/** * @file * * Config Southbridge USB controller * * Init USB features. * * @xrefitem bom "File Content Label" "Release Content" * @e project: CIMx-SB * @e sub-project: * @e \$Revision:$ @e \$Date:$ * */ /*;******************************************************************************** ; ; Copyright (c) 2011, Advanced Micro Devices, Inc. ; All rights reserved. ; ; Redistribution and use in source and binary forms, with or without ; modification, are permitted provided that the following conditions are met: ; * Redistributions of source code must retain the above copyright ; notice, this list of conditions and the following disclaimer. ; * Redistributions in binary form must reproduce the above copyright ; notice, this list of conditions and the following disclaimer in the ; documentation and/or other materials provided with the distribution. ; * Neither the name of Advanced Micro Devices, Inc. nor the names of ; its contributors may be used to endorse or promote products derived ; from this software without specific prior written permission. ; ; THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS" AND ; ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED ; WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE ; DISCLAIMED. IN NO EVENT SHALL ADVANCED MICRO DEVICES, INC. BE LIABLE FOR ANY ; DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES ; (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; ; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ; ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT ; (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS ; SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. ; ;*********************************************************************************/ #include "SbPlatform.h" #include "cbtypes.h" #include "AmdSbLib.h" #include "Hudson-2.h" // // Declaration of local functions // VOID usbOverCurrentControl ( IN AMDSBCFG* pConfig ); UINT32 SetEhciPllWr ( IN UINT32 Value, IN AMDSBCFG* pConfig ); /** * EhciInitAfterPciInit - Config USB controller after PCI emulation * * @param[in] Value Controller PCI config address (bus# + device# + function#) * @param[in] pConfig Southbridge configuration structure pointer. */ VOID EhciInitAfterPciInit (IN UINT32 Value, IN AMDSBCFG* pConfig); /** * OhciInitAfterPciInit - Config USB OHCI controller after PCI emulation * * @param[in] Value Controller PCI config address (bus# + device# + function#) * @param[in] pConfig Southbridge configuration structure pointer. */ VOID OhciInitAfterPciInit (IN UINT32 Value, IN AMDSBCFG* pConfig); #ifdef XHCI_SUPPORT VOID XhciInitBeforePciInit (IN AMDSBCFG* pConfig); VOID XhciInitAfterPciInit (IN AMDSBCFG* pConfig); VOID XhciInitLate (IN AMDSBCFG* pConfig); #endif /** * usbInitBeforePciEnum - Config USB controller before PCI emulation * * * * @param[in] pConfig Southbridge configuration structure pointer. * */ VOID usbInitBeforePciEnum ( IN AMDSBCFG* pConfig ) { UINT8 XhciEfuse; // add Efuse checking for Xhci enable/disable XhciEfuse = XHCI_EFUSE_LOCATION; TRACE ((DMSG_SB_TRACE, "Entering PreInit Usb \n")); // Disabled All USB controller // RWMEM (ACPI_MMIO_BASE + PMIO_BASE + SB_PMIOA_REGEF, AccWidthUint8, BIT7, 0); // Clear PM_IO 0x65[4] UsbResetByPciRstEnable, Set this bit so that usb gets reset whenever there is PCIRST. // Enable UsbResumeEnable (USB PME) * Default value // In SB700 USB SleepCtrl set as BIT10+BIT9, but Hudson-2 default is BIT9+BIT8 (6 uframes) RWMEM (ACPI_MMIO_BASE + PMIO_BASE + SB_PMIOA_REGF0, AccWidthUint16 | S3_SAVE, ~BIT2, BIT2 + BIT7 + BIT8 + BIT9); // Overwrite EHCI bit by OHCI bit pConfig->USBMODE.UsbModeReg = pConfig->USBMODE.UsbMode.Ohci1 \ + (pConfig->USBMODE.UsbMode.Ohci1 << 1) \ + (pConfig->USBMODE.UsbMode.Ohci2 << 2) \ + (pConfig->USBMODE.UsbMode.Ohci2 << 3) \ + (pConfig->USBMODE.UsbMode.Ohci3 << 4) \ + (pConfig->USBMODE.UsbMode.Ohci3 << 5) \ + (pConfig->USBMODE.UsbMode.Ohci4 << 6); // Overwrite EHCI3/OHCI3 by XhciSwitch if (pConfig->XhciSwitch) { pConfig->USBMODE.UsbModeReg &= 0xCF; pConfig->USBMODE.UsbModeReg |= 0x80; } else { pConfig->USBMODE.UsbModeReg &= 0x7F; #ifdef USB_LOGO_SUPPORT if (pConfig->USBMODE.UsbMode.Ohci3) { RWMEM (ACPI_MMIO_BASE + SMI_BASE + SB_SMI_Usbwakup2, AccWidthUint8, 0, 0x0B); } #endif } RWMEM (ACPI_MMIO_BASE + PMIO_BASE + SB_PMIOA_REGEF, AccWidthUint8, 0, (pConfig->USBMODE.UsbModeReg)); RWMEM (ACPI_MMIO_BASE + PMIO_BASE + SB_PMIOA_REGEE, AccWidthUint8, ~(BIT2), 0 ); // RWMEM (ACPI_MMIO_BASE + PMIO_BASE + SB_PMIOA_REGEF, AccWidthUint8, 0, (pConfig->USBMODE.UsbModeReg & ~( 0x15 << 1 )) + (( pConfig->USBMODE.UsbModeReg & 0x15 ) << 1 ) ); // if ( pConfig->XhciSwitch == 1 && pConfig->S3Resume == 0 && pConfig->S4Resume == 0 ) { // RWMEM (ACPI_MMIO_BASE + PMIO_BASE + SB_PMIOA_REGEF, AccWidthUint8, ~(BIT7) , BIT7); // RWMEM (ACPI_MMIO_BASE + PMIO_BASE + SB_PMIOA_REGEF, AccWidthUint8, ~(BIT4 + BIT5) , 0); // RWMEM (ACPI_MMIO_BASE + PMIO_BASE + SB_PMIOA_REGEE, AccWidthUint8, ~(BIT0 + BIT1 + BIT2), (BIT1 + BIT0 + BIT2) ); // } // else { // RWMEM (ACPI_MMIO_BASE + PMIO_BASE + SB_PMIOA_REGEF, AccWidthUint8, ~(BIT7) , ~(BIT7)); // } // RWMEM (ACPI_MMIO_BASE + MISC_BASE + 0x40, AccWidthUint8, ~BIT6, 0); // RWMEM (ACPI_MMIO_BASE + PMIO_BASE + 0xF3, AccWidthUint8, ~BIT4, BIT4); // SbStall (500); // RWMEM (ACPI_MMIO_BASE + PMIO_BASE + 0xF3, AccWidthUint8, ~BIT4, 0); #ifdef XHCI_SUPPORT #ifndef XHCI_INIT_IN_ROM_SUPPORT if ( pConfig->XhciSwitch == 1 ) { if ( pConfig->S3Resume == 0 ) { XhciInitBeforePciInit (pConfig); } else { XhciInitIndirectReg (); } } else { // for power saving. // add Efuse checking for Xhci enable/disable getEfuseStatus (&XhciEfuse); if ((XhciEfuse & (BIT0 + BIT1)) != (BIT0 + BIT1)) { RWMEM (ACPI_MMIO_BASE + XHCI_BASE + XHCI_ACPI_MMIO_AMD_REG00, AccWidthUint32, 0xF0FFFBFF, 0x0); } } #endif #endif } /** * usbInitAfterPciInit - Config USB controller after PCI emulation * * * * @param[in] pConfig Southbridge configuration structure pointer. * */ VOID usbInitAfterPciInit ( IN AMDSBCFG* pConfig ) { if (IsSbA11 ()) { RWMEM (ACPI_MMIO_BASE + PMIO_BASE + SB_PMIOA_REGEF, AccWidthUint8, BIT7, 0x7F); } usb1EhciInitAfterPciInit (pConfig); usb2EhciInitAfterPciInit (pConfig); usb3EhciInitAfterPciInit (pConfig); usb3OhciInitAfterPciInit (pConfig); usb1OhciInitAfterPciInit (pConfig); usb2OhciInitAfterPciInit (pConfig); usb4OhciInitAfterPciInit (pConfig); // Restore back if (IsSbA11 ()) { RWMEM (ACPI_MMIO_BASE + PMIO_BASE + SB_PMIOA_REGEF, AccWidthUint8, BIT7, (pConfig->USBMODE.UsbModeReg)); } #ifdef XHCI_SUPPORT if ( pConfig->XhciSwitch == 1 ) { XhciInitAfterPciInit (pConfig); } #endif if ( pConfig->UsbPhyPowerDown ) { RWMEM (ACPI_MMIO_BASE + PMIO_BASE + SB_PMIOA_REGF0, AccWidthUint8, ~BIT0, BIT0); } else { RWMEM (ACPI_MMIO_BASE + PMIO_BASE + SB_PMIOA_REGF0, AccWidthUint8, ~BIT0, 0); } if (IsSbA13Plus ()) { //SB02643 RWMEM (ACPI_MMIO_BASE + PMIO_BASE + SB_PMIOA_REGB4, AccWidthUint8, ~BIT7, BIT7); //RPR7.27 SB02686 RWMEM (ACPI_MMIO_BASE + PMIO_BASE + SB_PMIOA_REGED, AccWidthUint8, ~BIT2, BIT2); } } /** * usbOverCurrentControl - Config USB Over Current Control * * * * @param[in] pConfig Southbridge configuration structure pointer. * */ VOID usbOverCurrentControl ( IN AMDSBCFG* pConfig ) { #ifdef SB_USB1_OVER_CURRENT_CONTROL RWPCI ((USB1_OHCI_BUS_DEV_FUN << 16) + SB_OHCI_REG58, AccWidthUint32 | S3_SAVE, 0xfff00000, SB_USB1_OVER_CURRENT_CONTROL & 0x000FFFFF); #endif #ifdef SB_USB2_OVER_CURRENT_CONTROL RWPCI ((USB2_OHCI_BUS_DEV_FUN << 16) + SB_OHCI_REG58, AccWidthUint32 | S3_SAVE, 0xfff00000, SB_USB2_OVER_CURRENT_CONTROL & 0x000FFFFF); #endif #ifdef SB_USB3_OVER_CURRENT_CONTROL RWPCI ((USB3_OHCI_BUS_DEV_FUN << 16) + SB_OHCI_REG58, AccWidthUint32 | S3_SAVE, 0xffff0000, SB_USB3_OVER_CURRENT_CONTROL & 0x0000FFFF); #endif #ifdef SB_USB4_OVER_CURRENT_CONTROL RWPCI ((USB4_OHCI_BUS_DEV_FUN << 16) + SB_OHCI_REG58, AccWidthUint32 | S3_SAVE, 0xffffff00, SB_USB4_OVER_CURRENT_CONTROL & 0x000000FF); #endif #ifdef SB_XHCI0_OVER_CURRENT_CONTROL RWXhci0IndReg ( SB_XHCI_IND_REG04, 0xFF00FFFF, (SB_XHCI0_OVER_CURRENT_CONTROL & 0xFF) << 16); #endif #ifdef SB_XHCI1_OVER_CURRENT_CONTROL RWXhci1IndReg ( SB_XHCI_IND_REG04, 0xFF00FFFF, (SB_XHCI1_OVER_CURRENT_CONTROL & 0xFF) << 16); #endif } /** * usbInitLate - Config USB controller after PCI emulation * * * * @param[in] pConfig Southbridge configuration structure pointer. * */ VOID usbInitLate ( IN AMDSBCFG* pConfig ) { if (pConfig->S4Resume) { //RWPCI (0x9004, AccWidthUint8, 0, 0x10); //RWPCI (0x9804, AccWidthUint8, 0, 0x10); //RWPCI (0xA504, AccWidthUint8, 0, 0x10); //RWPCI (0xB004, AccWidthUint8, 0, 0x10); //RWPCI (0x903C, AccWidthUint8, 0, 0x12); //RWPCI (0x983C, AccWidthUint8, 0, 0x12); //RWPCI (0xA53C, AccWidthUint8, 0, 0x12); //RWPCI (0xB03C, AccWidthUint8, 0, 0x12); } #ifdef XHCI_SUPPORT if ( pConfig->XhciSwitch == 1 ) { XhciInitLate (pConfig); } #endif SbEnableUsbIrq1Irq12ToPicApic (); usbOverCurrentControl (pConfig); } /** * usb1EhciInitAfterPciInit - Config USB1 EHCI controller after PCI emulation * * * * @param[in] pConfig Southbridge configuration structure pointer. * */ VOID usb1EhciInitAfterPciInit ( IN AMDSBCFG* pConfig ) { UINT32 ddDeviceId; ddDeviceId = (USB1_EHCI_BUS_DEV_FUN << 16); EhciInitAfterPciInit (ddDeviceId, pConfig); } /** * usb2EhciInitAfterPciInit - Config USB2 EHCI controller after PCI emulation * * * * @param[in] pConfig Southbridge configuration structure pointer. * */ VOID usb2EhciInitAfterPciInit ( IN AMDSBCFG* pConfig ) { UINT32 ddDeviceId; ddDeviceId = (USB2_EHCI_BUS_DEV_FUN << 16); EhciInitAfterPciInit (ddDeviceId, pConfig); } /** * usb3EhciInitAfterPciInit - Config USB3 EHCI controller after PCI emulation * * * * @param[in] pConfig Southbridge configuration structure pointer. * */ VOID usb3EhciInitAfterPciInit ( IN AMDSBCFG* pConfig ) { UINT32 ddDeviceId; ddDeviceId = (USB3_EHCI_BUS_DEV_FUN << 16); EhciInitAfterPciInit (ddDeviceId, pConfig); } VOID EhciInitAfterPciInit ( IN UINT32 Value, IN AMDSBCFG* pConfig ) { UINT32 ddBarAddress; UINT32 ddVar; UINT32 ddDrivingStrength; UINT32 ddPortDrivingStrength; UINT32 portNumber; UINT32 port; ddDrivingStrength = 0; portNumber = 0; //Get BAR address ReadPCI ((UINT32) Value + SB_EHCI_REG10, AccWidthUint32, &ddBarAddress); if ( (ddBarAddress != - 1) && (ddBarAddress != 0) ) { //Enable Memory access RWPCI ((UINT32) Value + SB_EHCI_REG04, AccWidthUint8, 0, BIT1); if (pConfig->BuildParameters.EhciSsid != 0 ) { RWPCI ((UINT32) Value + SB_EHCI_REG2C, AccWidthUint32 | S3_SAVE, 0x00, pConfig->BuildParameters.EhciSsid); } //USB Common PHY CAL & Control Register setting ddVar = 0x00020F00; WriteMEM (ddBarAddress + SB_EHCI_BAR_REGC0, AccWidthUint32, &ddVar); // RPR IN AND OUT DATA PACKET FIFO THRESHOLD // EHCI BAR 0xA4 //IN threshold bits[7:0]=0x40 //OUT threshold bits[23:16]=0x40 RWMEM (ddBarAddress + SB_EHCI_BAR_REGA4, AccWidthUint32, 0xFF00FF00, 0x00400040); // RPR EHCI Dynamic Clock Gating Feature // RPR Enable Global Clock Gating (BIT14) RWMEM (ddBarAddress + SB_EHCI_BAR_REGBC, AccWidthUint32, ~(BIT12 + BIT14), BIT12 + BIT14); RWMEM (ddBarAddress + SB_EHCI_BAR_REGB0, AccWidthUint32, ~BIT5, BIT5); RWMEM (ACPI_MMIO_BASE + PMIO_BASE + SB_PMIOA_REGF0, AccWidthUint16, ~BIT12, BIT12); // RPR Enable adding extra flops to PHY rsync path // Step 1: // EHCI_BAR 0xB4 [6] = 1 // EHCI_BAR 0xB4 [7] = 0 // EHCI_BAR 0xB4 [12] = 0 ("VLoad") // All other bit field untouched // Step 2: // EHCI_BAR 0xB4[12] = 1 //RWMEM (ddBarAddress + SB_EHCI_BAR_REGB4, AccWidthUint32, ~(BIT6 + BIT7 + BIT12), 0x00); //RWMEM (ddBarAddress + SB_EHCI_BAR_REGB4, AccWidthUint32, ~BIT12, BIT12); // RPR7.8 USB 2.0 Ports Driving Strength // Step1 is done by default // Add support USBx_EHCI_DRIVING_STRENGTH port4 is at [19:16] and port0 is [3:0]; 4 bits for per port, [3] is enable,[2:0] is driving strength. // For Cobia, USB3_EHCI_DRIVING_STRENGTH = 0x00CC #ifdef USB1_EHCI_DRIVING_STRENGTH if (Value == (USB1_EHCI_BUS_DEV_FUN << 16)) { ddDrivingStrength = USB1_EHCI_DRIVING_STRENGTH; portNumber = 5; } #endif #ifdef USB2_EHCI_DRIVING_STRENGTH if (Value == (USB2_EHCI_BUS_DEV_FUN << 16)) { ddDrivingStrength = USB2_EHCI_DRIVING_STRENGTH; portNumber = 5; } #endif #ifdef USB3_EHCI_DRIVING_STRENGTH if (Value == (USB3_EHCI_BUS_DEV_FUN << 16)) { ddDrivingStrength = USB3_EHCI_DRIVING_STRENGTH; portNumber = 4; } #endif if (portNumber > 0) { for (port = 0; port < portNumber; port ++) { ddPortDrivingStrength = (ddDrivingStrength >> (port * 4)) & 0x0F; if (ddPortDrivingStrength & BIT3) { ddPortDrivingStrength &= 0x7; RWMEM (ddBarAddress + SB_EHCI_BAR_REGB4, AccWidthUint32, ~ (BIT16 + BIT15 + BIT14 + BIT13 + BIT12 + BIT2 + BIT1 + BIT0), (port << 13) + ddPortDrivingStrength); RWMEM (ddBarAddress + SB_EHCI_BAR_REGB4, AccWidthUint32, ~BIT12, BIT12); } } } // Step2 RWMEM (ddBarAddress + SB_EHCI_BAR_REGB4, AccWidthUint32, ~BIT12, BIT12); // Step3 if (IsSbA11 ()) { RWMEM (ddBarAddress + SB_EHCI_BAR_REGC4, AccWidthUint32, (UINT32) (~ 0x00000f00), 0x00000000); RWMEM (ddBarAddress + SB_EHCI_BAR_REGC0, AccWidthUint32, (UINT32) (~ 0x0000ff00), 0x00001500); } else { RWMEM (ddBarAddress + SB_EHCI_BAR_REGC4, AccWidthUint32, (UINT32) (~ 0x00000f00), 0x00000200); RWMEM (ddBarAddress + SB_EHCI_BAR_REGC0, AccWidthUint32, (UINT32) (~ 0x0000ff00), 0x00000f00); } //Set EHCI_pci_configx50[6]='1' to disable EHCI MSI support RWPCI ((UINT32) Value + SB_EHCI_REG50, AccWidthUint32 | S3_SAVE, ~ ((UINT32) (0x01 << 6)), (0x01 << 6)); //RPR 7.13 EHCI Async Park Mode //Set EHCI_pci_configx50[11:8]=0x1 //Set EHCI_pci_configx50[15:12]=0x1 //Set EHCI_pci_configx50[17]=0x1 RWPCI ((UINT32) Value + SB_EHCI_REG50, AccWidthUint32 | S3_SAVE, ~ ((UINT32) (0x0F << 8)), (0x01 << 8)); RWPCI ((UINT32) Value + SB_EHCI_REG50, AccWidthUint32 | S3_SAVE, ~ ((UINT32) (0x0F << 12)), (0x01 << 12)); RWPCI ((UINT32) Value + SB_EHCI_REG50, AccWidthUint32 | S3_SAVE, ~ ((UINT32) (0x01 << 17)), (0x01 << 17)); //RPR Enabling EHCI Async Stop Enhancement //Set EHCI_pci_configx50[29]='1' to disableEnabling EHCI Async Stop Enhancement RWPCI ((UINT32) Value + SB_EHCI_REG50, AccWidthUint32 | S3_SAVE, ~ ((UINT32) (0x01 << 29)), (0x01 << 29)); //RWPCI ((UINT32) Value + SB_EHCI_REG50, AccWidthUint32 | S3_SAVE, 0xFF7F0FFF, 0x20221140); // RPR recommended setting "EHCI Advance PHY Power Savings" // Set EHCI_pci_configx50[31]='1' // Fix for EHCI controller driver yellow sign issue under device manager // when used in conjunction with HSET tool driver. EHCI PCI config 0x50[20]=1 RWPCI ((UINT32) Value + SB_EHCI_REG50 + 2, AccWidthUint16 | S3_SAVE, (UINT16)0xFFFF, BIT15); // ENH246436: Disable USB data cache to resolve USB controller hang issue with Lan adaptor. // EHCI PCI config register 50h bit 26 to `1'. if (pConfig->EhciDataCacheDis) { RWPCI ((UINT32) Value + SB_EHCI_REG50 + 2, AccWidthUint16 | S3_SAVE, (UINT16)0xFFFF, BIT10); } if (IsSbA13Plus ()) { //RPR 7.25 SB02674 RWPCI ((UINT32) Value + SB_EHCI_REG54, AccWidthUint16 | S3_SAVE, (UINT16)0x5FFF, BIT13 + BIT15); //RPR 7.26 SB02684 RWPCI ((UINT32) Value + SB_EHCI_REG50 + 2, AccWidthUint16 | S3_SAVE, ~ (BIT3), BIT3); //RPR 7.26 SB02687 RWPCI ((UINT32) Value + SB_EHCI_REG54 + 2, AccWidthUint16 | S3_SAVE, (UINT16)0xFFFC, BIT0 + BIT1); //RPR 7.28 SB02700 RWPCI ((UINT32) Value + SB_EHCI_REG54 + 2, AccWidthUint16 | S3_SAVE, (UINT16)0xFFFB, BIT2); //RPR 7.29 SB02703 RWPCI ((UINT32) Value + SB_EHCI_REG54 + 2, AccWidthUint16 | S3_SAVE, (UINT16)0xFFF7, BIT3); } // RPR USB Delay A-Link Express L1 State // RPR PING Response Fix Enable EHCI_PCI_Config x54[1] = 1 // RPR Enable empty list mode. x54[3] // RPR Enable "L1 Early Exit" functionality. 0x54 [6:5] = 0x3 0x54 [9:7] = 0x4 // RPR EHCI PING Response Fix Enable 0x54 [1] = 0x1 RWPCI ((UINT32) Value + SB_EHCI_REG54, AccWidthUint32 | S3_SAVE, ~BIT0, 0x0000026b); if ( pConfig->BuildParameters.UsbMsi) { RWPCI ((UINT32) Value + SB_EHCI_REG50, AccWidthUint32 | S3_SAVE, ~BIT6, 0x00); } if (IsSbA12Plus ()) { // RPR 7.24 Long Delay on Framelist Read Causing EHCI DMA to Address 0 - Fix // RWPCI ((UINT32) Value + SB_EHCI_REG54, AccWidthUint32 | S3_SAVE, ~BIT13, BIT13); // RPR 7.25 LS connection can't wake up system from S3/S4/S5 when EHCI owns the port - Fix RWPCI ((UINT32) Value + SB_EHCI_REG54, AccWidthUint32 | S3_SAVE, ~BIT4, BIT4); // RPR 7.30 EHCI lMU Hangs when Run/Stop is Set First and PDC is Enabled Near End uFrame 7 - Fix Enable RWPCI ((UINT32) Value + SB_EHCI_REG54, AccWidthUint32 | S3_SAVE, ~BIT11, BIT11); } // ENH244924: Platform specific Hudson-2/3 settings for all Sabine Platforms // EHCI_PCI_Config 0x50[21]=1 // EHCI_PCI_Config 0x54[9:7] = 0x4 if ( IsGCPU () ) { RWPCI ((UINT32) Value + SB_EHCI_REG50, AccWidthUint32 | S3_SAVE, ~ ((UINT32) (0x01 << 21)), (0x01 << 21)); RWPCI ((UINT32) Value + SB_EHCI_REG54, AccWidthUint32 | S3_SAVE, ~ ((UINT32) (0x07 << 7)), (0x04 << 7)); } // RWMEM (ddBarAddress + SB_EHCI_BAR_REGB0, AccWidthUint32, ~BIT5, BIT5); } else { // Fake Bar ddBarAddress = 0x58830000; WritePCI ((UINT32) Value + SB_EHCI_REG10, AccWidthUint32, &ddBarAddress); //Enable Memory access RWPCI ((UINT32) Value + SB_EHCI_REG04, AccWidthUint8, 0, BIT1); // RPR Enable Global Clock Gating (BIT14) RWMEM (ddBarAddress + SB_EHCI_BAR_REGBC, AccWidthUint32, ~(BIT12 + BIT14), BIT12 + BIT14); RWMEM (ddBarAddress + SB_EHCI_BAR_REGB0, AccWidthUint32, ~BIT5, BIT5); RWPCI ((UINT32) Value + SB_EHCI_REG04, AccWidthUint8, 0, 0); // RWMEM (ddBarAddress + SB_EHCI_BAR_REGB0, AccWidthUint32, ~BIT5, BIT5); } } /** * usb1OhciInitAfterPciInit - Config USB1 OHCI controller after PCI emulation * * * * @param[in] pConfig Southbridge configuration structure pointer. * */ VOID usb1OhciInitAfterPciInit ( IN AMDSBCFG* pConfig ) { UINT32 ddDeviceId; ddDeviceId = (USB1_OHCI_BUS_DEV_FUN << 16); OhciInitAfterPciInit (ddDeviceId, pConfig); RWPCI ((USB1_OHCI_BUS_DEV_FUN << 16) + SB_OHCI_REG78, AccWidthUint32 | S3_SAVE, 0xffffffff, BIT28 + BIT29); } /** * usb2OhciInitAfterPciInit - Config USB2 OHCI controller after PCI emulation * * * * @param[in] pConfig Southbridge configuration structure pointer. * */ VOID usb2OhciInitAfterPciInit ( IN AMDSBCFG* pConfig ) { UINT32 ddDeviceId; ddDeviceId = (USB2_OHCI_BUS_DEV_FUN << 16); OhciInitAfterPciInit (ddDeviceId, pConfig); } /** * usb3OhciInitAfterPciInit - Config USB3 OHCI controller after PCI emulation * * * * @param[in] pConfig Southbridge configuration structure pointer. * */ VOID usb3OhciInitAfterPciInit ( IN AMDSBCFG* pConfig ) { UINT32 ddDeviceId; ddDeviceId = (USB3_OHCI_BUS_DEV_FUN << 16); OhciInitAfterPciInit (ddDeviceId, pConfig); } /** * usb4OhciInitAfterPciInit - Config USB4 OHCI controller after PCI emulation * * * * @param[in] pConfig Southbridge configuration structure pointer. * */ VOID usb4OhciInitAfterPciInit ( IN AMDSBCFG* pConfig ) { UINT32 ddDeviceId; ddDeviceId = (USB4_OHCI_BUS_DEV_FUN << 16); OhciInitAfterPciInit (ddDeviceId, pConfig); if (pConfig->BuildParameters.Ohci4Ssid != 0 ) { RWPCI ((USB4_OHCI_BUS_DEV_FUN << 16) + SB_OHCI_REG2C, AccWidthUint32 | S3_SAVE, 0x00, pConfig->BuildParameters.Ohci4Ssid); } } VOID OhciInitAfterPciInit ( IN UINT32 Value, IN AMDSBCFG* pConfig ) { #ifdef SB_USB_BATTERY_CHARGE_SUPPORT RWPCI ((UINT32) Value + SB_OHCI_REG40 + 6, AccWidthUint8 | S3_SAVE, 0xFF, 0x1F); #endif // Disable the MSI capability of USB host controllers RWPCI ((UINT32) Value + SB_OHCI_REG40 + 1, AccWidthUint8 | S3_SAVE, 0xFF, BIT0); if ((IsSbA11 ()) || (IsSbA12 ())) { RWPCI ((UINT32) Value + SB_OHCI_REG50, AccWidthUint8 | S3_SAVE, ~(BIT0 + BIT5 + BIT12), 0); } else { RWPCI ((UINT32) Value + SB_OHCI_REG50, AccWidthUint8 | S3_SAVE, ~(BIT0 + BIT5 + BIT12), BIT0); } // RPR USB SMI Handshake RWPCI ((UINT32) Value + SB_OHCI_REG50 + 1, AccWidthUint8 | S3_SAVE, ~BIT4, 0x00); if (Value != (USB4_OHCI_BUS_DEV_FUN << 16)) { if ( pConfig->BuildParameters.OhciSsid != 0 ) { RWPCI ((UINT32) Value + SB_OHCI_REG2C, AccWidthUint32 | S3_SAVE, 0x00, pConfig->BuildParameters.OhciSsid); } } //RPR recommended setting to, enable fix to cover the corner case S3 wake up issue from some USB 1.1 devices //OHCI 0_PCI_Config 0x50[30] = 1 RWPCI ((UINT32) Value + SB_OHCI_REG50 + 3, AccWidthUint8 | S3_SAVE, ~BIT6, BIT6); // RPR L1 Early Exit // RPR Set OHCI Arbiter Mode. // RPR Set Enable Global Clock Gating. RWPCI ((UINT32) Value + SB_OHCI_REG80, AccWidthUint8 | S3_SAVE, ~(BIT0 + BIT4 + BIT5 + BIT6 + BIT7), BIT0 + BIT4 + BIT7); // SB02698 RWPCI ((UINT32) Value + SB_OHCI_REG50, AccWidthUint8 | S3_SAVE, ~BIT0, 0); // RPR 7.21 OHCI Arbiter Mode // A13 Remove Arbitor Reset if ( IsSbA12Plus () ) { RWPCI ((UINT32) Value + SB_OHCI_REG80, AccWidthUint16 | S3_SAVE, ~(BIT4 + BIT5 + BIT8), (BIT4 + BIT5 + BIT8)); } else { RWPCI ((UINT32) Value + SB_OHCI_REG80, AccWidthUint16 | S3_SAVE, ~(BIT4 + BIT5), (BIT4)); } // RPR Enable OHCI SOF Synchronization. // RPR Enable OHCI Periodic List Advance. RWPCI ((UINT32) Value + SB_OHCI_REG50 + 2, AccWidthUint8 | S3_SAVE, ~(BIT3 + BIT4), BIT3 + BIT4); if ( pConfig->BuildParameters.UsbMsi) { RWPCI ((UINT32) Value + SB_OHCI_REG40 + 1, AccWidthUint8 | S3_SAVE, ~BIT0, 0x00); RWPCI ((UINT32) Value + SB_OHCI_REG50, AccWidthUint8 | S3_SAVE, ~BIT5, BIT5); } //7.23 USB1.1 full-speed false crc errors detected. Issue - fix enable if ( IsSbA12Plus () ) { RWPCI ((UINT32) Value + SB_OHCI_REG80, AccWidthUint32 | S3_SAVE, (UINT32) (~(0x01 << 10)), (UINT32) (0x01 << 10)); } } UINT32 SetEhciPllWr ( IN UINT32 Value, IN AMDSBCFG* pConfig ) { UINT32 ddRetureValue; UINT32 ddBarAddress; UINT16 dwVar; UINT16 dwData; UINT8 portSC; ddRetureValue = 0; dwData = 0; // Memory, and etc. //_asm { jmp $}; RWPCI ((UINT32) Value + 0xC4, AccWidthUint8, 0xF0, 0x00); RWPCI ((UINT32) Value + 0x04, AccWidthUint8, 0xFF, 0x02); // Get Bar address ReadPCI ((UINT32) Value + 0x10, AccWidthUint32, &ddBarAddress); for (portSC = 0x64; portSC < 0x75; portSC += 0x04 ) { // Get OHCI command registers ReadMEM (ddBarAddress + portSC, AccWidthUint16, &dwVar); if ( dwVar & BIT6 ) { ddRetureValue = ddBarAddress + portSC; RWMEM (ddBarAddress + portSC, AccWidthUint16, ~BIT6, 0); for (;;) { SbStall (5); ReadMEM (ddBarAddress + portSC, AccWidthUint16, &dwData); if (dwData == 0x1005) break; } dwData = 0; } } return ddRetureValue; } #ifdef XHCI_SUPPORT /* VOID XhciInitIndirectReg ( ) { UINT32 ddDrivingStrength; UINT32 port; ddDrivingStrength = 0; port = 0; #ifdef SB_USB_BATTERY_CHARGE_SUPPORT RWXhciIndReg ( 0x40000018, 0xFFFFFFFF, 0x00000030); #endif // // RPR SuperSpeed PHY Configuration (adaptation mode setting) // RWXhciIndReg ( SB_XHCI_IND_REG94, 0xFFFFFC00, 0x00000021); RWXhciIndReg ( SB_XHCI_IND_REGD4, 0xFFFFFC00, 0x00000021); // // RPR SuperSpeed PHY Configuration (CR phase and frequency filter settings) // RWXhciIndReg ( SB_XHCI_IND_REG98, 0xFFFFFFC0, 0x0000000A); RWXhciIndReg ( SB_XHCI_IND_REGD8, 0xFFFFFFC0, 0x0000000A); // // RPR BLM Meaasge // RWXhciIndReg ( SB_XHCI_IND_REG00, 0xF8FFFFFF, 0x07000000); #ifdef USB3_EHCI_DRIVING_STRENGTH // // RPR 8.13 xHCI USB 2.0 PHY Settings // Step 1 is done by hardware default // Step 2 for (port = 0; port < 4; port ++) { ddDrivingStrength = (USB3_EHCI_DRIVING_STRENGTH >> (port * 4)) & 0xF; if (ddDrivingStrength & BIT3) { ddDrivingStrength &= 0x07; if (port < 2) { RWXhci0IndReg ( SB_XHCI_IND60_REG00, 0xFFFE0E78, (port << 13) + ddDrivingStrength); RWXhci0IndReg ( SB_XHCI_IND60_REG00, 0xFFFFEFFF, 0x00001000); } else { RWXhci1IndReg ( SB_XHCI_IND60_REG00, 0xFFFE0E78, ((port - 2) << 13) + ddDrivingStrength); RWXhci1IndReg ( SB_XHCI_IND60_REG00, 0xFFFFEFFF, 0x00001000); } } } #endif #ifdef USB_LOGO_SUPPORT //for D3 USB LOGO [6:0]= 4; [8:7] = 3; [12] = 0; [16:13] port; for (port = 0; port < 4; port ++) { if (port < 2) { RWXhci0IndReg ( SB_XHCI_IND60_REG00, 0xFFFE0E00, (port << 13) + 0x184 ); } else { RWXhci1IndReg ( SB_XHCI_IND60_REG00, 0xFFFE0E00, ((port - 2) << 13) + 0x184 ); } } #endif // Step 3 if (IsSbA11 ()) { RWXhciIndReg ( SB_XHCI_IND60_REG0C, ~ ((UINT32) (0x0f << 8)), ((UINT32) (0x00 << 8))); RWXhciIndReg ( SB_XHCI_IND60_REG08, ~ ((UINT32) (0xff << 8)), ((UINT32) (0x15 << 8))); } else { RWXhciIndReg ( SB_XHCI_IND60_REG0C, ~ ((UINT32) (0x0f << 8)), ((UINT32) (0x02 << 8))); RWXhciIndReg ( SB_XHCI_IND60_REG08, ~ ((UINT32) (0xff << 8)), ((UINT32) (0x0f << 8))); } } */ VOID XhciA12Fix ( VOID ) { // // 8.14 PLUG/UNPLUG of USB 2.0 devices make the XHCI USB 2.0 ports unfunctional - fix enable // ACPI_USB3.0_REG 0x20[12:11] = 2'b11 RWMEM (ACPI_MMIO_BASE + XHCI_BASE + XHCI_ACPI_MMIO_AMD_REG20, AccWidthUint32, ~((UINT32) (0x3 << 11)), (UINT32) (0x3 << 11)); // // 8.15 XHC 2 USB2 ports interactional issue - fix enable // ACPI_USB3.0_REG 0x20[16] = 1'b1 RWMEM (ACPI_MMIO_BASE + XHCI_BASE + XHCI_ACPI_MMIO_AMD_REG20, AccWidthUint32, ~((UINT32) (0x1 << 16)), (UINT32) (0x1 << 16)); // // 8.16 xHCI USB 2.0 Ports Suspend Enhancement // ACPI_USB3.0_REG 0x20[15] = 1'b1 // RWMEM (ACPI_MMIO_BASE + XHCI_BASE + XHCI_ACPI_MMIO_AMD_REG20, AccWidthUint32, ~((UINT32) (0x1 << 15)), (UINT32) (0x1 << 15)); // // 8.17 XHC HS/FS IN Data Buffer Underflow issue - fix enable // ACPI_USB3.0_REG 0x20[20:18] = 0x7 // RWMEM (ACPI_MMIO_BASE + XHCI_BASE + XHCI_ACPI_MMIO_AMD_REG20, AccWidthUint32, ~((UINT32) (0x7 << 18)), (UINT32) (0x7 << 18)); // // 8.18 Allow XHCI to Resume from S3 Enhancement // ACPI_USB3.0_REG 0x98[19] = 1'b1 // RWMEM (ACPI_MMIO_BASE + XHCI_BASE + XHCI_ACPI_MMIO_AMD_REG98, AccWidthUint32, ~((UINT32) (0x1 << 19)), (UINT32) (0x1 << 19)); // // 8.19 Assign xHC1 ( Dev 16 function 1) Interrupt Pin register to INTB# // ACPI_PMIO_F0[18] =1 // RWMEM (ACPI_MMIO_BASE + PMIO_BASE + SB_PMIOA_REGF0, AccWidthUint32, ~((UINT32) (0x1 << 18)), (UINT32) (0x1 << 18)); // // 8.20 Allow B-Link Clock Gating when EHCI3/OHCI3 is only Controller Enabled // ACPI_PMIO_F0[13] =1 // RWMEM (ACPI_MMIO_BASE + PMIO_BASE + SB_PMIOA_REGF0, AccWidthUint32, ~((UINT32) (0x1 << 13)), (UINT32) (0x1 << 13)); // // 8.21 Access register through JTAG fail when switch from XHCI to EHCI/OHCI - Fix enable // ACPI_PMIO_F0[17] =1 // RWMEM (ACPI_MMIO_BASE + PMIO_BASE + SB_PMIOA_REGF0, AccWidthUint32, ~((UINT32) (0x1 << 17)), (UINT32) (0x1 << 17)); // // 8.22 USB leakage current on differential lines when ports are switched to XHCI - Fix enable // ACPI_PMIO_F0[14] =1 // RWMEM (ACPI_MMIO_BASE + PMIO_BASE + SB_PMIOA_REGF0, AccWidthUint32, ~((UINT32) (0x1 << 14)), (UINT32) (0x1 << 14)); // RWMEM (ACPI_MMIO_BASE + SMI_BASE + SB_SMI_xHC0Pme, AccWidthUint16, 0, 0x0B0B); // // 8.26 Fix for Incorrect Gated Signals in xhc_to_s5 // ACPI_PMIO_F0[16] =1 // RWMEM (ACPI_MMIO_BASE + PMIO_BASE + SB_PMIOA_REGF0, AccWidthUint32, ~((UINT32) (0x1 << 16)), (UINT32) (0x1 << 16)); } VOID XhciInitBeforePciInit ( IN AMDSBCFG* pConfig ) { UINT16 BcdAddress; UINT16 BcdSize; UINT16 AcdAddress; UINT16 AcdSize; UINT16 FwAddress; UINT16 FwSize; UINTN XhciFwStarting; UINT32 SpiValidBase; UINT32 RegData; UINT16 i; RWMEM (ACPI_MMIO_BASE + XHCI_BASE + XHCI_ACPI_MMIO_AMD_REG00, AccWidthUint32, 0x00000000, 0x00400700); SbStall (20); // // Get ROM SIG starting address for USB firmware starting address (offset 0x0C to SIG address) // GetRomSigPtr (&XhciFwStarting); if (XhciFwStarting == 0) { return; } XhciFwStarting = ACPIMMIO32 (XhciFwStarting + FW_TO_SIGADDR_OFFSET); if (IsLpcRom ()) { //XHCI firmware re-load RWPCI ((LPC_BUS_DEV_FUN << 16) + SB_LPC_REGCC, AccWidthUint32 | S3_SAVE, ~BIT2, (BIT2 + BIT1 + BIT0)); RWPCI ((LPC_BUS_DEV_FUN << 16) + SB_LPC_REGCC, AccWidthUint32 | S3_SAVE, 0x00000FFF, (UINT32) (XhciFwStarting)); } // // RPR Enable SuperSpeed receive special error case logic. 0x20 bit8 // RPR Enable USB2.0 RX_Valid Synchronization. 0x20 bit9 // Enable USB2.0 DIN/SE0 Synchronization. 0x20 bit10 // RWMEM (ACPI_MMIO_BASE + XHCI_BASE + XHCI_ACPI_MMIO_AMD_REG20, AccWidthUint32, 0xFFFFF8FF, 0x00000700); // // RPR SuperSpeed PHY Configuration (adaptation timer setting) // RWMEM (ACPI_MMIO_BASE + XHCI_BASE + XHCI_ACPI_MMIO_AMD_REG90, AccWidthUint32, 0xFFF00000, 0x000AAAAA); //RWMEM (ACPI_MMIO_BASE + XHCI_BASE + XHCI_ACPI_MMIO_AMD_REG90 + 0x40, AccWidthUint32, 0xFFF00000, 0x000AAAAA); // // Step 1. to enable Xhci IO and Firmware load mode // #ifdef XHCI_SUPPORT_ONE_CONTROLLER RWMEM (ACPI_MMIO_BASE + XHCI_BASE + XHCI_ACPI_MMIO_AMD_REG00, AccWidthUint32, 0xF0FFFFFC, 0x00000001); #else RWMEM (ACPI_MMIO_BASE + XHCI_BASE + XHCI_ACPI_MMIO_AMD_REG00, AccWidthUint32, 0xF0FFFFFC, 0x00000003); #endif RWMEM (ACPI_MMIO_BASE + XHCI_BASE + XHCI_ACPI_MMIO_AMD_REG00, AccWidthUint32, 0xEFFFFFFF, 0x10000000); // // Step 2. to read a portion of the USB3_APPLICATION_CODE from BIOS ROM area and program certain registers. // RWMEM (ACPI_MMIO_BASE + XHCI_BASE + XHCI_ACPI_MMIO_AMD_REGA0, AccWidthUint32, 0x00000000, (SPI_HEAD_LENGTH << 16)); BcdAddress = ACPIMMIO16 (XhciFwStarting + BCD_ADDR_OFFSET); BcdSize = ACPIMMIO16 (XhciFwStarting + BCD_SIZE_OFFSET); RWMEM (ACPI_MMIO_BASE + XHCI_BASE + XHCI_ACPI_MMIO_AMD_REGA4, AccWidthUint16, 0x0000, BcdAddress); RWMEM (ACPI_MMIO_BASE + XHCI_BASE + XHCI_ACPI_MMIO_AMD_REGA4 + 2, AccWidthUint16, 0x0000, BcdSize); AcdAddress = ACPIMMIO16 (XhciFwStarting + ACD_ADDR_OFFSET); AcdSize = ACPIMMIO16 (XhciFwStarting + ACD_SIZE_OFFSET); RWMEM (ACPI_MMIO_BASE + XHCI_BASE + XHCI_ACPI_MMIO_AMD_REGA8, AccWidthUint16, 0x0000, AcdAddress); RWMEM (ACPI_MMIO_BASE + XHCI_BASE + XHCI_ACPI_MMIO_AMD_REGA8 + 2, AccWidthUint16, 0x0000, AcdSize); SpiValidBase = SPI_BASE2 (XhciFwStarting + 4) | SPI_BAR0_VLD | SPI_BASE0 | SPI_BAR1_VLD | SPI_BASE1 | SPI_BAR2_VLD; RWMEM (ACPI_MMIO_BASE + XHCI_BASE + XHCI_ACPI_MMIO_AMD_REGB0, AccWidthUint32, 0x00000000, SpiValidBase); // // Copy Type0/1/2 data block from ROM image to MMIO starting from 0xC0 // for (i = 0; i < SPI_HEAD_LENGTH; i++) { RWMEM (ACPI_MMIO_BASE + XHCI_BASE + XHCI_ACPI_MMIO_AMD_REGC0 + i, AccWidthUint8, 0, ACPIMMIO8 (XhciFwStarting + i)); } for (i = 0; i < BcdSize; i++) { RWMEM (ACPI_MMIO_BASE + XHCI_BASE + XHCI_ACPI_MMIO_AMD_REGC0 + SPI_HEAD_LENGTH + i, AccWidthUint8, 0, ACPIMMIO8 (XhciFwStarting + BcdAddress + i)); } for (i = 0; i < AcdSize; i++) { RWMEM (ACPI_MMIO_BASE + XHCI_BASE + XHCI_ACPI_MMIO_AMD_REGC0 + SPI_HEAD_LENGTH + BcdSize + i, AccWidthUint8, 0, ACPIMMIO8 (XhciFwStarting + AcdAddress + i)); } // // Step 3. to enable the instruction RAM preload functionality. // FwAddress = ACPIMMIO16 (XhciFwStarting + FW_ADDR_OFFSET); RWMEM (ACPI_MMIO_BASE + XHCI_BASE + XHCI_ACPI_MMIO_AMD_REGB4, AccWidthUint16, 0x0000, ACPIMMIO16 (XhciFwStarting + FwAddress)); FwAddress += 2; RWMEM (ACPI_MMIO_BASE + XHCI_BASE + XHCI_ACPI_MMIO_AMD_REG04, AccWidthUint16, 0x0000, FwAddress); FwSize = ACPIMMIO16 (XhciFwStarting + FW_SIZE_OFFSET); RWMEM (ACPI_MMIO_BASE + XHCI_BASE + XHCI_ACPI_MMIO_AMD_REG04 + 2, AccWidthUint16, 0x0000, FwSize); // // Set the starting address offset for Instruction RAM preload. // RWMEM (ACPI_MMIO_BASE + XHCI_BASE + XHCI_ACPI_MMIO_AMD_REG08, AccWidthUint16, 0x0000, 0); RWMEM (ACPI_MMIO_BASE + XHCI_BASE + XHCI_ACPI_MMIO_AMD_REG00, AccWidthUint32, ~BIT29, BIT29); for (;;) { ReadMEM (ACPI_MMIO_BASE + XHCI_BASE + XHCI_ACPI_MMIO_AMD_REG00 , AccWidthUint32, &RegData); if (RegData & BIT30) break; } RWMEM (ACPI_MMIO_BASE + XHCI_BASE + XHCI_ACPI_MMIO_AMD_REG00, AccWidthUint32, ~BIT29, 0); // // Step 4. to release resets in XHCI_ACPI_MMIO_AMD_REG00. wait for USPLL to lock by polling USPLL lock. // RWMEM (ACPI_MMIO_BASE + XHCI_BASE + XHCI_ACPI_MMIO_AMD_REG00, AccWidthUint32, ~U3PLL_RESET, 0); //Release U3PLLreset for (;;) { ReadMEM (ACPI_MMIO_BASE + XHCI_BASE + XHCI_ACPI_MMIO_AMD_REG00 , AccWidthUint32, &RegData); if (RegData & U3PLL_LOCK) break; } RWMEM (ACPI_MMIO_BASE + XHCI_BASE + XHCI_ACPI_MMIO_AMD_REG00, AccWidthUint32, ~U3PHY_RESET, 0); //Release U3PHY RWMEM (ACPI_MMIO_BASE + XHCI_BASE + XHCI_ACPI_MMIO_AMD_REG00, AccWidthUint32, ~U3CORE_RESET, 0); //Release core reset // RPR 8.8 SuperSpeed PHY Configuration, it is only for A11. if (IsSbA11 ()) { RWMEM (ACPI_MMIO_BASE + XHCI_BASE + XHCI_ACPI_MMIO_AMD_REG90, AccWidthUint32, 0xFFF00000, 0x000AAAAA); // RWMEM (ACPI_MMIO_BASE + XHCI_BASE + XHCI_ACPI_MMIO_AMD_REGD0, AccWidthUint32, 0xFFF00000, 0x000AAAAA); // } XhciInitIndirectReg (); RWMEM (ACPI_MMIO_BASE + PMIO_BASE + SB_PMIOA_REGEF, AccWidthUint8, ~(BIT4 + BIT5), 0); // Disable Device 22 RWMEM (ACPI_MMIO_BASE + PMIO_BASE + SB_PMIOA_REGEF, AccWidthUint8, ~(BIT7), BIT7); // Enable 2.0 devices if (!(pConfig->S4Resume)) { RWMEM (ACPI_MMIO_BASE + XHCI_BASE + XHCI_ACPI_MMIO_AMD_REG00, AccWidthUint32, ~(BIT21), BIT21); //SMI } // // Step 5. // RWMEM (ACPI_MMIO_BASE + XHCI_BASE + XHCI_ACPI_MMIO_AMD_REG00, AccWidthUint32, ~(BIT17 + BIT18 + BIT19), BIT17 + BIT18); // Step 5. if (IsSbA12Plus ()) { XhciA12Fix (); } //8.22 UMI Lane Configuration Information for XHCI Firmware to Calculate the Bandwidth for USB 3.0 ISOC Devices if (!(IsUmiOneLaneGen1Mode ())) { RWMEM (ACPI_MMIO_BASE + XHCI_BASE + XHCI_ACPI_MMIO_AMD_REG20, AccWidthUint32, ~(BIT25 + BIT24), BIT24); } } VOID XhciInitAfterPciInit ( IN AMDSBCFG* pConfig ) { // RPR8.12 Block Write to DID & SID to pass DTM RWXhciIndReg ( SB_XHCI_IND_REG04, ~BIT8, BIT8); if (IsSbA13Plus ()) { //8.23 FS/LS devices not functional after resume from S4 fix enable (SB02699) RWMEM (ACPI_MMIO_BASE + XHCI_BASE + XHCI_ACPI_MMIO_AMD_REG20, AccWidthUint32, ~(BIT22), BIT22); } //8.24 XHC USB2.0 Hub disable issue fix enable (SB02702) RWMEM (ACPI_MMIO_BASE + XHCI_BASE + XHCI_ACPI_MMIO_AMD_REGB4, AccWidthUint32, ~(BIT20), BIT20); } VOID XhciInitLate ( IN AMDSBCFG* pConfig ) { //OBS221599: USB 3.0 controller shows bang in Windows Device Manager UINT8 Data; if ( IsSbA11 () ) { Data = 0xB5; // WriteIO (SB_IOMAP_REGC00, AccWidthUint8, &Data); Data = 0x12; // WriteIO (SB_IOMAP_REGC01, AccWidthUint8, &Data); } if (pConfig->S4Resume) { RWMEM (ACPI_MMIO_BASE + XHCI_BASE + XHCI_ACPI_MMIO_AMD_REG00, AccWidthUint32, ~(BIT21), BIT21); //SMI SbFlashUsbSmi (); } } #endif