zircon/system/dev/display/mt8167s-display/mt-sysconfig.cpp - fuchsia - Git at Google

 // Copyright 2019 The Fuchsia Authors. All rights reserved.
 // Use of this source code is governed by a BSD-style license that can be
 // found in the LICENSE file.

 #include "mt-sysconfig.h"
 #include <fbl/alloc_checker.h>

 namespace mt8167s_display {

 namespace {
 constexpr uint32_t kColorSelOlv0 = 1;
 constexpr uint32_t kRdma0SoutDsi0 = 2;
 constexpr uint32_t kDsi0SelRdma0 = 1;
 // By default, we will include the following modules on the same mutex:
 // pwm, dither, gamma, aal, color, ccorr, rdma0, ovl0
 constexpr uint32_t kDefaultMutexMod = (0xF940);
 } // namespace

 zx_status_t MtSysConfig::Init(zx_device_t* parent) {
     if (initialized_) {
         return ZX_OK;
     }

     zx_status_t status = device_get_protocol(parent, ZX_PROTOCOL_PDEV, &pdev_);
     if (status != ZX_OK) {
         return status;
     }

     // Map Sys Config MMIO
     mmio_buffer_t mmio;
     status = pdev_map_mmio_buffer(&pdev_, MMIO_DISP_SYSCFG, ZX_CACHE_POLICY_UNCACHED_DEVICE,
                                   &mmio);
     if (status != ZX_OK) {
         DISP_ERROR("Could not map SYS CFG mmio\n");
         return status;
     }
     fbl::AllocChecker ac;
     syscfg_mmio_ = fbl::make_unique_checked<ddk::MmioBuffer>(&ac, mmio);
     if (!ac.check()) {
         DISP_ERROR("Could not map SYS CFG mmio\n");
         return ZX_ERR_NO_MEMORY;
     }

     // Map Mutex MMIO
     status = pdev_map_mmio_buffer(&pdev_, MMIO_DISP_MUTEX, ZX_CACHE_POLICY_UNCACHED_DEVICE,
                                   &mmio);
     if (status != ZX_OK) {
         DISP_ERROR("Could not map Mutex mmio\n");
         return status;
     }
     mutex_mmio_ = fbl::make_unique_checked<ddk::MmioBuffer>(&ac, mmio);
     if (!ac.check()) {
         DISP_ERROR("Could not map Mutex mmio\n");
         return ZX_ERR_NO_MEMORY;
     }

     // Sysconfig is ready to be used
     initialized_ = true;
     return ZX_OK;
 }

 zx_status_t MtSysConfig::PowerOn(SysConfigModule module) {
     ZX_DEBUG_ASSERT(initialized_);
     switch(module) {
     case MODULE_OVL0:
         MmsysCgClr0Reg::Get().ReadFrom(&(*syscfg_mmio_)).set_ovl0(1).WriteTo(&(*syscfg_mmio_));
         break;
     case MODULE_RDMA0:
         MmsysCgClr0Reg::Get().ReadFrom(&(*syscfg_mmio_)).set_rdma0(1).WriteTo(&(*syscfg_mmio_));
         break;
     case MODULE_COLOR0:
         MmsysCgClr0Reg::Get().ReadFrom(&(*syscfg_mmio_)).set_color0(1).WriteTo(&(*syscfg_mmio_));
         break;
     case MODULE_CCORR:
         MmsysCgClr0Reg::Get().ReadFrom(&(*syscfg_mmio_)).set_ccorr(1).WriteTo(&(*syscfg_mmio_));
         break;
     case MODULE_AAL:
         MmsysCgClr0Reg::Get().ReadFrom(&(*syscfg_mmio_)).set_aal(1).WriteTo(&(*syscfg_mmio_));
         break;
     case MODULE_GAMMA:
         MmsysCgClr0Reg::Get().ReadFrom(&(*syscfg_mmio_)).set_gamma(1).WriteTo(&(*syscfg_mmio_));
         break;
     case MODULE_DITHER:
         MmsysCgClr0Reg::Get().ReadFrom(&(*syscfg_mmio_)).set_dither(1).WriteTo(&(*syscfg_mmio_));
         break;
     case MODULE_PWM0:
         MmsysCgClr1Reg::Get().ReadFrom(&(*syscfg_mmio_)).set_pwm0_26m(1).WriteTo(&(*syscfg_mmio_));
         MmsysCgClr1Reg::Get().ReadFrom(&(*syscfg_mmio_)).set_pwm0_mm(1).WriteTo(&(*syscfg_mmio_));
         break;
     case MODULE_DSI0:
         MmsysCgClr1Reg::Get().ReadFrom(&(*syscfg_mmio_)).set_dsi0_dig(1).WriteTo(&(*syscfg_mmio_));
         MmsysCgClr1Reg::Get().ReadFrom(&(*syscfg_mmio_)).set_dsi0_eng(1).WriteTo(&(*syscfg_mmio_));
         break;
     case MODULE_SMI:
         MmsysCgClr0Reg::Get().ReadFrom(&(*syscfg_mmio_)).set_smi_larb0(1).WriteTo(&(*syscfg_mmio_));
         MmsysCgClr0Reg::Get().ReadFrom(&(*syscfg_mmio_)).set_smi_common(1)
             .WriteTo(&(*syscfg_mmio_));
         break;
     default:
         DISP_ERROR("Unknown/Unsupported module %d\n", module);
         return ZX_ERR_INVALID_ARGS;
     }
     return ZX_OK;
 }

 zx_status_t MtSysConfig::PowerDown(SysConfigModule module) {
     ZX_DEBUG_ASSERT(initialized_);
     switch(module) {
     case MODULE_OVL0:
         MmsysCgSet0Reg::Get().ReadFrom(&(*syscfg_mmio_)).set_ovl0(1).WriteTo(&(*syscfg_mmio_));
         break;
     case MODULE_RDMA0:
         MmsysCgSet0Reg::Get().ReadFrom(&(*syscfg_mmio_)).set_rdma0(1).WriteTo(&(*syscfg_mmio_));
         break;
     case MODULE_COLOR0:
         MmsysCgSet0Reg::Get().ReadFrom(&(*syscfg_mmio_)).set_color0(1).WriteTo(&(*syscfg_mmio_));
         break;
     case MODULE_CCORR:
         MmsysCgSet0Reg::Get().ReadFrom(&(*syscfg_mmio_)).set_ccorr(1).WriteTo(&(*syscfg_mmio_));
         break;
     case MODULE_AAL:
         MmsysCgSet0Reg::Get().ReadFrom(&(*syscfg_mmio_)).set_aal(1).WriteTo(&(*syscfg_mmio_));
         break;
     case MODULE_GAMMA:
         MmsysCgSet0Reg::Get().ReadFrom(&(*syscfg_mmio_)).set_gamma(1).WriteTo(&(*syscfg_mmio_));
         break;
     case MODULE_DITHER:
         MmsysCgSet0Reg::Get().ReadFrom(&(*syscfg_mmio_)).set_dither(1).WriteTo(&(*syscfg_mmio_));
         break;
     case MODULE_PWM0:
         MmsysCgSet1Reg::Get().ReadFrom(&(*syscfg_mmio_)).set_pwm0_26m(1).WriteTo(&(*syscfg_mmio_));
         MmsysCgSet1Reg::Get().ReadFrom(&(*syscfg_mmio_)).set_pwm0_mm(1).WriteTo(&(*syscfg_mmio_));
         break;
     case MODULE_DSI0:
         MmsysCgSet1Reg::Get().ReadFrom(&(*syscfg_mmio_)).set_dsi0_dig(1).WriteTo(&(*syscfg_mmio_));
         MmsysCgSet1Reg::Get().ReadFrom(&(*syscfg_mmio_)).set_dsi0_eng(1).WriteTo(&(*syscfg_mmio_));
         break;
     case MODULE_SMI:
         MmsysCgSet0Reg::Get().ReadFrom(&(*syscfg_mmio_)).set_smi_larb0(1).WriteTo(&(*syscfg_mmio_));
         MmsysCgSet0Reg::Get().ReadFrom(&(*syscfg_mmio_)).set_smi_common(1)
             .WriteTo(&(*syscfg_mmio_));
         break;
     default:
         DISP_ERROR("Unknown/Unsupported module %d\n", module);
         return ZX_ERR_INVALID_ARGS;
     }
     return ZX_OK;
 }

 zx_status_t MtSysConfig::CreateDefaultPath() {
     ZX_DEBUG_ASSERT(initialized_);
     // 1) OVL0 to color. Need to connect OVL0 MOUT to Color0 Sel
     DispOvl0MoutEnReg::Get()
         .ReadFrom(&(*syscfg_mmio_))
         .set_out_color(1)
         .WriteTo(&(*syscfg_mmio_));

     DispColor0SelInReg::Get()
         .ReadFrom(&(*syscfg_mmio_))
         .set_sel(kColorSelOlv0)
         .WriteTo(&(*syscfg_mmio_));

     // No muxing from color to dither (includes color, ccorr, aal, gamma, dither)

     // 2) Dither to RDMA. RDMA has only 1 input which is from dither. So only dither mout needed
     DispDitherMoutEnReg::Get()
         .ReadFrom(&(*syscfg_mmio_))
         .set_out_rdma0(1)
         .WriteTo(&(*syscfg_mmio_));

     // 3) Connect RDMA to DSI. RDMA has single ouput
     DispRdma0SoutSelInReg::Get()
         .ReadFrom(&(*syscfg_mmio_))
         .set_sel(kRdma0SoutDsi0)
         .WriteTo(&(*syscfg_mmio_));
     Dsi0SelInReg::Get()
         .ReadFrom(&(*syscfg_mmio_))
         .set_sel(kDsi0SelRdma0)
         .WriteTo(&(*syscfg_mmio_));
     return ZX_OK;
 }

 zx_status_t MtSysConfig::ClearDefaultPath() {
     ZX_DEBUG_ASSERT(initialized_);
     DispOvl0MoutEnReg::Get()
         .ReadFrom(&(*syscfg_mmio_))
         .set_out_color(0)
         .WriteTo(&(*syscfg_mmio_));
     DispDitherMoutEnReg::Get()
         .ReadFrom(&(*syscfg_mmio_))
         .set_out_rdma0(0)
         .WriteTo(&(*syscfg_mmio_));
     DispRdma0SoutSelInReg::Get()
         .ReadFrom(&(*syscfg_mmio_))
         .set_sel(kRdma0SoutDsi0)
         .WriteTo(&(*syscfg_mmio_));
     return ZX_OK;
 }

 zx_status_t MtSysConfig::MutexClear() {
     ZX_DEBUG_ASSERT(initialized_);
     Mutex0ModReg::Get().FromValue(0).WriteTo(&(*mutex_mmio_));
     Mutex0SofReg::Get().FromValue(0).WriteTo(&(*mutex_mmio_));
     MutexReset();
     return ZX_OK;
 }

 zx_status_t MtSysConfig::MutexEnable() {
     ZX_DEBUG_ASSERT(initialized_);
     Mutex0EnReg::Get().ReadFrom(&(*mutex_mmio_)).set_enable(1).WriteTo(&(*mutex_mmio_));
     return ZX_OK;
 }

 zx_status_t MtSysConfig::MutexDisable() {
     ZX_DEBUG_ASSERT(initialized_);
     Mutex0EnReg::Get().ReadFrom(&(*mutex_mmio_)).set_enable(0).WriteTo(&(*mutex_mmio_));
     return ZX_OK;
 }

 zx_status_t MtSysConfig::MutexReset() {
     Mutex0RstReg::Get().ReadFrom(&(*mutex_mmio_)).set_reset(1).WriteTo(&(*mutex_mmio_));
     Mutex0RstReg::Get().ReadFrom(&(*mutex_mmio_)).set_reset(0).WriteTo(&(*mutex_mmio_));
     return ZX_OK;
 }

 zx_status_t MtSysConfig::MutexSetDefault() {
     ZX_DEBUG_ASSERT(initialized_);
     Mutex0ModReg::Get().FromValue(kDefaultMutexMod).WriteTo(&(*mutex_mmio_));
     Mutex0SofReg::Get().FromValue(1).WriteTo(&(*mutex_mmio_));
     return ZX_OK;
 }

 void MtSysConfig::PrintRegisters() {
     ZX_DEBUG_ASSERT(initialized_);
     zxlogf(INFO, "Dumping MtSysConfig Registers\n");
     zxlogf(INFO, "######################\n\n");
     zxlogf(INFO, "SYSCONFIG_DISP_OVL0_MOUT_EN = 0x%x\n",
            syscfg_mmio_->Read32(SYSCONFIG_DISP_OVL0_MOUT_EN));
     zxlogf(INFO, "SYSCONFIG_DISP_DITHER_MOUT_EN = 0x%x\n",
            syscfg_mmio_->Read32(SYSCONFIG_DISP_DITHER_MOUT_EN));
     zxlogf(INFO, "SYSCONFIG_DISP_UFOE_MOUT_EN = 0x%x\n",
            syscfg_mmio_->Read32(SYSCONFIG_DISP_UFOE_MOUT_EN));
     zxlogf(INFO, "SYSCONFIG_DISP_COLOR0_SEL_IN = 0x%x\n",
            syscfg_mmio_->Read32(SYSCONFIG_DISP_COLOR0_SEL_IN));
     zxlogf(INFO, "SYSCONFIG_DISP_UFOE_SEL_IN = 0x%x\n",
            syscfg_mmio_->Read32(SYSCONFIG_DISP_UFOE_SEL_IN));
     zxlogf(INFO, "SYSCONFIG_DSI0_SEL_IN = 0x%x\n",
            syscfg_mmio_->Read32(SYSCONFIG_DSI0_SEL_IN));
     zxlogf(INFO, "SYSCONFIG_DISP_RDMA0_SOUT_SEL_IN = 0x%x\n",
            syscfg_mmio_->Read32(SYSCONFIG_DISP_RDMA0_SOUT_SEL_IN));
     zxlogf(INFO, "SYSCONFIG_MMSYS_MISC = 0x%x\n",
            syscfg_mmio_->Read32(SYSCONFIG_MMSYS_MISC));
     zxlogf(INFO, "SYSCONFIG_MMSYS_CG_CON0 = 0x%x\n",
            syscfg_mmio_->Read32(SYSCONFIG_MMSYS_CG_CON0));
     zxlogf(INFO, "SYSCONFIG_MMSYS_CG_SET0 = 0x%x\n",
            syscfg_mmio_->Read32(SYSCONFIG_MMSYS_CG_SET0));
     zxlogf(INFO, "SYSCONFIG_MMSYS_CG_CLR0 = 0x%x\n",
            syscfg_mmio_->Read32(SYSCONFIG_MMSYS_CG_CLR0));
     zxlogf(INFO, "SYSCONFIG_MMSYS_CG_CON1 = 0x%x\n",
            syscfg_mmio_->Read32(SYSCONFIG_MMSYS_CG_CON1));
     zxlogf(INFO, "SYSCONFIG_MMSYS_CG_SET1 = 0x%x\n",
            syscfg_mmio_->Read32(SYSCONFIG_MMSYS_CG_SET1));
     zxlogf(INFO, "SYSCONFIG_MMSYS_CG_CLR1 = 0x%x\n",
            syscfg_mmio_->Read32(SYSCONFIG_MMSYS_CG_CLR1));
     zxlogf(INFO, "SYSCONFIG_MMSYS_HW_DCM_DIS0 = 0x%x\n",
            syscfg_mmio_->Read32(SYSCONFIG_MMSYS_HW_DCM_DIS0));
     zxlogf(INFO, "SYSCONFIG_MMSYS_HW_DCM_DIS_SET0 = 0x%x\n",
            syscfg_mmio_->Read32(SYSCONFIG_MMSYS_HW_DCM_DIS_SET0));
     zxlogf(INFO, "SYSCONFIG_MMSYS_HW_DCM_DIS_CLR0 = 0x%x\n",
            syscfg_mmio_->Read32(SYSCONFIG_MMSYS_HW_DCM_DIS_CLR0));
     zxlogf(INFO, "SYSCONFIG_MMSYS_SW0_RST_B = 0x%x\n",
            syscfg_mmio_->Read32(SYSCONFIG_MMSYS_SW0_RST_B));
     zxlogf(INFO, "SYSCONFIG_MMSYS_SW1_RST_B = 0x%x\n",
            syscfg_mmio_->Read32(SYSCONFIG_MMSYS_SW1_RST_B));
     zxlogf(INFO, "SYSCONFIG_MMSYS_LCM_RST_B = 0x%x\n",
            syscfg_mmio_->Read32(SYSCONFIG_MMSYS_LCM_RST_B));
     zxlogf(INFO, "SYSCONFIG_MMSYS_DUMMY = 0x%x\n",
            syscfg_mmio_->Read32(SYSCONFIG_MMSYS_DUMMY));
     zxlogf(INFO, "######################\n\n");

     zxlogf(INFO, "Dumping Mutex Registers\n");
     zxlogf(INFO, "######################\n\n");
     zxlogf(INFO, "MUTEX_INTEN = 0x%x\n", mutex_mmio_->Read32(MUTEX_INTEN));
     zxlogf(INFO, "MUTEX_INTSTA = 0x%x\n", mutex_mmio_->Read32(MUTEX_INTSTA));
     zxlogf(INFO, "MUTEX0_EN = 0x%x\n", mutex_mmio_->Read32(MUTEX0_EN));
     zxlogf(INFO, "MUTEX0_RST = 0x%x\n", mutex_mmio_->Read32(MUTEX0_RST));
     zxlogf(INFO, "MUTEX0_MOD = 0x%x\n", mutex_mmio_->Read32(MUTEX0_MOD));
     zxlogf(INFO, "MUTEX0_SOF = 0x%x\n", mutex_mmio_->Read32(MUTEX0_SOF));
     zxlogf(INFO, "######################\n\n");
 }

 } // namespace mt8167s_display
	// Copyright 2019 The Fuchsia Authors. All rights reserved.
	// Use of this source code is governed by a BSD-style license that can be
	// found in the LICENSE file.

	#include "mt-sysconfig.h"
	#include <fbl/alloc_checker.h>

	namespace mt8167s_display {

	namespace {
	constexpr uint32_t kColorSelOlv0 = 1;
	constexpr uint32_t kRdma0SoutDsi0 = 2;
	constexpr uint32_t kDsi0SelRdma0 = 1;
	// By default, we will include the following modules on the same mutex:
	// pwm, dither, gamma, aal, color, ccorr, rdma0, ovl0
	constexpr uint32_t kDefaultMutexMod = (0xF940);
	} // namespace

	zx_status_t MtSysConfig::Init(zx_device_t* parent) {
	if (initialized_) {
	return ZX_OK;
	}

	zx_status_t status = device_get_protocol(parent, ZX_PROTOCOL_PDEV, &pdev_);
	if (status != ZX_OK) {
	return status;
	}

	// Map Sys Config MMIO
	mmio_buffer_t mmio;
	status = pdev_map_mmio_buffer(&pdev_, MMIO_DISP_SYSCFG, ZX_CACHE_POLICY_UNCACHED_DEVICE,
	&mmio);
	if (status != ZX_OK) {
	DISP_ERROR("Could not map SYS CFG mmio\n");
	return status;
	}
	fbl::AllocChecker ac;
	syscfg_mmio_ = fbl::make_unique_checked<ddk::MmioBuffer>(&ac, mmio);
	if (!ac.check()) {
	DISP_ERROR("Could not map SYS CFG mmio\n");
	return ZX_ERR_NO_MEMORY;
	}

	// Map Mutex MMIO
	status = pdev_map_mmio_buffer(&pdev_, MMIO_DISP_MUTEX, ZX_CACHE_POLICY_UNCACHED_DEVICE,
	&mmio);
	if (status != ZX_OK) {
	DISP_ERROR("Could not map Mutex mmio\n");
	return status;
	}
	mutex_mmio_ = fbl::make_unique_checked<ddk::MmioBuffer>(&ac, mmio);
	if (!ac.check()) {
	DISP_ERROR("Could not map Mutex mmio\n");
	return ZX_ERR_NO_MEMORY;
	}

	// Sysconfig is ready to be used
	initialized_ = true;
	return ZX_OK;
	}

	zx_status_t MtSysConfig::PowerOn(SysConfigModule module) {
	ZX_DEBUG_ASSERT(initialized_);
	switch(module) {
	case MODULE_OVL0:
	MmsysCgClr0Reg::Get().ReadFrom(&(syscfg_mmio_)).set_ovl0(1).WriteTo(&(syscfg_mmio_));
	break;
	case MODULE_RDMA0:
	MmsysCgClr0Reg::Get().ReadFrom(&(syscfg_mmio_)).set_rdma0(1).WriteTo(&(syscfg_mmio_));
	break;
	case MODULE_COLOR0:
	MmsysCgClr0Reg::Get().ReadFrom(&(syscfg_mmio_)).set_color0(1).WriteTo(&(syscfg_mmio_));
	break;
	case MODULE_CCORR:
	MmsysCgClr0Reg::Get().ReadFrom(&(syscfg_mmio_)).set_ccorr(1).WriteTo(&(syscfg_mmio_));
	break;
	case MODULE_AAL:
	MmsysCgClr0Reg::Get().ReadFrom(&(syscfg_mmio_)).set_aal(1).WriteTo(&(syscfg_mmio_));
	break;
	case MODULE_GAMMA:
	MmsysCgClr0Reg::Get().ReadFrom(&(syscfg_mmio_)).set_gamma(1).WriteTo(&(syscfg_mmio_));
	break;
	case MODULE_DITHER:
	MmsysCgClr0Reg::Get().ReadFrom(&(syscfg_mmio_)).set_dither(1).WriteTo(&(syscfg_mmio_));
	break;
	case MODULE_PWM0:
	MmsysCgClr1Reg::Get().ReadFrom(&(syscfg_mmio_)).set_pwm0_26m(1).WriteTo(&(syscfg_mmio_));
	MmsysCgClr1Reg::Get().ReadFrom(&(syscfg_mmio_)).set_pwm0_mm(1).WriteTo(&(syscfg_mmio_));
	break;
	case MODULE_DSI0:
	MmsysCgClr1Reg::Get().ReadFrom(&(syscfg_mmio_)).set_dsi0_dig(1).WriteTo(&(syscfg_mmio_));
	MmsysCgClr1Reg::Get().ReadFrom(&(syscfg_mmio_)).set_dsi0_eng(1).WriteTo(&(syscfg_mmio_));
	break;
	case MODULE_SMI:
	MmsysCgClr0Reg::Get().ReadFrom(&(syscfg_mmio_)).set_smi_larb0(1).WriteTo(&(syscfg_mmio_));
	MmsysCgClr0Reg::Get().ReadFrom(&(*syscfg_mmio_)).set_smi_common(1)
	.WriteTo(&(*syscfg_mmio_));
	break;
	default:
	DISP_ERROR("Unknown/Unsupported module %d\n", module);
	return ZX_ERR_INVALID_ARGS;
	}
	return ZX_OK;
	}

	zx_status_t MtSysConfig::PowerDown(SysConfigModule module) {
	ZX_DEBUG_ASSERT(initialized_);
	switch(module) {
	case MODULE_OVL0:
	MmsysCgSet0Reg::Get().ReadFrom(&(syscfg_mmio_)).set_ovl0(1).WriteTo(&(syscfg_mmio_));
	break;
	case MODULE_RDMA0:
	MmsysCgSet0Reg::Get().ReadFrom(&(syscfg_mmio_)).set_rdma0(1).WriteTo(&(syscfg_mmio_));
	break;
	case MODULE_COLOR0:
	MmsysCgSet0Reg::Get().ReadFrom(&(syscfg_mmio_)).set_color0(1).WriteTo(&(syscfg_mmio_));
	break;
	case MODULE_CCORR:
	MmsysCgSet0Reg::Get().ReadFrom(&(syscfg_mmio_)).set_ccorr(1).WriteTo(&(syscfg_mmio_));
	break;
	case MODULE_AAL:
	MmsysCgSet0Reg::Get().ReadFrom(&(syscfg_mmio_)).set_aal(1).WriteTo(&(syscfg_mmio_));
	break;
	case MODULE_GAMMA:
	MmsysCgSet0Reg::Get().ReadFrom(&(syscfg_mmio_)).set_gamma(1).WriteTo(&(syscfg_mmio_));
	break;
	case MODULE_DITHER:
	MmsysCgSet0Reg::Get().ReadFrom(&(syscfg_mmio_)).set_dither(1).WriteTo(&(syscfg_mmio_));
	break;
	case MODULE_PWM0:
	MmsysCgSet1Reg::Get().ReadFrom(&(syscfg_mmio_)).set_pwm0_26m(1).WriteTo(&(syscfg_mmio_));
	MmsysCgSet1Reg::Get().ReadFrom(&(syscfg_mmio_)).set_pwm0_mm(1).WriteTo(&(syscfg_mmio_));
	break;
	case MODULE_DSI0:
	MmsysCgSet1Reg::Get().ReadFrom(&(syscfg_mmio_)).set_dsi0_dig(1).WriteTo(&(syscfg_mmio_));
	MmsysCgSet1Reg::Get().ReadFrom(&(syscfg_mmio_)).set_dsi0_eng(1).WriteTo(&(syscfg_mmio_));
	break;
	case MODULE_SMI:
	MmsysCgSet0Reg::Get().ReadFrom(&(syscfg_mmio_)).set_smi_larb0(1).WriteTo(&(syscfg_mmio_));
	MmsysCgSet0Reg::Get().ReadFrom(&(*syscfg_mmio_)).set_smi_common(1)
	.WriteTo(&(*syscfg_mmio_));
	break;
	default:
	DISP_ERROR("Unknown/Unsupported module %d\n", module);
	return ZX_ERR_INVALID_ARGS;
	}
	return ZX_OK;
	}

	zx_status_t MtSysConfig::CreateDefaultPath() {
	ZX_DEBUG_ASSERT(initialized_);
	// 1) OVL0 to color. Need to connect OVL0 MOUT to Color0 Sel
	DispOvl0MoutEnReg::Get()
	.ReadFrom(&(*syscfg_mmio_))
	.set_out_color(1)
	.WriteTo(&(*syscfg_mmio_));

	DispColor0SelInReg::Get()
	.ReadFrom(&(*syscfg_mmio_))
	.set_sel(kColorSelOlv0)
	.WriteTo(&(*syscfg_mmio_));

	// No muxing from color to dither (includes color, ccorr, aal, gamma, dither)

	// 2) Dither to RDMA. RDMA has only 1 input which is from dither. So only dither mout needed
	DispDitherMoutEnReg::Get()
	.ReadFrom(&(*syscfg_mmio_))
	.set_out_rdma0(1)
	.WriteTo(&(*syscfg_mmio_));

	// 3) Connect RDMA to DSI. RDMA has single ouput
	DispRdma0SoutSelInReg::Get()
	.ReadFrom(&(*syscfg_mmio_))
	.set_sel(kRdma0SoutDsi0)
	.WriteTo(&(*syscfg_mmio_));
	Dsi0SelInReg::Get()
	.ReadFrom(&(*syscfg_mmio_))
	.set_sel(kDsi0SelRdma0)
	.WriteTo(&(*syscfg_mmio_));
	return ZX_OK;
	}

	zx_status_t MtSysConfig::ClearDefaultPath() {
	ZX_DEBUG_ASSERT(initialized_);
	DispOvl0MoutEnReg::Get()
	.ReadFrom(&(*syscfg_mmio_))
	.set_out_color(0)
	.WriteTo(&(*syscfg_mmio_));
	DispDitherMoutEnReg::Get()
	.ReadFrom(&(*syscfg_mmio_))
	.set_out_rdma0(0)
	.WriteTo(&(*syscfg_mmio_));
	DispRdma0SoutSelInReg::Get()
	.ReadFrom(&(*syscfg_mmio_))
	.set_sel(kRdma0SoutDsi0)
	.WriteTo(&(*syscfg_mmio_));
	return ZX_OK;
	}

	zx_status_t MtSysConfig::MutexClear() {
	ZX_DEBUG_ASSERT(initialized_);
	Mutex0ModReg::Get().FromValue(0).WriteTo(&(*mutex_mmio_));
	Mutex0SofReg::Get().FromValue(0).WriteTo(&(*mutex_mmio_));
	MutexReset();
	return ZX_OK;
	}

	zx_status_t MtSysConfig::MutexEnable() {
	ZX_DEBUG_ASSERT(initialized_);
	Mutex0EnReg::Get().ReadFrom(&(mutex_mmio_)).set_enable(1).WriteTo(&(mutex_mmio_));
	return ZX_OK;
	}

	zx_status_t MtSysConfig::MutexDisable() {
	ZX_DEBUG_ASSERT(initialized_);
	Mutex0EnReg::Get().ReadFrom(&(mutex_mmio_)).set_enable(0).WriteTo(&(mutex_mmio_));
	return ZX_OK;
	}

	zx_status_t MtSysConfig::MutexReset() {
	Mutex0RstReg::Get().ReadFrom(&(mutex_mmio_)).set_reset(1).WriteTo(&(mutex_mmio_));
	Mutex0RstReg::Get().ReadFrom(&(mutex_mmio_)).set_reset(0).WriteTo(&(mutex_mmio_));
	return ZX_OK;
	}

	zx_status_t MtSysConfig::MutexSetDefault() {
	ZX_DEBUG_ASSERT(initialized_);
	Mutex0ModReg::Get().FromValue(kDefaultMutexMod).WriteTo(&(*mutex_mmio_));
	Mutex0SofReg::Get().FromValue(1).WriteTo(&(*mutex_mmio_));
	return ZX_OK;
	}

	void MtSysConfig::PrintRegisters() {
	ZX_DEBUG_ASSERT(initialized_);
	zxlogf(INFO, "Dumping MtSysConfig Registers\n");
	zxlogf(INFO, "######################\n\n");
	zxlogf(INFO, "SYSCONFIG_DISP_OVL0_MOUT_EN = 0x%x\n",
	syscfg_mmio_->Read32(SYSCONFIG_DISP_OVL0_MOUT_EN));
	zxlogf(INFO, "SYSCONFIG_DISP_DITHER_MOUT_EN = 0x%x\n",
	syscfg_mmio_->Read32(SYSCONFIG_DISP_DITHER_MOUT_EN));
	zxlogf(INFO, "SYSCONFIG_DISP_UFOE_MOUT_EN = 0x%x\n",
	syscfg_mmio_->Read32(SYSCONFIG_DISP_UFOE_MOUT_EN));
	zxlogf(INFO, "SYSCONFIG_DISP_COLOR0_SEL_IN = 0x%x\n",
	syscfg_mmio_->Read32(SYSCONFIG_DISP_COLOR0_SEL_IN));
	zxlogf(INFO, "SYSCONFIG_DISP_UFOE_SEL_IN = 0x%x\n",
	syscfg_mmio_->Read32(SYSCONFIG_DISP_UFOE_SEL_IN));
	zxlogf(INFO, "SYSCONFIG_DSI0_SEL_IN = 0x%x\n",
	syscfg_mmio_->Read32(SYSCONFIG_DSI0_SEL_IN));
	zxlogf(INFO, "SYSCONFIG_DISP_RDMA0_SOUT_SEL_IN = 0x%x\n",
	syscfg_mmio_->Read32(SYSCONFIG_DISP_RDMA0_SOUT_SEL_IN));
	zxlogf(INFO, "SYSCONFIG_MMSYS_MISC = 0x%x\n",
	syscfg_mmio_->Read32(SYSCONFIG_MMSYS_MISC));
	zxlogf(INFO, "SYSCONFIG_MMSYS_CG_CON0 = 0x%x\n",
	syscfg_mmio_->Read32(SYSCONFIG_MMSYS_CG_CON0));
	zxlogf(INFO, "SYSCONFIG_MMSYS_CG_SET0 = 0x%x\n",
	syscfg_mmio_->Read32(SYSCONFIG_MMSYS_CG_SET0));
	zxlogf(INFO, "SYSCONFIG_MMSYS_CG_CLR0 = 0x%x\n",
	syscfg_mmio_->Read32(SYSCONFIG_MMSYS_CG_CLR0));
	zxlogf(INFO, "SYSCONFIG_MMSYS_CG_CON1 = 0x%x\n",
	syscfg_mmio_->Read32(SYSCONFIG_MMSYS_CG_CON1));
	zxlogf(INFO, "SYSCONFIG_MMSYS_CG_SET1 = 0x%x\n",
	syscfg_mmio_->Read32(SYSCONFIG_MMSYS_CG_SET1));
	zxlogf(INFO, "SYSCONFIG_MMSYS_CG_CLR1 = 0x%x\n",
	syscfg_mmio_->Read32(SYSCONFIG_MMSYS_CG_CLR1));
	zxlogf(INFO, "SYSCONFIG_MMSYS_HW_DCM_DIS0 = 0x%x\n",
	syscfg_mmio_->Read32(SYSCONFIG_MMSYS_HW_DCM_DIS0));
	zxlogf(INFO, "SYSCONFIG_MMSYS_HW_DCM_DIS_SET0 = 0x%x\n",
	syscfg_mmio_->Read32(SYSCONFIG_MMSYS_HW_DCM_DIS_SET0));
	zxlogf(INFO, "SYSCONFIG_MMSYS_HW_DCM_DIS_CLR0 = 0x%x\n",
	syscfg_mmio_->Read32(SYSCONFIG_MMSYS_HW_DCM_DIS_CLR0));
	zxlogf(INFO, "SYSCONFIG_MMSYS_SW0_RST_B = 0x%x\n",
	syscfg_mmio_->Read32(SYSCONFIG_MMSYS_SW0_RST_B));
	zxlogf(INFO, "SYSCONFIG_MMSYS_SW1_RST_B = 0x%x\n",
	syscfg_mmio_->Read32(SYSCONFIG_MMSYS_SW1_RST_B));
	zxlogf(INFO, "SYSCONFIG_MMSYS_LCM_RST_B = 0x%x\n",
	syscfg_mmio_->Read32(SYSCONFIG_MMSYS_LCM_RST_B));
	zxlogf(INFO, "SYSCONFIG_MMSYS_DUMMY = 0x%x\n",
	syscfg_mmio_->Read32(SYSCONFIG_MMSYS_DUMMY));
	zxlogf(INFO, "######################\n\n");

	zxlogf(INFO, "Dumping Mutex Registers\n");
	zxlogf(INFO, "######################\n\n");
	zxlogf(INFO, "MUTEX_INTEN = 0x%x\n", mutex_mmio_->Read32(MUTEX_INTEN));
	zxlogf(INFO, "MUTEX_INTSTA = 0x%x\n", mutex_mmio_->Read32(MUTEX_INTSTA));
	zxlogf(INFO, "MUTEX0_EN = 0x%x\n", mutex_mmio_->Read32(MUTEX0_EN));
	zxlogf(INFO, "MUTEX0_RST = 0x%x\n", mutex_mmio_->Read32(MUTEX0_RST));
	zxlogf(INFO, "MUTEX0_MOD = 0x%x\n", mutex_mmio_->Read32(MUTEX0_MOD));
	zxlogf(INFO, "MUTEX0_SOF = 0x%x\n", mutex_mmio_->Read32(MUTEX0_SOF));
	zxlogf(INFO, "######################\n\n");
	}

	} // namespace mt8167s_display