/*************************************************************************** * __________ __ ___. * Open \______ \ ____ ____ | | _\_ |__ _______ ___ * Source | _// _ \_/ ___\| |/ /| __ \ / _ \ \/ / * Jukebox | | ( <_> ) \___| < | \_\ ( <_> > < < * Firmware |____|_ /\____/ \___ >__|_ \|___ /\____/__/\_ \ * \/ \/ \/ \/ \/ * $Id$ * * Copyright (C) 2009 Michael Sparmann * * This program is free software; you can redistribute it and/or * modify it under the terms of the GNU General Public License * as published by the Free Software Foundation; either version 2 * of the License, or (at your option) any later version. * * This software is distributed on an "AS IS" basis, WITHOUT WARRANTY OF ANY * KIND, either express or implied. * ****************************************************************************/ #ifndef USB_S3C6400X_H #define USB_S3C6400X_H /* All multi-bit fields in the driver use the following convention. * If the register name is NAME, then there is one define NAME_bitp * which holds the bit position and one define NAME_bits which holds * a mask of the bits within the register (after shift). * These macros allow easy access and construction of such fields */ /* Usage: * - extract(reg_name,field_name) * extract a field of the register * - bitm(reg_name,field_name) * build a bitmask for the field */ #define extract(reg_name, field_name) \ ((reg_name >> reg_name##_##field_name##_bitp) & reg_name##_##field_name##_bits) #define bitm(reg_name, field_name) \ (reg_name##_##field_name##_bits << reg_name##_##field_name##_bitp) /*** OTG PHY CONTROL REGISTERS ***/ #define OPHYPWR (*((uint32_t volatile*)(PHYBASE + 0x000))) #define OPHYCLK (*((uint32_t volatile*)(PHYBASE + 0x004))) #define ORSTCON (*((uint32_t volatile*)(PHYBASE + 0x008))) #define OPHYUNK3 (*((uint32_t volatile*)(PHYBASE + 0x018))) #define OPHYUNK1 (*((uint32_t volatile*)(PHYBASE + 0x01c))) #define OPHYUNK2 (*((uint32_t volatile*)(PHYBASE + 0x044))) /*** OTG LINK CORE REGISTERS ***/ /* Core Global Registers */ /** OTG Control and Status Register */ #define GOTGCTL (*((uint32_t volatile*)(OTGBASE + 0x000))) /** OTG Interrupt Register */ #define GOTGINT (*((uint32_t volatile*)(OTGBASE + 0x004))) /** Core AHB Configuration Register */ #define GAHBCFG (*((uint32_t volatile*)(OTGBASE + 0x008))) #define GAHBCFG_glblintrmsk (1 << 0) /** Global interrupt mask */ #define GAHBCFG_hburstlen_bitp 1 #define GAHBCFG_hburstlen_bits 0xf #define GAHBCFG_INT_DMA_BURST_SINGLE 0 #define GAHBCFG_INT_DMA_BURST_INCR 1 /** note: the linux patch has several other value, this is one picked for internal dma */ #define GAHBCFG_INT_DMA_BURST_INCR4 3 #define GAHBCFG_INT_DMA_BURST_INCR8 5 #define GAHBCFG_INT_DMA_BURST_INCR16 7 #define GAHBCFG_dma_enable (1 << 5) /** Enable DMA */ /** Core USB Configuration Register */ #define GUSBCFG (*((uint32_t volatile*)(OTGBASE + 0x00C))) #define GUSBCFG_toutcal_bitp 0 #define GUSBCFG_toutcal_bits 0x7 #define GUSBCFG_phy_if (1 << 3) /** select utmi bus width ? */ #define GUSBCFG_ulpi_utmi_sel (1 << 4) /** select ulpi:1 or utmi:0 */ #define GUSBCFG_fsintf (1 << 5) #define GUSBCFG_physel (1 << 6) #define GUSBCFG_ddrsel (1 << 7) #define GUSBCFG_srpcap (1 << 8) #define GUSBCFG_hnpcapp (1 << 9) #define GUSBCFG_usbtrdtim_bitp 10 #define GUSBCFG_usbtrdtim_bits 0xf #define GUSBCFG_nptxfrwnden (1 << 14) #define GUSBCFG_phylpwrclksel (1 << 15) #define GUSBCFG_otgutmifssel (1 << 16) #define GUSBCFG_ulpi_fsls (1 << 17) #define GUSBCFG_ulpi_auto_res (1 << 18) #define GUSBCFG_ulpi_clk_sus_m (1 << 19) #define GUSBCFG_ulpi_ext_vbus_drv (1 << 20) #define GUSBCFG_ulpi_int_vbus_indicator (1 << 21) #define GUSBCFG_term_sel_dl_pulse (1 << 22) #define GUSBCFG_force_host_mode (1 << 29) #define GUSBCFG_force_device_mode (1 << 30) #define GUSBCFG_corrupt_tx_packet (1 << 31) /** Core Reset Register */ #define GRSTCTL (*((uint32_t volatile*)(OTGBASE + 0x010))) #define GRSTCTL_csftrst (1 << 0) /** Core soft reset */ #define GRSTCTL_hsftrst (1 << 1) /** Hclk soft reset */ #define GRSTCTL_intknqflsh (1 << 3) /** In Token Sequence Learning Queue Flush */ #define GRSTCTL_rxfflsh_flush (1 << 4) /** RxFIFO Flush */ #define GRSTCTL_txfflsh_flush (1 << 5) /** TxFIFO Flush */ #define GRSTCTL_txfnum_bitp 6 /** TxFIFO Number */ #define GRSTCTL_txfnum_bits 0x1f #define GRSTCTL_ahbidle (1 << 31) /** AHB idle state*/ /** Core Interrupt Register */ #define GINTSTS (*((uint32_t volatile*)(OTGBASE + 0x014))) /* NOTE: GINTSTS bits are the same as in GINTMSK plus this one */ #define GINTSTS_curmode (1 << 0) /** Current mode, 0 for device */ /** Core Interrupt Mask Register */ #define GINTMSK (*((uint32_t volatile*)(OTGBASE + 0x018))) #define GINTMSK_modemismatch (1 << 1) /** mode mismatch ? */ #define GINTMSK_otgintr (1 << 2) #define GINTMSK_sofintr (1 << 3) #define GINTMSK_rxstsqlvl (1 << 4) #define GINTMSK_nptxfempty (1 << 5) /** Non-periodic TX fifo empty ? */ #define GINTMSK_ginnakeff (1 << 6) #define GINTMSK_goutnakeff (1 << 7) #define GINTMSK_i2cintr (1 << 9) #define GINTMSK_erlysuspend (1 << 10) #define GINTMSK_usbsuspend (1 << 11) /** USB suspend */ #define GINTMSK_usbreset (1 << 12) /** USB reset */ #define GINTMSK_enumdone (1 << 13) /** Enumeration done */ #define GINTMSK_isooutdrop (1 << 14) #define GINTMSK_eopframe (1 << 15) #define GINTMSK_epmismatch (1 << 17) /** endpoint mismatch ? */ #define GINTMSK_inepintr (1 << 18) /** in pending ? */ #define GINTMSK_outepintr (1 << 19) /** out pending ? */ #define GINTMSK_incomplisoin (1 << 20) /** ISP in complete ? */ #define GINTMSK_incomplisoout (1 << 21) /** ISO out complete ? */ #define GINTMSK_portintr (1 << 24) /** Port status change ? */ #define GINTMSK_hcintr (1 << 25) #define GINTMSK_ptxfempty (1 << 26) /** Periodic TX fifof empty ? */ #define GINTMSK_conidstschng (1 << 28) #define GINTMSK_disconnect (1 << 29) /** Disconnect */ #define GINTMSK_sessreqintr (1 << 30) /** Session request */ #define GINTMSK_wkupintr (1 << 31) /** Wake up */ /** Receive Status Debug Read Register (Read Only) */ #define GRXSTSR (*((uint32_t volatile*)(OTGBASE + 0x01C))) /** Receive Status Read /Pop Register (Read Only) */ #define GRXSTSP (*((uint32_t volatile*)(OTGBASE + 0x020))) /** Receive FIFO Size Register */ #define GRXFSIZ (*((uint32_t volatile*)(OTGBASE + 0x024))) /** Periodic Transmit FIFO Size Register */ #define GNPTXFSIZ (*((uint32_t volatile*)(OTGBASE + 0x028))) #define MAKE_FIFOSIZE_DATA(depth) ((depth) | ((depth) << 16)) /** Non-Periodic Transmit FIFO/Queue Status Register */ #define GNPTXSTS (*((uint32_t volatile*)(OTGBASE + 0x02C))) /** Device IN Endpoint Transmit FIFO (ep) Size Register */ /* 1<=ep<=15, don't use ep=0 !!! */ #define HPTXFSIZ (*((uint32_t volatile*)(OTGBASE + 0x100))) #define DPTXFSIZ(x) (*((uint32_t volatile*)(OTGBASE + 0x100 + 4 * (x)))) /*** HOST MODE REGISTERS ***/ /* Host Global Registers */ #define HCFG (*((uint32_t volatile*)(OTGBASE + 0x400))) #define HFIR (*((uint32_t volatile*)(OTGBASE + 0x404))) #define HFNUM (*((uint32_t volatile*)(OTGBASE + 0x408))) #define HPTXSTS (*((uint32_t volatile*)(OTGBASE + 0x410))) #define HAINT (*((uint32_t volatile*)(OTGBASE + 0x414))) #define HAINTMSK (*((uint32_t volatile*)(OTGBASE + 0x418))) /* Host Port Control and Status Registers */ #define HPRT (*((uint32_t volatile*)(OTGBASE + 0x440))) /* Host Channel-Specific Registers */ #define HCCHAR(x) (*((uint32_t volatile*)(OTGBASE + 0x500 + 0x20 * (x)))) #define HCSPLT(x) (*((uint32_t volatile*)(OTGBASE + 0x504 + 0x20 * (x)))) #define HCINT(x) (*((uint32_t volatile*)(OTGBASE + 0x508 + 0x20 * (x)))) #define HCINTMSK(x) (*((uint32_t volatile*)(OTGBASE + 0x50C + 0x20 * (x)))) #define HCTSIZ(x) (*((uint32_t volatile*)(OTGBASE + 0x510 + 0x20 * (x)))) #define HCDMA(x) (*((uint32_t volatile*)(OTGBASE + 0x514 + 0x20 * (x)))) #define HCCHAR0 (*((uint32_t volatile*)(OTGBASE + 0x500))) #define HCSPLT0 (*((uint32_t volatile*)(OTGBASE + 0x504))) #define HCINT0 (*((uint32_t volatile*)(OTGBASE + 0x508))) #define HCINTMSK0 (*((uint32_t volatile*)(OTGBASE + 0x50C))) #define HCTSIZ0 (*((uint32_t volatile*)(OTGBASE + 0x510))) #define HCDMA0 (*((uint32_t volatile*)(OTGBASE + 0x514))) #define HCCHAR1 (*((uint32_t volatile*)(OTGBASE + 0x520))) #define HCSPLT1 (*((uint32_t volatile*)(OTGBASE + 0x524))) #define HCINT1 (*((uint32_t volatile*)(OTGBASE + 0x528))) #define HCINTMSK1 (*((uint32_t volatile*)(OTGBASE + 0x52C))) #define HCTSIZ1 (*((uint32_t volatile*)(OTGBASE + 0x530))) #define HCDMA1 (*((uint32_t volatile*)(OTGBASE + 0x534))) #define HCCHAR2 (*((uint32_t volatile*)(OTGBASE + 0x540))) #define HCSPLT2 (*((uint32_t volatile*)(OTGBASE + 0x544))) #define HCINT2 (*((uint32_t volatile*)(OTGBASE + 0x548))) #define HCINTMSK2 (*((uint32_t volatile*)(OTGBASE + 0x54C))) #define HCTSIZ2 (*((uint32_t volatile*)(OTGBASE + 0x550))) #define HCDMA2 (*((uint32_t volatile*)(OTGBASE + 0x554))) #define HCCHAR3 (*((uint32_t volatile*)(OTGBASE + 0x560))) #define HCSPLT3 (*((uint32_t volatile*)(OTGBASE + 0x564))) #define HCINT3 (*((uint32_t volatile*)(OTGBASE + 0x568))) #define HCINTMSK3 (*((uint32_t volatile*)(OTGBASE + 0x56C))) #define HCTSIZ3 (*((uint32_t volatile*)(OTGBASE + 0x570))) #define HCDMA3 (*((uint32_t volatile*)(OTGBASE + 0x574))) #define HCCHAR4 (*((uint32_t volatile*)(OTGBASE + 0x580))) #define HCSPLT4 (*((uint32_t volatile*)(OTGBASE + 0x584))) #define HCINT4 (*((uint32_t volatile*)(OTGBASE + 0x588))) #define HCINTMSK4 (*((uint32_t volatile*)(OTGBASE + 0x58C))) #define HCTSIZ4 (*((uint32_t volatile*)(OTGBASE + 0x590))) #define HCDMA4 (*((uint32_t volatile*)(OTGBASE + 0x594))) #define HCCHAR5 (*((uint32_t volatile*)(OTGBASE + 0x5A0))) #define HCSPLT5 (*((uint32_t volatile*)(OTGBASE + 0x5A4))) #define HCINT5 (*((uint32_t volatile*)(OTGBASE + 0x5A8))) #define HCINTMSK5 (*((uint32_t volatile*)(OTGBASE + 0x5AC))) #define HCTSIZ5 (*((uint32_t volatile*)(OTGBASE + 0x5B0))) #define HCDMA5 (*((uint32_t volatile*)(OTGBASE + 0x5B4))) #define HCCHAR6 (*((uint32_t volatile*)(OTGBASE + 0x5C0))) #define HCSPLT6 (*((uint32_t volatile*)(OTGBASE + 0x5C4))) #define HCINT6 (*((uint32_t volatile*)(OTGBASE + 0x5C8))) #define HCINTMSK6 (*((uint32_t volatile*)(OTGBASE + 0x5CC))) #define HCTSIZ6 (*((uint32_t volatile*)(OTGBASE + 0x5D0))) #define HCDMA6 (*((uint32_t volatile*)(OTGBASE + 0x5D4))) #define HCCHAR7 (*((uint32_t volatile*)(OTGBASE + 0x5E0))) #define HCSPLT7 (*((uint32_t volatile*)(OTGBASE + 0x5E4))) #define HCINT7 (*((uint32_t volatile*)(OTGBASE + 0x5E8))) #define HCINTMSK7 (*((uint32_t volatile*)(OTGBASE + 0x5EC))) #define HCTSIZ7 (*((uint32_t volatile*)(OTGBASE + 0x5F0))) #define HCDMA7 (*((uint32_t volatile*)(OTGBASE + 0x5F4))) #define HCCHAR8 (*((uint32_t volatile*)(OTGBASE + 0x600))) #define HCSPLT8 (*((uint32_t volatile*)(OTGBASE + 0x604))) #define HCINT8 (*((uint32_t volatile*)(OTGBASE + 0x608))) #define HCINTMSK8 (*((uint32_t volatile*)(OTGBASE + 0x60C))) #define HCTSIZ8 (*((uint32_t volatile*)(OTGBASE + 0x610))) #define HCDMA8 (*((uint32_t volatile*)(OTGBASE + 0x614))) #define HCCHAR9 (*((uint32_t volatile*)(OTGBASE + 0x620))) #define HCSPLT9 (*((uint32_t volatile*)(OTGBASE + 0x624))) #define HCINT9 (*((uint32_t volatile*)(OTGBASE + 0x628))) #define HCINTMSK9 (*((uint32_t volatile*)(OTGBASE + 0x62C))) #define HCTSIZ9 (*((uint32_t volatile*)(OTGBASE + 0x630))) #define HCDMA9 (*((uint32_t volatile*)(OTGBASE + 0x634))) #define HCCHAR10 (*((uint32_t volatile*)(OTGBASE + 0x640))) #define HCSPLT10 (*((uint32_t volatile*)(OTGBASE + 0x644))) #define HCINT10 (*((uint32_t volatile*)(OTGBASE + 0x648))) #define HCINTMSK10 (*((uint32_t volatile*)(OTGBASE + 0x64C))) #define HCTSIZ10 (*((uint32_t volatile*)(OTGBASE + 0x650))) #define HCDMA10 (*((uint32_t volatile*)(OTGBASE + 0x654))) #define HCCHAR11 (*((uint32_t volatile*)(OTGBASE + 0x660))) #define HCSPLT11 (*((uint32_t volatile*)(OTGBASE + 0x664))) #define HCINT11 (*((uint32_t volatile*)(OTGBASE + 0x668))) #define HCINTMSK11 (*((uint32_t volatile*)(OTGBASE + 0x66C))) #define HCTSIZ11 (*((uint32_t volatile*)(OTGBASE + 0x670))) #define HCDMA11 (*((uint32_t volatile*)(OTGBASE + 0x674))) #define HCCHAR12 (*((uint32_t volatile*)(OTGBASE + 0x680))) #define HCSPLT12 (*((uint32_t volatile*)(OTGBASE + 0x684))) #define HCINT12 (*((uint32_t volatile*)(OTGBASE + 0x688))) #define HCINTMSK12 (*((uint32_t volatile*)(OTGBASE + 0x68C))) #define HCTSIZ12 (*((uint32_t volatile*)(OTGBASE + 0x690))) #define HCDMA12 (*((uint32_t volatile*)(OTGBASE + 0x694))) #define HCCHAR13 (*((uint32_t volatile*)(OTGBASE + 0x6A0))) #define HCSPLT13 (*((uint32_t volatile*)(OTGBASE + 0x6A4))) #define HCINT13 (*((uint32_t volatile*)(OTGBASE + 0x6A8))) #define HCINTMSK13 (*((uint32_t volatile*)(OTGBASE + 0x6AC))) #define HCTSIZ13 (*((uint32_t volatile*)(OTGBASE + 0x6B0))) #define HCDMA13 (*((uint32_t volatile*)(OTGBASE + 0x6B4))) #define HCCHAR14 (*((uint32_t volatile*)(OTGBASE + 0x6C0))) #define HCSPLT14 (*((uint32_t volatile*)(OTGBASE + 0x6C4))) #define HCINT14 (*((uint32_t volatile*)(OTGBASE + 0x6C8))) #define HCINTMSK14 (*((uint32_t volatile*)(OTGBASE + 0x6CC))) #define HCTSIZ14 (*((uint32_t volatile*)(OTGBASE + 0x6D0))) #define HCDMA14 (*((uint32_t volatile*)(OTGBASE + 0x6D4))) #define HCCHAR15 (*((uint32_t volatile*)(OTGBASE + 0x6E0))) #define HCSPLT15 (*((uint32_t volatile*)(OTGBASE + 0x6E4))) #define HCINT15 (*((uint32_t volatile*)(OTGBASE + 0x6E8))) #define HCINTMSK15 (*((uint32_t volatile*)(OTGBASE + 0x6EC))) #define HCTSIZ15 (*((uint32_t volatile*)(OTGBASE + 0x6F0))) #define HCDMA15 (*((uint32_t volatile*)(OTGBASE + 0x6F4))) /*** DEVICE MODE REGISTERS ***/ /* Device Global Registers */ /** Device Configuration Register */ #define DCFG (*((uint32_t volatile*)(OTGBASE + 0x800))) #define DCFG_devspd_bitp 0 /** Device Speed */ #define DCFG_devspd_bits 0x3 #define DCFG_devspd_hs_phy_hs 0 /** High speed PHY running at high speed */ #define DCFG_devspd_hs_phy_fs 1 /** High speed PHY running at full speed */ #define DCFG_nzstsouthshk (1 << 2) /** Non Zero Length Status OUT Handshake */ #define DCFG_devadr_bitp 4 /** Device Address */ #define DCFG_devadr_bits 0x7f #define DCFG_perfrint_bitp 11 /** Periodic Frame Interval */ #define DCFG_perfrint_bits 0x3 #define DCFG_FRAME_INTERVAL_80 0 #define DCFG_FRAME_INTERVAL_85 1 #define DCFG_FRAME_INTERVAL_90 2 #define DCFG_FRAME_INTERVAL_95 3 /** Device Control Register */ #define DCTL (*((uint32_t volatile*)(OTGBASE + 0x804))) #define DCTL_rmtwkupsig (1 << 0) /** Remote Wakeup */ #define DCTL_sftdiscon (1 << 1) /** Soft Disconnect */ #define DCTL_gnpinnaksts (1 << 2) /** Global Non-Periodic IN NAK Status */ #define DCTL_goutnaksts (1 << 3) /** Global OUT NAK Status */ #define DCTL_tstctl_bitp 4 /** Test Control */ #define DCTL_tstctl_bits 0x7 #define DCTL_sgnpinnak (1 << 7) /** Set Global Non-Periodic IN NAK */ #define DCTL_cgnpinnak (1 << 8) /** Clear Global Non-Periodic IN NAK */ #define DCTL_sgoutnak (1 << 9) /** Set Global OUT NAK */ #define DCTL_cgoutnak (1 << 10) /** Clear Global OUT NAK */ #define DCTL_pwronprgdone (1 << 11) /** Power on Program Done ? */ /** Device Status Register */ #define DSTS (*((uint32_t volatile*)(OTGBASE + 0x808))) #define DSTS_suspsts (1 << 0) /** Suspend status */ #define DSTS_enumspd_bitp 1 /** Enumerated speed */ #define DSTS_enumspd_bits 0x3 #define DSTS_ENUMSPD_HS_PHY_30MHZ_OR_60MHZ 0 #define DSTS_ENUMSPD_FS_PHY_30MHZ_OR_60MHZ 1 #define DSTS_ENUMSPD_LS_PHY_6MHZ 2 #define DSTS_ENUMSPD_FS_PHY_48MHZ 3 #define DSTS_errticerr (1 << 3) /** Erratic errors ? */ #define DSTS_soffn_bitp 8 /** Frame or Microframe Number of the received SOF */ #define DSTS_soffn_bits 0x3fff /** Device IN Endpoint Common Interrupt Mask Register */ #define DIEPMSK (*((uint32_t volatile*)(OTGBASE + 0x810))) /* the following apply to DEPMSK and DEPINT */ #define DEPINT_xfercompl (1 << 0) /** Transfer complete */ #define DEPINT_epdisabled (1 << 1) /** Endpoint disabled */ #define DEPINT_ahberr (1 << 2) /** AHB error */ #define DIEPINT_timeout (1 << 3) /** Timeout handshake (non-iso TX) */ #define DOEPINT_setup (1 << 3) /** Setup Phase Done (control EPs)*/ #define DIEPINT_intktxfemp (1 << 4) /** IN token received with tx fifo empty */ #define DIEPINT_intknepmis (1 << 5) /** IN token received with ep mismatch */ #define DIEPINT_inepnakeff (1 << 6) /** IN endpoint NAK effective */ #define DIEPINT_emptyintr (1 << 7) /** linux doc broken on this, empty fifo ? */ #define DIEPINT_txfifoundrn (1 << 8) /** linux doc void on this, tx fifo underrun ? */ /** Device OUT Endpoint Common Interrupt Mask Register */ #define DOEPMSK (*((uint32_t volatile*)(OTGBASE + 0x814))) /** Device All Endpoints Interrupt Register */ #define DAINT (*((uint32_t volatile*)(OTGBASE + 0x818))) /* valid for DAINT and DAINTMSK, for 0<=ep<=15 */ #define DAINT_IN_EP(i) (1 << (i)) #define DAINT_OUT_EP(i) (1 << ((i) + 16)) /** Device Endpoints Interrupt Mask Register */ #define DAINTMSK (*((uint32_t volatile*)(OTGBASE + 0x81C))) /** Device IN Token Sequence Learning Queue Read Register 1 */ #define DTKNQR1 (*((uint32_t volatile*)(OTGBASE + 0x820))) /** Device IN Token Sequence Learning Queue Register 2 */ #define DTKNQR2 (*((uint32_t volatile*)(OTGBASE + 0x824))) /* fixme: those registers are not present in registers.h but are in dwc_otgh_regs.h. * the previous registers exists but has a different name :( */ /** Device VBUS discharge register*/ #define DVBUSDIS (*((uint32_t volatile*)(OTGBASE + 0x828))) /** Device VBUS pulse register */ #define DVBUSPULSE (*((uint32_t volatile*)(OTGBASE + 0x82C))) // FIXME : 2 names for the same reg? /** Device IN Token Queue Read Register 3 (RO) */ /** Device Thresholding control register */ #define DTKNQR3 (*((uint32_t volatile*)(OTGBASE + 0x830))) #define DTHRCTL (*((uint32_t volatile*)(OTGBASE + 0x830))) #define DTHRCTL_non_iso_thr_en (1 << 0) #define DTHRCTL_iso_thr_en (1 << 1) #define DTHRCTL_tx_thr_len_bitp 2 #define DTHRCTL_tx_thr_len_bits 0x1FF #define DTHRCTL_rx_thr_en (1 << 16) #define DTHRCTL_rx_thr_len_bitp 17 #define DTHRCTL_rx_thr_len_bits 0x1FF /** Device IN Token Queue Read Register 4 (RO) */ #define DTKNQR4 (*((uint32_t volatile*)(OTGBASE + 0x834))) /* Device Logical Endpoint-Specific Registers */ #define DEPCTL(x, out) (*((uint32_t volatile*)(OTGBASE + 0x900 + ((!!out) * 0x200) + 0x20 * (x)))) /** Maximum Packet Size * IN/OUT EPn * IN/OUT EP0 - 2 bits * 2'b00: 64 Bytes * 2'b01: 32 * 2'b10: 16 * 2'b11: 8 */ #define DEPCTL_mps_bitp 0 #define DEPCTL_mps_bits 0x7ff #define DEPCTL_MPS_64 0 #define DEPCTL_MPS_32 1 #define DEPCTL_MPS_16 2 #define DEPCTL_MPS_8 3 /** Next Endpoint * IN EPn/IN EP0 * OUT EPn/OUT EP0 - reserved */ #define DEPCTL_nextep_bitp 11 #define DEPCTL_nextep_bits 0xf #define DEPCTL_usbactep (1 << 15) /** USB Active Endpoint */ /** Endpoint DPID (INTR/Bulk IN and OUT endpoints) * This field contains the PID of the packet going to * be received or transmitted on this endpoint. The * application should program the PID of the first * packet going to be received or transmitted on this * endpoint , after the endpoint is * activated. Application use the SetD1PID and * SetD0PID fields of this register to program either * D0 or D1 PID. * * The encoding for this field is * - 0: D0 * - 1: D1 */ #define DEPCTL_dpid (1 << 16) #define DEPCTL_naksts (1 << 17) /** NAK Status */ /** Endpoint Type * 2'b00: Control * 2'b01: Isochronous * 2'b10: Bulk * 2'b11: Interrupt */ #define DEPCTL_eptype_bitp 18 #define DEPCTL_eptype_bits 0x3 /** Snoop Mode * OUT EPn/OUT EP0 * IN EPn/IN EP0 - reserved */ #define DEPCTL_snp (1 << 20) #define DEPCTL_stall (1 << 21) /** Stall Handshake */ /** Tx Fifo Number * IN EPn/IN EP0 * OUT EPn/OUT EP0 - reserved */ #define DEPCTL_txfnum_bitp 22 #define DEPCTL_txfnum_bits 0xf #define DEPCTL_cnak (1 << 26) /** Clear NAK */ #define DEPCTL_snak (1 << 27) /** Set NAK */ /** Set DATA0 PID (INTR/Bulk IN and OUT endpoints) * Writing to this field sets the Endpoint DPID (DPID) * field in this register to DATA0. Set Even * (micro)frame (SetEvenFr) (ISO IN and OUT Endpoints) * Writing to this field sets the Even/Odd * (micro)frame (EO_FrNum) field to even (micro) * frame. */ #define DEPCTL_setd0pid (1 << 28) /** Set DATA1 PID (INTR/Bulk IN and OUT endpoints) * Writing to this field sets the Endpoint DPID (DPID) * field in this register to DATA1 Set Odd * (micro)frame (SetOddFr) (ISO IN and OUT Endpoints) * Writing to this field sets the Even/Odd * (micro)frame (EO_FrNum) field to odd (micro) frame. */ #define DEPCTL_setd1pid (1 << 29) #define DEPCTL_epdis (1 << 30) /** Endpoint disable */ #define DEPCTL_epena (1 << 31) /** Endpoint enable */ /** Device Endpoint (ep) Transfer Size Register */ #define DEPTSIZ(x, out) (*((uint32_t volatile*)(OTGBASE + 0x910 + (0x200 * (!!out)) + 0x20 * (x)))) /* valid for any D{I,O}EPTSIZi with 1<=i<=15, NOT for i=0 ! */ #define DEPTSIZ_xfersize_bitp 0 /** Transfer Size */ #define DEPTSIZ_xfersize_bits 0x7ffff #define DEPTSIZ_pkcnt_bitp 19 /** Packet Count */ #define DEPTSIZ_pkcnt_bits 0x3ff #define DEPTSIZ_mc_bitp 29 /** Multi Count - Periodic IN endpoints */ #define DEPTSIZ_mc_bits 0x3 /* idem but for i=0 */ #define DEPTSIZ0_xfersize_bitp 0 /** Transfer Size */ #define DEPTSIZ0_xfersize_bits 0x7f #define DEPTSIZ0_pkcnt_bitp 19 /** Packet Count */ #define DEPTSIZ0_pkcnt_bits 0x3 #define DEPTSIZ0_supcnt_bitp 29 /** Setup Packet Count (DOEPTSIZ0 Only) */ #define DEPTSIZ0_supcnt_bits 0x3 /** Device Endpoint (ep) Control Register */ #define DEPINT(x,out) (*((uint32_t volatile*)(OTGBASE + 0x908 + (0x200 * (!!out)) + 0x20 * (x)))) /** Device Endpoint (ep) DMA Address Register */ #define DEPDMA(x,out) (*((const void* volatile*)(OTGBASE + 0x914 + (0x200 * (!!out)) + 0x20 * (x)))) /* Power and Clock Gating Register */ #define PCGCCTL (*((uint32_t volatile*)(OTGBASE + 0xE00))) #endif /* USB_S3C6400X_H */