fusee_cpp: implement cpu startup

This commit is contained in:
Michael Scire 2021-09-01 18:10:48 -07:00 committed by SciresM
parent 648ad51056
commit 40e2d4bbe6
12 changed files with 282 additions and 19 deletions

View file

@ -80,6 +80,8 @@ namespace ams::secmon {
/* Alert the bootloader that we're initialized. */
secmon_params.secmon_state = pkg1::SecureMonitorState_Initialized;
hw::FlushDataCache(std::addressof(secmon_params.secmon_state), sizeof(secmon_params.secmon_state));
hw::DataSynchronizationBarrierInnerShareable();
}
/* Wait for NX Bootloader to finish loading the BootConfig. */

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@ -600,8 +600,8 @@ namespace ams::secmon {
g_kernel_carveouts[0].size = 200 * 128_KB;
}
/* Configure the two kernel carveouts. */
SetupKernelCarveouts();
/* NOTE: Here Nintendo configures the two kernel carveouts; we will do this later, to allow fusee to continue using AVP_CACHE. */
/* SetupKernelCarveouts(); */
/* Configure slave register security. */
ConfigureSlaveSecurity();
@ -1164,6 +1164,9 @@ namespace ams::secmon {
/* Setup the GPU carveout. */
SetupGpuCarveout();
/* Configure the two kernel carveouts. */
SetupKernelCarveouts();
/* Disable the ARC. */
DisableArc();

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@ -0,0 +1,181 @@
/*
* Copyright (c) 2018-2020 Atmosphère-NX
*
* This program is free software; you can redistribute it and/or modify it
* under the terms and conditions of the GNU General Public License,
* version 2, as published by the Free Software Foundation.
*
* This program is distributed in the hope it will be useful, but WITHOUT
* ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
* FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
* more details.
*
* You should have received a copy of the GNU General Public License
* along with this program. If not, see <http://www.gnu.org/licenses/>.
*/
#include <exosphere.hpp>
#include "fusee_cpu.hpp"
namespace ams::nxboot {
namespace {
constexpr inline const uintptr_t CLKRST = secmon::MemoryRegionPhysicalDeviceClkRst.GetAddress();
constexpr inline const uintptr_t PMC = secmon::MemoryRegionPhysicalDevicePmc.GetAddress();
constexpr inline const uintptr_t FLOW = secmon::MemoryRegionPhysicalDeviceFlowController.GetAddress();
constexpr inline const uintptr_t EVP = secmon::MemoryRegionPhysicalDeviceExceptionVectors.GetAddress();
constexpr inline const uintptr_t SYSTEM = secmon::MemoryRegionPhysicalDeviceSystem.GetAddress();
bool IsPartitionPowered(u32 mask) {
return (reg::Read(PMC + APBDEV_PMC_PWRGATE_STATUS) & mask) == mask;
}
void PowerOnPartition(u32 status_mask, u32 toggle_mask) {
/* Check if the partition is already powered on. */
if (IsPartitionPowered(status_mask)) {
return;
}
/* Wait for PWRGATE_TOGGLE to be idle. */
auto timeout = 5000;
while (true) {
if (reg::HasValue(PMC + APBDEV_PMC_PWRGATE_TOGGLE, PMC_REG_BITS_ENUM(PWRGATE_TOGGLE_START, DISABLE))) {
break;
}
util::WaitMicroSeconds(1);
if ((--timeout) < 0) {
return;
}
}
/* Toggle on the desired partition. */
reg::SetField(toggle_mask, PMC_REG_BITS_ENUM(PWRGATE_TOGGLE_START, ENABLE));
reg::Write(PMC + APBDEV_PMC_PWRGATE_TOGGLE, toggle_mask);
/* Wait for the partition to be powered. */
timeout = 5000;
while (true) {
if (IsPartitionPowered(status_mask)) {
break;
}
util::WaitMicroSeconds(1);
if ((--timeout) < 0) {
return;
}
}
}
}
void SetupCpu(uintptr_t entrypoint) {
/* Set ACTIVE_CLUSTER to FAST. */
reg::ReadWrite(FLOW + FLOW_CTLR_BPMP_CLUSTER_CONTROL, FLOW_REG_BITS_ENUM(BPMP_CLUSTER_CONTROL_ACTIVE_CLUSTER, FAST));
/* Enable VDD_CPU. */
pmic::EnableVddCpu(fuse::GetRegulator());
/* Enable clock to the cpu. */
{
/* Initialize PllX */
if (!reg::HasValue(CLKRST + CLK_RST_CONTROLLER_PLLX_BASE, CLK_RST_REG_BITS_ENUM(PLLX_BASE_PLLX_ENABLE, ENABLE))) {
/* Disable IDDQ. */
reg::ReadWrite(CLKRST + CLK_RST_CONTROLLER_PLLX_MISC3, CLK_RST_REG_BITS_VALUE(PLLX_MISC3_PLLX_IDDQ, 0));
/* Wait two microseconds. */
util::WaitMicroSeconds(2);
/* Configure PLLX dividers. */
reg::Write(CLKRST + CLK_RST_CONTROLLER_PLLX_BASE, 0x80404E02);
reg::Write(CLKRST + CLK_RST_CONTROLLER_PLLX_BASE, 0x00404E02);
/* Set PLLX_LOCK_ENABLE. */
reg::ReadWrite(CLKRST + CLK_RST_CONTROLLER_PLLX_MISC, CLK_RST_REG_BITS_ENUM(PLLX_MISC_PLLX_LOCK_ENABLE, ENABLE));
/* Enable PLLX. */
reg::Write(CLKRST + CLK_RST_CONTROLLER_PLLX_BASE, 0x40404E02);
}
/* Wait for PLLX to be locked. */
while (!reg::HasValue(CLKRST + CLK_RST_CONTROLLER_PLLX_BASE, CLK_RST_REG_BITS_ENUM(PLLX_BASE_PLLX_LOCK, LOCK))) {
/* ... */
}
/* Select MSELECT clock source as PLLP_OUT0 with divider of 4. */
reg::ReadWrite(CLKRST + CLK_RST_CONTROLLER_CLK_SOURCE_MSELECT, CLK_RST_REG_BITS_ENUM (CLK_SOURCE_MSELECT_MSELECT_CLK_SRC, PLLP_OUT0),
CLK_RST_REG_BITS_VALUE(CLK_SOURCE_MSELECT_MSELECT_CLK_DIVISOR, 6));
/* Enable clock to MSELECT. */
reg::ReadWrite(CLKRST + CLK_RST_CONTROLLER_CLK_OUT_ENB_V, CLK_RST_REG_BITS_ENUM(CLK_OUT_ENB_V_CLK_ENB_MSELECT, ENABLE));
/* Configure CCLK_BURST_POLICY. */
reg::Write(CLKRST + CLK_RST_CONTROLLER_CCLK_BURST_POLICY, CLK_RST_REG_BITS_ENUM(CCLK_BURST_POLICY_CWAKEUP_IDLE_SOURCE, PLLX_OUT0_LJ),
CLK_RST_REG_BITS_ENUM(CCLK_BURST_POLICY_CWAKEUP_RUN_SOURCE, PLLX_OUT0_LJ),
CLK_RST_REG_BITS_ENUM(CCLK_BURST_POLICY_CWAKEUP_IRQ_SOURCE, PLLX_OUT0_LJ),
CLK_RST_REG_BITS_ENUM(CCLK_BURST_POLICY_CWAKEUP_FIQ_SOURCE, PLLX_OUT0_LJ),
CLK_RST_REG_BITS_ENUM(CCLK_BURST_POLICY_CPU_STATE, RUN));
/* Configure SUPER_CCLK_DIVIDER. */
reg::Write(CLKRST + CLK_RST_CONTROLLER_SUPER_CCLK_DIVIDER, CLK_RST_REG_BITS_ENUM (SUPER_CCLK_DIVIDER_SUPER_CDIV_ENB, ENABLE),
CLK_RST_REG_BITS_ENUM (SUPER_CCLK_DIVIDER_SUPER_CDIV_DIS_FROM_COP_FIQ, NO_IMPACT),
CLK_RST_REG_BITS_ENUM (SUPER_CCLK_DIVIDER_SUPER_CDIV_DIS_FROM_CPU_FIQ, NO_IMPACT),
CLK_RST_REG_BITS_ENUM (SUPER_CCLK_DIVIDER_SUPER_CDIV_DIS_FROM_COP_IRQ, NO_IMPACT),
CLK_RST_REG_BITS_ENUM (SUPER_CCLK_DIVIDER_SUPER_CDIV_DIS_FROM_CPU_IRQ, NO_IMPACT),
CLK_RST_REG_BITS_VALUE(SUPER_CCLK_DIVIDER_SUPER_CDIV_DIVIDEND, 0),
CLK_RST_REG_BITS_VALUE(SUPER_CCLK_DIVIDER_SUPER_CDIV_DIVISOR, 0));
/* Enable CPUG. */
reg::Write(CLKRST + CLK_RST_CONTROLLER_CLK_ENB_V_SET, CLK_RST_REG_BITS_ENUM(CLK_ENB_V_SET_SET_CLK_ENB_CPUG, ENABLE));
}
/* Enable coresight. */
clkrst::EnableCsiteClock();
/* Restore PROD setting to CPU_SOFTRST_CTRL2 by clearing CAR2PMC_CPU_ACK_WIDTH. */
reg::ReadWrite(CLKRST + CLK_RST_CONTROLLER_CPU_SOFTRST_CTRL2, CLK_RST_REG_BITS_VALUE(CPU_SOFTRST_CTRL2_CAR2PMC_CPU_ACK_WIDTH, 0));
/* Power on cpu rails. */
{
PowerOnPartition(reg::EncodeValue(PMC_REG_BITS_ENUM(PWRGATE_STATUS_CRAIL, ON)), reg::EncodeValue(PMC_REG_BITS_ENUM(PWRGATE_TOGGLE_PARTID, CRAIL)));
PowerOnPartition(reg::EncodeValue(PMC_REG_BITS_ENUM(PWRGATE_STATUS_C0NC, ON)), reg::EncodeValue(PMC_REG_BITS_ENUM(PWRGATE_TOGGLE_PARTID, C0NC)));
PowerOnPartition(reg::EncodeValue(PMC_REG_BITS_ENUM(PWRGATE_STATUS_CE0, ON)), reg::EncodeValue(PMC_REG_BITS_ENUM(PWRGATE_TOGGLE_PARTID, CE0)));
}
/* Do RAM Repair. */
{
reg::Write(FLOW + FLOW_CTLR_RAM_REPAIR, FLOW_REG_BITS_ENUM(RAM_REPAIR_REQ, ENABLE));
while (!reg::HasValue(FLOW + FLOW_CTLR_RAM_REPAIR, FLOW_REG_BITS_ENUM(RAM_REPAIR_STS, DONE))) {
/* ... */
}
}
/* Configure CPU reset vector. */
reg::Write(EVP + EVP_CPU_RESET_VECTOR, 0);
reg::Write(SYSTEM + SB_AA64_RESET_LOW, entrypoint | 0x1);
reg::Write(SYSTEM + SB_AA64_RESET_HIGH, 0);
reg::Write(SYSTEM + SB_CSR, SB_REG_BITS_ENUM(CSR_NS_RST_VEC_WR_DIS, DISABLE));
reg::Read(SYSTEM + SB_CSR);
}
void StartCpu() {
/* NOTE: Here nintendo sets CPU_STRICT_TZ_APERTURE_CHECK, which we will not set. */
/* Clear MSELECT reset. */
reg::ReadWrite(CLKRST + CLK_RST_CONTROLLER_RST_DEVICES_V, CLK_RST_REG_BITS_ENUM(RST_DEVICES_V_SWR_MSELECT_RST, DISABLE));
/* Take non-cpu out of reset. */
reg::Write(CLKRST + CLK_RST_CONTROLLER_RST_CPUG_CMPLX_CLR, CLK_RST_REG_BITS_ENUM(RST_CPUG_CMPLX_CLR_CLR_NONCPURESET, ENABLE));
/* Clear cpu reset. */
reg::Write(CLKRST + CLK_RST_CONTROLLER_RST_CPUG_CMPLX_CLR, CLK_RST_REG_BITS_ENUM(RST_CPUG_CMPLX_CLR_CLR_CPURESET0, ENABLE),
CLK_RST_REG_BITS_ENUM(RST_CPUG_CMPLX_CLR_CLR_CORERESET0, ENABLE),
CLK_RST_REG_BITS_ENUM(RST_CPUG_CMPLX_CLR_CLR_PRESETDBG, ENABLE),
CLK_RST_REG_BITS_ENUM(RST_CPUG_CMPLX_CLR_CLR_L2RESET, ENABLE));
}
}

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@ -0,0 +1,24 @@
/*
* Copyright (c) 2018-2020 Atmosphère-NX
*
* This program is free software; you can redistribute it and/or modify it
* under the terms and conditions of the GNU General Public License,
* version 2, as published by the Free Software Foundation.
*
* This program is distributed in the hope it will be useful, but WITHOUT
* ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
* FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
* more details.
*
* You should have received a copy of the GNU General Public License
* along with this program. If not, see <http://www.gnu.org/licenses/>.
*/
#pragma once
#include <exosphere.hpp>
namespace ams::nxboot {
void SetupCpu(uintptr_t entrypoint);
void StartCpu();
}

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@ -21,9 +21,11 @@
#include "fusee_ini.hpp"
#include "fusee_emummc.hpp"
#include "fusee_mmc.hpp"
#include "fusee_cpu.hpp"
#include "fusee_fatal.hpp"
#include "fusee_package2.hpp"
#include "fusee_malloc.hpp"
#include "fusee_secmon_sync.hpp"
#include "fs/fusee_fs_api.hpp"
namespace ams::nxboot {
@ -736,6 +738,15 @@ namespace ams::nxboot {
std::memcpy(mariko_fatal_dst, GetSecondaryArchive().mariko_fatal, sizeof(GetSecondaryArchive().mariko_fatal));
}
}
/* Setup the CPU to boot exosphere. */
SetupCpu(reinterpret_cast<uintptr_t>(exosphere_dst));
/* Set our bootloader state. */
SetBootloaderState(pkg1::BootloaderState_LoadedBootConfig);
/* Ensure that the CPU will see consistent data. */
hw::FlushEntireDataCache();
}
}
@ -770,8 +781,11 @@ namespace ams::nxboot {
/* Setup exosphere. */
ConfigureExosphere(soc_type, target_firmware, emummc_enabled);
/* TODO: Start CPU. */
/* Start CPU. */
/* NOTE: Security Engine unusable past this point. */
StartCpu();
WaitSecureMonitorState(pkg1::SecureMonitorState_Initialized);
/* TODO: Build modified package2. */
WaitForReboot();

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@ -14,6 +14,7 @@ def read_file(fn):
return f.read()
def pad(data, size):
assert len(data) <= size
return (data + '\x00' * size)[:size]
def get_overlay(program, i):
@ -36,20 +37,20 @@ def main(argc, argv):
with open('../../fusee-boogaloo%s.bin' % target, 'wb') as f:
# TODO: Write header
f.write('\xCC'*0x800)
# TODO: Write warmboot
f.write('\xCC'*0x1800)
# Write warmboot
f.write(pad(read_file('../../../../exosphere/warmboot%s.bin' % target), 0x1800))
# Write TSEC Keygen
f.write(pad(read_file('../../tsec_keygen/tsec_keygen.bin'), 0x2000))
# TODO: Write Mariko Fatal
f.write('\xCC'*0x1C000)
# Write Mariko Fatal
f.write(pad(read_file('../../../../exosphere/mariko_fatal%s.bin' % target), 0x1C000))
# Write Erista MTC
f.write(get_overlay(data, 1))
# Write Mariko MTC
f.write(get_overlay(data, 2))
# TODO: Write exosphere
f.write('\xCC'*0xE000)
# TODO: Write mesosphere
f.write('\xCC'*0xAA000)
# Write exosphere
f.write(pad(read_file('../../../../exosphere/exosphere%s.bin' % target), 0xE000))
# Write mesosphere
f.write(pad(read_file('../../../../mesosphere/mesosphere%s.bin' % target), 0xAA000))
# TODO: Write kips
f.write('\xCC'*0x300000)
# Write Splash Screen

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@ -31,6 +31,7 @@ namespace ams::clkrst {
void EnableSeClock();
void EnableCldvfsClock();
void EnableCsiteClock();
void EnableTzramClock();
void EnableCache2Clock();

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@ -53,5 +53,6 @@ namespace ams::hw::arch::arm64 {
}
void FlushDataCache(const void *ptr, size_t size);
void InvalidateDataCache(const void *ptr, size_t size);
}

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@ -87,11 +87,13 @@ namespace ams::clkrst {
DEFINE_CLOCK_PARAMETERS(SeClock, V, SE, PLLP_OUT0, 0);
DEFINE_CLOCK_PARAMETERS(ActmonClock, V, ACTMON, CLK_M, 0);
DEFINE_CLOCK_PARAMETERS(CsiteClock, U, CSITE, PLLP_OUT0, 4);
DEFINE_CLOCK_PARAMETERS(Host1xClock, L, HOST1X, PLLP_OUT0, 3);
DEFINE_CLOCK_PARAMETERS(TsecClock, U, TSEC, PLLP_OUT0, 2);
DEFINE_CLOCK_PARAMETERS(Sor1Clock, X, SOR1, PLLP_OUT0, 2);
DEFINE_CLOCK_PARAMETERS_WITHOUT_CLKDIV(CldvfsClock, W, DVFS);
DEFINE_CLOCK_PARAMETERS_WITHOUT_CLKDIV(TzramClock, V, TZRAM);
DEFINE_CLOCK_PARAMETERS_WITHOUT_CLKDIV(SorSafeClock, Y, SOR_SAFE);
@ -203,6 +205,10 @@ namespace ams::clkrst {
EnableClock(CldvfsClock);
}
void EnableCsiteClock() {
EnableClock(CsiteClock);
}
void EnableTzramClock() {
EnableClock(TzramClock);
}

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@ -26,4 +26,15 @@ namespace ams::hw::arch::arm64 {
}
}
void InvalidateDataCache(const void *ptr, size_t size) {
const uintptr_t start = reinterpret_cast<uintptr_t>(ptr);
const uintptr_t end = util::AlignUp(start + size, hw::DataCacheLineSize);
for (uintptr_t cur = start; cur < end; cur += hw::DataCacheLineSize) {
InvalidateDataCacheLine(reinterpret_cast<void *>(cur));
}
}
}

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@ -65,13 +65,13 @@ namespace ams::pmic {
u8 val;
/* Clear the AE for the GPIO */
if (i2c::Query(std::addressof(val), sizeof(val), i2c::Port_5, I2cAddressEristaMax77621, Max77620RegisterAmeGpio)) {
if (i2c::Query(std::addressof(val), sizeof(val), i2c::Port_5, I2cAddressMax77620Pmic, Max77620RegisterAmeGpio)) {
val &= ~(1 << gpio);
i2c::SendByte(i2c::Port_5, I2cAddressEristaMax77621, Max77620RegisterAmeGpio, val);
i2c::SendByte(i2c::Port_5, I2cAddressMax77620Pmic, Max77620RegisterAmeGpio, val);
}
/* Set GPIO_DRV_PUSHPULL (bit 0), GPIO_OUTPUT_VAL_HIGH (bit 3). */
i2c::SendByte(i2c::Port_5, I2cAddressEristaMax77621, Max77620RegisterGpio0 + gpio, MAX77620_CNFG_GPIO_DRV_PUSHPULL | MAX77620_CNFG_GPIO_OUTPUT_VAL_HIGH);
i2c::SendByte(i2c::Port_5, I2cAddressMax77620Pmic, Max77620RegisterGpio0 + gpio, MAX77620_CNFG_GPIO_DRV_PUSHPULL | MAX77620_CNFG_GPIO_OUTPUT_VAL_HIGH);
}
void SetEnBitErista() {

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@ -36,6 +36,8 @@
#define CLK_RST_CONTROLLER_RST_SOURCE (0x000)
#define CLK_RST_CONTROLLER_CCLK_BURST_POLICY (0x020)
#define CLK_RST_CONTROLLER_SUPER_CCLK_DIVIDER (0x024)
#define CLK_RST_CONTROLLER_SCLK_BURST_POLICY (0x028)
#define CLK_RST_CONTROLLER_SUPER_SCLK_DIVIDER (0x02C)
#define CLK_RST_CONTROLLER_CLK_SYSTEM_RATE (0x030)
@ -58,6 +60,9 @@
#define CLK_RST_CONTROLLER_CCLKLP_BURST_POLICY (0x370)
#define CLK_RST_CONTROLLER_SUPER_CCLKLP_DIVIDER (0x374)
#define CLK_RST_CONTROLLER_CPU_SOFTRST_CTRL2 (0x388)
#define CLK_RST_CONTROLLER_PLLX_MISC1 (0x510)
#define CLK_RST_CONTROLLER_PLLX_MISC2 (0x514)
#define CLK_RST_CONTROLLER_PLLX_MISC3 (0x518)
#define CLK_RST_CONTROLLER_SPARE_REG0 (0x55C)
#define CLK_RST_CONTROLLER_PLLC4_BASE (0x5A4)
#define CLK_RST_CONTROLLER_PLLC_MISC2 (0x5D0)
@ -125,8 +130,12 @@ DEFINE_CLK_RST_REG_BIT_ENUM(PLLD_BASE_PLLD_REF_DIS, 29, REF_ENABLE, REF_DISABLE)
DEFINE_CLK_RST_REG_BIT_ENUM(PLLD_BASE_PLLD_ENABLE, 30, DISABLE, ENABLE);
DEFINE_CLK_RST_REG_BIT_ENUM(PLLD_BASE_PLLD_BYPASS, 31, DISABLE, ENABLE);
DEFINE_CLK_RST_REG_BIT_ENUM(PLLX_BASE_PLLX_LOCK, 27, NOT_LOCK, LOCK);
DEFINE_CLK_RST_REG_BIT_ENUM(PLLX_BASE_PLLX_REF_DIS, 29, REF_ENABLE, REF_DISABLE);
DEFINE_CLK_RST_REG_BIT_ENUM(PLLX_BASE_PLLX_ENABLE, 30, DISABLE, ENABLE);
DEFINE_CLK_RST_REG_BIT_ENUM(PLLX_MISC_PLLX_LOCK_ENABLE, 18, DISABLE, ENABLE);
DEFINE_CLK_RST_REG(SUPER_CCLK_DIVIDER_SUPER_CDIV_DIVISOR, 0, 8);
DEFINE_CLK_RST_REG(SUPER_CCLK_DIVIDER_SUPER_CDIV_DIVIDEND, 8, 8);
DEFINE_CLK_RST_REG_BIT_ENUM(SUPER_CCLK_DIVIDER_SUPER_CDIV_DIS_FROM_CPU_IRQ, 24, NO_IMPACT, DISABLE);
@ -134,6 +143,8 @@ DEFINE_CLK_RST_REG_BIT_ENUM(SUPER_CCLK_DIVIDER_SUPER_CDIV_DIS_FROM_COP_IRQ, 25,
DEFINE_CLK_RST_REG_BIT_ENUM(SUPER_CCLK_DIVIDER_SUPER_CDIV_DIS_FROM_CPU_FIQ, 26, NO_IMPACT, DISABLE);
DEFINE_CLK_RST_REG_BIT_ENUM(SUPER_CCLK_DIVIDER_SUPER_CDIV_DIS_FROM_COP_FIQ, 27, NO_IMPACT, DISABLE);
DEFINE_CLK_RST_REG_BIT_ENUM(SUPER_CCLK_DIVIDER_SUPER_CDIV_ENB, 31, DISABLE, ENABLE);
DEFINE_CLK_RST_REG_BIT_ENUM(SUPER_CCLKG_DIVIDER_SUPER_CDIV_ENB, 31, DISABLE, ENABLE);
DEFINE_CLK_RST_REG_BIT_ENUM(SUPER_CCLKLP_DIVIDER_SUPER_CDIV_ENB, 31, DISABLE, ENABLE);
@ -145,6 +156,8 @@ DEFINE_CLK_RST_REG_FOUR_BIT_ENUM(CCLK_BURST_POLICY_CPU_STATE, 28, STDB
DEFINE_CLK_RST_REG(CPU_SOFTRST_CTRL2_CAR2PMC_CPU_ACK_WIDTH, 0, 12);
DEFINE_CLK_RST_REG(PLLX_MISC3_PLLX_IDDQ, 3, 1);
DEFINE_CLK_RST_REG_TWO_BIT_ENUM(SPARE_REG0_CLK_M_DIVISOR, 2, CLK_M_DIVISOR1, CLK_M_DIVISOR2, CLK_M_DIVISOR3, CLK_M_DIVISOR4);
DEFINE_CLK_RST_REG_BIT_ENUM(PLLC4_BASE_PLLC4_IDDQ, 18, OFF, ON);
@ -286,6 +299,8 @@ DEFINE_CLK_RST_REG_BIT_ENUM(PLLMB_BASE_PLLMB_ENABLE, 30, DISABLE, ENABLE);
#define CLK_RST_CONTROLLER_CLK_ENB_SE_INDEX (0x1F)
#define CLK_RST_CONTROLLER_CLK_ENB_CSITE_INDEX (0x09)
#define CLK_RST_CONTROLLER_CLK_ENB_HOST1X_INDEX (0x1C)
#define CLK_RST_CONTROLLER_CLK_ENB_TSEC_INDEX (0x13)
#define CLK_RST_CONTROLLER_CLK_ENB_SOR0_INDEX (0x16)
@ -344,6 +359,8 @@ DEFINE_CLK_RST_REG_THREE_BIT_ENUM(CLK_SOURCE_EMC_EMC_2X_CLK_SRC, 29, PLLM_OUT0,
DEFINE_CLK_RST_REG_THREE_BIT_ENUM(CLK_SOURCE_NVENC_NVENC_CLK_SRC, 29, RESERVED0, PLLC2_OUT0, PLLC_OUT0, PLLC3_OUT0, PLLP_OUT0, RESERVED5, PLLA1_OUT0, CLK_M);
DEFINE_CLK_RST_REG_THREE_BIT_ENUM(CLK_SOURCE_CSITE_CSITE_CLK_SRC, 29, PLLP_OUT0, PLLC2_OUT0, PLLC_OUT0, PLLC3_OUT0, PLLREFE_OUT1, PLLA1_OUT0, CLK_M, PLLC4_OUT0);
DEFINE_CLK_RST_REG_THREE_BIT_ENUM(CLK_SOURCE_TSEC_TSEC_CLK_SRC, 29, PLLP_OUT0, PLLC2_OUT0, PLLC_OUT0, PLLC3_OUT0, RESERVED4, PLLA1_OUT0, CLK_M, PLLC4_OUT0);
DEFINE_CLK_RST_REG_THREE_BIT_ENUM(CLK_SOURCE_SE_SE_CLK_SRC, 29, PLLP_OUT0, PLLC2_OUT0, PLLC_OUT0, PLLC3_OUT0, RSVD4, PLLA1_OUT0, CLK_M, PLLC4_OUT0);
@ -386,7 +403,9 @@ DEFINE_CLK_RST_REG_BIT_ENUM(RST_CPUG_CMPLX_CLR_CLR_CORERESET0, 16, DISABLE, ENA
DEFINE_CLK_RST_REG_BIT_ENUM(RST_CPUG_CMPLX_CLR_CLR_CORERESET1, 17, DISABLE, ENABLE);
DEFINE_CLK_RST_REG_BIT_ENUM(RST_CPUG_CMPLX_CLR_CLR_CORERESET2, 18, DISABLE, ENABLE);
DEFINE_CLK_RST_REG_BIT_ENUM(RST_CPUG_CMPLX_CLR_CLR_CORERESET3, 19, DISABLE, ENABLE);
DEFINE_CLK_RST_REG_BIT_ENUM(RST_CPUG_CMPLX_CLR_CLR_L2RESET, 24, DISABLE, ENABLE);
DEFINE_CLK_RST_REG_BIT_ENUM(RST_CPUG_CMPLX_CLR_CLR_NONCPURESET, 29, DISABLE, ENABLE);
DEFINE_CLK_RST_REG_BIT_ENUM(RST_CPUG_CMPLX_CLR_CLR_PRESETDBG, 30, DISABLE, ENABLE);
/* TODO: Actually include all devices. */
#define CLK_RST_FOREACH_DEVICE(HANDLER) \