blackfin: add spi/sport3/ppi head file for bf60x

+258

arch/blackfin/include/asm/bfin6xx_spi.h

··· 1 + /* 2 + * Analog Devices SPI3 controller driver 3 + * 4 + * Copyright (c) 2011 Analog Devices Inc. 5 + * 6 + * This program is free software; you can redistribute it and/or modify 7 + * it under the terms of the GNU General Public License version 2 as 8 + * published by the Free Software Foundation. 9 + * 10 + * This program is distributed in the hope that it will be useful, 11 + * but WITHOUT ANY WARRANTY; without even the implied warranty of 12 + * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the 13 + * GNU General Public License for more details. 14 + * 15 + * You should have received a copy of the GNU General Public License 16 + * along with this program; if not, write to the Free Software 17 + * Foundation, Inc., 675 Mass Ave, Cambridge, MA 02139, USA. 18 + */ 19 + 20 + #ifndef _SPI_CHANNEL_H_ 21 + #define _SPI_CHANNEL_H_ 22 + 23 + #include <linux/types.h> 24 + 25 + /* SPI_CONTROL */ 26 + #define SPI_CTL_EN 0x00000001 /* Enable */ 27 + #define SPI_CTL_MSTR 0x00000002 /* Master/Slave */ 28 + #define SPI_CTL_PSSE 0x00000004 /* controls modf error in master mode */ 29 + #define SPI_CTL_ODM 0x00000008 /* Open Drain Mode */ 30 + #define SPI_CTL_CPHA 0x00000010 /* Clock Phase */ 31 + #define SPI_CTL_CPOL 0x00000020 /* Clock Polarity */ 32 + #define SPI_CTL_ASSEL 0x00000040 /* Slave Select Pin Control */ 33 + #define SPI_CTL_SELST 0x00000080 /* Slave Select Polarity in-between transfers */ 34 + #define SPI_CTL_EMISO 0x00000100 /* Enable MISO */ 35 + #define SPI_CTL_SIZE 0x00000600 /* Word Transfer Size */ 36 + #define SPI_CTL_SIZE08 0x00000000 /* SIZE: 8 bits */ 37 + #define SPI_CTL_SIZE16 0x00000200 /* SIZE: 16 bits */ 38 + #define SPI_CTL_SIZE32 0x00000400 /* SIZE: 32 bits */ 39 + #define SPI_CTL_LSBF 0x00001000 /* LSB First */ 40 + #define SPI_CTL_FCEN 0x00002000 /* Flow-Control Enable */ 41 + #define SPI_CTL_FCCH 0x00004000 /* Flow-Control Channel Selection */ 42 + #define SPI_CTL_FCPL 0x00008000 /* Flow-Control Polarity */ 43 + #define SPI_CTL_FCWM 0x00030000 /* Flow-Control Water-Mark */ 44 + #define SPI_CTL_FIFO0 0x00000000 /* FCWM: TFIFO empty or RFIFO Full */ 45 + #define SPI_CTL_FIFO1 0x00010000 /* FCWM: TFIFO 75% or more empty or RFIFO 75% or more full */ 46 + #define SPI_CTL_FIFO2 0x00020000 /* FCWM: TFIFO 50% or more empty or RFIFO 50% or more full */ 47 + #define SPI_CTL_FMODE 0x00040000 /* Fast-mode Enable */ 48 + #define SPI_CTL_MIOM 0x00300000 /* Multiple I/O Mode */ 49 + #define SPI_CTL_MIO_DIS 0x00000000 /* MIOM: Disable */ 50 + #define SPI_CTL_MIO_DUAL 0x00100000 /* MIOM: Enable DIOM (Dual I/O Mode) */ 51 + #define SPI_CTL_MIO_QUAD 0x00200000 /* MIOM: Enable QUAD (Quad SPI Mode) */ 52 + #define SPI_CTL_SOSI 0x00400000 /* Start on MOSI */ 53 + /* SPI_RX_CONTROL */ 54 + #define SPI_RXCTL_REN 0x00000001 /* Receive Channel Enable */ 55 + #define SPI_RXCTL_RTI 0x00000004 /* Receive Transfer Initiate */ 56 + #define SPI_RXCTL_RWCEN 0x00000008 /* Receive Word Counter Enable */ 57 + #define SPI_RXCTL_RDR 0x00000070 /* Receive Data Request */ 58 + #define SPI_RXCTL_RDR_DIS 0x00000000 /* RDR: Disabled */ 59 + #define SPI_RXCTL_RDR_NE 0x00000010 /* RDR: RFIFO not empty */ 60 + #define SPI_RXCTL_RDR_25 0x00000020 /* RDR: RFIFO 25% full */ 61 + #define SPI_RXCTL_RDR_50 0x00000030 /* RDR: RFIFO 50% full */ 62 + #define SPI_RXCTL_RDR_75 0x00000040 /* RDR: RFIFO 75% full */ 63 + #define SPI_RXCTL_RDR_FULL 0x00000050 /* RDR: RFIFO full */ 64 + #define SPI_RXCTL_RDO 0x00000100 /* Receive Data Over-Run */ 65 + #define SPI_RXCTL_RRWM 0x00003000 /* FIFO Regular Water-Mark */ 66 + #define SPI_RXCTL_RWM_0 0x00000000 /* RRWM: RFIFO Empty */ 67 + #define SPI_RXCTL_RWM_25 0x00001000 /* RRWM: RFIFO 25% full */ 68 + #define SPI_RXCTL_RWM_50 0x00002000 /* RRWM: RFIFO 50% full */ 69 + #define SPI_RXCTL_RWM_75 0x00003000 /* RRWM: RFIFO 75% full */ 70 + #define SPI_RXCTL_RUWM 0x00070000 /* FIFO Urgent Water-Mark */ 71 + #define SPI_RXCTL_UWM_DIS 0x00000000 /* RUWM: Disabled */ 72 + #define SPI_RXCTL_UWM_25 0x00010000 /* RUWM: RFIFO 25% full */ 73 + #define SPI_RXCTL_UWM_50 0x00020000 /* RUWM: RFIFO 50% full */ 74 + #define SPI_RXCTL_UWM_75 0x00030000 /* RUWM: RFIFO 75% full */ 75 + #define SPI_RXCTL_UWM_FULL 0x00040000 /* RUWM: RFIFO full */ 76 + /* SPI_TX_CONTROL */ 77 + #define SPI_TXCTL_TEN 0x00000001 /* Transmit Channel Enable */ 78 + #define SPI_TXCTL_TTI 0x00000004 /* Transmit Transfer Initiate */ 79 + #define SPI_TXCTL_TWCEN 0x00000008 /* Transmit Word Counter Enable */ 80 + #define SPI_TXCTL_TDR 0x00000070 /* Transmit Data Request */ 81 + #define SPI_TXCTL_TDR_DIS 0x00000000 /* TDR: Disabled */ 82 + #define SPI_TXCTL_TDR_NF 0x00000010 /* TDR: TFIFO not full */ 83 + #define SPI_TXCTL_TDR_25 0x00000020 /* TDR: TFIFO 25% empty */ 84 + #define SPI_TXCTL_TDR_50 0x00000030 /* TDR: TFIFO 50% empty */ 85 + #define SPI_TXCTL_TDR_75 0x00000040 /* TDR: TFIFO 75% empty */ 86 + #define SPI_TXCTL_TDR_EMPTY 0x00000050 /* TDR: TFIFO empty */ 87 + #define SPI_TXCTL_TDU 0x00000100 /* Transmit Data Under-Run */ 88 + #define SPI_TXCTL_TRWM 0x00003000 /* FIFO Regular Water-Mark */ 89 + #define SPI_TXCTL_RWM_FULL 0x00000000 /* TRWM: TFIFO full */ 90 + #define SPI_TXCTL_RWM_25 0x00001000 /* TRWM: TFIFO 25% empty */ 91 + #define SPI_TXCTL_RWM_50 0x00002000 /* TRWM: TFIFO 50% empty */ 92 + #define SPI_TXCTL_RWM_75 0x00003000 /* TRWM: TFIFO 75% empty */ 93 + #define SPI_TXCTL_TUWM 0x00070000 /* FIFO Urgent Water-Mark */ 94 + #define SPI_TXCTL_UWM_DIS 0x00000000 /* TUWM: Disabled */ 95 + #define SPI_TXCTL_UWM_25 0x00010000 /* TUWM: TFIFO 25% empty */ 96 + #define SPI_TXCTL_UWM_50 0x00020000 /* TUWM: TFIFO 50% empty */ 97 + #define SPI_TXCTL_UWM_75 0x00030000 /* TUWM: TFIFO 75% empty */ 98 + #define SPI_TXCTL_UWM_EMPTY 0x00040000 /* TUWM: TFIFO empty */ 99 + /* SPI_CLOCK */ 100 + #define SPI_CLK_BAUD 0x0000FFFF /* Baud Rate */ 101 + /* SPI_DELAY */ 102 + #define SPI_DLY_STOP 0x000000FF /* Transfer delay time in multiples of SCK period */ 103 + #define SPI_DLY_LEADX 0x00000100 /* Extended (1 SCK) LEAD Control */ 104 + #define SPI_DLY_LAGX 0x00000200 /* Extended (1 SCK) LAG control */ 105 + /* SPI_SSEL */ 106 + #define SPI_SLVSEL_SSE1 0x00000002 /* SPISSEL1 Enable */ 107 + #define SPI_SLVSEL_SSE2 0x00000004 /* SPISSEL2 Enable */ 108 + #define SPI_SLVSEL_SSE3 0x00000008 /* SPISSEL3 Enable */ 109 + #define SPI_SLVSEL_SSE4 0x00000010 /* SPISSEL4 Enable */ 110 + #define SPI_SLVSEL_SSE5 0x00000020 /* SPISSEL5 Enable */ 111 + #define SPI_SLVSEL_SSE6 0x00000040 /* SPISSEL6 Enable */ 112 + #define SPI_SLVSEL_SSE7 0x00000080 /* SPISSEL7 Enable */ 113 + #define SPI_SLVSEL_SSEL1 0x00000200 /* SPISSEL1 Value */ 114 + #define SPI_SLVSEL_SSEL2 0x00000400 /* SPISSEL2 Value */ 115 + #define SPI_SLVSEL_SSEL3 0x00000800 /* SPISSEL3 Value */ 116 + #define SPI_SLVSEL_SSEL4 0x00001000 /* SPISSEL4 Value */ 117 + #define SPI_SLVSEL_SSEL5 0x00002000 /* SPISSEL5 Value */ 118 + #define SPI_SLVSEL_SSEL6 0x00004000 /* SPISSEL6 Value */ 119 + #define SPI_SLVSEL_SSEL7 0x00008000 /* SPISSEL7 Value */ 120 + /* SPI_RWC */ 121 + #define SPI_RWC_VALUE 0x0000FFFF /* Received Word-Count */ 122 + /* SPI_RWCR */ 123 + #define SPI_RWCR_VALUE 0x0000FFFF /* Received Word-Count Reload */ 124 + /* SPI_TWC */ 125 + #define SPI_TWC_VALUE 0x0000FFFF /* Transmitted Word-Count */ 126 + /* SPI_TWCR */ 127 + #define SPI_TWCR_VALUE 0x0000FFFF /* Transmitted Word-Count Reload */ 128 + /* SPI_IMASK */ 129 + #define SPI_IMSK_RUWM 0x00000002 /* Receive Urgent Water-Mark Interrupt Mask */ 130 + #define SPI_IMSK_TUWM 0x00000004 /* Transmit Urgent Water-Mark Interrupt Mask */ 131 + #define SPI_IMSK_ROM 0x00000010 /* Receive Over-Run Error Interrupt Mask */ 132 + #define SPI_IMSK_TUM 0x00000020 /* Transmit Under-Run Error Interrupt Mask */ 133 + #define SPI_IMSK_TCM 0x00000040 /* Transmit Collision Error Interrupt Mask */ 134 + #define SPI_IMSK_MFM 0x00000080 /* Mode Fault Error Interrupt Mask */ 135 + #define SPI_IMSK_RSM 0x00000100 /* Receive Start Interrupt Mask */ 136 + #define SPI_IMSK_TSM 0x00000200 /* Transmit Start Interrupt Mask */ 137 + #define SPI_IMSK_RFM 0x00000400 /* Receive Finish Interrupt Mask */ 138 + #define SPI_IMSK_TFM 0x00000800 /* Transmit Finish Interrupt Mask */ 139 + /* SPI_IMASKCL */ 140 + #define SPI_IMSK_CLR_RUW 0x00000002 /* Receive Urgent Water-Mark Interrupt Mask */ 141 + #define SPI_IMSK_CLR_TUWM 0x00000004 /* Transmit Urgent Water-Mark Interrupt Mask */ 142 + #define SPI_IMSK_CLR_ROM 0x00000010 /* Receive Over-Run Error Interrupt Mask */ 143 + #define SPI_IMSK_CLR_TUM 0x00000020 /* Transmit Under-Run Error Interrupt Mask */ 144 + #define SPI_IMSK_CLR_TCM 0x00000040 /* Transmit Collision Error Interrupt Mask */ 145 + #define SPI_IMSK_CLR_MFM 0x00000080 /* Mode Fault Error Interrupt Mask */ 146 + #define SPI_IMSK_CLR_RSM 0x00000100 /* Receive Start Interrupt Mask */ 147 + #define SPI_IMSK_CLR_TSM 0x00000200 /* Transmit Start Interrupt Mask */ 148 + #define SPI_IMSK_CLR_RFM 0x00000400 /* Receive Finish Interrupt Mask */ 149 + #define SPI_IMSK_CLR_TFM 0x00000800 /* Transmit Finish Interrupt Mask */ 150 + /* SPI_IMASKST */ 151 + #define SPI_IMSK_SET_RUWM 0x00000002 /* Receive Urgent Water-Mark Interrupt Mask */ 152 + #define SPI_IMSK_SET_TUWM 0x00000004 /* Transmit Urgent Water-Mark Interrupt Mask */ 153 + #define SPI_IMSK_SET_ROM 0x00000010 /* Receive Over-Run Error Interrupt Mask */ 154 + #define SPI_IMSK_SET_TUM 0x00000020 /* Transmit Under-Run Error Interrupt Mask */ 155 + #define SPI_IMSK_SET_TCM 0x00000040 /* Transmit Collision Error Interrupt Mask */ 156 + #define SPI_IMSK_SET_MFM 0x00000080 /* Mode Fault Error Interrupt Mask */ 157 + #define SPI_IMSK_SET_RSM 0x00000100 /* Receive Start Interrupt Mask */ 158 + #define SPI_IMSK_SET_TSM 0x00000200 /* Transmit Start Interrupt Mask */ 159 + #define SPI_IMSK_SET_RFM 0x00000400 /* Receive Finish Interrupt Mask */ 160 + #define SPI_IMSK_SET_TFM 0x00000800 /* Transmit Finish Interrupt Mask */ 161 + /* SPI_STATUS */ 162 + #define SPI_STAT_SPIF 0x00000001 /* SPI Finished */ 163 + #define SPI_STAT_RUWM 0x00000002 /* Receive Urgent Water-Mark Breached */ 164 + #define SPI_STAT_TUWM 0x00000004 /* Transmit Urgent Water-Mark Breached */ 165 + #define SPI_STAT_ROE 0x00000010 /* Receive Over-Run Error Indication */ 166 + #define SPI_STAT_TUE 0x00000020 /* Transmit Under-Run Error Indication */ 167 + #define SPI_STAT_TCE 0x00000040 /* Transmit Collision Error Indication */ 168 + #define SPI_STAT_MODF 0x00000080 /* Mode Fault Error Indication */ 169 + #define SPI_STAT_RS 0x00000100 /* Receive Start Indication */ 170 + #define SPI_STAT_TS 0x00000200 /* Transmit Start Indication */ 171 + #define SPI_STAT_RF 0x00000400 /* Receive Finish Indication */ 172 + #define SPI_STAT_TF 0x00000800 /* Transmit Finish Indication */ 173 + #define SPI_STAT_RFS 0x00007000 /* SPI_RFIFO status */ 174 + #define SPI_STAT_RFIFO_EMPTY 0x00000000 /* RFS: RFIFO Empty */ 175 + #define SPI_STAT_RFIFO_25 0x00001000 /* RFS: RFIFO 25% Full */ 176 + #define SPI_STAT_RFIFO_50 0x00002000 /* RFS: RFIFO 50% Full */ 177 + #define SPI_STAT_RFIFO_75 0x00003000 /* RFS: RFIFO 75% Full */ 178 + #define SPI_STAT_RFIFO_FULL 0x00004000 /* RFS: RFIFO Full */ 179 + #define SPI_STAT_TFS 0x00070000 /* SPI_TFIFO status */ 180 + #define SPI_STAT_TFIFO_FULL 0x00000000 /* TFS: TFIFO full */ 181 + #define SPI_STAT_TFIFO_25 0x00010000 /* TFS: TFIFO 25% empty */ 182 + #define SPI_STAT_TFIFO_50 0x00020000 /* TFS: TFIFO 50% empty */ 183 + #define SPI_STAT_TFIFO_75 0x00030000 /* TFS: TFIFO 75% empty */ 184 + #define SPI_STAT_TFIFO_EMPTY 0x00040000 /* TFS: TFIFO empty */ 185 + #define SPI_STAT_FCS 0x00100000 /* Flow-Control Stall Indication */ 186 + #define SPI_STAT_RFE 0x00400000 /* SPI_RFIFO Empty */ 187 + #define SPI_STAT_TFF 0x00800000 /* SPI_TFIFO Full */ 188 + /* SPI_ILAT */ 189 + #define SPI_ILAT_RUWMI 0x00000002 /* Receive Urgent Water Mark Interrupt */ 190 + #define SPI_ILAT_TUWMI 0x00000004 /* Transmit Urgent Water Mark Interrupt */ 191 + #define SPI_ILAT_ROI 0x00000010 /* Receive Over-Run Error Indication */ 192 + #define SPI_ILAT_TUI 0x00000020 /* Transmit Under-Run Error Indication */ 193 + #define SPI_ILAT_TCI 0x00000040 /* Transmit Collision Error Indication */ 194 + #define SPI_ILAT_MFI 0x00000080 /* Mode Fault Error Indication */ 195 + #define SPI_ILAT_RSI 0x00000100 /* Receive Start Indication */ 196 + #define SPI_ILAT_TSI 0x00000200 /* Transmit Start Indication */ 197 + #define SPI_ILAT_RFI 0x00000400 /* Receive Finish Indication */ 198 + #define SPI_ILAT_TFI 0x00000800 /* Transmit Finish Indication */ 199 + /* SPI_ILATCL */ 200 + #define SPI_ILAT_CLR_RUWMI 0x00000002 /* Receive Urgent Water Mark Interrupt */ 201 + #define SPI_ILAT_CLR_TUWMI 0x00000004 /* Transmit Urgent Water Mark Interrupt */ 202 + #define SPI_ILAT_CLR_ROI 0x00000010 /* Receive Over-Run Error Indication */ 203 + #define SPI_ILAT_CLR_TUI 0x00000020 /* Transmit Under-Run Error Indication */ 204 + #define SPI_ILAT_CLR_TCI 0x00000040 /* Transmit Collision Error Indication */ 205 + #define SPI_ILAT_CLR_MFI 0x00000080 /* Mode Fault Error Indication */ 206 + #define SPI_ILAT_CLR_RSI 0x00000100 /* Receive Start Indication */ 207 + #define SPI_ILAT_CLR_TSI 0x00000200 /* Transmit Start Indication */ 208 + #define SPI_ILAT_CLR_RFI 0x00000400 /* Receive Finish Indication */ 209 + #define SPI_ILAT_CLR_TFI 0x00000800 /* Transmit Finish Indication */ 210 + 211 + /* 212 + * bfin spi3 registers layout 213 + */ 214 + struct bfin_spi_regs { 215 + u32 revid; 216 + u32 control; 217 + u32 rx_control; 218 + u32 tx_control; 219 + u32 clock; 220 + u32 delay; 221 + u32 ssel; 222 + u32 rwc; 223 + u32 rwcr; 224 + u32 twc; 225 + u32 twcr; 226 + u32 reserved0; 227 + u32 emask; 228 + u32 emaskcl; 229 + u32 emaskst; 230 + u32 reserved1; 231 + u32 status; 232 + u32 elat; 233 + u32 elatcl; 234 + u32 reserved2; 235 + u32 rfifo; 236 + u32 reserved3; 237 + u32 tfifo; 238 + }; 239 + 240 + #define MAX_CTRL_CS 8 /* cs in spi controller */ 241 + 242 + /* device.platform_data for SSP controller devices */ 243 + struct bfin6xx_spi_master { 244 + u16 num_chipselect; 245 + u16 pin_req[7]; 246 + }; 247 + 248 + /* spi_board_info.controller_data for SPI slave devices, 249 + * copied to spi_device.platform_data ... mostly for dma tuning 250 + */ 251 + struct bfin6xx_spi_chip { 252 + u32 control; 253 + u16 cs_chg_udelay; /* Some devices require 16-bit delays */ 254 + u32 tx_dummy_val; /* tx value for rx only transfer */ 255 + bool enable_dma; 256 + }; 257 + 258 + #endif /* _SPI_CHANNEL_H_ */

+128

arch/blackfin/include/asm/bfin_ppi.h

··· 10 10 #define __ASM_BFIN_PPI_H__ 11 11 12 12 #include <linux/types.h> 13 + #include <asm/blackfin.h> 13 14 14 15 /* 15 16 * All Blackfin system MMRs are padded to 32bits even if the register ··· 49 48 u32 clip; 50 49 }; 51 50 51 + /* 52 + * bfin eppi3 registers layout 53 + */ 54 + struct bfin_eppi3_regs { 55 + u32 stat; 56 + u32 hcnt; 57 + u32 hdly; 58 + u32 vcnt; 59 + u32 vdly; 60 + u32 frame; 61 + u32 line; 62 + u32 clkdiv; 63 + u32 ctl; 64 + u32 fs1_wlhb; 65 + u32 fs1_paspl; 66 + u32 fs2_wlvb; 67 + u32 fs2_palpf; 68 + u32 imsk; 69 + u32 oddclip; 70 + u32 evenclip; 71 + u32 fs1_dly; 72 + u32 fs2_dly; 73 + u32 ctl2; 74 + }; 75 + 52 76 #undef __BFP 53 77 78 + #ifdef EPPI0_CTL2 79 + #define EPPI_STAT_CFIFOERR 0x00000001 /* Chroma FIFO Error */ 80 + #define EPPI_STAT_YFIFOERR 0x00000002 /* Luma FIFO Error */ 81 + #define EPPI_STAT_LTERROVR 0x00000004 /* Line Track Overflow */ 82 + #define EPPI_STAT_LTERRUNDR 0x00000008 /* Line Track Underflow */ 83 + #define EPPI_STAT_FTERROVR 0x00000010 /* Frame Track Overflow */ 84 + #define EPPI_STAT_FTERRUNDR 0x00000020 /* Frame Track Underflow */ 85 + #define EPPI_STAT_ERRNCOR 0x00000040 /* Preamble Error Not Corrected */ 86 + #define EPPI_STAT_PXPERR 0x00000080 /* PxP Ready Error */ 87 + #define EPPI_STAT_ERRDET 0x00004000 /* Preamble Error Detected */ 88 + #define EPPI_STAT_FLD 0x00008000 /* Current Field Received by EPPI */ 89 + 90 + #define EPPI_HCNT_VALUE 0x0000FFFF /* Holds the number of samples to read in or write out per line, after PPIx_HDLY number of cycles have expired since the last assertion of PPIx_FS1 */ 91 + 92 + #define EPPI_HDLY_VALUE 0x0000FFFF /* Number of PPIx_CLK cycles to delay after assertion of PPIx_FS1 before starting to read or write data */ 93 + 94 + #define EPPI_VCNT_VALUE 0x0000FFFF /* Holds the number of lines to read in or write out, after PPIx_VDLY number of lines from the start of frame */ 95 + 96 + #define EPPI_VDLY_VALUE 0x0000FFFF /* Number of lines to wait after the start of a new frame before starting to read/transmit data */ 97 + 98 + #define EPPI_FRAME_VALUE 0x0000FFFF /* Holds the number of lines expected per frame of data */ 99 + 100 + #define EPPI_LINE_VALUE 0x0000FFFF /* Holds the number of samples expected per line */ 101 + 102 + #define EPPI_CLKDIV_VALUE 0x0000FFFF /* Internal clock divider */ 103 + 104 + #define EPPI_CTL_EN 0x00000001 /* PPI Enable */ 105 + #define EPPI_CTL_DIR 0x00000002 /* PPI Direction */ 106 + #define EPPI_CTL_XFRTYPE 0x0000000C /* PPI Operating Mode */ 107 + #define EPPI_CTL_ACTIVE656 0x00000000 /* XFRTYPE: ITU656 Active Video Only Mode */ 108 + #define EPPI_CTL_ENTIRE656 0x00000004 /* XFRTYPE: ITU656 Entire Field Mode */ 109 + #define EPPI_CTL_VERT656 0x00000008 /* XFRTYPE: ITU656 Vertical Blanking Only Mode */ 110 + #define EPPI_CTL_NON656 0x0000000C /* XFRTYPE: Non-ITU656 Mode (GP Mode) */ 111 + #define EPPI_CTL_FSCFG 0x00000030 /* Frame Sync Configuration */ 112 + #define EPPI_CTL_SYNC0 0x00000000 /* FSCFG: Sync Mode 0 */ 113 + #define EPPI_CTL_SYNC1 0x00000010 /* FSCFG: Sync Mode 1 */ 114 + #define EPPI_CTL_SYNC2 0x00000020 /* FSCFG: Sync Mode 2 */ 115 + #define EPPI_CTL_SYNC3 0x00000030 /* FSCFG: Sync Mode 3 */ 116 + #define EPPI_CTL_FLDSEL 0x00000040 /* Field Select/Trigger */ 117 + #define EPPI_CTL_ITUTYPE 0x00000080 /* ITU Interlace or Progressive */ 118 + #define EPPI_CTL_BLANKGEN 0x00000100 /* ITU Output Mode with Internal Blanking Generation */ 119 + #define EPPI_CTL_ICLKGEN 0x00000200 /* Internal Clock Generation */ 120 + #define EPPI_CTL_IFSGEN 0x00000400 /* Internal Frame Sync Generation */ 121 + #define EPPI_CTL_SIGNEXT 0x00000800 /* Sign Extension */ 122 + #define EPPI_CTL_POLC 0x00003000 /* Frame Sync and Data Driving and Sampling Edges */ 123 + #define EPPI_CTL_POLC0 0x00000000 /* POLC: Clock/Sync polarity mode 0 */ 124 + #define EPPI_CTL_POLC1 0x00001000 /* POLC: Clock/Sync polarity mode 1 */ 125 + #define EPPI_CTL_POLC2 0x00002000 /* POLC: Clock/Sync polarity mode 2 */ 126 + #define EPPI_CTL_POLC3 0x00003000 /* POLC: Clock/Sync polarity mode 3 */ 127 + #define EPPI_CTL_POLS 0x0000C000 /* Frame Sync Polarity */ 128 + #define EPPI_CTL_FS1HI_FS2HI 0x00000000 /* POLS: FS1 and FS2 are active high */ 129 + #define EPPI_CTL_FS1LO_FS2HI 0x00004000 /* POLS: FS1 is active low. FS2 is active high */ 130 + #define EPPI_CTL_FS1HI_FS2LO 0x00008000 /* POLS: FS1 is active high. FS2 is active low */ 131 + #define EPPI_CTL_FS1LO_FS2LO 0x0000C000 /* POLS: FS1 and FS2 are active low */ 132 + #define EPPI_CTL_DLEN 0x00070000 /* Data Length */ 133 + #define EPPI_CTL_DLEN08 0x00000000 /* DLEN: 8 bits */ 134 + #define EPPI_CTL_DLEN10 0x00010000 /* DLEN: 10 bits */ 135 + #define EPPI_CTL_DLEN12 0x00020000 /* DLEN: 12 bits */ 136 + #define EPPI_CTL_DLEN14 0x00030000 /* DLEN: 14 bits */ 137 + #define EPPI_CTL_DLEN16 0x00040000 /* DLEN: 16 bits */ 138 + #define EPPI_CTL_DLEN18 0x00050000 /* DLEN: 18 bits */ 139 + #define EPPI_CTL_DLEN20 0x00060000 /* DLEN: 20 bits */ 140 + #define EPPI_CTL_DLEN24 0x00070000 /* DLEN: 24 bits */ 141 + #define EPPI_CTL_DMIRR 0x00080000 /* Data Mirroring */ 142 + #define EPPI_CTL_SKIPEN 0x00100000 /* Skip Enable */ 143 + #define EPPI_CTL_SKIPEO 0x00200000 /* Skip Even or Odd */ 144 + #define EPPI_CTL_PACKEN 0x00400000 /* Pack/Unpack Enable */ 145 + #define EPPI_CTL_SWAPEN 0x00800000 /* Swap Enable */ 146 + #define EPPI_CTL_SPLTEO 0x01000000 /* Split Even and Odd Data Samples */ 147 + #define EPPI_CTL_SUBSPLTODD 0x02000000 /* Sub-Split Odd Samples */ 148 + #define EPPI_CTL_SPLTWRD 0x04000000 /* Split Word */ 149 + #define EPPI_CTL_RGBFMTEN 0x08000000 /* RGB Formatting Enable */ 150 + #define EPPI_CTL_DMACFG 0x10000000 /* One or Two DMA Channels Mode */ 151 + #define EPPI_CTL_DMAFINEN 0x20000000 /* DMA Finish Enable */ 152 + #define EPPI_CTL_MUXSEL 0x40000000 /* MUX Select */ 153 + #define EPPI_CTL_CLKGATEN 0x80000000 /* Clock Gating Enable */ 154 + 155 + #define EPPI_FS2_WLVB_F2VBAD 0xFF000000 /* In GP transmit mode with BLANKGEN = 1, contains number of lines of vertical blanking after field 2 */ 156 + #define EPPI_FS2_WLVB_F2VBBD 0x00FF0000 /* In GP transmit mode with BLANKGEN = 1, contains number of lines of vertical blanking before field 2 */ 157 + #define EPPI_FS2_WLVB_F1VBAD 0x0000FF00 /* In GP transmit mode with, BLANKGEN = 1, contains number of lines of vertical blanking after field 1 */ 158 + #define EPPI_FS2_WLVB_F1VBBD 0x000000FF /* In GP 2, or 3 FS modes used to generate PPIx_FS2 width (32-bit). In GP Transmit mode, with BLANKGEN=1, contains the number of lines of Vertical blanking before field 1. */ 159 + 160 + #define EPPI_FS2_PALPF_F2ACT 0xFFFF0000 /* Number of lines of Active Data in Field 2 */ 161 + #define EPPI_FS2_PALPF_F1ACT 0x0000FFFF /* Number of lines of Active Data in Field 1 */ 162 + 163 + #define EPPI_IMSK_CFIFOERR 0x00000001 /* Mask CFIFO Underflow or Overflow Error Interrupt */ 164 + #define EPPI_IMSK_YFIFOERR 0x00000002 /* Mask YFIFO Underflow or Overflow Error Interrupt */ 165 + #define EPPI_IMSK_LTERROVR 0x00000004 /* Mask Line Track Overflow Error Interrupt */ 166 + #define EPPI_IMSK_LTERRUNDR 0x00000008 /* Mask Line Track Underflow Error Interrupt */ 167 + #define EPPI_IMSK_FTERROVR 0x00000010 /* Mask Frame Track Overflow Error Interrupt */ 168 + #define EPPI_IMSK_FTERRUNDR 0x00000020 /* Mask Frame Track Underflow Error Interrupt */ 169 + #define EPPI_IMSK_ERRNCOR 0x00000040 /* Mask ITU Preamble Error Not Corrected Interrupt */ 170 + #define EPPI_IMSK_PXPERR 0x00000080 /* Mask PxP Ready Error Interrupt */ 171 + 172 + #define EPPI_ODDCLIP_HIGHODD 0xFFFF0000 173 + #define EPPI_ODDCLIP_LOWODD 0x0000FFFF 174 + 175 + #define EPPI_EVENCLIP_HIGHEVEN 0xFFFF0000 176 + #define EPPI_EVENCLIP_LOWEVEN 0x0000FFFF 177 + 178 + #define EPPI_CTL2_FS1FINEN 0x00000002 /* HSYNC Finish Enable */ 179 + #endif 54 180 #endif

+107

arch/blackfin/include/asm/bfin_sport3.h

··· 1 + /* 2 + * bfin_sport - Analog Devices BF6XX SPORT registers 3 + * 4 + * Copyright (c) 2012 Analog Devices Inc. 5 + * 6 + * This program is free software; you can redistribute it and/or modify 7 + * it under the terms of the GNU General Public License version 2 as 8 + * published by the Free Software Foundation. 9 + * 10 + * This program is distributed in the hope that it will be useful, 11 + * but WITHOUT ANY WARRANTY; without even the implied warranty of 12 + * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the 13 + * GNU General Public License for more details. 14 + * 15 + * You should have received a copy of the GNU General Public License 16 + * along with this program; if not, write to the Free Software 17 + * Foundation, Inc., 675 Mass Ave, Cambridge, MA 02139, USA. 18 + */ 19 + 20 + #ifndef _BFIN_SPORT3_H_ 21 + #define _BFIN_SPORT3_H_ 22 + 23 + #include <linux/types.h> 24 + 25 + #define SPORT_CTL_SPENPRI 0x00000001 /* Enable Primary Channel */ 26 + #define SPORT_CTL_DTYPE 0x00000006 /* Data type select */ 27 + #define SPORT_CTL_RJUSTIFY_ZFILL 0x00000000 /* DTYPE: MCM mode: Right-justify, zero-fill unused MSBs */ 28 + #define SPORT_CTL_RJUSTIFY_SFILL 0x00000002 /* DTYPE: MCM mode: Right-justify, sign-extend unused MSBs */ 29 + #define SPORT_CTL_USE_U_LAW 0x00000004 /* DTYPE: MCM mode: Compand using u-law */ 30 + #define SPORT_CTL_USE_A_LAW 0x00000006 /* DTYPE: MCM mode: Compand using A-law */ 31 + #define SPORT_CTL_LSBF 0x00000008 /* Serial bit endian select */ 32 + #define SPORT_CTL_SLEN 0x000001F0 /* Serial Word length select */ 33 + #define SPORT_CTL_PACK 0x00000200 /* 16-bit to 32-bit packing enable */ 34 + #define SPORT_CTL_ICLK 0x00000400 /* Internal Clock Select */ 35 + #define SPORT_CTL_OPMODE 0x00000800 /* Operation mode */ 36 + #define SPORT_CTL_CKRE 0x00001000 /* Clock rising edge select */ 37 + #define SPORT_CTL_FSR 0x00002000 /* Frame Sync required */ 38 + #define SPORT_CTL_IFS 0x00004000 /* Internal Frame Sync select */ 39 + #define SPORT_CTL_DIFS 0x00008000 /* Data-independent frame sync select */ 40 + #define SPORT_CTL_LFS 0x00010000 /* Active low frame sync select */ 41 + #define SPORT_CTL_LAFS 0x00020000 /* Late Transmit frame select */ 42 + #define SPORT_CTL_RJUST 0x00040000 /* Right Justified mode select */ 43 + #define SPORT_CTL_FSED 0x00080000 /* External frame sync edge select */ 44 + #define SPORT_CTL_TFIEN 0x00100000 /* Transmit finish interrrupt enable select */ 45 + #define SPORT_CTL_GCLKEN 0x00200000 /* Gated clock mode select */ 46 + #define SPORT_CTL_SPENSEC 0x01000000 /* Enable secondary channel */ 47 + #define SPORT_CTL_SPTRAN 0x02000000 /* Data direction control */ 48 + #define SPORT_CTL_DERRSEC 0x04000000 /* Secondary channel error status */ 49 + #define SPORT_CTL_DXSSEC 0x18000000 /* Secondary channel data buffer status */ 50 + #define SPORT_CTL_SEC_EMPTY 0x00000000 /* DXSSEC: Empty */ 51 + #define SPORT_CTL_SEC_PART_FULL 0x10000000 /* DXSSEC: Partially full */ 52 + #define SPORT_CTL_SEC_FULL 0x18000000 /* DXSSEC: Full */ 53 + #define SPORT_CTL_DERRPRI 0x20000000 /* Primary channel error status */ 54 + #define SPORT_CTL_DXSPRI 0xC0000000 /* Primary channel data buffer status */ 55 + #define SPORT_CTL_PRM_EMPTY 0x00000000 /* DXSPRI: Empty */ 56 + #define SPORT_CTL_PRM_PART_FULL 0x80000000 /* DXSPRI: Partially full */ 57 + #define SPORT_CTL_PRM_FULL 0xC0000000 /* DXSPRI: Full */ 58 + 59 + #define SPORT_DIV_CLKDIV 0x0000FFFF /* Clock divisor */ 60 + #define SPORT_DIV_FSDIV 0xFFFF0000 /* Frame sync divisor */ 61 + 62 + #define SPORT_MCTL_MCE 0x00000001 /* Multichannel enable */ 63 + #define SPORT_MCTL_MCPDE 0x00000004 /* Multichannel data packing select */ 64 + #define SPORT_MCTL_MFD 0x000000F0 /* Multichannel frame delay */ 65 + #define SPORT_MCTL_WSIZE 0x00007F00 /* Number of multichannel slots */ 66 + #define SPORT_MCTL_WOFFSET 0x03FF0000 /* Window offset size */ 67 + 68 + #define SPORT_CNT_CLKCNT 0x0000FFFF /* Current state of clk div counter */ 69 + #define SPORT_CNT_FSDIVCNT 0xFFFF0000 /* Current state of frame div counter */ 70 + 71 + #define SPORT_ERR_DERRPMSK 0x00000001 /* Primary channel data error interrupt enable */ 72 + #define SPORT_ERR_DERRSMSK 0x00000002 /* Secondary channel data error interrupt enable */ 73 + #define SPORT_ERR_FSERRMSK 0x00000004 /* Frame sync error interrupt enable */ 74 + #define SPORT_ERR_DERRPSTAT 0x00000010 /* Primary channel data error status */ 75 + #define SPORT_ERR_DERRSSTAT 0x00000020 /* Secondary channel data error status */ 76 + #define SPORT_ERR_FSERRSTAT 0x00000040 /* Frame sync error status */ 77 + 78 + #define SPORT_MSTAT_CURCHAN 0x000003FF /* Channel which is being serviced in the multichannel operation */ 79 + 80 + #define SPORT_CTL2_FSMUXSEL 0x00000001 /* Frame Sync MUX Select */ 81 + #define SPORT_CTL2_CKMUXSEL 0x00000002 /* Clock MUX Select */ 82 + #define SPORT_CTL2_LBSEL 0x00000004 /* Loopback Select */ 83 + 84 + struct sport_register { 85 + u32 spctl; 86 + u32 div; 87 + u32 spmctl; 88 + u32 spcs0; 89 + u32 spcs1; 90 + u32 spcs2; 91 + u32 spcs3; 92 + u32 spcnt; 93 + u32 sperrctl; 94 + u32 spmstat; 95 + u32 spctl2; 96 + u32 txa; 97 + u32 rxa; 98 + u32 txb; 99 + u32 rxb; 100 + u32 revid; 101 + }; 102 + 103 + struct bfin_snd_platform_data { 104 + const unsigned short *pin_req; 105 + }; 106 + 107 + #endif