/** @file This file contains the definination for host controller register operation routines. Copyright (c) 2007 - 2012, Intel Corporation. All rights reserved.
SPDX-License-Identifier: BSD-2-Clause-Patent **/ #ifndef _EFI_EHCI_REG_H_ #define _EFI_EHCI_REG_H_ // // EHCI register offset // // // Capability register offset // #define EHC_CAPLENGTH_OFFSET 0 // Capability register length offset #define EHC_HCSPARAMS_OFFSET 0x04 // Structural Parameters 04-07h #define EHC_HCCPARAMS_OFFSET 0x08 // Capability parameters offset // // Capability register bit definition // #define HCSP_NPORTS 0x0F // Number of root hub port #define HCSP_PPC 0x10 // Port Power Control #define HCCP_64BIT 0x01 // 64-bit addressing capability // // Operational register offset // #define EHC_USBCMD_OFFSET 0x0 // USB command register offset #define EHC_USBSTS_OFFSET 0x04 // Statue register offset #define EHC_USBINTR_OFFSET 0x08 // USB interrutp offset #define EHC_FRINDEX_OFFSET 0x0C // Frame index offset #define EHC_CTRLDSSEG_OFFSET 0x10 // Control data structure segment offset #define EHC_FRAME_BASE_OFFSET 0x14 // Frame list base address offset #define EHC_ASYNC_HEAD_OFFSET 0x18 // Next asynchronous list address offset #define EHC_CONFIG_FLAG_OFFSET 0x40 // Configure flag register offset #define EHC_PORT_STAT_OFFSET 0x44 // Port status/control offset #define EHC_FRAME_LEN 1024 // // Register bit definition // #define CONFIGFLAG_ROUTE_EHC 0x01 // Route port to EHC #define USBCMD_RUN 0x01 // Run/stop #define USBCMD_RESET 0x02 // Start the host controller reset #define USBCMD_ENABLE_PERIOD 0x10 // Enable periodic schedule #define USBCMD_ENABLE_ASYNC 0x20 // Enable asynchronous schedule #define USBCMD_IAAD 0x40 // Interrupt on async advance doorbell #define USBSTS_IAA 0x20 // Interrupt on async advance #define USBSTS_PERIOD_ENABLED 0x4000 // Periodic schedule status #define USBSTS_ASYNC_ENABLED 0x8000 // Asynchronous schedule status #define USBSTS_HALT 0x1000 // Host controller halted #define USBSTS_SYS_ERROR 0x10 // Host system error #define USBSTS_INTACK_MASK 0x003F // Mask for the interrupt ACK, the WC // (write clean) bits in USBSTS register #define PORTSC_CONN 0x01 // Current Connect Status #define PORTSC_CONN_CHANGE 0x02 // Connect Status Change #define PORTSC_ENABLED 0x04 // Port Enable / Disable #define PORTSC_ENABLE_CHANGE 0x08 // Port Enable / Disable Change #define PORTSC_OVERCUR 0x10 // Over current Active #define PORTSC_OVERCUR_CHANGE 0x20 // Over current Change #define PORSTSC_RESUME 0x40 // Force Port Resume #define PORTSC_SUSPEND 0x80 // Port Suspend State #define PORTSC_RESET 0x100 // Port Reset #define PORTSC_LINESTATE_K 0x400 // Line Status K-state #define PORTSC_LINESTATE_J 0x800 // Line Status J-state #define PORTSC_POWER 0x1000 // Port Power #define PORTSC_OWNER 0x2000 // Port Owner #define PORTSC_CHANGE_MASK 0x2A // Mask of the port change bits, // they are WC (write clean) // // PCI Configuration Registers // #define EHC_BAR_INDEX 0 // how many bytes away from USB_BASE to 0x10 // // Debug port capability id // #define EHC_DEBUG_PORT_CAP_ID 0x0A #define EHC_LINK_TERMINATED(Link) (((Link) & 0x01) != 0) #define EHC_ADDR(High, QhHw32) \ ((VOID *) (UINTN) (LShiftU64 ((High), 32) | ((QhHw32) & 0xFFFFFFF0))) #define EHCI_IS_DATAIN(EndpointAddr) EHC_BIT_IS_SET((EndpointAddr), 0x80) // // Structure to map the hardware port states to the // UEFI's port states. // typedef struct { UINT16 HwState; UINT16 UefiState; } USB_PORT_STATE_MAP; // // Ehci Data and Ctrl Structures // #pragma pack(1) typedef struct { UINT8 ProgInterface; UINT8 SubClassCode; UINT8 BaseCode; } USB_CLASSC; #pragma pack() /** Read EHCI capability register. @param Ehc The EHCI device. @param Offset Capability register address. @return The register content. **/ UINT32 EhcReadCapRegister ( IN USB2_HC_DEV *Ehc, IN UINT32 Offset ); /** Check whether the host controller has an in-use debug port. @param[in] Ehc The Enhanced Host Controller to query. @param[in] PortNumber If PortNumber is not NULL, then query whether PortNumber is an in-use debug port on Ehc. (PortNumber is taken in UEFI notation, i.e., zero-based.) Otherwise, query whether Ehc has any in-use debug port. @retval TRUE PortNumber is an in-use debug port on Ehc (if PortNumber is not NULL), or some port on Ehc is an in-use debug port (otherwise). @retval FALSE PortNumber is not an in-use debug port on Ehc (if PortNumber is not NULL), or no port on Ehc is an in-use debug port (otherwise). **/ BOOLEAN EhcIsDebugPortInUse ( IN CONST USB2_HC_DEV *Ehc, IN CONST UINT8 *PortNumber OPTIONAL ); /** Read EHCI Operation register. @param Ehc The EHCI device. @param Offset The operation register offset. @return The register content. **/ UINT32 EhcReadOpReg ( IN USB2_HC_DEV *Ehc, IN UINT32 Offset ); /** Write the data to the EHCI operation register. @param Ehc The EHCI device. @param Offset EHCI operation register offset. @param Data The data to write. **/ VOID EhcWriteOpReg ( IN USB2_HC_DEV *Ehc, IN UINT32 Offset, IN UINT32 Data ); /** Set one bit of the operational register while keeping other bits. @param Ehc The EHCI device. @param Offset The offset of the operational register. @param Bit The bit mask of the register to set. **/ VOID EhcSetOpRegBit ( IN USB2_HC_DEV *Ehc, IN UINT32 Offset, IN UINT32 Bit ); /** Clear one bit of the operational register while keeping other bits. @param Ehc The EHCI device. @param Offset The offset of the operational register. @param Bit The bit mask of the register to clear. **/ VOID EhcClearOpRegBit ( IN USB2_HC_DEV *Ehc, IN UINT32 Offset, IN UINT32 Bit ); /** Add support for UEFI Over Legacy (UoL) feature, stop the legacy USB SMI support. @param Ehc The EHCI device. **/ VOID EhcClearLegacySupport ( IN USB2_HC_DEV *Ehc ); /** Set door bell and wait it to be ACKed by host controller. This function is used to synchronize with the hardware. @param Ehc The EHCI device. @param Timeout The time to wait before abort (in millisecond, ms). @retval EFI_SUCCESS Synchronized with the hardware. @retval EFI_TIMEOUT Time out happened while waiting door bell to set. **/ EFI_STATUS EhcSetAndWaitDoorBell ( IN USB2_HC_DEV *Ehc, IN UINT32 Timeout ); /** Clear all the interrutp status bits, these bits are Write-Clean. @param Ehc The EHCI device. **/ VOID EhcAckAllInterrupt ( IN USB2_HC_DEV *Ehc ); /** Whether Ehc is halted. @param Ehc The EHCI device. @retval TRUE The controller is halted. @retval FALSE It isn't halted. **/ BOOLEAN EhcIsHalt ( IN USB2_HC_DEV *Ehc ); /** Whether system error occurred. @param Ehc The EHCI device. @retval TRUE System error happened. @retval FALSE No system error. **/ BOOLEAN EhcIsSysError ( IN USB2_HC_DEV *Ehc ); /** Reset the host controller. @param Ehc The EHCI device. @param Timeout Time to wait before abort (in millisecond, ms). @retval EFI_SUCCESS The host controller is reset. @return Others Failed to reset the host. **/ EFI_STATUS EhcResetHC ( IN USB2_HC_DEV *Ehc, IN UINT32 Timeout ); /** Halt the host controller. @param Ehc The EHCI device. @param Timeout Time to wait before abort. @return EFI_SUCCESS The EHCI is halt. @return EFI_TIMEOUT Failed to halt the controller before Timeout. **/ EFI_STATUS EhcHaltHC ( IN USB2_HC_DEV *Ehc, IN UINT32 Timeout ); /** Set the EHCI to run. @param Ehc The EHCI device. @param Timeout Time to wait before abort. @return EFI_SUCCESS The EHCI is running. @return Others Failed to set the EHCI to run. **/ EFI_STATUS EhcRunHC ( IN USB2_HC_DEV *Ehc, IN UINT32 Timeout ); /** Initialize the HC hardware. EHCI spec lists the five things to do to initialize the hardware: 1. Program CTRLDSSEGMENT 2. Set USBINTR to enable interrupts 3. Set periodic list base 4. Set USBCMD, interrupt threshold, frame list size etc 5. Write 1 to CONFIGFLAG to route all ports to EHCI @param Ehc The EHCI device. @return EFI_SUCCESS The EHCI has come out of halt state. @return EFI_TIMEOUT Time out happened. **/ EFI_STATUS EhcInitHC ( IN USB2_HC_DEV *Ehc ); #endif