/* * Wilcard B410P Quad-BRI Interface Driver for Zapata Telephony interface * Written by Andrew Kohlsmith */ #ifndef _B4XX_H_ #define _B4XX_H_ #include #define HFC_NR_FIFOS 32 #define HFC_ZMIN 0x80 /* from datasheet */ #define HFC_ZMAX 0x1ff #define HFC_FMIN 0x00 #define HFC_FMAX 0x0f /* * yuck. Any reg which is not mandated read/write or read-only is write-only. * Also, there are dozens of registers with the same address. * Additionally, there are array registers (A_) which have an index register * These A_ registers require an index register to be written to indicate WHICH in the array you want. */ #define R_CIRM 0x00 /* WO */ #define R_CTRL 0x01 /* WO */ #define R_BRG_PCM_CFG 0x02 /* WO */ #define A_Z12 0x04 /* RO */ #define A_Z1L 0x04 /* RO */ #define A_Z1 0x04 /* RO */ #define A_Z1H 0x05 /* RO */ #define A_Z2L 0x06 /* RO */ #define A_Z2 0x06 /* RO */ #define A_Z2H 0x07 /* RO */ #define R_RAM_ADDR0 0x08 /* WO */ #define R_RAM_ADDR1 0x09 /* WO */ #define R_RAM_ADDR2 0x0a /* WO */ #define R_FIRST_FIFO 0x0b /* WO */ #define R_RAM_MISC 0x0c /* WO */ #define A_F1 0x0c /* RO */ #define A_F12 0x0c /* RO */ #define R_FIFO_MD 0x0d /* WO */ #define A_F2 0x0d /* RO */ #define A_INC_RES_FIFO 0x0e /* WO */ #define R_FSM_IDX 0x0f /* WO */ #define R_FIFO 0x0f /* WO */ #define R_SLOT 0x10 /* WO */ #define R_IRQ_OVIEW 0x10 /* RO */ #define R_IRQMSK_MISC 0x11 /* WO */ #define R_IRQ_MISC 0x11 /* RO */ #define R_SCI_MSK 0x12 /* WO */ #define R_SCI 0x12 /* RO */ #define R_IRQ_CTRL 0x13 /* WO */ #define R_PCM_MD0 0x14 /* WO */ #define R_CONF_OFLOW 0x14 /* RO */ #define R_PCM_MD1 0x15 /* WO */ #define R_PCM_MD2 0x15 /* WO */ #define R_SH0H 0x15 /* WO */ #define R_SH1H 0x15 /* WO */ #define R_SH0L 0x15 /* WO */ #define R_SH1L 0x15 /* WO */ #define R_SL_SEL0 0x15 /* WO */ #define R_SL_SEL1 0x15 /* WO */ #define R_SL_SEL2 0x15 /* WO */ #define R_SL_SEL3 0x15 /* WO */ #define R_SL_SEL4 0x15 /* WO */ #define R_SL_SEL5 0x15 /* WO */ #define R_SL_SEL6 0x15 /* WO */ #define R_SL_SEL7 0x15 /* WO */ #define R_RAM_USE 0x15 /* RO */ #define R_ST_SEL 0x16 /* WO */ #define R_CHIP_ID 0x16 /* RO */ #define R_ST_SYNC 0x17 /* WO */ #define R_BERT_STA 0x17 /* RO */ #define R_CONF_EN 0x18 /* WO */ #define R_F0_CNTL 0x18 /* RO */ #define R_F0_CNTH 0x19 /* RO */ #define R_TI_WD 0x1a /* WO */ #define R_BERT_ECL 0x1a /* RO */ #define R_BERT_WD_MD 0x1b /* WO */ #define R_BERT_ECH 0x1b /* RO */ #define R_DTMF 0x1c /* WO */ #define R_STATUS 0x1c /* RO */ #define R_DTMF_N 0x1d /* WO */ #define R_CHIP_RV 0x1f /* RO */ #define A_ST_WR_STA 0x30 /* WO */ #define A_ST_RD_STA 0x30 /* RO */ #define A_ST_CTRL0 0x31 /* WO */ #define A_ST_CTRL1 0x32 /* WO */ #define A_ST_CTRL2 0x33 /* WO */ #define A_ST_SQ_WR 0x34 /* WO */ #define A_ST_SQ_RD 0x34 /* RO */ #define A_ST_CLK_DLY 0x37 /* WO */ #define R_PWM0 0x38 /* WO */ #define R_PWM1 0x39 /* WO */ #define A_ST_B1_TX 0x3c /* WO */ #define A_ST_B1_RX 0x3c /* RO */ #define A_ST_B2_TX 0x3d /* WO */ #define A_ST_B2_RX 0x3d /* RO */ #define A_ST_D_TX 0x3e /* WO */ #define A_ST_D_RX 0x3e /* RO */ #define A_ST_E_RX 0x3f /* RO */ #define R_GPIO_OUT0 0x40 /* WO */ #define R_GPIO_IN0 0x40 /* RO */ #define R_GPIO_OUT1 0x41 /* WO */ #define R_GPIO_IN1 0x41 /* RO */ #define R_GPIO_EN0 0x42 /* WO */ #define R_GPIO_EN1 0x43 /* WO */ #define R_GPIO_SEL 0x44 /* WO */ #define R_GPI_IN0 0x44 /* RO */ #define R_GPI_IN1 0x45 /* RO */ #define R_PWM_MD 0x46 /* WO */ #define R_GPI_IN2 0x46 /* RO */ #define R_GPI_IN3 0x47 /* RO */ #define A_FIFO_DATA2 0x80 /* RW */ #define A_FIFO_DATA0 0x80 /* RW */ #define A_FIFO_DATA1 0x80 /* RW */ #define A_FIFO_DATA2_NOINC 0x84 /* WO */ #define A_FIFO_DATA0_NOINC 0x84 /* WO */ #define A_FIFO_DATA1_NOINC 0x84 /* WO */ #define R_INT_DATA 0x88 /* RO */ #define R_RAM_DATA 0xc0 /* RW */ #define R_IRQ_FIFO_BL0 0xc8 /* RO */ #define R_IRQ_FIFO_BL1 0xc9 /* RO */ #define R_IRQ_FIFO_BL2 0xca /* RO */ #define R_IRQ_FIFO_BL3 0xcb /* RO */ #define R_IRQ_FIFO_BL4 0xcc /* RO */ #define R_IRQ_FIFO_BL5 0xcd /* RO */ #define R_IRQ_FIFO_BL6 0xce /* RO */ #define R_IRQ_FIFO_BL7 0xcf /* RO */ #define A_SL_CFG 0xd0 /* WO */ #define A_CONF 0xd1 /* WO */ #define A_CH_MSK 0xf4 /* WO */ #define A_CON_HDLC 0xfa /* WO */ #define A_SUBCH_CFG 0xfb /* WO */ #define A_CHANNEL 0xfc /* WO */ #define A_FIFO_SEQ 0xfd /* WO */ #define A_IRQ_MSK 0xff /* WO */ /* R_CIRM bits */ #define V_SRES (1 << 3) /* soft reset (group 0) */ #define V_HFC_RES (1 << 4) /* HFC reset (group 1) */ #define V_PCM_RES (1 << 5) /* PCM reset (group 2) */ #define V_ST_RES (1 << 6) /* S/T reset (group 3) */ #define V_RLD_EPR (1 << 7) /* EEPROM reload */ #define HFC_FULL_RESET (V_SRES | V_HFC_RES | V_PCM_RES | V_ST_RES | V_RLD_EPR) /* A_IRQ_MSK bits */ #define V_IRQ (1 << 0) /* FIFO interrupt enable */ #define V_BERT_EN (1 << 1) /* enable BERT */ #define V_MIX_IRQ (1 << 2) /* mixed interrupt enable (frame + transparent mode) */ /* R_STATUS bits */ #define V_BUSY (1 << 0) /* 1=HFC busy, limited register access */ #define V_PROC (1 << 1) /* 1=HFC in processing phase */ #define V_LOST_STA (1 << 3) /* 1=frames have been lost */ #define V_SYNC_IN (1 << 4) /* level on SYNC_I pin */ #define V_EXT_IRQSTA (1 << 5) /* 1=external interrupt */ #define V_MISC_IRQSTA (1 << 6) /* 1=misc interrupt has occurred */ #define V_FR_IRQSTA (1 << 7) /* 1=fifo interrupt has occured */ #define HFC_INTS (V_EXT_IRQSTA | V_MISC_IRQSTA | V_FR_IRQSTA) /* R_SCI/R_SCI_MSK bits */ #define V_SCI_ST0 (1 << 0) /* state change for port 1 */ #define V_SCI_ST1 (1 << 1) /* state change for port 2 */ #define V_SCI_ST2 (1 << 2) /* state change for port 3 */ #define V_SCI_ST3 (1 << 3) /* state change for port 4 */ /* R_IRQ_FIFO_BLx bits */ #define V_IRQ_FIFOx_TX (1 << 0) /* FIFO TX interrupt occurred */ #define V_IRQ_FIFOx_RX (1 << 1) /* FIFO RX interrupt occurred */ #define IRQ_FIFOx_TXRX (V_IRQ_FIFOx_TX | V_IRQ_FIFOx_RX) /* R_IRQ_MISC / R_IRQMSK_MISC bits */ #define V_TI_IRQ (1 << 1) /* timer elapsed */ #define V_IRQ_PROC (1 << 2) /* processing/non-processing transition */ #define V_DTMF_IRQ (1 << 3) /* DTMF detection completed */ #define V_EXT_IRQ (1 << 5) /* external interrupt occured */ /* R_IRQ_CTRL bits */ #define V_FIFO_IRQ (1 << 0) /* enable any unmasked FIFO IRQs */ #define V_GLOB_IRQ_EN (1 << 3) /* enable any unmasked IRQs */ #define V_IRQ_POL (1 << 4) /* 1=IRQ active high */ /* R_BERT_WD_MD bits */ #define V_BERT_ERR (1 << 3) /* 1=generate an error bit in BERT stream */ #define V_AUTO_WD_RES (1 << 5) /* 1=automatically kick the watchdog */ #define V_WD_RES (1 << 7) /* 1=kick the watchdog (bit auto clears) */ /* R_TI_WS bits */ #define V_EV_TS_SHIFT (0) #define V_EV_TS_MASK (0x0f) #define V_WD_TS_SHIFT (4) #define V_WD_TS_MASK (0xf0) /* R_BRG_PCM_CFG bits */ #define V_PCM_CLK (1 << 5) /* 1=PCM clk = OSC, 0 = PCM clk is 2x OSC */ /* R_PCM_MD0 bits */ #define V_PCM_MD (1 << 0) /* 1=PCM master */ #define V_C4_POL (1 << 1) /* 1=F0IO sampled on rising edge of C4IO */ #define V_F0_NEG (1 << 2) /* 1=negative polarity of F0IO */ #define V_F0_LEN (1 << 3) /* 1=F0IO active for 2 C4IO clocks */ #define V_PCM_IDX_SEL0 (0x0 << 4) /* reg15 = R_SL_SEL0 */ #define V_PCM_IDX_SEL1 (0x1 << 4) /* reg15 = R_SL_SEL1 */ #define V_PCM_IDX_SEL2 (0x2 << 4) /* reg15 = R_SL_SEL2 */ #define V_PCM_IDX_SEL3 (0x3 << 4) /* reg15 = R_SL_SEL3 */ #define V_PCM_IDX_SEL4 (0x4 << 4) /* reg15 = R_SL_SEL4 */ #define V_PCM_IDX_SEL5 (0x5 << 4) /* reg15 = R_SL_SEL5 */ #define V_PCM_IDX_SEL6 (0x6 << 4) /* reg15 = R_SL_SEL6 */ #define V_PCM_IDX_SEL7 (0x7 << 4) /* reg15 = R_SL_SEL7 */ #define V_PCM_IDX_MD1 (0x9 << 4) /* reg15 = R_PCM_MD1 */ #define V_PCM_IDX_MD2 (0xa << 4) /* reg15 = R_PCM_MD2 */ #define V_PCM_IDX_SH0L (0xc << 4) /* reg15 = R_SH0L */ #define V_PCM_IDX_SH0H (0xd << 4) /* reg15 = R_SH0H */ #define V_PCM_IDX_SH1L (0xe << 4) /* reg15 = R_SH1L */ #define V_PCM_IDX_SH1H (0xf << 4) /* reg15 = R_SH1H */ #define V_PCM_IDX_MASK (0xf0) /* R_PCM_MD1 bits */ #define V_CODEC_MD (1 << 0) /* no damn idea */ #define V_PLL_ADJ_00 (0x0 << 2) /* adj 4 times by 0.5 system clk cycles */ #define V_PLL_ADJ_01 (0x1 << 2) /* adj 3 times by 0.5 system clk cycles */ #define V_PLL_ADJ_10 (0x2 << 2) /* adj 2 times by 0.5 system clk cycles */ #define V_PLL_ADJ_11 (0x3 << 2) /* adj 1 time by 0.5 system clk cycles */ #define V_PCM_DR_2048 (0x0 << 4) /* 2.048Mbps, 32 timeslots */ #define V_PCM_DR_4096 (0x1 << 4) /* 4.096Mbps, 64 timeslots */ #define V_PCM_DR_8192 (0x2 << 4) /* 8.192Mbps, 128 timeslots */ #define V_PCM_LOOP (1 << 6) /* 1=internal loopback */ #define V_PLL_ADJ_MASK (0x3 << 2) #define V_PCM_DR_MASK (0x3 << 4) /* A_SL_CFG bits */ #define V_CH_SDIR (1 << 0) /* 1=HFC channel receives data from PCM TS */ #define V_ROUT_TX_DIS (0x0 << 6) /* disabled, output disabled */ #define V_ROUT_TX_LOOP (0x1 << 6) /* internally looped, output disabled */ #define V_ROUT_TX_STIO1 (0x2 << 6) /* output data to STIO1 */ #define V_ROUT_TX_STIO2 (0x3 << 6) /* output data to STIO2 */ #define V_ROUT_RX_DIS (0x0 << 6) /* disabled, input data ignored */ #define V_ROUT_RX_LOOP (0x1 << 6) /* internally looped, input data ignored */ #define V_ROUT_RX_STIO2 (0x2 << 6) /* channel data comes from STIO1 */ #define V_ROUT_RX_STIO1 (0x3 << 6) /* channel data comes from STIO2 */ #define V_CH_SNUM_SHIFT (1) #define V_CH_SNUM_MASK (31 << 1) /* A_CON_HDLC bits */ #define V_IFF (1 << 0) /* Inter-Frame Fill: 0=0x7e, 1=0xff */ #define V_HDLC_TRP (1 << 1) /* 0=HDLC mode, 1=transparent */ #define V_TRP_IRQ_0 (0x0 << 2) /* FIFO enabled, no interrupt */ #define V_TRP_IRQ_64 (0x1 << 2) /* FIFO enabled, int @ 64 bytes */ #define V_TRP_IRQ_128 (0x2 << 2) /* FIFO enabled, int @ 128 bytes */ #define V_TRP_IRQ_256 (0x3 << 2) /* FIFO enabled, int @ 256 bytes */ #define V_TRP_IRQ_512 (0x4 << 2) /* FIFO enabled, int @ 512 bytes */ #define V_TRP_IRQ_1024 (0x5 << 2) /* FIFO enabled, int @ 1024 bytes */ #define V_TRP_IRQ_2048 (0x6 << 2) /* FIFO enabled, int @ 2048 bytes */ #define V_TRP_IRQ_4096 (0x7 << 2) /* FIFO enabled, int @ 4096 bytes */ #define V_TRP_IRQ (0x1 << 2) /* FIFO enabled, interrupt at end of frame (HDLC mode) */ #define V_DATA_FLOW_000 (0x0 << 5) /* see A_CON_HDLC reg description in datasheet */ #define V_DATA_FLOW_001 (0x1 << 5) /* see A_CON_HDLC reg description in datasheet */ #define V_DATA_FLOW_010 (0x2 << 5) /* see A_CON_HDLC reg description in datasheet */ #define V_DATA_FLOW_011 (0x3 << 5) /* see A_CON_HDLC reg description in datasheet */ #define V_DATA_FLOW_100 (0x4 << 5) /* see A_CON_HDLC reg description in datasheet */ #define V_DATA_FLOW_101 (0x5 << 5) /* see A_CON_HDLC reg description in datasheet */ #define V_DATA_FLOW_110 (0x6 << 5) /* see A_CON_HDLC reg description in datasheet */ #define V_DATA_FLOW_111 (0x7 << 5) /* see A_CON_HDLC reg description in datasheet */ /* R_FIFO bits */ #define V_FIFO_DIR (1 << 0) /* 1=RX FIFO data */ #define V_REV (1 << 7) /* 1=MSB first */ #define V_FIFO_NUM_SHIFT (1) #define V_FIFO_NUM_MASK (0x3e) /* A_CHANNEL bits */ #define V_CH_FDIR (1 << 0) /* 1=HFC chan for RX data */ #define V_CH_FNUM_SHIFT (1) #define V_CH_FNUM_MASK (0x3e) /* R_SLOT bits */ #define V_SL_DIR (1 << 0) /* 1=timeslot will RX PCM data from bus */ #define V_SL_NUM_SHIFT (1) #define V_SL_NUM_MASK (0xfe) /* A_INC_RES_FIFO bits */ #define V_INC_F (1 << 0) /* 1=increment FIFO F-counter (bit auto-clears) */ #define V_RES_FIFO (1 << 1) /* 1=reset FIFO (bit auto-clears) */ #define V_RES_LOST (1 << 2) /* 1=reset LOST error (bit auto-clears) */ /* R_FIFO_MD bits */ #define V_FIFO_MD_00 (0x0 << 0) #define V_FIFO_MD_01 (0x1 << 0) #define V_FIFO_MD_10 (0x2 << 0) #define V_FIFO_MD_11 (0x3 << 0) #define V_DF_MD_SM (0x0 << 2) /* simple data flow mode */ #define V_DF_MD_CSM (0x1 << 2) /* channel select mode */ #define V_DF_MD_FSM (0x3 << 2) /* FIFO sequence mode */ #define V_FIFO_SZ_00 (0x0 << 4) #define V_FIFO_SZ_01 (0x1 << 4) #define V_FIFO_SZ_10 (0x2 << 4) #define V_FIFO_SZ_11 (0x3 << 4) /* A_SUBCH_CFG bits */ #define V_BIT_CNT_8BIT (0) /* process 8 bits */ #define V_BIT_CNT_1BIT (1) /* process 1 bit */ #define V_BIT_CNT_2BIT (2) /* process 2 bits */ #define V_BIT_CNT_3BIT (3) /* process 3 bits */ #define V_BIT_CNT_4BIT (4) /* process 4 bits */ #define V_BIT_CNT_5BIT (5) /* process 5 bits */ #define V_BIT_CNT_6BIT (6) /* process 6 bits */ #define V_BIT_CNT_7BIT (7) /* process 7 bits */ #define V_LOOP_FIFO (1 << 6) /* loop FIFO data */ #define V_INV_DATA (1 << 7) /* invert FIFO data */ #define V_START_BIT_SHIFT (3) #define V_START_BIT_MASK (0x38) /* R_ST_SYNC bits */ #define V_MAN_SYNC (1 << 3) /* 1=manual sync mode */ #define V_SYNC_SEL_MASK (0x03) /* A_ST_WR_STA bits */ #define V_ST_SET_STA_MASK (0x0f) #define V_ST_LD_STA (1 << 4) /* 1=force ST_SET_STA mode, must be manually cleared 6us later */ #define V_ST_ACT_NOP (0x0 << 5) /* NOP */ #define V_ST_ACT_DEACTIVATE (0x2 << 5) /* start deactivation. auto-clears */ #define V_ST_ACT_ACTIVATE (0x3 << 5) /* start activation. auto-clears. */ #define V_SET_G2_G3 (1 << 7) /* 1=auto G2->G3 in NT mode. auto-clears after transition. */ /* A_ST_RD_STA */ #define V_ST_STA_MASK (0x0f) #define V_FR_SYNC (1 << 4) /* 1=synchronized */ #define V_T2_EXP (1 << 5) /* 1=T2 expired (NT only) */ #define V_INFO0 (1 << 6) /* 1=INFO0 */ #define V_G2_G3 (1 << 7) /* 1=allows G2->G3 (NT only, auto-clears) */ /* A_ST_CLK_DLY bits */ #define V_ST_SMPL_SHIFT (4) /* A_ST_CTRL0 bits */ #define V_B1_EN (1 << 0) /* 1=B1-channel transmit */ #define V_B2_EN (1 << 1) /* 1=B2-channel transmit */ #define V_ST_MD (1 << 2) /* 0=TE, 1=NT */ #define V_D_PRIO (1 << 3) /* D-Chan priority 0=high, 1=low */ #define V_SQ_EN (1 << 4) /* S/Q bits transmit (1=enabled) */ #define V_96KHZ (1 << 5) /* 1=transmit test signal */ #define V_TX_LI (1 << 6) /* 0=capacitive line mode, 1=non-capacitive */ #define V_ST_STOP (1 << 7) /* 1=power down */ /* A_ST_CTRL1 bits */ #define V_G2_G3_EN (1 << 0) /* 1=G2->G3 allowed without V_SET_G2_G3 */ #define V_D_HI (1 << 2) /* 1=D-chan reset */ #define V_E_IGNO (1 << 3) /* TE:1=ignore Echan, NT:should always be 1. */ #define V_E_LO (1 << 4) /* NT only: 1=force Echan low */ #define V_B12_SWAP (1 << 7) /* 1=swap B1/B2 */ /* A_ST_CTRL2 bits */ #define V_B1_RX_EN (1 << 0) /* 1=enable B1 RX */ #define V_B2_RX_EN (1 << 1) /* 1=enable B2 RX */ #define V_ST_TRI (1 << 6) /* 1=tristate S/T output buffer */ #define NUM_REGS 0xff #define NUM_PCI 12 /* From this point down, things only the kernel needs to know about */ #ifdef __KERNEL__ #define HFC_T1 0 #define HFC_T2 1 #define HFC_T3 2 #define MAX_SPANS_PER_CARD 8 #define WCB4XXP_CHANNELS_PER_SPAN 3 /* 2 B-channels and 1 D-Channel for each BRI span */ #define WCB4XXP_HDLC_BUF_LEN 32 /* arbitrary, just the max # of byts we will send to DAHDI per call */ struct b4xxp_span { struct b4xxp *parent; int port; /* which S/T port this span belongs to */ unsigned char writechunk[WCB4XXP_CHANNELS_PER_SPAN * DAHDI_CHUNKSIZE]; unsigned char readchunk[WCB4XXP_CHANNELS_PER_SPAN * DAHDI_CHUNKSIZE]; int sync; /* sync priority */ int syncpos; /* sync priority */ int oldstate; /* old state machine state */ int newalarm; /* alarm to send to zaptel once alarm timer expires */ unsigned long alarmtimer; int te_mode; /* 1=TE, 0=NT */ unsigned long hfc_timers[WCB4XXP_CHANNELS_PER_SPAN]; /* T1, T2, T3 */ int hfc_timer_on[WCB4XXP_CHANNELS_PER_SPAN]; /* 1=timer active */ int fifos[WCB4XXP_CHANNELS_PER_SPAN]; /* B1, B2, D <--> host fifo numbers */ /* HDLC controller fields */ struct dahdi_chan *sigchan; /* pointer to the signalling channel for this span */ int sigactive; /* nonzero means we're in the middle of sending an HDLC frame */ atomic_t hdlc_pending; /* hdlc_hard_xmit() increments, hdlc_tx_frame() decrements */ int frames_out; int frames_in; struct dahdi_span span; /* zaptel span info for this span */ struct dahdi_chan *chans[WCB4XXP_CHANNELS_PER_SPAN]; /* Individual channels */ struct dahdi_echocan_state ec[WCB4XXP_CHANNELS_PER_SPAN]; /* echocan state for each channel */ struct dahdi_chan _chans[WCB4XXP_CHANNELS_PER_SPAN]; /* Backing memory */ }; enum cards_ids { /* Cards ==> Brand & Model */ B410P = 0, /* Digium B410P */ B200P_OV, /* OpenVox B200P */ B400P_OV, /* OpenVox B400P */ B800P_OV, /* OpenVox B800P */ DUOBRI, /* HFC-2S Junghanns.NET duoBRI PCI */ QUADBRI, /* HFC-4S Junghanns.NET quadBRI PCI */ OCTOBRI, /* HFC-8S Junghanns.NET octoBRI PCI */ BN2S0, /* BeroNet BN2S0 */ BN4S0, /* Beronet BN4S0 */ BN8S0, /* BeroNet BN8S0 */ BSWYX_SX2, /* Swyx 4xS0 SX2 QuadBri */ QUADBRI_EVAL /* HFC-4S CCD Eval. Board */ }; /* This structure exists one per card */ struct b4xxp { char *variety; int chiprev; /* revision of HFC-4S */ struct pci_dev *pdev; /* Pointer to PCI device */ struct device *dev; /* kernel dev struct (from pdev->dev) */ void __iomem *addr; /* I/O address (memory mapped) */ void __iomem *ioaddr; /* I/O address (index based) */ int irq; /* IRQ used by device */ spinlock_t reglock; /* lock for all register accesses */ spinlock_t seqlock; /* lock for "sequence" accesses that must be ordered */ spinlock_t fifolock; /* lock for all FIFO accesses (reglock must be available) */ volatile unsigned long ticks; unsigned long fifo_en_rxint; /* each bit is the RX int enable for that FIFO */ unsigned long fifo_en_txint; /* each bit is the TX int enable for that FIFO */ unsigned char fifo_irqstatus[8]; /* top-half ORs in new interrupts, bottom-half ANDs them out */ unsigned char misc_irqstatus; /* same for this */ unsigned char st_irqstatus; /* same for this too */ unsigned int numspans; int blinktimer; /* for the fancy LED alarms */ int alarmpos; /* ditto */ int cardno; /* Which card we are */ int globalconfig; /* Whether global setup has been done */ int syncspan; /* span that HFC uses for sync on this card */ int running; /* interrupts are enabled */ struct b4xxp_span spans[MAX_SPANS_PER_CARD]; /* Individual spans */ int order; /* Order */ int flags; /* Device flags */ enum cards_ids card_type; /* For LED handling mostly */ int master; /* Are we master */ int ledreg; /* copy of the LED Register */ unsigned int gpio; unsigned int gpioctl; int spansstarted; /* number of spans started */ /* Flags for our bottom half */ unsigned int shutdown; /* 1=bottom half doesn't process anything, just returns */ struct tasklet_struct b4xxp_tlet; }; /* CPLD access bits */ #define B4_RDADDR 0 #define B4_WRADDR 1 #define B4_COUNT 2 #define B4_DMACTRL 3 #define B4_INTR 4 #define B4_VERSION 6 #define B4_LEDS 7 #define B4_GPIOCTL 8 #define B4_GPIO 9 #define B4_LADDR 10 #define B4_LDATA 11 #define B4_LCS (1 << 11) #define B4_LCS2 (1 << 12) #define B4_LALE (1 << 13) #define B4_LFRMR_CS (1 << 10) /* Framer's ChipSelect signal */ #define B4_ACTIVATE (1 << 12) #define B4_LREAD (1 << 15) #define B4_LWRITE (1 << 16) #define LED_OFF (0) #define LED_RED (1) #define LED_GREEN (2) #define get_F(f1, f2, flen) { \ f1 = hfc_readcounter8(b4, A_F1); \ f2 = hfc_readcounter8(b4, A_F2); \ flen = f1 - f2; \ \ if(flen < 0) \ flen += (HFC_FMAX - HFC_FMIN) + 1; \ } #define get_Z(z1, z2, zlen) { \ z1 = hfc_readcounter16(b4, A_Z1); \ z2 = hfc_readcounter16(b4, A_Z2); \ zlen = z1 - z2; \ \ if(zlen < 0) \ zlen += (HFC_ZMAX - HFC_ZMIN) + 1; \ } #define flush_pci() (void)ioread8(b4->addr + R_STATUS) #endif /* __KERNEL__ */ #endif /* _B4XX_H_ */