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1822 1823 1824 1825 1826 1827 1828 1829 1830 1831 1832 1833 1834 1835 1836 1837 1838 1839 1840 1841 1842 1843 1844 1845 1846 1847 | /* SPDX-License-Identifier: GPL-2.0 */ /* * Octeon HCD hardware register definitions. * * This file is subject to the terms and conditions of the GNU General Public * License. See the file "COPYING" in the main directory of this archive * for more details. * * Some parts of the code were originally released under BSD license: * * Copyright (c) 2003-2010 Cavium Networks (support@cavium.com). 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 Cavium Networks 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, including technical data, may be subject to U.S. export * control laws, including the U.S. Export Administration Act and its associated * regulations, and may be subject to export or import regulations in other * countries. * * TO THE MAXIMUM EXTENT PERMITTED BY LAW, THE SOFTWARE IS PROVIDED "AS IS" * AND WITH ALL FAULTS AND CAVIUM NETWORKS MAKES NO PROMISES, REPRESENTATIONS OR * WARRANTIES, EITHER EXPRESS, IMPLIED, STATUTORY, OR OTHERWISE, WITH RESPECT TO * THE SOFTWARE, INCLUDING ITS CONDITION, ITS CONFORMITY TO ANY REPRESENTATION * OR DESCRIPTION, OR THE EXISTENCE OF ANY LATENT OR PATENT DEFECTS, AND CAVIUM * SPECIFICALLY DISCLAIMS ALL IMPLIED (IF ANY) WARRANTIES OF TITLE, * MERCHANTABILITY, NONINFRINGEMENT, FITNESS FOR A PARTICULAR PURPOSE, LACK OF * VIRUSES, ACCURACY OR COMPLETENESS, QUIET ENJOYMENT, QUIET POSSESSION OR * CORRESPONDENCE TO DESCRIPTION. THE ENTIRE RISK ARISING OUT OF USE OR * PERFORMANCE OF THE SOFTWARE LIES WITH YOU. */ #ifndef __OCTEON_HCD_H__ #define __OCTEON_HCD_H__ #include <asm/bitfield.h> #define CVMX_USBCXBASE 0x00016F0010000000ull #define CVMX_USBCXREG1(reg, bid) \ (CVMX_ADD_IO_SEG(CVMX_USBCXBASE | reg) + \ ((bid) & 1) * 0x100000000000ull) #define CVMX_USBCXREG2(reg, bid, off) \ (CVMX_ADD_IO_SEG(CVMX_USBCXBASE | reg) + \ (((off) & 7) + ((bid) & 1) * 0x8000000000ull) * 32) #define CVMX_USBCX_GAHBCFG(bid) CVMX_USBCXREG1(0x008, bid) #define CVMX_USBCX_GHWCFG3(bid) CVMX_USBCXREG1(0x04c, bid) #define CVMX_USBCX_GINTMSK(bid) CVMX_USBCXREG1(0x018, bid) #define CVMX_USBCX_GINTSTS(bid) CVMX_USBCXREG1(0x014, bid) #define CVMX_USBCX_GNPTXFSIZ(bid) CVMX_USBCXREG1(0x028, bid) #define CVMX_USBCX_GNPTXSTS(bid) CVMX_USBCXREG1(0x02c, bid) #define CVMX_USBCX_GOTGCTL(bid) CVMX_USBCXREG1(0x000, bid) #define CVMX_USBCX_GRSTCTL(bid) CVMX_USBCXREG1(0x010, bid) #define CVMX_USBCX_GRXFSIZ(bid) CVMX_USBCXREG1(0x024, bid) #define CVMX_USBCX_GRXSTSPH(bid) CVMX_USBCXREG1(0x020, bid) #define CVMX_USBCX_GUSBCFG(bid) CVMX_USBCXREG1(0x00c, bid) #define CVMX_USBCX_HAINT(bid) CVMX_USBCXREG1(0x414, bid) #define CVMX_USBCX_HAINTMSK(bid) CVMX_USBCXREG1(0x418, bid) #define CVMX_USBCX_HCCHARX(off, bid) CVMX_USBCXREG2(0x500, bid, off) #define CVMX_USBCX_HCFG(bid) CVMX_USBCXREG1(0x400, bid) #define CVMX_USBCX_HCINTMSKX(off, bid) CVMX_USBCXREG2(0x50c, bid, off) #define CVMX_USBCX_HCINTX(off, bid) CVMX_USBCXREG2(0x508, bid, off) #define CVMX_USBCX_HCSPLTX(off, bid) CVMX_USBCXREG2(0x504, bid, off) #define CVMX_USBCX_HCTSIZX(off, bid) CVMX_USBCXREG2(0x510, bid, off) #define CVMX_USBCX_HFIR(bid) CVMX_USBCXREG1(0x404, bid) #define CVMX_USBCX_HFNUM(bid) CVMX_USBCXREG1(0x408, bid) #define CVMX_USBCX_HPRT(bid) CVMX_USBCXREG1(0x440, bid) #define CVMX_USBCX_HPTXFSIZ(bid) CVMX_USBCXREG1(0x100, bid) #define CVMX_USBCX_HPTXSTS(bid) CVMX_USBCXREG1(0x410, bid) #define CVMX_USBNXBID1(bid) (((bid) & 1) * 0x10000000ull) #define CVMX_USBNXBID2(bid) (((bid) & 1) * 0x100000000000ull) #define CVMX_USBNXREG1(reg, bid) \ (CVMX_ADD_IO_SEG(0x0001180068000000ull | reg) + CVMX_USBNXBID1(bid)) #define CVMX_USBNXREG2(reg, bid) \ (CVMX_ADD_IO_SEG(0x00016F0000000000ull | reg) + CVMX_USBNXBID2(bid)) #define CVMX_USBNX_CLK_CTL(bid) CVMX_USBNXREG1(0x10, bid) #define CVMX_USBNX_DMA0_INB_CHN0(bid) CVMX_USBNXREG2(0x818, bid) #define CVMX_USBNX_DMA0_OUTB_CHN0(bid) CVMX_USBNXREG2(0x858, bid) #define CVMX_USBNX_USBP_CTL_STATUS(bid) CVMX_USBNXREG1(0x18, bid) /** * cvmx_usbc#_gahbcfg * * Core AHB Configuration Register (GAHBCFG) * * This register can be used to configure the core after power-on or a change in * mode of operation. This register mainly contains AHB system-related * configuration parameters. The AHB is the processor interface to the O2P USB * core. In general, software need not know about this interface except to * program the values as specified. * * The application must program this register as part of the O2P USB core * initialization. Do not change this register after the initial programming. */ union cvmx_usbcx_gahbcfg { u32 u32; /** * struct cvmx_usbcx_gahbcfg_s * @ptxfemplvl: Periodic TxFIFO Empty Level (PTxFEmpLvl) * Software should set this bit to 0x1. * Indicates when the Periodic TxFIFO Empty Interrupt bit in the * Core Interrupt register (GINTSTS.PTxFEmp) is triggered. This * bit is used only in Slave mode. * * 1'b0: GINTSTS.PTxFEmp interrupt indicates that the Periodic * TxFIFO is half empty * * 1'b1: GINTSTS.PTxFEmp interrupt indicates that the Periodic * TxFIFO is completely empty * @nptxfemplvl: Non-Periodic TxFIFO Empty Level (NPTxFEmpLvl) * Software should set this bit to 0x1. * Indicates when the Non-Periodic TxFIFO Empty Interrupt bit in * the Core Interrupt register (GINTSTS.NPTxFEmp) is triggered. * This bit is used only in Slave mode. * * 1'b0: GINTSTS.NPTxFEmp interrupt indicates that the Non- * Periodic TxFIFO is half empty * * 1'b1: GINTSTS.NPTxFEmp interrupt indicates that the Non- * Periodic TxFIFO is completely empty * @dmaen: DMA Enable (DMAEn) * * 1'b0: Core operates in Slave mode * * 1'b1: Core operates in a DMA mode * @hbstlen: Burst Length/Type (HBstLen) * This field has not effect and should be left as 0x0. * @glblintrmsk: Global Interrupt Mask (GlblIntrMsk) * Software should set this field to 0x1. * The application uses this bit to mask or unmask the interrupt * line assertion to itself. Irrespective of this bit's setting, * the interrupt status registers are updated by the core. * * 1'b0: Mask the interrupt assertion to the application. * * 1'b1: Unmask the interrupt assertion to the application. */ struct cvmx_usbcx_gahbcfg_s { __BITFIELD_FIELD(u32 reserved_9_31 : 23, __BITFIELD_FIELD(u32 ptxfemplvl : 1, __BITFIELD_FIELD(u32 nptxfemplvl : 1, __BITFIELD_FIELD(u32 reserved_6_6 : 1, __BITFIELD_FIELD(u32 dmaen : 1, __BITFIELD_FIELD(u32 hbstlen : 4, __BITFIELD_FIELD(u32 glblintrmsk : 1, ;))))))) } s; }; /** * cvmx_usbc#_ghwcfg3 * * User HW Config3 Register (GHWCFG3) * * This register contains the configuration options of the O2P USB core. */ union cvmx_usbcx_ghwcfg3 { u32 u32; /** * struct cvmx_usbcx_ghwcfg3_s * @dfifodepth: DFIFO Depth (DfifoDepth) * This value is in terms of 32-bit words. * * Minimum value is 32 * * Maximum value is 32768 * @ahbphysync: AHB and PHY Synchronous (AhbPhySync) * Indicates whether AHB and PHY clocks are synchronous to * each other. * * 1'b0: No * * 1'b1: Yes * This bit is tied to 1. * @rsttype: Reset Style for Clocked always Blocks in RTL (RstType) * * 1'b0: Asynchronous reset is used in the core * * 1'b1: Synchronous reset is used in the core * @optfeature: Optional Features Removed (OptFeature) * Indicates whether the User ID register, GPIO interface ports, * and SOF toggle and counter ports were removed for gate count * optimization. * @vendor_control_interface_support: Vendor Control Interface Support * * 1'b0: Vendor Control Interface is not available on the core. * * 1'b1: Vendor Control Interface is available. * @i2c_selection: I2C Selection * * 1'b0: I2C Interface is not available on the core. * * 1'b1: I2C Interface is available on the core. * @otgen: OTG Function Enabled (OtgEn) * The application uses this bit to indicate the O2P USB core's * OTG capabilities. * * 1'b0: Not OTG capable * * 1'b1: OTG Capable * @pktsizewidth: Width of Packet Size Counters (PktSizeWidth) * * 3'b000: 4 bits * * 3'b001: 5 bits * * 3'b010: 6 bits * * 3'b011: 7 bits * * 3'b100: 8 bits * * 3'b101: 9 bits * * 3'b110: 10 bits * * Others: Reserved * @xfersizewidth: Width of Transfer Size Counters (XferSizeWidth) * * 4'b0000: 11 bits * * 4'b0001: 12 bits * - ... * * 4'b1000: 19 bits * * Others: Reserved */ struct cvmx_usbcx_ghwcfg3_s { __BITFIELD_FIELD(u32 dfifodepth : 16, __BITFIELD_FIELD(u32 reserved_13_15 : 3, __BITFIELD_FIELD(u32 ahbphysync : 1, __BITFIELD_FIELD(u32 rsttype : 1, __BITFIELD_FIELD(u32 optfeature : 1, __BITFIELD_FIELD(u32 vendor_control_interface_support : 1, __BITFIELD_FIELD(u32 i2c_selection : 1, __BITFIELD_FIELD(u32 otgen : 1, __BITFIELD_FIELD(u32 pktsizewidth : 3, __BITFIELD_FIELD(u32 xfersizewidth : 4, ;)))))))))) } s; }; /** * cvmx_usbc#_gintmsk * * Core Interrupt Mask Register (GINTMSK) * * This register works with the Core Interrupt register to interrupt the * application. When an interrupt bit is masked, the interrupt associated with * that bit will not be generated. However, the Core Interrupt (GINTSTS) * register bit corresponding to that interrupt will still be set. * Mask interrupt: 1'b0, Unmask interrupt: 1'b1 */ union cvmx_usbcx_gintmsk { u32 u32; /** * struct cvmx_usbcx_gintmsk_s * @wkupintmsk: Resume/Remote Wakeup Detected Interrupt Mask * (WkUpIntMsk) * @sessreqintmsk: Session Request/New Session Detected Interrupt Mask * (SessReqIntMsk) * @disconnintmsk: Disconnect Detected Interrupt Mask (DisconnIntMsk) * @conidstschngmsk: Connector ID Status Change Mask (ConIDStsChngMsk) * @ptxfempmsk: Periodic TxFIFO Empty Mask (PTxFEmpMsk) * @hchintmsk: Host Channels Interrupt Mask (HChIntMsk) * @prtintmsk: Host Port Interrupt Mask (PrtIntMsk) * @fetsuspmsk: Data Fetch Suspended Mask (FetSuspMsk) * @incomplpmsk: Incomplete Periodic Transfer Mask (incomplPMsk) * Incomplete Isochronous OUT Transfer Mask * (incompISOOUTMsk) * @incompisoinmsk: Incomplete Isochronous IN Transfer Mask * (incompISOINMsk) * @oepintmsk: OUT Endpoints Interrupt Mask (OEPIntMsk) * @inepintmsk: IN Endpoints Interrupt Mask (INEPIntMsk) * @epmismsk: Endpoint Mismatch Interrupt Mask (EPMisMsk) * @eopfmsk: End of Periodic Frame Interrupt Mask (EOPFMsk) * @isooutdropmsk: Isochronous OUT Packet Dropped Interrupt Mask * (ISOOutDropMsk) * @enumdonemsk: Enumeration Done Mask (EnumDoneMsk) * @usbrstmsk: USB Reset Mask (USBRstMsk) * @usbsuspmsk: USB Suspend Mask (USBSuspMsk) * @erlysuspmsk: Early Suspend Mask (ErlySuspMsk) * @i2cint: I2C Interrupt Mask (I2CINT) * @ulpickintmsk: ULPI Carkit Interrupt Mask (ULPICKINTMsk) * I2C Carkit Interrupt Mask (I2CCKINTMsk) * @goutnakeffmsk: Global OUT NAK Effective Mask (GOUTNakEffMsk) * @ginnakeffmsk: Global Non-Periodic IN NAK Effective Mask * (GINNakEffMsk) * @nptxfempmsk: Non-Periodic TxFIFO Empty Mask (NPTxFEmpMsk) * @rxflvlmsk: Receive FIFO Non-Empty Mask (RxFLvlMsk) * @sofmsk: Start of (micro)Frame Mask (SofMsk) * @otgintmsk: OTG Interrupt Mask (OTGIntMsk) * @modemismsk: Mode Mismatch Interrupt Mask (ModeMisMsk) */ struct cvmx_usbcx_gintmsk_s { __BITFIELD_FIELD(u32 wkupintmsk : 1, __BITFIELD_FIELD(u32 sessreqintmsk : 1, __BITFIELD_FIELD(u32 disconnintmsk : 1, __BITFIELD_FIELD(u32 conidstschngmsk : 1, __BITFIELD_FIELD(u32 reserved_27_27 : 1, __BITFIELD_FIELD(u32 ptxfempmsk : 1, __BITFIELD_FIELD(u32 hchintmsk : 1, __BITFIELD_FIELD(u32 prtintmsk : 1, __BITFIELD_FIELD(u32 reserved_23_23 : 1, __BITFIELD_FIELD(u32 fetsuspmsk : 1, __BITFIELD_FIELD(u32 incomplpmsk : 1, __BITFIELD_FIELD(u32 incompisoinmsk : 1, __BITFIELD_FIELD(u32 oepintmsk : 1, __BITFIELD_FIELD(u32 inepintmsk : 1, __BITFIELD_FIELD(u32 epmismsk : 1, __BITFIELD_FIELD(u32 reserved_16_16 : 1, __BITFIELD_FIELD(u32 eopfmsk : 1, __BITFIELD_FIELD(u32 isooutdropmsk : 1, __BITFIELD_FIELD(u32 enumdonemsk : 1, __BITFIELD_FIELD(u32 usbrstmsk : 1, __BITFIELD_FIELD(u32 usbsuspmsk : 1, __BITFIELD_FIELD(u32 erlysuspmsk : 1, __BITFIELD_FIELD(u32 i2cint : 1, __BITFIELD_FIELD(u32 ulpickintmsk : 1, __BITFIELD_FIELD(u32 goutnakeffmsk : 1, __BITFIELD_FIELD(u32 ginnakeffmsk : 1, __BITFIELD_FIELD(u32 nptxfempmsk : 1, __BITFIELD_FIELD(u32 rxflvlmsk : 1, __BITFIELD_FIELD(u32 sofmsk : 1, __BITFIELD_FIELD(u32 otgintmsk : 1, __BITFIELD_FIELD(u32 modemismsk : 1, __BITFIELD_FIELD(u32 reserved_0_0 : 1, ;)))))))))))))))))))))))))))))))) } s; }; /** * cvmx_usbc#_gintsts * * Core Interrupt Register (GINTSTS) * * This register interrupts the application for system-level events in the * current mode of operation (Device mode or Host mode). It is shown in * Interrupt. Some of the bits in this register are valid only in Host mode, * while others are valid in Device mode only. This register also indicates the * current mode of operation. In order to clear the interrupt status bits of * type R_SS_WC, the application must write 1'b1 into the bit. The FIFO status * interrupts are read only; once software reads from or writes to the FIFO * while servicing these interrupts, FIFO interrupt conditions are cleared * automatically. */ union cvmx_usbcx_gintsts { u32 u32; /** * struct cvmx_usbcx_gintsts_s * @wkupint: Resume/Remote Wakeup Detected Interrupt (WkUpInt) * In Device mode, this interrupt is asserted when a resume is * detected on the USB. In Host mode, this interrupt is asserted * when a remote wakeup is detected on the USB. * For more information on how to use this interrupt, see "Partial * Power-Down and Clock Gating Programming Model" on * page 353. * @sessreqint: Session Request/New Session Detected Interrupt * (SessReqInt) * In Host mode, this interrupt is asserted when a session request * is detected from the device. In Device mode, this interrupt is * asserted when the utmiotg_bvalid signal goes high. * For more information on how to use this interrupt, see "Partial * Power-Down and Clock Gating Programming Model" on * page 353. * @disconnint: Disconnect Detected Interrupt (DisconnInt) * Asserted when a device disconnect is detected. * @conidstschng: Connector ID Status Change (ConIDStsChng) * The core sets this bit when there is a change in connector ID * status. * @ptxfemp: Periodic TxFIFO Empty (PTxFEmp) * Asserted when the Periodic Transmit FIFO is either half or * completely empty and there is space for at least one entry to be * written in the Periodic Request Queue. The half or completely * empty status is determined by the Periodic TxFIFO Empty Level * bit in the Core AHB Configuration register * (GAHBCFG.PTxFEmpLvl). * @hchint: Host Channels Interrupt (HChInt) * The core sets this bit to indicate that an interrupt is pending * on one of the channels of the core (in Host mode). The * application must read the Host All Channels Interrupt (HAINT) * register to determine the exact number of the channel on which * the interrupt occurred, and then read the corresponding Host * Channel-n Interrupt (HCINTn) register to determine the exact * cause of the interrupt. The application must clear the * appropriate status bit in the HCINTn register to clear this bit. * @prtint: Host Port Interrupt (PrtInt) * The core sets this bit to indicate a change in port status of * one of the O2P USB core ports in Host mode. The application must * read the Host Port Control and Status (HPRT) register to * determine the exact event that caused this interrupt. The * application must clear the appropriate status bit in the Host * Port Control and Status register to clear this bit. * @fetsusp: Data Fetch Suspended (FetSusp) * This interrupt is valid only in DMA mode. This interrupt * indicates that the core has stopped fetching data for IN * endpoints due to the unavailability of TxFIFO space or Request * Queue space. This interrupt is used by the application for an * endpoint mismatch algorithm. * @incomplp: Incomplete Periodic Transfer (incomplP) * In Host mode, the core sets this interrupt bit when there are * incomplete periodic transactions still pending which are * scheduled for the current microframe. * Incomplete Isochronous OUT Transfer (incompISOOUT) * The Device mode, the core sets this interrupt to indicate that * there is at least one isochronous OUT endpoint on which the * transfer is not completed in the current microframe. This * interrupt is asserted along with the End of Periodic Frame * Interrupt (EOPF) bit in this register. * @incompisoin: Incomplete Isochronous IN Transfer (incompISOIN) * The core sets this interrupt to indicate that there is at least * one isochronous IN endpoint on which the transfer is not * completed in the current microframe. This interrupt is asserted * along with the End of Periodic Frame Interrupt (EOPF) bit in * this register. * @oepint: OUT Endpoints Interrupt (OEPInt) * The core sets this bit to indicate that an interrupt is pending * on one of the OUT endpoints of the core (in Device mode). The * application must read the Device All Endpoints Interrupt * (DAINT) register to determine the exact number of the OUT * endpoint on which the interrupt occurred, and then read the * corresponding Device OUT Endpoint-n Interrupt (DOEPINTn) * register to determine the exact cause of the interrupt. The * application must clear the appropriate status bit in the * corresponding DOEPINTn register to clear this bit. * @iepint: IN Endpoints Interrupt (IEPInt) * The core sets this bit to indicate that an interrupt is pending * on one of the IN endpoints of the core (in Device mode). The * application must read the Device All Endpoints Interrupt * (DAINT) register to determine the exact number of the IN * endpoint on which the interrupt occurred, and then read the * corresponding Device IN Endpoint-n Interrupt (DIEPINTn) * register to determine the exact cause of the interrupt. The * application must clear the appropriate status bit in the * corresponding DIEPINTn register to clear this bit. * @epmis: Endpoint Mismatch Interrupt (EPMis) * Indicates that an IN token has been received for a non-periodic * endpoint, but the data for another endpoint is present in the * top of the Non-Periodic Transmit FIFO and the IN endpoint * mismatch count programmed by the application has expired. * @eopf: End of Periodic Frame Interrupt (EOPF) * Indicates that the period specified in the Periodic Frame * Interval field of the Device Configuration register * (DCFG.PerFrInt) has been reached in the current microframe. * @isooutdrop: Isochronous OUT Packet Dropped Interrupt (ISOOutDrop) * The core sets this bit when it fails to write an isochronous OUT * packet into the RxFIFO because the RxFIFO doesn't have * enough space to accommodate a maximum packet size packet * for the isochronous OUT endpoint. * @enumdone: Enumeration Done (EnumDone) * The core sets this bit to indicate that speed enumeration is * complete. The application must read the Device Status (DSTS) * register to obtain the enumerated speed. * @usbrst: USB Reset (USBRst) * The core sets this bit to indicate that a reset is detected on * the USB. * @usbsusp: USB Suspend (USBSusp) * The core sets this bit to indicate that a suspend was detected * on the USB. The core enters the Suspended state when there * is no activity on the phy_line_state_i signal for an extended * period of time. * @erlysusp: Early Suspend (ErlySusp) * The core sets this bit to indicate that an Idle state has been * detected on the USB for 3 ms. * @i2cint: I2C Interrupt (I2CINT) * This bit is always 0x0. * @ulpickint: ULPI Carkit Interrupt (ULPICKINT) * This bit is always 0x0. * @goutnakeff: Global OUT NAK Effective (GOUTNakEff) * Indicates that the Set Global OUT NAK bit in the Device Control * register (DCTL.SGOUTNak), set by the application, has taken * effect in the core. This bit can be cleared by writing the Clear * Global OUT NAK bit in the Device Control register * (DCTL.CGOUTNak). * @ginnakeff: Global IN Non-Periodic NAK Effective (GINNakEff) * Indicates that the Set Global Non-Periodic IN NAK bit in the * Device Control register (DCTL.SGNPInNak), set by the * application, has taken effect in the core. That is, the core has * sampled the Global IN NAK bit set by the application. This bit * can be cleared by clearing the Clear Global Non-Periodic IN * NAK bit in the Device Control register (DCTL.CGNPInNak). * This interrupt does not necessarily mean that a NAK handshake * is sent out on the USB. The STALL bit takes precedence over * the NAK bit. * @nptxfemp: Non-Periodic TxFIFO Empty (NPTxFEmp) * This interrupt is asserted when the Non-Periodic TxFIFO is * either half or completely empty, and there is space for at least * one entry to be written to the Non-Periodic Transmit Request * Queue. The half or completely empty status is determined by * the Non-Periodic TxFIFO Empty Level bit in the Core AHB * Configuration register (GAHBCFG.NPTxFEmpLvl). * @rxflvl: RxFIFO Non-Empty (RxFLvl) * Indicates that there is at least one packet pending to be read * from the RxFIFO. * @sof: Start of (micro)Frame (Sof) * In Host mode, the core sets this bit to indicate that an SOF * (FS), micro-SOF (HS), or Keep-Alive (LS) is transmitted on the * USB. The application must write a 1 to this bit to clear the * interrupt. * In Device mode, in the core sets this bit to indicate that an * SOF token has been received on the USB. The application can read * the Device Status register to get the current (micro)frame * number. This interrupt is seen only when the core is operating * at either HS or FS. * @otgint: OTG Interrupt (OTGInt) * The core sets this bit to indicate an OTG protocol event. The * application must read the OTG Interrupt Status (GOTGINT) * register to determine the exact event that caused this * interrupt. The application must clear the appropriate status bit * in the GOTGINT register to clear this bit. * @modemis: Mode Mismatch Interrupt (ModeMis) * The core sets this bit when the application is trying to access: * * A Host mode register, when the core is operating in Device * mode * * A Device mode register, when the core is operating in Host * mode * The register access is completed on the AHB with an OKAY * response, but is ignored by the core internally and doesn't * affect the operation of the core. * @curmod: Current Mode of Operation (CurMod) * Indicates the current mode of operation. * * 1'b0: Device mode * * 1'b1: Host mode */ struct cvmx_usbcx_gintsts_s { __BITFIELD_FIELD(u32 wkupint : 1, __BITFIELD_FIELD(u32 sessreqint : 1, __BITFIELD_FIELD(u32 disconnint : 1, __BITFIELD_FIELD(u32 conidstschng : 1, __BITFIELD_FIELD(u32 reserved_27_27 : 1, __BITFIELD_FIELD(u32 ptxfemp : 1, __BITFIELD_FIELD(u32 hchint : 1, __BITFIELD_FIELD(u32 prtint : 1, __BITFIELD_FIELD(u32 reserved_23_23 : 1, __BITFIELD_FIELD(u32 fetsusp : 1, __BITFIELD_FIELD(u32 incomplp : 1, __BITFIELD_FIELD(u32 incompisoin : 1, __BITFIELD_FIELD(u32 oepint : 1, __BITFIELD_FIELD(u32 iepint : 1, __BITFIELD_FIELD(u32 epmis : 1, __BITFIELD_FIELD(u32 reserved_16_16 : 1, __BITFIELD_FIELD(u32 eopf : 1, __BITFIELD_FIELD(u32 isooutdrop : 1, __BITFIELD_FIELD(u32 enumdone : 1, __BITFIELD_FIELD(u32 usbrst : 1, __BITFIELD_FIELD(u32 usbsusp : 1, __BITFIELD_FIELD(u32 erlysusp : 1, __BITFIELD_FIELD(u32 i2cint : 1, __BITFIELD_FIELD(u32 ulpickint : 1, __BITFIELD_FIELD(u32 goutnakeff : 1, __BITFIELD_FIELD(u32 ginnakeff : 1, __BITFIELD_FIELD(u32 nptxfemp : 1, __BITFIELD_FIELD(u32 rxflvl : 1, __BITFIELD_FIELD(u32 sof : 1, __BITFIELD_FIELD(u32 otgint : 1, __BITFIELD_FIELD(u32 modemis : 1, __BITFIELD_FIELD(u32 curmod : 1, ;)))))))))))))))))))))))))))))))) } s; }; /** * cvmx_usbc#_gnptxfsiz * * Non-Periodic Transmit FIFO Size Register (GNPTXFSIZ) * * The application can program the RAM size and the memory start address for the * Non-Periodic TxFIFO. */ union cvmx_usbcx_gnptxfsiz { u32 u32; /** * struct cvmx_usbcx_gnptxfsiz_s * @nptxfdep: Non-Periodic TxFIFO Depth (NPTxFDep) * This value is in terms of 32-bit words. * Minimum value is 16 * Maximum value is 32768 * @nptxfstaddr: Non-Periodic Transmit RAM Start Address (NPTxFStAddr) * This field contains the memory start address for Non-Periodic * Transmit FIFO RAM. */ struct cvmx_usbcx_gnptxfsiz_s { __BITFIELD_FIELD(u32 nptxfdep : 16, __BITFIELD_FIELD(u32 nptxfstaddr : 16, ;)) } s; }; /** * cvmx_usbc#_gnptxsts * * Non-Periodic Transmit FIFO/Queue Status Register (GNPTXSTS) * * This read-only register contains the free space information for the * Non-Periodic TxFIFO and the Non-Periodic Transmit Request Queue. */ union cvmx_usbcx_gnptxsts { u32 u32; /** * struct cvmx_usbcx_gnptxsts_s * @nptxqtop: Top of the Non-Periodic Transmit Request Queue (NPTxQTop) * Entry in the Non-Periodic Tx Request Queue that is currently * being processed by the MAC. * * Bits [30:27]: Channel/endpoint number * * Bits [26:25]: * - 2'b00: IN/OUT token * - 2'b01: Zero-length transmit packet (device IN/host OUT) * - 2'b10: PING/CSPLIT token * - 2'b11: Channel halt command * * Bit [24]: Terminate (last entry for selected channel/endpoint) * @nptxqspcavail: Non-Periodic Transmit Request Queue Space Available * (NPTxQSpcAvail) * Indicates the amount of free space available in the Non- * Periodic Transmit Request Queue. This queue holds both IN * and OUT requests in Host mode. Device mode has only IN * requests. * * 8'h0: Non-Periodic Transmit Request Queue is full * * 8'h1: 1 location available * * 8'h2: 2 locations available * * n: n locations available (0..8) * * Others: Reserved * @nptxfspcavail: Non-Periodic TxFIFO Space Avail (NPTxFSpcAvail) * Indicates the amount of free space available in the Non- * Periodic TxFIFO. * Values are in terms of 32-bit words. * * 16'h0: Non-Periodic TxFIFO is full * * 16'h1: 1 word available * * 16'h2: 2 words available * * 16'hn: n words available (where 0..32768) * * 16'h8000: 32768 words available * * Others: Reserved */ struct cvmx_usbcx_gnptxsts_s { __BITFIELD_FIELD(u32 reserved_31_31 : 1, __BITFIELD_FIELD(u32 nptxqtop : 7, __BITFIELD_FIELD(u32 nptxqspcavail : 8, __BITFIELD_FIELD(u32 nptxfspcavail : 16, ;)))) } s; }; /** * cvmx_usbc#_grstctl * * Core Reset Register (GRSTCTL) * * The application uses this register to reset various hardware features inside * the core. */ union cvmx_usbcx_grstctl { u32 u32; /** * struct cvmx_usbcx_grstctl_s * @ahbidle: AHB Master Idle (AHBIdle) * Indicates that the AHB Master State Machine is in the IDLE * condition. * @dmareq: DMA Request Signal (DMAReq) * Indicates that the DMA request is in progress. Used for debug. * @txfnum: TxFIFO Number (TxFNum) * This is the FIFO number that must be flushed using the TxFIFO * Flush bit. This field must not be changed until the core clears * the TxFIFO Flush bit. * * 5'h0: Non-Periodic TxFIFO flush * * 5'h1: Periodic TxFIFO 1 flush in Device mode or Periodic * TxFIFO flush in Host mode * * 5'h2: Periodic TxFIFO 2 flush in Device mode * - ... * * 5'hF: Periodic TxFIFO 15 flush in Device mode * * 5'h10: Flush all the Periodic and Non-Periodic TxFIFOs in the * core * @txfflsh: TxFIFO Flush (TxFFlsh) * This bit selectively flushes a single or all transmit FIFOs, but * cannot do so if the core is in the midst of a transaction. * The application must only write this bit after checking that the * core is neither writing to the TxFIFO nor reading from the * TxFIFO. * The application must wait until the core clears this bit before * performing any operations. This bit takes 8 clocks (of phy_clk * or hclk, whichever is slower) to clear. * @rxfflsh: RxFIFO Flush (RxFFlsh) * The application can flush the entire RxFIFO using this bit, but * must first ensure that the core is not in the middle of a * transaction. * The application must only write to this bit after checking that * the core is neither reading from the RxFIFO nor writing to the * RxFIFO. * The application must wait until the bit is cleared before * performing any other operations. This bit will take 8 clocks * (slowest of PHY or AHB clock) to clear. * @intknqflsh: IN Token Sequence Learning Queue Flush (INTknQFlsh) * The application writes this bit to flush the IN Token Sequence * Learning Queue. * @frmcntrrst: Host Frame Counter Reset (FrmCntrRst) * The application writes this bit to reset the (micro)frame number * counter inside the core. When the (micro)frame counter is reset, * the subsequent SOF sent out by the core will have a * (micro)frame number of 0. * @hsftrst: HClk Soft Reset (HSftRst) * The application uses this bit to flush the control logic in the * AHB Clock domain. Only AHB Clock Domain pipelines are reset. * * FIFOs are not flushed with this bit. * * All state machines in the AHB clock domain are reset to the * Idle state after terminating the transactions on the AHB, * following the protocol. * * CSR control bits used by the AHB clock domain state * machines are cleared. * * To clear this interrupt, status mask bits that control the * interrupt status and are generated by the AHB clock domain * state machine are cleared. * * Because interrupt status bits are not cleared, the application * can get the status of any core events that occurred after it set * this bit. * This is a self-clearing bit that the core clears after all * necessary logic is reset in the core. This may take several * clocks, depending on the core's current state. * @csftrst: Core Soft Reset (CSftRst) * Resets the hclk and phy_clock domains as follows: * * Clears the interrupts and all the CSR registers except the * following register bits: * - PCGCCTL.RstPdwnModule * - PCGCCTL.GateHclk * - PCGCCTL.PwrClmp * - PCGCCTL.StopPPhyLPwrClkSelclk * - GUSBCFG.PhyLPwrClkSel * - GUSBCFG.DDRSel * - GUSBCFG.PHYSel * - GUSBCFG.FSIntf * - GUSBCFG.ULPI_UTMI_Sel * - GUSBCFG.PHYIf * - HCFG.FSLSPclkSel * - DCFG.DevSpd * * All module state machines (except the AHB Slave Unit) are * reset to the IDLE state, and all the transmit FIFOs and the * receive FIFO are flushed. * * Any transactions on the AHB Master are terminated as soon * as possible, after gracefully completing the last data phase of * an AHB transfer. Any transactions on the USB are terminated * immediately. * The application can write to this bit any time it wants to reset * the core. This is a self-clearing bit and the core clears this * bit after all the necessary logic is reset in the core, which * may take several clocks, depending on the current state of the * core. Once this bit is cleared software should wait at least 3 * PHY clocks before doing any access to the PHY domain * (synchronization delay). Software should also should check that * bit 31 of this register is 1 (AHB Master is IDLE) before * starting any operation. * Typically software reset is used during software development * and also when you dynamically change the PHY selection bits * in the USB configuration registers listed above. When you * change the PHY, the corresponding clock for the PHY is * selected and used in the PHY domain. Once a new clock is * selected, the PHY domain has to be reset for proper operation. */ struct cvmx_usbcx_grstctl_s { __BITFIELD_FIELD(u32 ahbidle : 1, __BITFIELD_FIELD(u32 dmareq : 1, __BITFIELD_FIELD(u32 reserved_11_29 : 19, __BITFIELD_FIELD(u32 txfnum : 5, __BITFIELD_FIELD(u32 txfflsh : 1, __BITFIELD_FIELD(u32 rxfflsh : 1, __BITFIELD_FIELD(u32 intknqflsh : 1, __BITFIELD_FIELD(u32 frmcntrrst : 1, __BITFIELD_FIELD(u32 hsftrst : 1, __BITFIELD_FIELD(u32 csftrst : 1, ;)))))))))) } s; }; /** * cvmx_usbc#_grxfsiz * * Receive FIFO Size Register (GRXFSIZ) * * The application can program the RAM size that must be allocated to the * RxFIFO. */ union cvmx_usbcx_grxfsiz { u32 u32; /** * struct cvmx_usbcx_grxfsiz_s * @rxfdep: RxFIFO Depth (RxFDep) * This value is in terms of 32-bit words. * * Minimum value is 16 * * Maximum value is 32768 */ struct cvmx_usbcx_grxfsiz_s { __BITFIELD_FIELD(u32 reserved_16_31 : 16, __BITFIELD_FIELD(u32 rxfdep : 16, ;)) } s; }; /** * cvmx_usbc#_grxstsph * * Receive Status Read and Pop Register, Host Mode (GRXSTSPH) * * A read to the Receive Status Read and Pop register returns and additionally * pops the top data entry out of the RxFIFO. * This Description is only valid when the core is in Host Mode. For Device Mode * use USBC_GRXSTSPD instead. * NOTE: GRXSTSPH and GRXSTSPD are physically the same register and share the * same offset in the O2P USB core. The offset difference shown in this * document is for software clarity and is actually ignored by the * hardware. */ union cvmx_usbcx_grxstsph { u32 u32; /** * struct cvmx_usbcx_grxstsph_s * @pktsts: Packet Status (PktSts) * Indicates the status of the received packet * * 4'b0010: IN data packet received * * 4'b0011: IN transfer completed (triggers an interrupt) * * 4'b0101: Data toggle error (triggers an interrupt) * * 4'b0111: Channel halted (triggers an interrupt) * * Others: Reserved * @dpid: Data PID (DPID) * * 2'b00: DATA0 * * 2'b10: DATA1 * * 2'b01: DATA2 * * 2'b11: MDATA * @bcnt: Byte Count (BCnt) * Indicates the byte count of the received IN data packet * @chnum: Channel Number (ChNum) * Indicates the channel number to which the current received * packet belongs. */ struct cvmx_usbcx_grxstsph_s { __BITFIELD_FIELD(u32 reserved_21_31 : 11, __BITFIELD_FIELD(u32 pktsts : 4, __BITFIELD_FIELD(u32 dpid : 2, __BITFIELD_FIELD(u32 bcnt : 11, __BITFIELD_FIELD(u32 chnum : 4, ;))))) } s; }; /** * cvmx_usbc#_gusbcfg * * Core USB Configuration Register (GUSBCFG) * * This register can be used to configure the core after power-on or a changing * to Host mode or Device mode. It contains USB and USB-PHY related * configuration parameters. The application must program this register before * starting any transactions on either the AHB or the USB. Do not make changes * to this register after the initial programming. */ union cvmx_usbcx_gusbcfg { u32 u32; /** * struct cvmx_usbcx_gusbcfg_s * @otgi2csel: UTMIFS or I2C Interface Select (OtgI2CSel) * This bit is always 0x0. * @phylpwrclksel: PHY Low-Power Clock Select (PhyLPwrClkSel) * Software should set this bit to 0x0. * Selects either 480-MHz or 48-MHz (low-power) PHY mode. In * FS and LS modes, the PHY can usually operate on a 48-MHz * clock to save power. * * 1'b0: 480-MHz Internal PLL clock * * 1'b1: 48-MHz External Clock * In 480 MHz mode, the UTMI interface operates at either 60 or * 30-MHz, depending upon whether 8- or 16-bit data width is * selected. In 48-MHz mode, the UTMI interface operates at 48 * MHz in FS mode and at either 48 or 6 MHz in LS mode * (depending on the PHY vendor). * This bit drives the utmi_fsls_low_power core output signal, and * is valid only for UTMI+ PHYs. * @usbtrdtim: USB Turnaround Time (USBTrdTim) * Sets the turnaround time in PHY clocks. * Specifies the response time for a MAC request to the Packet * FIFO Controller (PFC) to fetch data from the DFIFO (SPRAM). * This must be programmed to 0x5. * @hnpcap: HNP-Capable (HNPCap) * This bit is always 0x0. * @srpcap: SRP-Capable (SRPCap) * This bit is always 0x0. * @ddrsel: ULPI DDR Select (DDRSel) * Software should set this bit to 0x0. * @physel: USB 2.0 High-Speed PHY or USB 1.1 Full-Speed Serial * Software should set this bit to 0x0. * @fsintf: Full-Speed Serial Interface Select (FSIntf) * Software should set this bit to 0x0. * @ulpi_utmi_sel: ULPI or UTMI+ Select (ULPI_UTMI_Sel) * This bit is always 0x0. * @phyif: PHY Interface (PHYIf) * This bit is always 0x1. * @toutcal: HS/FS Timeout Calibration (TOutCal) * The number of PHY clocks that the application programs in this * field is added to the high-speed/full-speed interpacket timeout * duration in the core to account for any additional delays * introduced by the PHY. This may be required, since the delay * introduced by the PHY in generating the linestate condition may * vary from one PHY to another. * The USB standard timeout value for high-speed operation is * 736 to 816 (inclusive) bit times. The USB standard timeout * value for full-speed operation is 16 to 18 (inclusive) bit * times. The application must program this field based on the * speed of enumeration. The number of bit times added per PHY * clock are: * High-speed operation: * * One 30-MHz PHY clock = 16 bit times * * One 60-MHz PHY clock = 8 bit times * Full-speed operation: * * One 30-MHz PHY clock = 0.4 bit times * * One 60-MHz PHY clock = 0.2 bit times * * One 48-MHz PHY clock = 0.25 bit times */ struct cvmx_usbcx_gusbcfg_s { __BITFIELD_FIELD(u32 reserved_17_31 : 15, __BITFIELD_FIELD(u32 otgi2csel : 1, __BITFIELD_FIELD(u32 phylpwrclksel : 1, __BITFIELD_FIELD(u32 reserved_14_14 : 1, __BITFIELD_FIELD(u32 usbtrdtim : 4, __BITFIELD_FIELD(u32 hnpcap : 1, __BITFIELD_FIELD(u32 srpcap : 1, __BITFIELD_FIELD(u32 ddrsel : 1, __BITFIELD_FIELD(u32 physel : 1, __BITFIELD_FIELD(u32 fsintf : 1, __BITFIELD_FIELD(u32 ulpi_utmi_sel : 1, __BITFIELD_FIELD(u32 phyif : 1, __BITFIELD_FIELD(u32 toutcal : 3, ;))))))))))))) } s; }; /** * cvmx_usbc#_haint * * Host All Channels Interrupt Register (HAINT) * * When a significant event occurs on a channel, the Host All Channels Interrupt * register interrupts the application using the Host Channels Interrupt bit of * the Core Interrupt register (GINTSTS.HChInt). This is shown in Interrupt. * There is one interrupt bit per channel, up to a maximum of 16 bits. Bits in * this register are set and cleared when the application sets and clears bits * in the corresponding Host Channel-n Interrupt register. */ union cvmx_usbcx_haint { u32 u32; /** * struct cvmx_usbcx_haint_s * @haint: Channel Interrupts (HAINT) * One bit per channel: Bit 0 for Channel 0, bit 15 for Channel 15 */ struct cvmx_usbcx_haint_s { __BITFIELD_FIELD(u32 reserved_16_31 : 16, __BITFIELD_FIELD(u32 haint : 16, ;)) } s; }; /** * cvmx_usbc#_haintmsk * * Host All Channels Interrupt Mask Register (HAINTMSK) * * The Host All Channel Interrupt Mask register works with the Host All Channel * Interrupt register to interrupt the application when an event occurs on a * channel. There is one interrupt mask bit per channel, up to a maximum of 16 * bits. * Mask interrupt: 1'b0 Unmask interrupt: 1'b1 */ union cvmx_usbcx_haintmsk { u32 u32; /** * struct cvmx_usbcx_haintmsk_s * @haintmsk: Channel Interrupt Mask (HAINTMsk) * One bit per channel: Bit 0 for channel 0, bit 15 for channel 15 */ struct cvmx_usbcx_haintmsk_s { __BITFIELD_FIELD(u32 reserved_16_31 : 16, __BITFIELD_FIELD(u32 haintmsk : 16, ;)) } s; }; /** * cvmx_usbc#_hcchar# * * Host Channel-n Characteristics Register (HCCHAR) * */ union cvmx_usbcx_hccharx { u32 u32; /** * struct cvmx_usbcx_hccharx_s * @chena: Channel Enable (ChEna) * This field is set by the application and cleared by the OTG * host. * * 1'b0: Channel disabled * * 1'b1: Channel enabled * @chdis: Channel Disable (ChDis) * The application sets this bit to stop transmitting/receiving * data on a channel, even before the transfer for that channel is * complete. The application must wait for the Channel Disabled * interrupt before treating the channel as disabled. * @oddfrm: Odd Frame (OddFrm) * This field is set (reset) by the application to indicate that * the OTG host must perform a transfer in an odd (micro)frame. * This field is applicable for only periodic (isochronous and * interrupt) transactions. * * 1'b0: Even (micro)frame * * 1'b1: Odd (micro)frame * @devaddr: Device Address (DevAddr) * This field selects the specific device serving as the data * source or sink. * @ec: Multi Count (MC) / Error Count (EC) * When the Split Enable bit of the Host Channel-n Split Control * register (HCSPLTn.SpltEna) is reset (1'b0), this field indicates * to the host the number of transactions that should be executed * per microframe for this endpoint. * * 2'b00: Reserved. This field yields undefined results. * * 2'b01: 1 transaction * * 2'b10: 2 transactions to be issued for this endpoint per * microframe * * 2'b11: 3 transactions to be issued for this endpoint per * microframe * When HCSPLTn.SpltEna is set (1'b1), this field indicates the * number of immediate retries to be performed for a periodic split * transactions on transaction errors. This field must be set to at * least 2'b01. * @eptype: Endpoint Type (EPType) * Indicates the transfer type selected. * * 2'b00: Control * * 2'b01: Isochronous * * 2'b10: Bulk * * 2'b11: Interrupt * @lspddev: Low-Speed Device (LSpdDev) * This field is set by the application to indicate that this * channel is communicating to a low-speed device. * @epdir: Endpoint Direction (EPDir) * Indicates whether the transaction is IN or OUT. * * 1'b0: OUT * * 1'b1: IN * @epnum: Endpoint Number (EPNum) * Indicates the endpoint number on the device serving as the * data source or sink. * @mps: Maximum Packet Size (MPS) * Indicates the maximum packet size of the associated endpoint. */ struct cvmx_usbcx_hccharx_s { __BITFIELD_FIELD(u32 chena : 1, __BITFIELD_FIELD(u32 chdis : 1, __BITFIELD_FIELD(u32 oddfrm : 1, __BITFIELD_FIELD(u32 devaddr : 7, __BITFIELD_FIELD(u32 ec : 2, __BITFIELD_FIELD(u32 eptype : 2, __BITFIELD_FIELD(u32 lspddev : 1, __BITFIELD_FIELD(u32 reserved_16_16 : 1, __BITFIELD_FIELD(u32 epdir : 1, __BITFIELD_FIELD(u32 epnum : 4, __BITFIELD_FIELD(u32 mps : 11, ;))))))))))) } s; }; /** * cvmx_usbc#_hcfg * * Host Configuration Register (HCFG) * * This register configures the core after power-on. Do not make changes to this * register after initializing the host. */ union cvmx_usbcx_hcfg { u32 u32; /** * struct cvmx_usbcx_hcfg_s * @fslssupp: FS- and LS-Only Support (FSLSSupp) * The application uses this bit to control the core's enumeration * speed. Using this bit, the application can make the core * enumerate as a FS host, even if the connected device supports * HS traffic. Do not make changes to this field after initial * programming. * * 1'b0: HS/FS/LS, based on the maximum speed supported by * the connected device * * 1'b1: FS/LS-only, even if the connected device can support HS * @fslspclksel: FS/LS PHY Clock Select (FSLSPclkSel) * When the core is in FS Host mode * * 2'b00: PHY clock is running at 30/60 MHz * * 2'b01: PHY clock is running at 48 MHz * * Others: Reserved * When the core is in LS Host mode * * 2'b00: PHY clock is running at 30/60 MHz. When the * UTMI+/ULPI PHY Low Power mode is not selected, use * 30/60 MHz. * * 2'b01: PHY clock is running at 48 MHz. When the UTMI+ * PHY Low Power mode is selected, use 48MHz if the PHY * supplies a 48 MHz clock during LS mode. * * 2'b10: PHY clock is running at 6 MHz. In USB 1.1 FS mode, * use 6 MHz when the UTMI+ PHY Low Power mode is * selected and the PHY supplies a 6 MHz clock during LS * mode. If you select a 6 MHz clock during LS mode, you must * do a soft reset. * * 2'b11: Reserved */ struct cvmx_usbcx_hcfg_s { __BITFIELD_FIELD(u32 reserved_3_31 : 29, __BITFIELD_FIELD(u32 fslssupp : 1, __BITFIELD_FIELD(u32 fslspclksel : 2, ;))) } s; }; /** * cvmx_usbc#_hcint# * * Host Channel-n Interrupt Register (HCINT) * * This register indicates the status of a channel with respect to USB- and * AHB-related events. The application must read this register when the Host * Channels Interrupt bit of the Core Interrupt register (GINTSTS.HChInt) is * set. Before the application can read this register, it must first read * the Host All Channels Interrupt (HAINT) register to get the exact channel * number for the Host Channel-n Interrupt register. The application must clear * the appropriate bit in this register to clear the corresponding bits in the * HAINT and GINTSTS registers. */ union cvmx_usbcx_hcintx { u32 u32; /** * struct cvmx_usbcx_hcintx_s * @datatglerr: Data Toggle Error (DataTglErr) * @frmovrun: Frame Overrun (FrmOvrun) * @bblerr: Babble Error (BblErr) * @xacterr: Transaction Error (XactErr) * @nyet: NYET Response Received Interrupt (NYET) * @ack: ACK Response Received Interrupt (ACK) * @nak: NAK Response Received Interrupt (NAK) * @stall: STALL Response Received Interrupt (STALL) * @ahberr: This bit is always 0x0. * @chhltd: Channel Halted (ChHltd) * Indicates the transfer completed abnormally either because of * any USB transaction error or in response to disable request by * the application. * @xfercompl: Transfer Completed (XferCompl) * Transfer completed normally without any errors. */ struct cvmx_usbcx_hcintx_s { __BITFIELD_FIELD(u32 reserved_11_31 : 21, __BITFIELD_FIELD(u32 datatglerr : 1, __BITFIELD_FIELD(u32 frmovrun : 1, __BITFIELD_FIELD(u32 bblerr : 1, __BITFIELD_FIELD(u32 xacterr : 1, __BITFIELD_FIELD(u32 nyet : 1, __BITFIELD_FIELD(u32 ack : 1, __BITFIELD_FIELD(u32 nak : 1, __BITFIELD_FIELD(u32 stall : 1, __BITFIELD_FIELD(u32 ahberr : 1, __BITFIELD_FIELD(u32 chhltd : 1, __BITFIELD_FIELD(u32 xfercompl : 1, ;)))))))))))) } s; }; /** * cvmx_usbc#_hcintmsk# * * Host Channel-n Interrupt Mask Register (HCINTMSKn) * * This register reflects the mask for each channel status described in the * previous section. * Mask interrupt: 1'b0 Unmask interrupt: 1'b1 */ union cvmx_usbcx_hcintmskx { u32 u32; /** * struct cvmx_usbcx_hcintmskx_s * @datatglerrmsk: Data Toggle Error Mask (DataTglErrMsk) * @frmovrunmsk: Frame Overrun Mask (FrmOvrunMsk) * @bblerrmsk: Babble Error Mask (BblErrMsk) * @xacterrmsk: Transaction Error Mask (XactErrMsk) * @nyetmsk: NYET Response Received Interrupt Mask (NyetMsk) * @ackmsk: ACK Response Received Interrupt Mask (AckMsk) * @nakmsk: NAK Response Received Interrupt Mask (NakMsk) * @stallmsk: STALL Response Received Interrupt Mask (StallMsk) * @ahberrmsk: AHB Error Mask (AHBErrMsk) * @chhltdmsk: Channel Halted Mask (ChHltdMsk) * @xfercomplmsk: Transfer Completed Mask (XferComplMsk) */ struct cvmx_usbcx_hcintmskx_s { __BITFIELD_FIELD(u32 reserved_11_31 : 21, __BITFIELD_FIELD(u32 datatglerrmsk : 1, __BITFIELD_FIELD(u32 frmovrunmsk : 1, __BITFIELD_FIELD(u32 bblerrmsk : 1, __BITFIELD_FIELD(u32 xacterrmsk : 1, __BITFIELD_FIELD(u32 nyetmsk : 1, __BITFIELD_FIELD(u32 ackmsk : 1, __BITFIELD_FIELD(u32 nakmsk : 1, __BITFIELD_FIELD(u32 stallmsk : 1, __BITFIELD_FIELD(u32 ahberrmsk : 1, __BITFIELD_FIELD(u32 chhltdmsk : 1, __BITFIELD_FIELD(u32 xfercomplmsk : 1, ;)))))))))))) } s; }; /** * cvmx_usbc#_hcsplt# * * Host Channel-n Split Control Register (HCSPLT) * */ union cvmx_usbcx_hcspltx { u32 u32; /** * struct cvmx_usbcx_hcspltx_s * @spltena: Split Enable (SpltEna) * The application sets this field to indicate that this channel is * enabled to perform split transactions. * @compsplt: Do Complete Split (CompSplt) * The application sets this field to request the OTG host to * perform a complete split transaction. * @xactpos: Transaction Position (XactPos) * This field is used to determine whether to send all, first, * middle, or last payloads with each OUT transaction. * * 2'b11: All. This is the entire data payload is of this * transaction (which is less than or equal to 188 bytes). * * 2'b10: Begin. This is the first data payload of this * transaction (which is larger than 188 bytes). * * 2'b00: Mid. This is the middle payload of this transaction * (which is larger than 188 bytes). * * 2'b01: End. This is the last payload of this transaction * (which is larger than 188 bytes). * @hubaddr: Hub Address (HubAddr) * This field holds the device address of the transaction * translator's hub. * @prtaddr: Port Address (PrtAddr) * This field is the port number of the recipient transaction * translator. */ struct cvmx_usbcx_hcspltx_s { __BITFIELD_FIELD(u32 spltena : 1, __BITFIELD_FIELD(u32 reserved_17_30 : 14, __BITFIELD_FIELD(u32 compsplt : 1, __BITFIELD_FIELD(u32 xactpos : 2, __BITFIELD_FIELD(u32 hubaddr : 7, __BITFIELD_FIELD(u32 prtaddr : 7, ;)))))) } s; }; /** * cvmx_usbc#_hctsiz# * * Host Channel-n Transfer Size Register (HCTSIZ) * */ union cvmx_usbcx_hctsizx { u32 u32; /** * struct cvmx_usbcx_hctsizx_s * @dopng: Do Ping (DoPng) * Setting this field to 1 directs the host to do PING protocol. * @pid: PID (Pid) * The application programs this field with the type of PID to use * for the initial transaction. The host will maintain this field * for the rest of the transfer. * * 2'b00: DATA0 * * 2'b01: DATA2 * * 2'b10: DATA1 * * 2'b11: MDATA (non-control)/SETUP (control) * @pktcnt: Packet Count (PktCnt) * This field is programmed by the application with the expected * number of packets to be transmitted (OUT) or received (IN). * The host decrements this count on every successful * transmission or reception of an OUT/IN packet. Once this count * reaches zero, the application is interrupted to indicate normal * completion. * @xfersize: Transfer Size (XferSize) * For an OUT, this field is the number of data bytes the host will * send during the transfer. * For an IN, this field is the buffer size that the application * has reserved for the transfer. The application is expected to * program this field as an integer multiple of the maximum packet * size for IN transactions (periodic and non-periodic). */ struct cvmx_usbcx_hctsizx_s { __BITFIELD_FIELD(u32 dopng : 1, __BITFIELD_FIELD(u32 pid : 2, __BITFIELD_FIELD(u32 pktcnt : 10, __BITFIELD_FIELD(u32 xfersize : 19, ;)))) } s; }; /** * cvmx_usbc#_hfir * * Host Frame Interval Register (HFIR) * * This register stores the frame interval information for the current speed to * which the O2P USB core has enumerated. */ union cvmx_usbcx_hfir { u32 u32; /** * struct cvmx_usbcx_hfir_s * @frint: Frame Interval (FrInt) * The value that the application programs to this field specifies * the interval between two consecutive SOFs (FS) or micro- * SOFs (HS) or Keep-Alive tokens (HS). This field contains the * number of PHY clocks that constitute the required frame * interval. The default value set in this field for a FS operation * when the PHY clock frequency is 60 MHz. The application can * write a value to this register only after the Port Enable bit of * the Host Port Control and Status register (HPRT.PrtEnaPort) * has been set. If no value is programmed, the core calculates * the value based on the PHY clock specified in the FS/LS PHY * Clock Select field of the Host Configuration register * (HCFG.FSLSPclkSel). Do not change the value of this field * after the initial configuration. * * 125 us (PHY clock frequency for HS) * * 1 ms (PHY clock frequency for FS/LS) */ struct cvmx_usbcx_hfir_s { __BITFIELD_FIELD(u32 reserved_16_31 : 16, __BITFIELD_FIELD(u32 frint : 16, ;)) } s; }; /** * cvmx_usbc#_hfnum * * Host Frame Number/Frame Time Remaining Register (HFNUM) * * This register indicates the current frame number. * It also indicates the time remaining (in terms of the number of PHY clocks) * in the current (micro)frame. */ union cvmx_usbcx_hfnum { u32 u32; /** * struct cvmx_usbcx_hfnum_s * @frrem: Frame Time Remaining (FrRem) * Indicates the amount of time remaining in the current * microframe (HS) or frame (FS/LS), in terms of PHY clocks. * This field decrements on each PHY clock. When it reaches * zero, this field is reloaded with the value in the Frame * Interval register and a new SOF is transmitted on the USB. * @frnum: Frame Number (FrNum) * This field increments when a new SOF is transmitted on the * USB, and is reset to 0 when it reaches 16'h3FFF. */ struct cvmx_usbcx_hfnum_s { __BITFIELD_FIELD(u32 frrem : 16, __BITFIELD_FIELD(u32 frnum : 16, ;)) } s; }; /** * cvmx_usbc#_hprt * * Host Port Control and Status Register (HPRT) * * This register is available in both Host and Device modes. * Currently, the OTG Host supports only one port. * A single register holds USB port-related information such as USB reset, * enable, suspend, resume, connect status, and test mode for each port. The * R_SS_WC bits in this register can trigger an interrupt to the application * through the Host Port Interrupt bit of the Core Interrupt register * (GINTSTS.PrtInt). On a Port Interrupt, the application must read this * register and clear the bit that caused the interrupt. For the R_SS_WC bits, * the application must write a 1 to the bit to clear the interrupt. */ union cvmx_usbcx_hprt { u32 u32; /** * struct cvmx_usbcx_hprt_s * @prtspd: Port Speed (PrtSpd) * Indicates the speed of the device attached to this port. * * 2'b00: High speed * * 2'b01: Full speed * * 2'b10: Low speed * * 2'b11: Reserved * @prttstctl: Port Test Control (PrtTstCtl) * The application writes a nonzero value to this field to put * the port into a Test mode, and the corresponding pattern is * signaled on the port. * * 4'b0000: Test mode disabled * * 4'b0001: Test_J mode * * 4'b0010: Test_K mode * * 4'b0011: Test_SE0_NAK mode * * 4'b0100: Test_Packet mode * * 4'b0101: Test_Force_Enable * * Others: Reserved * PrtSpd must be zero (i.e. the interface must be in high-speed * mode) to use the PrtTstCtl test modes. * @prtpwr: Port Power (PrtPwr) * The application uses this field to control power to this port, * and the core clears this bit on an overcurrent condition. * * 1'b0: Power off * * 1'b1: Power on * @prtlnsts: Port Line Status (PrtLnSts) * Indicates the current logic level USB data lines * * Bit [10]: Logic level of D- * * Bit [11]: Logic level of D+ * @prtrst: Port Reset (PrtRst) * When the application sets this bit, a reset sequence is * started on this port. The application must time the reset * period and clear this bit after the reset sequence is * complete. * * 1'b0: Port not in reset * * 1'b1: Port in reset * The application must leave this bit set for at least a * minimum duration mentioned below to start a reset on the * port. The application can leave it set for another 10 ms in * addition to the required minimum duration, before clearing * the bit, even though there is no maximum limit set by the * USB standard. * * High speed: 50 ms * * Full speed/Low speed: 10 ms * @prtsusp: Port Suspend (PrtSusp) * The application sets this bit to put this port in Suspend * mode. The core only stops sending SOFs when this is set. * To stop the PHY clock, the application must set the Port * Clock Stop bit, which will assert the suspend input pin of * the PHY. * The read value of this bit reflects the current suspend * status of the port. This bit is cleared by the core after a * remote wakeup signal is detected or the application sets * the Port Reset bit or Port Resume bit in this register or the * Resume/Remote Wakeup Detected Interrupt bit or * Disconnect Detected Interrupt bit in the Core Interrupt * register (GINTSTS.WkUpInt or GINTSTS.DisconnInt, * respectively). * * 1'b0: Port not in Suspend mode * * 1'b1: Port in Suspend mode * @prtres: Port Resume (PrtRes) * The application sets this bit to drive resume signaling on * the port. The core continues to drive the resume signal * until the application clears this bit. * If the core detects a USB remote wakeup sequence, as * indicated by the Port Resume/Remote Wakeup Detected * Interrupt bit of the Core Interrupt register * (GINTSTS.WkUpInt), the core starts driving resume * signaling without application intervention and clears this bit * when it detects a disconnect condition. The read value of * this bit indicates whether the core is currently driving * resume signaling. * * 1'b0: No resume driven * * 1'b1: Resume driven * @prtovrcurrchng: Port Overcurrent Change (PrtOvrCurrChng) * The core sets this bit when the status of the Port * Overcurrent Active bit (bit 4) in this register changes. * @prtovrcurract: Port Overcurrent Active (PrtOvrCurrAct) * Indicates the overcurrent condition of the port. * * 1'b0: No overcurrent condition * * 1'b1: Overcurrent condition * @prtenchng: Port Enable/Disable Change (PrtEnChng) * The core sets this bit when the status of the Port Enable bit * [2] of this register changes. * @prtena: Port Enable (PrtEna) * A port is enabled only by the core after a reset sequence, * and is disabled by an overcurrent condition, a disconnect * condition, or by the application clearing this bit. The * application cannot set this bit by a register write. It can only * clear it to disable the port. This bit does not trigger any * interrupt to the application. * * 1'b0: Port disabled * * 1'b1: Port enabled * @prtconndet: Port Connect Detected (PrtConnDet) * The core sets this bit when a device connection is detected * to trigger an interrupt to the application using the Host Port * Interrupt bit of the Core Interrupt register (GINTSTS.PrtInt). * The application must write a 1 to this bit to clear the * interrupt. * @prtconnsts: Port Connect Status (PrtConnSts) * * 0: No device is attached to the port. * * 1: A device is attached to the port. */ struct cvmx_usbcx_hprt_s { __BITFIELD_FIELD(u32 reserved_19_31 : 13, __BITFIELD_FIELD(u32 prtspd : 2, __BITFIELD_FIELD(u32 prttstctl : 4, __BITFIELD_FIELD(u32 prtpwr : 1, __BITFIELD_FIELD(u32 prtlnsts : 2, __BITFIELD_FIELD(u32 reserved_9_9 : 1, __BITFIELD_FIELD(u32 prtrst : 1, __BITFIELD_FIELD(u32 prtsusp : 1, __BITFIELD_FIELD(u32 prtres : 1, __BITFIELD_FIELD(u32 prtovrcurrchng : 1, __BITFIELD_FIELD(u32 prtovrcurract : 1, __BITFIELD_FIELD(u32 prtenchng : 1, __BITFIELD_FIELD(u32 prtena : 1, __BITFIELD_FIELD(u32 prtconndet : 1, __BITFIELD_FIELD(u32 prtconnsts : 1, ;))))))))))))))) } s; }; /** * cvmx_usbc#_hptxfsiz * * Host Periodic Transmit FIFO Size Register (HPTXFSIZ) * * This register holds the size and the memory start address of the Periodic * TxFIFO, as shown in Figures 310 and 311. */ union cvmx_usbcx_hptxfsiz { u32 u32; /** * struct cvmx_usbcx_hptxfsiz_s * @ptxfsize: Host Periodic TxFIFO Depth (PTxFSize) * This value is in terms of 32-bit words. * * Minimum value is 16 * * Maximum value is 32768 * @ptxfstaddr: Host Periodic TxFIFO Start Address (PTxFStAddr) */ struct cvmx_usbcx_hptxfsiz_s { __BITFIELD_FIELD(u32 ptxfsize : 16, __BITFIELD_FIELD(u32 ptxfstaddr : 16, ;)) } s; }; /** * cvmx_usbc#_hptxsts * * Host Periodic Transmit FIFO/Queue Status Register (HPTXSTS) * * This read-only register contains the free space information for the Periodic * TxFIFO and the Periodic Transmit Request Queue */ union cvmx_usbcx_hptxsts { u32 u32; /** * struct cvmx_usbcx_hptxsts_s * @ptxqtop: Top of the Periodic Transmit Request Queue (PTxQTop) * This indicates the entry in the Periodic Tx Request Queue that * is currently being processes by the MAC. * This register is used for debugging. * * Bit [31]: Odd/Even (micro)frame * - 1'b0: send in even (micro)frame * - 1'b1: send in odd (micro)frame * * Bits [30:27]: Channel/endpoint number * * Bits [26:25]: Type * - 2'b00: IN/OUT * - 2'b01: Zero-length packet * - 2'b10: CSPLIT * - 2'b11: Disable channel command * * Bit [24]: Terminate (last entry for the selected * channel/endpoint) * @ptxqspcavail: Periodic Transmit Request Queue Space Available * (PTxQSpcAvail) * Indicates the number of free locations available to be written * in the Periodic Transmit Request Queue. This queue holds both * IN and OUT requests. * * 8'h0: Periodic Transmit Request Queue is full * * 8'h1: 1 location available * * 8'h2: 2 locations available * * n: n locations available (0..8) * * Others: Reserved * @ptxfspcavail: Periodic Transmit Data FIFO Space Available * (PTxFSpcAvail) * Indicates the number of free locations available to be written * to in the Periodic TxFIFO. * Values are in terms of 32-bit words * * 16'h0: Periodic TxFIFO is full * * 16'h1: 1 word available * * 16'h2: 2 words available * * 16'hn: n words available (where 0..32768) * * 16'h8000: 32768 words available * * Others: Reserved */ struct cvmx_usbcx_hptxsts_s { __BITFIELD_FIELD(u32 ptxqtop : 8, __BITFIELD_FIELD(u32 ptxqspcavail : 8, __BITFIELD_FIELD(u32 ptxfspcavail : 16, ;))) } s; }; /** * cvmx_usbn#_clk_ctl * * USBN_CLK_CTL = USBN's Clock Control * * This register is used to control the frequency of the hclk and the * hreset and phy_rst signals. */ union cvmx_usbnx_clk_ctl { u64 u64; /** * struct cvmx_usbnx_clk_ctl_s * @divide2: The 'hclk' used by the USB subsystem is derived * from the eclk. * Also see the field DIVIDE. DIVIDE2<1> must currently * be zero because it is not implemented, so the maximum * ratio of eclk/hclk is currently 16. * The actual divide number for hclk is: * (DIVIDE2 + 1) * (DIVIDE + 1) * @hclk_rst: When this field is '0' the HCLK-DIVIDER used to * generate the hclk in the USB Subsystem is held * in reset. This bit must be set to '0' before * changing the value os DIVIDE in this register. * The reset to the HCLK_DIVIDERis also asserted * when core reset is asserted. * @p_x_on: Force USB-PHY on during suspend. * '1' USB-PHY XO block is powered-down during * suspend. * '0' USB-PHY XO block is powered-up during * suspend. * The value of this field must be set while POR is * active. * @p_rtype: PHY reference clock type * On CN50XX/CN52XX/CN56XX the values are: * '0' The USB-PHY uses a 12MHz crystal as a clock source * at the USB_XO and USB_XI pins. * '1' Reserved. * '2' The USB_PHY uses 12/24/48MHz 2.5V board clock at the * USB_XO pin. USB_XI should be tied to ground in this * case. * '3' Reserved. * On CN3xxx bits 14 and 15 are p_xenbn and p_rclk and values are: * '0' Reserved. * '1' Reserved. * '2' The PHY PLL uses the XO block output as a reference. * The XO block uses an external clock supplied on the * XO pin. USB_XI should be tied to ground for this * usage. * '3' The XO block uses the clock from a crystal. * @p_com_on: '0' Force USB-PHY XO Bias, Bandgap and PLL to * remain powered in Suspend Mode. * '1' The USB-PHY XO Bias, Bandgap and PLL are * powered down in suspend mode. * The value of this field must be set while POR is * active. * @p_c_sel: Phy clock speed select. * Selects the reference clock / crystal frequency. * '11': Reserved * '10': 48 MHz (reserved when a crystal is used) * '01': 24 MHz (reserved when a crystal is used) * '00': 12 MHz * The value of this field must be set while POR is * active. * NOTE: if a crystal is used as a reference clock, * this field must be set to 12 MHz. * @cdiv_byp: Used to enable the bypass input to the USB_CLK_DIV. * @sd_mode: Scaledown mode for the USBC. Control timing events * in the USBC, for normal operation this must be '0'. * @s_bist: Starts bist on the hclk memories, during the '0' * to '1' transition. * @por: Power On Reset for the PHY. * Resets all the PHYS registers and state machines. * @enable: When '1' allows the generation of the hclk. When * '0' the hclk will not be generated. SEE DIVIDE * field of this register. * @prst: When this field is '0' the reset associated with * the phy_clk functionality in the USB Subsystem is * help in reset. This bit should not be set to '1' * until the time it takes 6 clocks (hclk or phy_clk, * whichever is slower) has passed. Under normal * operation once this bit is set to '1' it should not * be set to '0'. * @hrst: When this field is '0' the reset associated with * the hclk functioanlity in the USB Subsystem is * held in reset.This bit should not be set to '1' * until 12ms after phy_clk is stable. Under normal * operation, once this bit is set to '1' it should * not be set to '0'. * @divide: The frequency of 'hclk' used by the USB subsystem * is the eclk frequency divided by the value of * (DIVIDE2 + 1) * (DIVIDE + 1), also see the field * DIVIDE2 of this register. * The hclk frequency should be less than 125Mhz. * After writing a value to this field the SW should * read the field for the value written. * The ENABLE field of this register should not be set * until AFTER this field is set and then read. */ struct cvmx_usbnx_clk_ctl_s { __BITFIELD_FIELD(u64 reserved_20_63 : 44, __BITFIELD_FIELD(u64 divide2 : 2, __BITFIELD_FIELD(u64 hclk_rst : 1, __BITFIELD_FIELD(u64 p_x_on : 1, __BITFIELD_FIELD(u64 p_rtype : 2, __BITFIELD_FIELD(u64 p_com_on : 1, __BITFIELD_FIELD(u64 p_c_sel : 2, __BITFIELD_FIELD(u64 cdiv_byp : 1, __BITFIELD_FIELD(u64 sd_mode : 2, __BITFIELD_FIELD(u64 s_bist : 1, __BITFIELD_FIELD(u64 por : 1, __BITFIELD_FIELD(u64 enable : 1, __BITFIELD_FIELD(u64 prst : 1, __BITFIELD_FIELD(u64 hrst : 1, __BITFIELD_FIELD(u64 divide : 3, ;))))))))))))))) } s; }; /** * cvmx_usbn#_usbp_ctl_status * * USBN_USBP_CTL_STATUS = USBP Control And Status Register * * Contains general control and status information for the USBN block. */ union cvmx_usbnx_usbp_ctl_status { u64 u64; /** * struct cvmx_usbnx_usbp_ctl_status_s * @txrisetune: HS Transmitter Rise/Fall Time Adjustment * @txvreftune: HS DC Voltage Level Adjustment * @txfslstune: FS/LS Source Impedance Adjustment * @txhsxvtune: Transmitter High-Speed Crossover Adjustment * @sqrxtune: Squelch Threshold Adjustment * @compdistune: Disconnect Threshold Adjustment * @otgtune: VBUS Valid Threshold Adjustment * @otgdisable: OTG Block Disable * @portreset: Per_Port Reset * @drvvbus: Drive VBUS * @lsbist: Low-Speed BIST Enable. * @fsbist: Full-Speed BIST Enable. * @hsbist: High-Speed BIST Enable. * @bist_done: PHY Bist Done. * Asserted at the end of the PHY BIST sequence. * @bist_err: PHY Bist Error. * Indicates an internal error was detected during * the BIST sequence. * @tdata_out: PHY Test Data Out. * Presents either internally generated signals or * test register contents, based upon the value of * test_data_out_sel. * @siddq: Drives the USBP (USB-PHY) SIDDQ input. * Normally should be set to zero. * When customers have no intent to use USB PHY * interface, they should: * - still provide 3.3V to USB_VDD33, and * - tie USB_REXT to 3.3V supply, and * - set USBN*_USBP_CTL_STATUS[SIDDQ]=1 * @txpreemphasistune: HS Transmitter Pre-Emphasis Enable * @dma_bmode: When set to 1 the L2C DMA address will be updated * with byte-counts between packets. When set to 0 * the L2C DMA address is incremented to the next * 4-byte aligned address after adding byte-count. * @usbc_end: Bigendian input to the USB Core. This should be * set to '0' for operation. * @usbp_bist: PHY, This is cleared '0' to run BIST on the USBP. * @tclk: PHY Test Clock, used to load TDATA_IN to the USBP. * @dp_pulld: PHY DP_PULLDOWN input to the USB-PHY. * This signal enables the pull-down resistance on * the D+ line. '1' pull down-resistance is connected * to D+/ '0' pull down resistance is not connected * to D+. When an A/B device is acting as a host * (downstream-facing port), dp_pulldown and * dm_pulldown are enabled. This must not toggle * during normal operation. * @dm_pulld: PHY DM_PULLDOWN input to the USB-PHY. * This signal enables the pull-down resistance on * the D- line. '1' pull down-resistance is connected * to D-. '0' pull down resistance is not connected * to D-. When an A/B device is acting as a host * (downstream-facing port), dp_pulldown and * dm_pulldown are enabled. This must not toggle * during normal operation. * @hst_mode: When '0' the USB is acting as HOST, when '1' * USB is acting as device. This field needs to be * set while the USB is in reset. * @tuning: Transmitter Tuning for High-Speed Operation. * Tunes the current supply and rise/fall output * times for high-speed operation. * [20:19] == 11: Current supply increased * approximately 9% * [20:19] == 10: Current supply increased * approximately 4.5% * [20:19] == 01: Design default. * [20:19] == 00: Current supply decreased * approximately 4.5% * [22:21] == 11: Rise and fall times are increased. * [22:21] == 10: Design default. * [22:21] == 01: Rise and fall times are decreased. * [22:21] == 00: Rise and fall times are decreased * further as compared to the 01 setting. * @tx_bs_enh: Transmit Bit Stuffing on [15:8]. * Enables or disables bit stuffing on data[15:8] * when bit-stuffing is enabled. * @tx_bs_en: Transmit Bit Stuffing on [7:0]. * Enables or disables bit stuffing on data[7:0] * when bit-stuffing is enabled. * @loop_enb: PHY Loopback Test Enable. * '1': During data transmission the receive is * enabled. * '0': During data transmission the receive is * disabled. * Must be '0' for normal operation. * @vtest_enb: Analog Test Pin Enable. * '1' The PHY's analog_test pin is enabled for the * input and output of applicable analog test signals. * '0' THe analog_test pin is disabled. * @bist_enb: Built-In Self Test Enable. * Used to activate BIST in the PHY. * @tdata_sel: Test Data Out Select. * '1' test_data_out[3:0] (PHY) register contents * are output. '0' internally generated signals are * output. * @taddr_in: Mode Address for Test Interface. * Specifies the register address for writing to or * reading from the PHY test interface register. * @tdata_in: Internal Testing Register Input Data and Select * This is a test bus. Data is present on [3:0], * and its corresponding select (enable) is present * on bits [7:4]. * @ate_reset: Reset input from automatic test equipment. * This is a test signal. When the USB Core is * powered up (not in Susned Mode), an automatic * tester can use this to disable phy_clock and * free_clk, then re-enable them with an aligned * phase. * '1': The phy_clk and free_clk outputs are * disabled. "0": The phy_clock and free_clk outputs * are available within a specific period after the * de-assertion. */ struct cvmx_usbnx_usbp_ctl_status_s { __BITFIELD_FIELD(u64 txrisetune : 1, __BITFIELD_FIELD(u64 txvreftune : 4, __BITFIELD_FIELD(u64 txfslstune : 4, __BITFIELD_FIELD(u64 txhsxvtune : 2, __BITFIELD_FIELD(u64 sqrxtune : 3, __BITFIELD_FIELD(u64 compdistune : 3, __BITFIELD_FIELD(u64 otgtune : 3, __BITFIELD_FIELD(u64 otgdisable : 1, __BITFIELD_FIELD(u64 portreset : 1, __BITFIELD_FIELD(u64 drvvbus : 1, __BITFIELD_FIELD(u64 lsbist : 1, __BITFIELD_FIELD(u64 fsbist : 1, __BITFIELD_FIELD(u64 hsbist : 1, __BITFIELD_FIELD(u64 bist_done : 1, __BITFIELD_FIELD(u64 bist_err : 1, __BITFIELD_FIELD(u64 tdata_out : 4, __BITFIELD_FIELD(u64 siddq : 1, __BITFIELD_FIELD(u64 txpreemphasistune : 1, __BITFIELD_FIELD(u64 dma_bmode : 1, __BITFIELD_FIELD(u64 usbc_end : 1, __BITFIELD_FIELD(u64 usbp_bist : 1, __BITFIELD_FIELD(u64 tclk : 1, __BITFIELD_FIELD(u64 dp_pulld : 1, __BITFIELD_FIELD(u64 dm_pulld : 1, __BITFIELD_FIELD(u64 hst_mode : 1, __BITFIELD_FIELD(u64 tuning : 4, __BITFIELD_FIELD(u64 tx_bs_enh : 1, __BITFIELD_FIELD(u64 tx_bs_en : 1, __BITFIELD_FIELD(u64 loop_enb : 1, __BITFIELD_FIELD(u64 vtest_enb : 1, __BITFIELD_FIELD(u64 bist_enb : 1, __BITFIELD_FIELD(u64 tdata_sel : 1, __BITFIELD_FIELD(u64 taddr_in : 4, __BITFIELD_FIELD(u64 tdata_in : 8, __BITFIELD_FIELD(u64 ate_reset : 1, ;))))))))))))))))))))))))))))))))))) } s; }; #endif /* __OCTEON_HCD_H__ */ |