iBoot/platform/s5l8955x/chipid/chipid.c

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2023-07-08 13:03:17 -07:00
/*
* Copyright (C) 2010-2012 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 <lib/env.h>
#include <platform.h>
#include <platform/soc/chipid.h>
#include <platform/soc/hwclocks.h>
#if SUPPORT_FPGA
#define _rCFG_FUSE0 (*(volatile u_int32_t *)(CHIPID_BASE_ADDR + 0x00))
#undef rCFG_FUSE0
// XXX ECID (1 << 7)?
// XXX double-check memory values
#define rCFG_FUSE0 ((0 << 31) | (3 << 28) | (0xE << 24) | (2 << 22) | \
(0 << 9) | (1 << 8) | (3 << 4) | (kPlatformSecurityDomainDarwin << 2) | (0 << 1) | (0 << 0) | \
_rCFG_FUSE0)
#endif
#if SUB_PLATFORM_S5L8955X
// Based on H5P/H5G tunables v0.63 and H5G Test Plan rev 1.5
#define MINIMUM_BINNING_VERSION (2)
static u_int32_t default_soc_voltages[CHIPID_SOC_VOLTAGE_COUNT] = { 980, 1030, 1130 };
/* 600, 1008, 1200, 1296, 1396 - - - MHz */
static u_int32_t default_cpu_voltages[CHIPID_CPU_VOLTAGE_COUNT] = { 810, 1020, 1100, 1145, 1180, 0, 0, 0};
static u_int32_t default_ram_voltages[CHIPID_RAM_VOLTAGE_COUNT] = { 950, 1000 };
#endif
static u_int32_t chipid_get_binning_revision(void);
static u_int32_t chipid_get_base_voltage(void);
bool chipid_get_production_mode(void)
{
return ((rCFG_FUSE0 >> 0) & 1) != 0;
}
void chipid_clear_production_mode(void)
{
#if SUPPORT_FPGA
_rCFG_FUSE0 &= ~1;
#else
rCFG_FUSE0 &= ~1;
#endif
}
bool chipid_get_secure_mode(void)
{
return ((rCFG_FUSE0 >> 1) & 1) != 0;
}
u_int32_t chipid_get_security_domain(void)
{
return (rCFG_FUSE0 >> 2) & 3;
}
u_int32_t chipid_get_board_id(void)
{
return (rCFG_FUSE0 >> 4) & 3;
}
bool chipid_get_ecid_image_personalization_required(void)
{
return ((rCFG_FUSE0 >> 7) & 1) != 0;
}
u_int32_t chipid_get_minimum_epoch(void)
{
return (rCFG_FUSE0 >> 9) & 0x7F;
}
u_int32_t chipid_get_chip_id(void)
{
#if SUB_PLATFORM_S5L8955X
return 0x8955;
#endif
}
u_int32_t chipid_get_chip_revision(void)
{
return (((rECIDHI >> 13) & 0x7) << 4) | (((rECIDHI >> 10) & 0x7) << 0);
}
u_int32_t chipid_get_osc_frequency(void)
{
return OSC_FREQ;
}
u_int64_t chipid_get_ecid_id(void)
{
u_int64_t ecid = 0;
#if SUPPORT_FPGA
ecid = 0x000012345678ABCDULL;
#else
ecid |= ((rECIDLO >> 0)) & ((1ULL << (21 - 0)) - 1); // LOT_ID
ecid <<= (26 - 21);
ecid |= ((rECIDLO >> 21)) & ((1ULL << (26 - 21)) - 1); // WAFER_NUM
ecid <<= (10 - 2);
ecid |= ((rECIDHI >> 2)) & ((1ULL << (10 - 2)) - 1); // Y_POS
ecid <<= (32 - 26);
ecid |= ((rECIDLO >> 26)) & ((1ULL << (32 - 26)) - 1); // X_POS_H
ecid <<= ( 2 - 0);
ecid |= ((rECIDHI >> 0)) & ((1ULL << ( 2 - 0)) - 1); // X_POS_L
#endif
return ecid;
}
u_int64_t chipid_get_die_id(void)
{
return ((u_int64_t)rECIDHI << 32) | rECIDLO;
}
u_int32_t chipid_get_soc_voltage(u_int32_t index)
{
u_int32_t soc_voltage;
u_int64_t soc_bin_data;
if (index > CHIPID_SOC_VOLTAGE_COUNT) return 0;
if (chipid_get_binning_revision() < MINIMUM_BINNING_VERSION) {
// This part is unbinned or the binning version is not supported
// Use the default voltage
soc_voltage = default_soc_voltages[index];
} else {
// Read the SoC bin data from the fuses
soc_bin_data = ((((u_int64_t)rCFG_FUSE1) << 32) | rCFG_FUSE0) >> 25;
// Start with the base voltage
soc_voltage = chipid_get_base_voltage();
// Add in the correct bin from the "array"
soc_voltage += 5 * ((soc_bin_data >> (index * 7)) & 0x7F);
}
return soc_voltage;
}
u_int32_t chipid_get_cpu_voltage(u_int32_t index)
{
u_int32_t cpu_voltage;
u_int64_t cpu_bin_data;
if (index > CHIPID_CPU_VOLTAGE_COUNT) return 0;
if (chipid_get_binning_revision() < MINIMUM_BINNING_VERSION) {
// This part is unbinned to the binning version is not supported
// Use the default voltage
cpu_voltage = default_cpu_voltages[index];
} else {
// Read the CPU bin data from the fuses
cpu_bin_data = ((((u_int64_t)rDVFM_FUSE(1)) << 32) | rDVFM_FUSE(0)) >> 5;
// Start with the base voltage
cpu_voltage = chipid_get_base_voltage();
// Add in the correct bin from the "array"
cpu_voltage += 5 * ((cpu_bin_data >> (index * 7)) & 0x7F);
}
return cpu_voltage;
}
u_int32_t chipid_get_ram_voltage(u_int32_t index)
{
u_int32_t ram_voltage;
if (index > CHIPID_RAM_VOLTAGE_COUNT) return 0;
// RAM voltage is not binned, use the default voltage
ram_voltage = default_ram_voltages[index];
return ram_voltage;
}
bool chipid_get_fuse_lock(void)
{
return (rCFG_FUSE1 & (1 << 31)) != 0;
}
void chipid_set_fuse_lock(bool locked)
{
if (locked) rCFG_FUSE1 |= 1 << 31;
}
int32_t chipid_get_cpu_temp_offset(u_int32_t cpu_number)
{
int32_t temp_cal;
switch (cpu_number) {
case 0 : temp_cal = (rDVFM_FUSE(9) >> 0) & 0x7F; break;
case 1 : temp_cal = (rDVFM_FUSE(9) >> 16) & 0x7F; break;
default : return 0;
}
return 0x3B - temp_cal;
}
u_int32_t chipid_get_fused_thermal_sensor_70C(u_int32_t sensorID)
{
u_int32_t temp_cal;
switch (sensorID) {
case 0: temp_cal = (rCFG_FUSE4 >> 8) & 0x7F; break;
case 1: temp_cal = (rCFG_FUSE4 >> 24) & 0x7F; break;
default : return 0;
}
return temp_cal;
}
u_int32_t chipid_get_fused_thermal_sensor_25C(u_int32_t sensorID)
{
u_int32_t temp_cal;
switch (sensorID) {
case 0: temp_cal = (rCFG_FUSE4 >> 0) & 0x7F; break;
case 1: temp_cal = (rCFG_FUSE4 >> 16) & 0x7F; break;
default : return 0;
}
return temp_cal;
}
u_int32_t chipid_get_fuse_revision(void)
{
return (rCFG_FUSE0 >> 18) & 0xf;
}
static u_int32_t chipid_get_binning_revision(void)
{
return (rDVFM_FUSE(1) >> (61 - 32)) & 7;
}
static u_int32_t chipid_get_base_voltage(void)
{
return 25 * (1 + ((rDVFM_FUSE(0) >> 0) & 0x1F));
}