_PRODUCTION_MODE_XTRCT(rCFG_FUSE0) != 0;
}
bool chipid_get_raw_production_mode(void)
{
return MINIPMGR_FUSE_CFG_FUSE0_PRODUCTION_MODE_XTRCT(rCFG_FUSE0_RAW) != 0;
}
void chipid_clear_production_mode(void)
{
rCFG_FUSE0 &= ~MINIPMGR_FUSE_CFG_FUSE0_PRODUCTION_MODE_UMASK;
}
bool chipid_get_secure_mode(void)
{
// demotion only applies to the SEP, so iBoot always reads
// the raw value for secure mode (<rdar://problem/15182573>)
return MINIPMGR_FUSE_CFG_FUSE0_SECURE_MODE_XTRCT(rCFG_FUSE0_RAW);
}
uint32_t chipid_get_security_domain(void)
{
return MINIPMGR_FUSE_CFG_FUSE0_SECURITY_DOMAIN_XTRCT(rCFG_FUSE0);
}
uint32_t chipid_get_board_id(void)
{
return MINIPMGR_FUSE_CFG_FUSE0_BID_XTRCT(rCFG_FUSE0);
}
uint32_t chipid_get_minimum_epoch(void)
{
return MINIPMGR_FUSE_CFG_FUSE0_MINIMUM_EPOCH_XTRCT(rCFG_FUSE0);
}
uint32_t chipid_get_chip_id(void)
{
#if SUB_PLATFORM_T8010
return 0x8010;
#else
#error "Unknown platform"
#endif
}
uint32_t chipid_get_chip_revision(void)
{
uint32_t fuse_val = rCFG_FUSE4;
return (MINIPMGR_FUSE_CFG_FUSE4_CHIP_REV_MAJOR_XTRCT(fuse_val) << 4) |
(MINIPMGR_FUSE_CFG_FUSE4_CHIP_REV_MINOR_XTRCT(fuse_val));
}
uint32_t chipid_get_osc_frequency(void)
{
return OSC_FREQ;
}
uint64_t chipid_get_ecid_id(void)
{
return ((uint64_t)rECIDHI << 32) | rECIDLO;
}
uint64_t chipid_get_die_id(void)
{
return ((uint64_t)rECIDHI << 32) | rECIDLO;
}
uint32_t chipid_get_cpu_voltage(uint32_t index)
{
uint32_t cpu_voltage;
if (index >= sizeof(chipid_cpu_voltages)/sizeof(chipid_cpu_voltages[0]))
panic("Invalid CPU voltage index %d\n", index);
if (chipid_get_fuse_revision() < MINIMUM_FUSE_REVISION)
cpu_voltage = chipid_cpu_voltages[index].safe_voltage;
else
cpu_voltage = chipid_get_cpu_bin_voltage(index);
return cpu_voltage;
}
uint32_t chipid_get_cpu_sram_voltage(uint32_t index)
{
uint32_t cpu_sram_voltage;
if (index >= sizeof(chipid_cpu_sram_voltages)/sizeof(chipid_cpu_sram_voltages[0]))
panic("Invalid CPU SRAM voltage index %d\n", index);
if (chipid_get_fuse_revision() < MINIMUM_FUSE_REVISION)
cpu_sram_voltage = chipid_cpu_sram_voltages[index].safe_voltage;
else
cpu_sram_voltage = chipid_get_cpu_sram_bin_voltage(index);
return cpu_sram_voltage;
}
uint32_t chipid_get_soc_voltage(uint32_t index)
{
uint32_t soc_voltage;
if (index >= sizeof(chipid_soc_voltages)/sizeof(chipid_soc_voltages[0]))
panic("Invalid SOC voltage index %d\n", index);
if (chipid_get_fuse_revision() < MINIMUM_FUSE_REVISION)
soc_voltage = chipid_soc_voltages[index].safe_voltage;
else
soc_voltage = chipid_get_soc_bin_voltage(index);
return soc_voltage;
}
uint32_t chipid_get_gpu_voltage(uint32_t index)
{
uint32_t gpu_voltage;
if (index >= sizeof(chipid_gpu_voltages)/sizeof(chipid_gpu_voltages[0]))
panic("Invalid GPU voltage index %d\n", index);
if (chipid_get_fuse_revision() < MINIMUM_FUSE_REVISION)
gpu_voltage = chipid_gpu_voltages[index].safe_voltage;
else
gpu_voltage = chipid_get_gpu_bin_voltage(index);
return gpu_voltage;
}
uint32_t chipid_get_gpu_sram_voltage(uint32_t index)
{
uint32_t gpu_sram_voltage;
if (index >= sizeof(chipid_gpu_sram_voltages)/sizeof(chipid_gpu_sram_voltages[0]))
panic("Invalid GPU SRAM voltage index %d\n", index);
if (chipid_get_fuse_revision() < MINIMUM_FUSE_REVISION)
gpu_sram_voltage = chipid_gpu_sram_voltages[index].safe_voltage;
else
gpu_sram_voltage = chipid_get_gpu_sram_bin_voltage(index);
return gpu_sram_voltage;
}
uint32_t chipid_get_sram_voltage(uint32_t index)
{
uint32_t sram_voltage;
index = CHIPID_VOLTAGE_FIXED;
if (index >= sizeof(chipid_sram_voltages)/sizeof(chipid_sram_voltages[0]))
panic("Invalid SRAM voltage index %d\n", index);
if (chipid_get_fuse_revision() < MINIMUM_FUSE_REVISION)
sram_voltage = chipid_sram_voltages[index].safe_voltage;
else
sram_voltage = chipid_get_sram_bin_voltage(index);
return sram_voltage;
}
bool chipid_get_fuse_lock(void)
{
return MINIPMGR_FUSE_CFG_FUSE1_AP_LOCK_XTRCT(rCFG_FUSE1) != 0;
}
void chipid_set_fuse_lock(bool locked)
{
if (locked) {
rCFG_FUSE1 |= MINIPMGR_FUSE_CFG_FUSE1_AP_LOCK_INSRT(1);
asm("dsb sy");
if (!chipid_get_fuse_lock()) {
panic("Failed to lock fuses\n");
}
}
}
bool chipid_get_fuse_seal(void)
{
return MINIPMGR_FUSE_CFG_FUSE1_SEAL_FUSES_XTRCT(rCFG_FUSE1) != 0;
}
uint32_t chipid_get_lpo_trim(void)
{
// <rdar://problem/18460311> Workaround for Maui LPO issue
// return MINIPMGR_FUSE_CFG_FUSE2_LPO_TRIM_XTRCT(rCFG_FUSE2);
return 0x20;
}
uint32_t chipid_get_pcie_refpll_fcal_vco_digctrl(void)
{
return MINIPMGR_FUSE_CFG_FUSE4_PCIE_REFPLL_FCAL_VCO_DIGCTRL_XTRCT(rCFG_FUSE4);
}
uint32_t chipid_get_soc_temp_sensor_trim(uint32_t sensor_index)
{
uint32_t sensor_trim;
switch (sensor_index) {
case 0:
sensor_trim = rCFG_FUSE2;
sensor_trim &= MINIPMGR_FUSE_CFG_FUSE2_THERMAL_SEN0_TRIMG_UMASK | MINIPMGR_FUSE_CFG_FUSE2_THERMAL_SEN0_TRIMO_UMASK;
sensor_trim >>= MINIPMGR_FUSE_CFG_FUSE2_THERMAL_SEN0_TRIMG_SHIFT;
break;
case 1:
sensor_trim = rCFG_FUSE2;
sensor_trim &= MINIPMGR_FUSE_CFG_FUSE2_THERMAL_SEN1_TRIMG_UMASK | MINIPMGR_FUSE_CFG_FUSE2_THERMAL_SEN1_TRIMO_UMASK;
sensor_trim >>= MINIPMGR_FUSE_CFG_FUSE2_THERMAL_SEN1_TRIMG_SHIFT;
break;
case 2:
sensor_trim = rCFG_FUSE3;
sensor_trim &= MINIPMGR_FUSE_CFG_FUSE3_THERMAL_SEN2_TRIMG_UMASK | MINIPMGR_FUSE_CFG_FUSE3_THERMAL_SEN2_TRIMO_UMASK;
sensor_trim >>= MINIPMGR_FUSE_CFG_FUSE3_THERMAL_SEN2_TRIMG_SHIFT;
break;
default:
panic("invalid thermal sensor %u", sensor_index);
}
return sensor_trim;
}
uint32_t chipid_get_fuse_revision(void)
{
return MINIPMGR_FUSE_CFG_FUSE4_REV_XTRCT(rCFG_FUSE4);
}
uint32_t chipid_get_total_rails_leakage()
{
// FIXME
return 0;
}
#if SUPPORT_FPGA
#define FPGA_HAS_INT3 (FPGA_HAS_MEDIA | FPGA_HAS_MSR | FPGA_HAS_JPEG | FPGA_HAS_VXD | FPGA_HAS_DISP)
uint32_t chipid_get_fpga_block_instantiation(void)
{
// Hardware blocks instantiated.
uint32_t blocks = (rECID_FUSE3 >> 18) & 0xF;
uint32_t mask = FPGA_HAS_ALWAYS;
switch (blocks) {
// INT2 := ACC + AF + AMC + SouthBridge + PCIE
case 0x1:
break;
// INT2GFX := INT2 + GFX
case 0x2:
mask |= FPGA_HAS_GFX;
break;
// INT3 := INT2 + DISP + MEDIA + JPEG + MSR + VXD
case 0x8:
mask |= FPGA_HAS_INT3;
break;
// INT3GFX := INT3 + GFX
case 0xA:
mask |= (FPGA_HAS_INT3 | FPGA_HAS_GFX);
break;
default:
panic("Unknown hardware block instantiation: 0x%x", blocks);
}
return mask;
}
#endif