From af69fb3a8ffa37e986db00ed93099dc44babeef4 Mon Sep 17 00:00:00 2001 From: Karsten Keil Date: Sun, 27 Jul 2008 02:00:43 +0200 Subject: Add mISDN HFC multiport driver Enable support for cards with Cologne Chip AG's HFC multiport chip. Signed-off-by: Karsten Keil --- drivers/isdn/hardware/mISDN/Kconfig | 12 + drivers/isdn/hardware/mISDN/Makefile | 1 + drivers/isdn/hardware/mISDN/hfc_multi.h | 1204 +++++++ drivers/isdn/hardware/mISDN/hfcmulti.c | 5320 +++++++++++++++++++++++++++++++ include/linux/pci_ids.h | 33 + 5 files changed, 6570 insertions(+) create mode 100644 drivers/isdn/hardware/mISDN/hfc_multi.h create mode 100644 drivers/isdn/hardware/mISDN/hfcmulti.c diff --git a/drivers/isdn/hardware/mISDN/Kconfig b/drivers/isdn/hardware/mISDN/Kconfig index f62dc8752be9..14793480c453 100644 --- a/drivers/isdn/hardware/mISDN/Kconfig +++ b/drivers/isdn/hardware/mISDN/Kconfig @@ -11,3 +11,15 @@ config MISDN_HFCPCI Enable support for cards with Cologne Chip AG's HFC PCI chip. +config MISDN_HFCMULTI + tristate "Support for HFC multiport cards (HFC-4S/8S/E1)" + depends on PCI + depends on MISDN + help + Enable support for cards with Cologne Chip AG's HFC multiport + chip. There are three types of chips that are quite similar, + but the interface is different: + * HFC-4S (4 S/T interfaces on one chip) + * HFC-8S (8 S/T interfaces on one chip) + * HFC-E1 (E1 interface for 2Mbit ISDN) + diff --git a/drivers/isdn/hardware/mISDN/Makefile b/drivers/isdn/hardware/mISDN/Makefile index 6f20a40b9d54..1e7ca5332ad7 100644 --- a/drivers/isdn/hardware/mISDN/Makefile +++ b/drivers/isdn/hardware/mISDN/Makefile @@ -4,3 +4,4 @@ # obj-$(CONFIG_MISDN_HFCPCI) += hfcpci.o +obj-$(CONFIG_MISDN_HFCMULTI) += hfcmulti.o diff --git a/drivers/isdn/hardware/mISDN/hfc_multi.h b/drivers/isdn/hardware/mISDN/hfc_multi.h new file mode 100644 index 000000000000..a33d87afc843 --- /dev/null +++ b/drivers/isdn/hardware/mISDN/hfc_multi.h @@ -0,0 +1,1204 @@ +/* + * see notice in hfc_multi.c + */ + +extern void ztdummy_extern_interrupt(void); +extern void ztdummy_register_interrupt(void); +extern int ztdummy_unregister_interrupt(void); + +#define DEBUG_HFCMULTI_FIFO 0x00010000 +#define DEBUG_HFCMULTI_CRC 0x00020000 +#define DEBUG_HFCMULTI_INIT 0x00040000 +#define DEBUG_HFCMULTI_PLXSD 0x00080000 +#define DEBUG_HFCMULTI_MODE 0x00100000 +#define DEBUG_HFCMULTI_MSG 0x00200000 +#define DEBUG_HFCMULTI_STATE 0x00400000 +#define DEBUG_HFCMULTI_SYNC 0x01000000 +#define DEBUG_HFCMULTI_DTMF 0x02000000 +#define DEBUG_HFCMULTI_LOCK 0x80000000 + +#define PCI_ENA_REGIO 0x01 +#define PCI_ENA_MEMIO 0x02 + +/* + * NOTE: some registers are assigned multiple times due to different modes + * also registers are assigned differen for HFC-4s/8s and HFC-E1 + */ + +/* +#define MAX_FRAME_SIZE 2048 +*/ + +struct hfc_chan { + struct dchannel *dch; /* link if channel is a D-channel */ + struct bchannel *bch; /* link if channel is a B-channel */ + int port; /* the interface port this */ + /* channel is associated with */ + int nt_timer; /* -1 if off, 0 if elapsed, >0 if running */ + int los, ais, slip_tx, slip_rx, rdi; /* current alarms */ + int jitter; + u_long cfg; /* port configuration */ + int sync; /* sync state (used by E1) */ + u_int protocol; /* current protocol */ + int slot_tx; /* current pcm slot */ + int bank_tx; /* current pcm bank */ + int slot_rx; + int bank_rx; + int conf; /* conference setting of TX slot */ + int txpending; /* if there is currently data in */ + /* the FIFO 0=no, 1=yes, 2=splloop */ + int rx_off; /* set to turn fifo receive off */ + int coeff_count; /* curren coeff block */ + s32 *coeff; /* memory pointer to 8 coeff blocks */ +}; + + +struct hfcm_hw { + u_char r_ctrl; + u_char r_irq_ctrl; + u_char r_cirm; + u_char r_ram_sz; + u_char r_pcm_md0; + u_char r_irqmsk_misc; + u_char r_dtmf; + u_char r_st_sync; + u_char r_sci_msk; + u_char r_tx0, r_tx1; + u_char a_st_ctrl0[8]; + timer_t timer; +}; + + +/* for each stack these flags are used (cfg) */ +#define HFC_CFG_NONCAP_TX 1 /* S/T TX interface has less capacity */ +#define HFC_CFG_DIS_ECHANNEL 2 /* disable E-channel processing */ +#define HFC_CFG_REG_ECHANNEL 3 /* register E-channel */ +#define HFC_CFG_OPTICAL 4 /* the E1 interface is optical */ +#define HFC_CFG_REPORT_LOS 5 /* the card should report loss of signal */ +#define HFC_CFG_REPORT_AIS 6 /* the card should report alarm ind. sign. */ +#define HFC_CFG_REPORT_SLIP 7 /* the card should report bit slips */ +#define HFC_CFG_REPORT_RDI 8 /* the card should report remote alarm */ +#define HFC_CFG_DTMF 9 /* enable DTMF-detection */ +#define HFC_CFG_CRC4 10 /* disable CRC-4 Multiframe mode, */ + /* use double frame instead. */ + +#define HFC_CHIP_EXRAM_128 0 /* external ram 128k */ +#define HFC_CHIP_EXRAM_512 1 /* external ram 256k */ +#define HFC_CHIP_REVISION0 2 /* old fifo handling */ +#define HFC_CHIP_PCM_SLAVE 3 /* PCM is slave */ +#define HFC_CHIP_PCM_MASTER 4 /* PCM is master */ +#define HFC_CHIP_RX_SYNC 5 /* disable pll sync for pcm */ +#define HFC_CHIP_DTMF 6 /* DTMF decoding is enabled */ +#define HFC_CHIP_ULAW 7 /* ULAW mode */ +#define HFC_CHIP_CLOCK2 8 /* double clock mode */ +#define HFC_CHIP_E1CLOCK_GET 9 /* always get clock from E1 interface */ +#define HFC_CHIP_E1CLOCK_PUT 10 /* always put clock from E1 interface */ +#define HFC_CHIP_WATCHDOG 11 /* whether we should send signals */ + /* to the watchdog */ +#define HFC_CHIP_B410P 12 /* whether we have a b410p with echocan in */ + /* hw */ +#define HFC_CHIP_PLXSD 13 /* whether we have a Speech-Design PLX */ + +#define HFC_IO_MODE_PCIMEM 0x00 /* normal memory mapped IO */ +#define HFC_IO_MODE_REGIO 0x01 /* PCI io access */ +#define HFC_IO_MODE_PLXSD 0x02 /* access HFC via PLX9030 */ + +/* table entry in the PCI devices list */ +struct hm_map { + char *vendor_name; + char *card_name; + int type; + int ports; + int clock2; + int leds; + int opticalsupport; + int dip_type; + int io_mode; +}; + +struct hfc_multi { + struct list_head list; + struct hm_map *mtyp; + int id; + int pcm; /* id of pcm bus */ + int type; + int ports; + + u_int irq; /* irq used by card */ + u_int irqcnt; + struct pci_dev *pci_dev; + int io_mode; /* selects mode */ +#ifdef HFC_REGISTER_DEBUG + void (*HFC_outb)(struct hfc_multi *hc, u_char reg, + u_char val, const char *function, int line); + void (*HFC_outb_nodebug)(struct hfc_multi *hc, u_char reg, + u_char val, const char *function, int line); + u_char (*HFC_inb)(struct hfc_multi *hc, u_char reg, + const char *function, int line); + u_char (*HFC_inb_nodebug)(struct hfc_multi *hc, u_char reg, + const char *function, int line); + u_short (*HFC_inw)(struct hfc_multi *hc, u_char reg, + const char *function, int line); + u_short (*HFC_inw_nodebug)(struct hfc_multi *hc, u_char reg, + const char *function, int line); + void (*HFC_wait)(struct hfc_multi *hc, + const char *function, int line); + void (*HFC_wait_nodebug)(struct hfc_multi *hc, + const char *function, int line); +#else + void (*HFC_outb)(struct hfc_multi *hc, u_char reg, + u_char val); + void (*HFC_outb_nodebug)(struct hfc_multi *hc, u_char reg, + u_char val); + u_char (*HFC_inb)(struct hfc_multi *hc, u_char reg); + u_char (*HFC_inb_nodebug)(struct hfc_multi *hc, u_char reg); + u_short (*HFC_inw)(struct hfc_multi *hc, u_char reg); + u_short (*HFC_inw_nodebug)(struct hfc_multi *hc, u_char reg); + void (*HFC_wait)(struct hfc_multi *hc); + void (*HFC_wait_nodebug)(struct hfc_multi *hc); +#endif + void (*read_fifo)(struct hfc_multi *hc, u_char *data, + int len); + void (*write_fifo)(struct hfc_multi *hc, u_char *data, + int len); + u_long pci_origmembase, plx_origmembase, dsp_origmembase; + u_char *pci_membase; /* PCI memory (MUST BE BYTE POINTER) */ + u_char *plx_membase; /* PLX memory */ + u_char *dsp_membase; /* DSP on PLX */ + u_long pci_iobase; /* PCI IO */ + struct hfcm_hw hw; /* remember data of write-only-registers */ + + u_long chip; /* chip configuration */ + int masterclk; /* port that provides master clock -1=off */ + int dtmf; /* flag that dtmf is currently in process */ + int Flen; /* F-buffer size */ + int Zlen; /* Z-buffer size (must be int for calculation)*/ + int max_trans; /* maximum transparent fifo fill */ + int Zmin; /* Z-buffer offset */ + int DTMFbase; /* base address of DTMF coefficients */ + + u_int slots; /* number of PCM slots */ + u_int leds; /* type of leds */ + u_int ledcount; /* used to animate leds */ + u_long ledstate; /* save last state of leds */ + int opticalsupport; /* has the e1 board */ + /* an optical Interface */ + int dslot; /* channel # of d-channel (E1) default 16 */ + + u_long wdcount; /* every 500 ms we need to */ + /* send the watchdog a signal */ + u_char wdbyte; /* watchdog toggle byte */ + u_int activity[8]; /* if there is any action on this */ + /* port (will be cleared after */ + /* showing led-states) */ + int e1_state; /* keep track of last state */ + int e1_getclock; /* if sync is retrieved from interface */ + int syncronized; /* keep track of existing sync interface */ + int e1_resync; /* resync jobs */ + + spinlock_t lock; /* the lock */ + + /* + * the channel index is counted from 0, regardless where the channel + * is located on the hfc-channel. + * the bch->channel is equvalent to the hfc-channel + */ + struct hfc_chan chan[32]; + u_char created[8]; /* what port is created */ + signed char slot_owner[256]; /* owner channel of slot */ +}; + +/* PLX GPIOs */ +#define PLX_GPIO4_DIR_BIT 13 +#define PLX_GPIO4_BIT 14 +#define PLX_GPIO5_DIR_BIT 16 +#define PLX_GPIO5_BIT 17 +#define PLX_GPIO6_DIR_BIT 19 +#define PLX_GPIO6_BIT 20 +#define PLX_GPIO7_DIR_BIT 22 +#define PLX_GPIO7_BIT 23 +#define PLX_GPIO8_DIR_BIT 25 +#define PLX_GPIO8_BIT 26 + +#define PLX_GPIO4 (1 << PLX_GPIO4_BIT) +#define PLX_GPIO5 (1 << PLX_GPIO5_BIT) +#define PLX_GPIO6 (1 << PLX_GPIO6_BIT) +#define PLX_GPIO7 (1 << PLX_GPIO7_BIT) +#define PLX_GPIO8 (1 << PLX_GPIO8_BIT) + +#define PLX_GPIO4_DIR (1 << PLX_GPIO4_DIR_BIT) +#define PLX_GPIO5_DIR (1 << PLX_GPIO5_DIR_BIT) +#define PLX_GPIO6_DIR (1 << PLX_GPIO6_DIR_BIT) +#define PLX_GPIO7_DIR (1 << PLX_GPIO7_DIR_BIT) +#define PLX_GPIO8_DIR (1 << PLX_GPIO8_DIR_BIT) + +#define PLX_TERM_ON PLX_GPIO7 +#define PLX_SLAVE_EN_N PLX_GPIO5 +#define PLX_MASTER_EN PLX_GPIO6 +#define PLX_SYNC_O_EN PLX_GPIO4 +#define PLX_DSP_RES_N PLX_GPIO8 +/* GPIO4..8 Enable & Set to OUT, SLAVE_EN_N = 1 */ +#define PLX_GPIOC_INIT (PLX_GPIO4_DIR | PLX_GPIO5_DIR | PLX_GPIO6_DIR \ + | PLX_GPIO7_DIR | PLX_GPIO8_DIR | PLX_SLAVE_EN_N) + +/* PLX Interrupt Control/STATUS */ +#define PLX_INTCSR_LINTI1_ENABLE 0x01 +#define PLX_INTCSR_LINTI1_STATUS 0x04 +#define PLX_INTCSR_LINTI2_ENABLE 0x08 +#define PLX_INTCSR_LINTI2_STATUS 0x20 +#define PLX_INTCSR_PCIINT_ENABLE 0x40 + +/* PLX Registers */ +#define PLX_INTCSR 0x4c +#define PLX_CNTRL 0x50 +#define PLX_GPIOC 0x54 + + +/* + * REGISTER SETTING FOR HFC-4S/8S AND HFC-E1 + */ + +/* write only registers */ +#define R_CIRM 0x00 +#define R_CTRL 0x01 +#define R_BRG_PCM_CFG 0x02 +#define R_RAM_ADDR0 0x08 +#define R_RAM_ADDR1 0x09 +#define R_RAM_ADDR2 0x0A +#define R_FIRST_FIFO 0x0B +#define R_RAM_SZ 0x0C +#define R_FIFO_MD 0x0D +#define R_INC_RES_FIFO 0x0E +#define R_FSM_IDX 0x0F +#define R_FIFO 0x0F +#define R_SLOT 0x10 +#define R_IRQMSK_MISC 0x11 +#define R_SCI_MSK 0x12 +#define R_IRQ_CTRL 0x13 +#define R_PCM_MD0 0x14 +#define R_PCM_MD1 0x15 +#define R_PCM_MD2 0x15 +#define R_SH0H 0x15 +#define R_SH1H 0x15 +#define R_SH0L 0x15 +#define R_SH1L 0x15 +#define R_SL_SEL0 0x15 +#define R_SL_SEL1 0x15 +#define R_SL_SEL2 0x15 +#define R_SL_SEL3 0x15 +#define R_SL_SEL4 0x15 +#define R_SL_SEL5 0x15 +#define R_SL_SEL6 0x15 +#define R_SL_SEL7 0x15 +#define R_ST_SEL 0x16 +#define R_ST_SYNC 0x17 +#define R_CONF_EN 0x18 +#define R_TI_WD 0x1A +#define R_BERT_WD_MD 0x1B +#define R_DTMF 0x1C +#define R_DTMF_N 0x1D +#define R_E1_WR_STA 0x20 +#define R_E1_RD_STA 0x20 +#define R_LOS0 0x22 +#define R_LOS1 0x23 +#define R_RX0 0x24 +#define R_RX_FR0 0x25 +#define R_RX_FR1 0x26 +#define R_TX0 0x28 +#define R_TX1 0x29 +#define R_TX_FR0 0x2C + +#define R_TX_FR1 0x2D +#define R_TX_FR2 0x2E +#define R_JATT_ATT 0x2F /* undocumented */ +#define A_ST_RD_STATE 0x30 +#define A_ST_WR_STATE 0x30 +#define R_RX_OFF 0x30 +#define A_ST_CTRL0 0x31 +#define R_SYNC_OUT 0x31 +#define A_ST_CTRL1 0x32 +#define A_ST_CTRL2 0x33 +#define A_ST_SQ_WR 0x34 +#define R_TX_OFF 0x34 +#define R_SYNC_CTRL 0x35 +#define A_ST_CLK_DLY 0x37 +#define R_PWM0 0x38 +#define R_PWM1 0x39 +#define A_ST_B1_TX 0x3C +#define A_ST_B2_TX 0x3D +#define A_ST_D_TX 0x3E +#define R_GPIO_OUT0 0x40 +#define R_GPIO_OUT1 0x41 +#define R_GPIO_EN0 0x42 +#define R_GPIO_EN1 0x43 +#define R_GPIO_SEL 0x44 +#define R_BRG_CTRL 0x45 +#define R_PWM_MD 0x46 +#define R_BRG_MD 0x47 +#define R_BRG_TIM0 0x48 +#define R_BRG_TIM1 0x49 +#define R_BRG_TIM2 0x4A +#define R_BRG_TIM3 0x4B +#define R_BRG_TIM_SEL01 0x4C +#define R_BRG_TIM_SEL23 0x4D +#define R_BRG_TIM_SEL45 0x4E +#define R_BRG_TIM_SEL67 0x4F +#define A_SL_CFG 0xD0 +#define A_CONF 0xD1 +#define A_CH_MSK 0xF4 +#define A_CON_HDLC 0xFA +#define A_SUBCH_CFG 0xFB +#define A_CHANNEL 0xFC +#define A_FIFO_SEQ 0xFD +#define A_IRQ_MSK 0xFF + +/* read only registers */ +#define A_Z12 0x04 +#define A_Z1L 0x04 +#define A_Z1 0x04 +#define A_Z1H 0x05 +#define A_Z2L 0x06 +#define A_Z2 0x06 +#define A_Z2H 0x07 +#define A_F1 0x0C +#define A_F12 0x0C +#define A_F2 0x0D +#define R_IRQ_OVIEW 0x10 +#define R_IRQ_MISC 0x11 +#define R_IRQ_STATECH 0x12 +#define R_CONF_OFLOW 0x14 +#define R_RAM_USE 0x15 +#define R_CHIP_ID 0x16 +#define R_BERT_STA 0x17 +#define R_F0_CNTL 0x18 +#define R_F0_CNTH 0x19 +#define R_BERT_EC 0x1A +#define R_BERT_ECL 0x1A +#define R_BERT_ECH 0x1B +#define R_STATUS 0x1C +#define R_CHIP_RV 0x1F +#define R_STATE 0x20 +#define R_SYNC_STA 0x24 +#define R_RX_SL0_0 0x25 +#define R_RX_SL0_1 0x26 +#define R_RX_SL0_2 0x27 +#define R_JATT_DIR 0x2b /* undocumented */ +#define R_SLIP 0x2c +#define A_ST_RD_STA 0x30 +#define R_FAS_EC 0x30 +#define R_FAS_ECL 0x30 +#define R_FAS_ECH 0x31 +#define R_VIO_EC 0x32 +#define R_VIO_ECL 0x32 +#define R_VIO_ECH 0x33 +#define A_ST_SQ_RD 0x34 +#define R_CRC_EC 0x34 +#define R_CRC_ECL 0x34 +#define R_CRC_ECH 0x35 +#define R_E_EC 0x36 +#define R_E_ECL 0x36 +#define R_E_ECH 0x37 +#define R_SA6_SA13_EC 0x38 +#define R_SA6_SA13_ECL 0x38 +#define R_SA6_SA13_ECH 0x39 +#define R_SA6_SA23_EC 0x3A +#define R_SA6_SA23_ECL 0x3A +#define R_SA6_SA23_ECH 0x3B +#define A_ST_B1_RX 0x3C +#define A_ST_B2_RX 0x3D +#define A_ST_D_RX 0x3E +#define A_ST_E_RX 0x3F +#define R_GPIO_IN0 0x40 +#define R_GPIO_IN1 0x41 +#define R_GPI_IN0 0x44 +#define R_GPI_IN1 0x45 +#define R_GPI_IN2 0x46 +#define R_GPI_IN3 0x47 +#define R_INT_DATA 0x88 +#define R_IRQ_FIFO_BL0 0xC8 +#define R_IRQ_FIFO_BL1 0xC9 +#define R_IRQ_FIFO_BL2 0xCA +#define R_IRQ_FIFO_BL3 0xCB +#define R_IRQ_FIFO_BL4 0xCC +#define R_IRQ_FIFO_BL5 0xCD +#define R_IRQ_FIFO_BL6 0xCE +#define R_IRQ_FIFO_BL7 0xCF + +/* read and write registers */ +#define A_FIFO_DATA0 0x80 +#define A_FIFO_DATA1 0x80 +#define A_FIFO_DATA2 0x80 +#define A_FIFO_DATA0_NOINC 0x84 +#define A_FIFO_DATA1_NOINC 0x84 +#define A_FIFO_DATA2_NOINC 0x84 +#define R_RAM_DATA 0xC0 + + +/* + * BIT SETTING FOR HFC-4S/8S AND HFC-E1 + */ + +/* chapter 2: universal bus interface */ +/* R_CIRM */ +#define V_IRQ_SEL 0x01 +#define V_SRES 0x08 +#define V_HFCRES 0x10 +#define V_PCMRES 0x20 +#define V_STRES 0x40 +#define V_ETRES 0x40 +#define V_RLD_EPR 0x80 +/* R_CTRL */ +#define V_FIFO_LPRIO 0x02 +#define V_SLOW_RD 0x04 +#define V_EXT_RAM 0x08 +#define V_CLK_OFF 0x20 +#define V_ST_CLK 0x40 +/* R_RAM_ADDR0 */ +#define V_RAM_ADDR2 0x01 +#define V_ADDR_RES 0x40 +#define V_ADDR_INC 0x80 +/* R_RAM_SZ */ +#define V_RAM_SZ 0x01 +#define V_PWM0_16KHZ 0x10 +#define V_PWM1_16KHZ 0x20 +#define V_FZ_MD 0x80 +/* R_CHIP_ID */ +#define V_PNP_IRQ 0x01 +#define V_CHIP_ID 0x10 + +/* chapter 3: data flow */ +/* R_FIRST_FIFO */ +#define V_FIRST_FIRO_DIR 0x01 +#define V_FIRST_FIFO_NUM 0x02 +/* R_FIFO_MD */ +#define V_FIFO_MD 0x01 +#define V_CSM_MD 0x04 +#define V_FSM_MD 0x08 +#define V_FIFO_SZ 0x10 +/* R_FIFO */ +#define V_FIFO_DIR 0x01 +#define V_FIFO_NUM 0x02 +#define V_REV 0x80 +/* R_SLOT */ +#define V_SL_DIR 0x01 +#define V_SL_NUM 0x02 +/* A_SL_CFG */ +#define V_CH_DIR 0x01 +#define V_CH_SEL 0x02 +#define V_ROUTING 0x40 +/* A_CON_HDLC */ +#define V_IFF 0x01 +#define V_HDLC_TRP 0x02 +#define V_TRP_IRQ 0x04 +#define V_DATA_FLOW 0x20 +/* A_SUBCH_CFG */ +#define V_BIT_CNT 0x01 +#define V_START_BIT 0x08 +#define V_LOOP_FIFO 0x40 +#define V_INV_DATA 0x80 +/* A_CHANNEL */ +#define V_CH_DIR0 0x01 +#define V_CH_NUM0 0x02 +/* A_FIFO_SEQ */ +#define V_NEXT_FIFO_DIR 0x01 +#define V_NEXT_FIFO_NUM 0x02 +#define V_SEQ_END 0x40 + +/* chapter 4: FIFO handling and HDLC controller */ +/* R_INC_RES_FIFO */ +#define V_INC_F 0x01 +#define V_RES_F 0x02 +#define V_RES_LOST 0x04 + +/* chapter 5: S/T interface */ +/* R_SCI_MSK */ +#define V_SCI_MSK_ST0 0x01 +#define V_SCI_MSK_ST1 0x02 +#define V_SCI_MSK_ST2 0x04 +#define V_SCI_MSK_ST3 0x08 +#define V_SCI_MSK_ST4 0x10 +#define V_SCI_MSK_ST5 0x20 +#define V_SCI_MSK_ST6 0x40 +#define V_SCI_MSK_ST7 0x80 +/* R_ST_SEL */ +#define V_ST_SEL 0x01 +#define V_MULT_ST 0x08 +/* R_ST_SYNC */ +#define V_SYNC_SEL 0x01 +#define V_AUTO_SYNC 0x08 +/* A_ST_WR_STA */ +#define V_ST_SET_STA 0x01 +#define V_ST_LD_STA 0x10 +#define V_ST_ACT 0x20 +#define V_SET_G2_G3 0x80 +/* A_ST_CTRL0 */ +#define V_B1_EN 0x01 +#define V_B2_EN 0x02 +#define V_ST_MD 0x04 +#define V_D_PRIO 0x08 +#define V_SQ_EN 0x10 +#define V_96KHZ 0x20 +#define V_TX_LI 0x40 +#define V_ST_STOP 0x80 +/* A_ST_CTRL1 */ +#define V_G2_G3_EN 0x01 +#define V_D_HI 0x04 +#define V_E_IGNO 0x08 +#define V_E_LO 0x10 +#define V_B12_SWAP 0x80 +/* A_ST_CTRL2 */ +#define V_B1_RX_EN 0x01 +#define V_B2_RX_EN 0x02 +#define V_ST_TRIS 0x40 +/* A_ST_CLK_DLY */ +#define V_ST_CK_DLY 0x01 +#define V_ST_SMPL 0x10 +/* A_ST_D_TX */ +#define V_ST_D_TX 0x40 +/* R_IRQ_STATECH */ +#define V_SCI_ST0 0x01 +#define V_SCI_ST1 0x02 +#define V_SCI_ST2 0x04 +#define V_SCI_ST3 0x08 +#define V_SCI_ST4 0x10 +#define V_SCI_ST5 0x20 +#define V_SCI_ST6 0x40 +#define V_SCI_ST7 0x80 +/* A_ST_RD_STA */ +#define V_ST_STA 0x01 +#define V_FR_SYNC_ST 0x10 +#define V_TI2_EXP 0x20 +#define V_INFO0 0x40 +#define V_G2_G3 0x80 +/* A_ST_SQ_RD */ +#define V_ST_SQ 0x01 +#define V_MF_RX_RDY 0x10 +#define V_MF_TX_RDY 0x80 +/* A_ST_D_RX */ +#define V_ST_D_RX 0x40 +/* A_ST_E_RX */ +#define V_ST_E_RX 0x40 + +/* chapter 5: E1 interface */ +/* R_E1_WR_STA */ +/* R_E1_RD_STA */ +#define V_E1_SET_STA 0x01 +#define V_E1_LD_STA 0x10 +/* R_RX0 */ +#define V_RX_CODE 0x01 +#define V_RX_FBAUD 0x04 +#define V_RX_CMI 0x08 +#define V_RX_INV_CMI 0x10 +#define V_RX_INV_CLK 0x20 +#define V_RX_INV_DATA 0x40 +#define V_AIS_ITU 0x80 +/* R_RX_FR0 */ +#define V_NO_INSYNC 0x01 +#define V_AUTO_RESYNC 0x02 +#define V_AUTO_RECO 0x04 +#define V_SWORD_COND 0x08 +#define V_SYNC_LOSS 0x10 +#define V_XCRC_SYNC 0x20 +#define V_MF_RESYNC 0x40 +#define V_RESYNC 0x80 +/* R_RX_FR1 */ +#define V_RX_MF 0x01 +#define V_RX_MF_SYNC 0x02 +#define V_RX_SL0_RAM 0x04 +#define V_ERR_SIM 0x20 +#define V_RES_NMF 0x40 +/* R_TX0 */ +#define V_TX_CODE 0x01 +#define V_TX_FBAUD 0x04 +#define V_TX_CMI_CODE 0x08 +#define V_TX_INV_CMI_CODE 0x10 +#define V_TX_INV_CLK 0x20 +#define V_TX_INV_DATA 0x40 +#define V_OUT_EN 0x80 +/* R_TX1 */ +#define V_INV_CLK 0x01 +#define V_EXCHG_DATA_LI 0x02 +#define V_AIS_OUT 0x04 +#define V_ATX 0x20 +#define V_NTRI 0x40 +#define V_AUTO_ERR_RES 0x80 +/* R_TX_FR0 */ +#define V_TRP_FAS 0x01 +#define V_TRP_NFAS 0x02 +#define V_TRP_RAL 0x04 +#define V_TRP_SA 0x08 +/* R_TX_FR1 */ +#define V_TX_FAS 0x01 +#define V_TX_NFAS 0x02 +#define V_TX_RAL 0x04 +#define V_TX_SA 0x08 +/* R_TX_FR2 */ +#define V_TX_MF 0x01 +#define V_TRP_SL0 0x02 +#define V_TX_SL0_RAM 0x04 +#define V_TX_E 0x10 +#define V_NEG_E 0x20 +#define V_XS12_ON 0x40 +#define V_XS15_ON 0x80 +/* R_RX_OFF */ +#define V_RX_SZ 0x01 +#define V_RX_INIT 0x04 +/* R_SYNC_OUT */ +#define V_SYNC_E1_RX 0x01 +#define V_IPATS0 0x20 +#define V_IPATS1 0x40 +#define V_IPATS2 0x80 +/* R_TX_OFF */ +#define V_TX_SZ 0x01 +#define V_TX_INIT 0x04 +/* R_SYNC_CTRL */ +#define V_EXT_CLK_SYNC 0x01 +#define V_SYNC_OFFS 0x02 +#define V_PCM_SYNC 0x04 +#define V_NEG_CLK 0x08 +#define V_HCLK 0x10 +/* +#define V_JATT_AUTO_DEL 0x20 +#define V_JATT_AUTO 0x40 +*/ +#define V_JATT_OFF 0x80 +/* R_STATE */ +#define V_E1_STA 0x01 +#define V_ALT_FR_RX 0x40 +#define V_ALT_FR_TX 0x80 +/* R_SYNC_STA */ +#define V_RX_STA 0x01 +#define V_FR_SYNC_E1 0x04 +#define V_SIG_LOS 0x08 +#define V_MFA_STA 0x10 +#define V_AIS 0x40 +#define V_NO_MF_SYNC 0x80 +/* R_RX_SL0_0 */ +#define V_SI_FAS 0x01 +#define V_SI_NFAS 0x02 +#define V_A 0x04 +#define V_CRC_OK 0x08 +#define V_TX_E1 0x10 +#define V_TX_E2 0x20 +#define V_RX_E1 0x40 +#define V_RX_E2 0x80 +/* R_SLIP */ +#define V_SLIP_RX 0x01 +#define V_FOSLIP_RX 0x08 +#define V_SLIP_TX 0x10 +#define V_FOSLIP_TX 0x80 + +/* chapter 6: PCM interface */ +/* R_PCM_MD0 */ +#define V_PCM_MD 0x01 +#define V_C4_POL 0x02 +#define V_F0_NEG 0x04 +#define V_F0_LEN 0x08 +#define V_PCM_ADDR 0x10 +/* R_SL_SEL0 */ +#define V_SL_SEL0 0x01 +#define V_SH_SEL0 0x80 +/* R_SL_SEL1 */ +#define V_SL_SEL1 0x01 +#define V_SH_SEL1 0x80 +/* R_SL_SEL2 */ +#define V_SL_SEL2 0x01 +#define V_SH_SEL2 0x80 +/* R_SL_SEL3 */ +#define V_SL_SEL3 0x01 +#define V_SH_SEL3 0x80 +/* R_SL_SEL4 */ +#define V_SL_SEL4 0x01 +#define V_SH_SEL4 0x80 +/* R_SL_SEL5 */ +#define V_SL_SEL5 0x01 +#define V_SH_SEL5 0x80 +/* R_SL_SEL6 */ +#define V_SL_SEL6 0x01 +#define V_SH_SEL6 0x80 +/* R_SL_SEL7 */ +#define V_SL_SEL7 0x01 +#define V_SH_SEL7 0x80 +/* R_PCM_MD1 */ +#define V_ODEC_CON 0x01 +#define V_PLL_ADJ 0x04 +#define V_PCM_DR 0x10 +#define V_PCM_LOOP 0x40 +/* R_PCM_MD2 */ +#define V_SYNC_PLL 0x02 +#define V_SYNC_SRC 0x04 +#define V_SYNC_OUT 0x08 +#define V_ICR_FR_TIME 0x40 +#define V_EN_PLL 0x80 + +/* chapter 7: pulse width modulation */ +/* R_PWM_MD */ +#define V_EXT_IRQ_EN 0x08 +#define V_PWM0_MD 0x10 +#define V_PWM1_MD 0x40 + +/* chapter 8: multiparty audio conferences */ +/* R_CONF_EN */ +#define V_CONF_EN 0x01 +#define V_ULAW 0x80 +/* A_CONF */ +#define V_CONF_NUM 0x01 +#define V_NOISE_SUPPR 0x08 +#define V_ATT_LEV 0x20 +#define V_CONF_SL 0x80 +/* R_CONF_OFLOW */ +#define V_CONF_OFLOW0 0x01 +#define V_CONF_OFLOW1 0x02 +#define V_CONF_OFLOW2 0x04 +#define V_CONF_OFLOW3 0x08 +#define V_CONF_OFLOW4 0x10 +#define V_CONF_OFLOW5 0x20 +#define V_CONF_OFLOW6 0x40 +#define V_CONF_OFLOW7 0x80 + +/* chapter 9: DTMF contoller */ +/* R_DTMF0 */ +#define V_DTMF_EN 0x01 +#define V_HARM_SEL 0x02 +#define V_DTMF_RX_CH 0x04 +#define V_DTMF_STOP 0x08 +#define V_CHBL_SEL 0x10 +#define V_RST_DTMF 0x40 +#define V_ULAW_SEL 0x80 + +/* chapter 10: BERT */ +/* R_BERT_WD_MD */ +#define V_PAT_SEQ 0x01 +#define V_BERT_ERR 0x08 +#define V_AUTO_WD_RES 0x20 +#define V_WD_RES 0x80 +/* R_BERT_STA */ +#define V_BERT_SYNC_SRC 0x01 +#define V_BERT_SYNC 0x10 +#define V_BERT_INV_DATA 0x20 + +/* chapter 11: auxiliary interface */ +/* R_BRG_PCM_CFG */ +#define V_BRG_EN 0x01 +#define V_BRG_MD 0x02 +#define V_PCM_CLK 0x20 +#define V_ADDR_WRDLY 0x40 +/* R_BRG_CTRL */ +#define V_BRG_CS 0x01 +#define V_BRG_ADDR 0x08 +#define V_BRG_CS_SRC 0x80 +/* R_BRG_MD */ +#define V_BRG_MD0 0x01 +#define V_BRG_MD1 0x02 +#define V_BRG_MD2 0x04 +#define V_BRG_MD3 0x08 +#define V_BRG_MD4 0x10 +#define V_BRG_MD5 0x20 +#define V_BRG_MD6 0x40 +#define V_BRG_MD7 0x80 +/* R_BRG_TIM0 */ +#define V_BRG_TIM0_IDLE 0x01 +#define V_BRG_TIM0_CLK 0x10 +/* R_BRG_TIM1 */ +#define V_BRG_TIM1_IDLE 0x01 +#define V_BRG_TIM1_CLK 0x10 +/* R_BRG_TIM2 */ +#define V_BRG_TIM2_IDLE 0x01 +#define V_BRG_TIM2_CLK 0x10 +/* R_BRG_TIM3 */ +#define V_BRG_TIM3_IDLE 0x01 +#define V_BRG_TIM3_CLK 0x10 +/* R_BRG_TIM_SEL01 */ +#define V_BRG_WR_SEL0 0x01 +#define V_BRG_RD_SEL0 0x04 +#define V_BRG_WR_SEL1 0x10 +#define V_BRG_RD_SEL1 0x40 +/* R_BRG_TIM_SEL23 */ +#define V_BRG_WR_SEL2 0x01 +#define V_BRG_RD_SEL2 0x04 +#define V_BRG_WR_SEL3 0x10 +#define V_BRG_RD_SEL3 0x40 +/* R_BRG_TIM_SEL45 */ +#define V_BRG_WR_SEL4 0x01 +#define V_BRG_RD_SEL4 0x04 +#define V_BRG_WR_SEL5 0x10 +#define V_BRG_RD_SEL5 0x40 +/* R_BRG_TIM_SEL67 */ +#define V_BRG_WR_SEL6 0x01 +#define V_BRG_RD_SEL6 0x04 +#define V_BRG_WR_SEL7 0x10 +#define V_BRG_RD_SEL7 0x40 + +/* chapter 12: clock, reset, interrupt, timer and watchdog */ +/* R_IRQMSK_MISC */ +#define V_STA_IRQMSK 0x01 +#define V_TI_IRQMSK 0x02 +#define V_PROC_IRQMSK 0x04 +#define V_DTMF_IRQMSK 0x08 +#define V_IRQ1S_MSK 0x10 +#define V_SA6_IRQMSK 0x20 +#define V_RX_EOMF_MSK 0x40 +#define V_TX_EOMF_MSK 0x80 +/* R_IRQ_CTRL */ +#define V_FIFO_IRQ 0x01 +#define V_GLOB_IRQ_EN 0x08 +#define V_IRQ_POL 0x10 +/* R_TI_WD */ +#define V_EV_TS 0x01 +#define V_WD_TS 0x10 +/* A_IRQ_MSK */ +#define V_IRQ 0x01 +#define V_BERT_EN 0x02 +#define V_MIX_IRQ 0x04 +/* R_IRQ_OVIEW */ +#define V_IRQ_FIFO_BL0 0x01 +#define V_IRQ_FIFO_BL1 0x02 +#define V_IRQ_FIFO_BL2 0x04 +#define V_IRQ_FIFO_BL3 0x08 +#define V_IRQ_FIFO_BL4 0x10 +#define V_IRQ_FIFO_BL5 0x20 +#define V_IRQ_FIFO_BL6 0x40 +#define V_IRQ_FIFO_BL7 0x80 +/* R_IRQ_MISC */ +#define V_STA_IRQ 0x01 +#define V_TI_IRQ 0x02 +#define V_IRQ_PROC 0x04 +#define V_DTMF_IRQ 0x08 +#define V_IRQ1S 0x10 +#define V_SA6_IRQ 0x20 +#define V_RX_EOMF 0x40 +#define V_TX_EOMF 0x80 +/* R_STATUS */ +#define V_BUSY 0x01 +#define V_PROC 0x02 +#define V_DTMF_STA 0x04 +#define V_LOST_STA 0x08 +#define V_SYNC_IN 0x10 +#define V_EXT_IRQSTA 0x20 +#define V_MISC_IRQSTA 0x40 +#define V_FR_IRQSTA 0x80 +/* R_IRQ_FIFO_BL0 */ +#define V_IRQ_FIFO0_TX 0x01 +#define V_IRQ_FIFO0_RX 0x02 +#define V_IRQ_FIFO1_TX 0x04 +#define V_IRQ_FIFO1_RX 0x08 +#define V_IRQ_FIFO2_TX 0x10 +#define V_IRQ_FIFO2_RX 0x20 +#define V_IRQ_FIFO3_TX 0x40 +#define V_IRQ_FIFO3_RX 0x80 +/* R_IRQ_FIFO_BL1 */ +#define V_IRQ_FIFO4_TX 0x01 +#define V_IRQ_FIFO4_RX 0x02 +#define V_IRQ_FIFO5_TX 0x04 +#define V_IRQ_FIFO5_RX 0x08 +#define V_IRQ_FIFO6_TX 0x10 +#define V_IRQ_FIFO6_RX 0x20 +#define V_IRQ_FIFO7_TX 0x40 +#define V_IRQ_FIFO7_RX 0x80 +/* R_IRQ_FIFO_BL2 */ +#define V_IRQ_FIFO8_TX 0x01 +#define V_IRQ_FIFO8_RX 0x02 +#define V_IRQ_FIFO9_TX 0x04 +#define V_IRQ_FIFO9_RX 0x08 +#define V_IRQ_FIFO10_TX 0x10 +#define V_IRQ_FIFO10_RX 0x20 +#define V_IRQ_FIFO11_TX 0x40 +#define V_IRQ_FIFO11_RX 0x80 +/* R_IRQ_FIFO_BL3 */ +#define V_IRQ_FIFO12_TX 0x01 +#define V_IRQ_FIFO12_RX 0x02 +#define V_IRQ_FIFO13_TX 0x04 +#define V_IRQ_FIFO13_RX 0x08 +#define V_IRQ_FIFO14_TX 0x10 +#define V_IRQ_FIFO14_RX 0x20 +#define V_IRQ_FIFO15_TX 0x40 +#define V_IRQ_FIFO15_RX 0x80 +/* R_IRQ_FIFO_BL4 */ +#define V_IRQ_FIFO16_TX 0x01 +#define V_IRQ_FIFO16_RX 0x02 +#define V_IRQ_FIFO17_TX 0x04 +#define V_IRQ_FIFO17_RX 0x08 +#define V_IRQ_FIFO18_TX 0x10 +#define V_IRQ_FIFO18_RX 0x20 +#define V_IRQ_FIFO19_TX 0x40 +#define V_IRQ_FIFO19_RX 0x80 +/* R_IRQ_FIFO_BL5 */ +#define V_IRQ_FIFO20_TX 0x01 +#define V_IRQ_FIFO20_RX 0x02 +#define V_IRQ_FIFO21_TX 0x04 +#define V_IRQ_FIFO21_RX 0x08 +#define V_IRQ_FIFO22_TX 0x10 +#define V_IRQ_FIFO22_RX 0x20 +#define V_IRQ_FIFO23_TX 0x40 +#define V_IRQ_FIFO23_RX 0x80 +/* R_IRQ_FIFO_BL6 */ +#define V_IRQ_FIFO24_TX 0x01 +#define V_IRQ_FIFO24_RX 0x02 +#define V_IRQ_FIFO25_TX 0x04 +#define V_IRQ_FIFO25_RX 0x08 +#define V_IRQ_FIFO26_TX 0x10 +#define V_IRQ_FIFO26_RX 0x20 +#define V_IRQ_FIFO27_TX 0x40 +#define V_IRQ_FIFO27_RX 0x80 +/* R_IRQ_FIFO_BL7 */ +#define V_IRQ_FIFO28_TX 0x01 +#define V_IRQ_FIFO28_RX 0x02 +#define V_IRQ_FIFO29_TX 0x04 +#define V_IRQ_FIFO29_RX 0x08 +#define V_IRQ_FIFO30_TX 0x10 +#define V_IRQ_FIFO30_RX 0x20 +#define V_IRQ_FIFO31_TX 0x40 +#define V_IRQ_FIFO31_RX 0x80 + +/* chapter 13: general purpose I/O pins (GPIO) and input pins (GPI) */ +/* R_GPIO_OUT0 */ +#define V_GPIO_OUT0 0x01 +#define V_GPIO_OUT1 0x02 +#define V_GPIO_OUT2 0x04 +#define V_GPIO_OUT3 0x08 +#define V_GPIO_OUT4 0x10 +#define V_GPIO_OUT5 0x20 +#define V_GPIO_OUT6 0x40 +#define V_GPIO_OUT7 0x80 +/* R_GPIO_OUT1 */ +#define V_GPIO_OUT8 0x01 +#define V_GPIO_OUT9 0x02 +#define V_GPIO_OUT10 0x04 +#define V_GPIO_OUT11 0x08 +#define V_GPIO_OUT12 0x10 +#define V_GPIO_OUT13 0x20 +#define V_GPIO_OUT14 0x40 +#define V_GPIO_OUT15 0x80 +/* R_GPIO_EN0 */ +#define V_GPIO_EN0 0x01 +#define V_GPIO_EN1 0x02 +#define V_GPIO_EN2 0x04 +#define V_GPIO_EN3 0x08 +#define V_GPIO_EN4 0x10 +#define V_GPIO_EN5 0x20 +#define V_GPIO_EN6 0x40 +#define V_GPIO_EN7 0x80 +/* R_GPIO_EN1 */ +#define V_GPIO_EN8 0x01 +#define V_GPIO_EN9 0x02 +#define V_GPIO_EN10 0x04 +#define V_GPIO_EN11 0x08 +#define V_GPIO_EN12 0x10 +#define V_GPIO_EN13 0x20 +#define V_GPIO_EN14 0x40 +#define V_GPIO_EN15 0x80 +/* R_GPIO_SEL */ +#define V_GPIO_SEL0 0x01 +#define V_GPIO_SEL1 0x02 +#define V_GPIO_SEL2 0x04 +#define V_GPIO_SEL3 0x08 +#define V_GPIO_SEL4 0x10 +#define V_GPIO_SEL5 0x20 +#define V_GPIO_SEL6 0x40 +#define V_GPIO_SEL7 0x80 +/* R_GPIO_IN0 */ +#define V_GPIO_IN0 0x01 +#define V_GPIO_IN1 0x02 +#define V_GPIO_IN2 0x04 +#define V_GPIO_IN3 0x08 +#define V_GPIO_IN4 0x10 +#define V_GPIO_IN5 0x20 +#define V_GPIO_IN6 0x40 +#define V_GPIO_IN7 0x80 +/* R_GPIO_IN1 */ +#define V_GPIO_IN8 0x01 +#define V_GPIO_IN9 0x02 +#define V_GPIO_IN10 0x04 +#define V_GPIO_IN11 0x08 +#define V_GPIO_IN12 0x10 +#define V_GPIO_IN13 0x20 +#define V_GPIO_IN14 0x40 +#define V_GPIO_IN15 0x80 +/* R_GPI_IN0 */ +#define V_GPI_IN0 0x01 +#define V_GPI_IN1 0x02 +#define V_GPI_IN2 0x04 +#define V_GPI_IN3 0x08 +#define V_GPI_IN4 0x10 +#define V_GPI_IN5 0x20 +#define V_GPI_IN6 0x40 +#define V_GPI_IN7 0x80 +/* R_GPI_IN1 */ +#define V_GPI_IN8 0x01 +#define V_GPI_IN9 0x02 +#define V_GPI_IN10 0x04 +#define V_GPI_IN11 0x08 +#define V_GPI_IN12 0x10 +#define V_GPI_IN13 0x20 +#define V_GPI_IN14 0x40 +#define V_GPI_IN15 0x80 +/* R_GPI_IN2 */ +#define V_GPI_IN16 0x01 +#define V_GPI_IN17 0x02 +#define V_GPI_IN18 0x04 +#define V_GPI_IN19 0x08 +#define V_GPI_IN20 0x10 +#define V_GPI_IN21 0x20 +#define V_GPI_IN22 0x40 +#define V_GPI_IN23 0x80 +/* R_GPI_IN3 */ +#define V_GPI_IN24 0x01 +#define V_GPI_IN25 0x02 +#define V_GPI_IN26 0x04 +#define V_GPI_IN27 0x08 +#define V_GPI_IN28 0x10 +#define V_GPI_IN29 0x20 +#define V_GPI_IN30 0x40 +#define V_GPI_IN31 0x80 + +/* map of all registers, used for debugging */ + +#ifdef HFC_REGISTER_DEBUG +struct hfc_register_names { + char *name; + u_char reg; +} hfc_register_names[] = { + /* write registers */ + {"R_CIRM", 0x00}, + {"R_CTRL", 0x01}, + {"R_BRG_PCM_CFG ", 0x02}, + {"R_RAM_ADDR0", 0x08}, + {"R_RAM_ADDR1", 0x09}, + {"R_RAM_ADDR2", 0x0A}, + {"R_FIRST_FIFO", 0x0B}, + {"R_RAM_SZ", 0x0C}, + {"R_FIFO_MD", 0x0D}, + {"R_INC_RES_FIFO", 0x0E}, + {"R_FIFO / R_FSM_IDX", 0x0F}, + {"R_SLOT", 0x10}, + {"R_IRQMSK_MISC", 0x11}, + {"R_SCI_MSK", 0x12}, + {"R_IRQ_CTRL", 0x13}, + {"R_PCM_MD0", 0x14}, + {"R_0x15", 0x15}, + {"R_ST_SEL", 0x16}, + {"R_ST_SYNC", 0x17}, + {"R_CONF_EN", 0x18}, + {"R_TI_WD", 0x1A}, + {"R_BERT_WD_MD", 0x1B}, + {"R_DTMF", 0x1C}, + {"R_DTMF_N", 0x1D}, + {"R_E1_XX_STA", 0x20}, + {"R_LOS0", 0x22}, + {"R_LOS1", 0x23}, + {"R_RX0", 0x24}, + {"R_RX_FR0", 0x25}, + {"R_RX_FR1", 0x26}, + {"R_TX0", 0x28}, + {"R_TX1", 0x29}, + {"R_TX_FR0", 0x2C}, + {"R_TX_FR1", 0x2D}, + {"R_TX_FR2", 0x2E}, + {"R_JATT_ATT", 0x2F}, + {"A_ST_xx_STA/R_RX_OFF", 0x30}, + {"A_ST_CTRL0/R_SYNC_OUT", 0x31}, + {"A_ST_CTRL1", 0x32}, + {"A_ST_CTRL2", 0x33}, + {"A_ST_SQ_WR", 0x34}, + {"R_TX_OFF", 0x34}, + {"R_SYNC_CTRL", 0x35}, + {"A_ST_CLK_DLY", 0x37}, + {"R_PWM0", 0x38}, + {"R_PWM1", 0x39}, + {"A_ST_B1_TX", 0x3C}, + {"A_ST_B2_TX", 0x3D}, + {"A_ST_D_TX", 0x3E}, + {"R_GPIO_OUT0", 0x40}, + {"R_GPIO_OUT1", 0x41}, + {"R_GPIO_EN0", 0x42}, + {"R_GPIO_EN1", 0x43}, + {"R_GPIO_SEL", 0x44}, + {"R_BRG_CTRL", 0x45}, + {"R_PWM_MD", 0x46}, + {"R_BRG_MD", 0x47}, + {"R_BRG_TIM0", 0x48}, + {"R_BRG_TIM1", 0x49}, + {"R_BRG_TIM2", 0x4A}, + {"R_BRG_TIM3", 0x4B}, + {"R_BRG_TIM_SEL01", 0x4C}, + {"R_BRG_TIM_SEL23", 0x4D}, + {"R_BRG_TIM_SEL45", 0x4E}, + {"R_BRG_TIM_SEL67", 0x4F}, + {"A_FIFO_DATA0-2", 0x80}, + {"A_FIFO_DATA0-2_NOINC", 0x84}, + {"R_RAM_DATA", 0xC0}, + {"A_SL_CFG", 0xD0}, + {"A_CONF", 0xD1}, + {"A_CH_MSK", 0xF4}, + {"A_CON_HDLC", 0xFA}, + {"A_SUBCH_CFG", 0xFB}, + {"A_CHANNEL", 0xFC}, + {"A_FIFO_SEQ", 0xFD}, + {"A_IRQ_MSK", 0xFF}, + {NULL, 0}, + + /* read registers */ + {"A_Z1", 0x04}, + {"A_Z1H", 0x05}, + {"A_Z2", 0x06}, + {"A_Z2H", 0x07}, + {"A_F1", 0x0C}, + {"A_F2", 0x0D}, + {"R_IRQ_OVIEW", 0x10}, + {"R_IRQ_MISC", 0x11}, + {"R_IRQ_STATECH", 0x12}, + {"R_CONF_OFLOW", 0x14}, + {"R_RAM_USE", 0x15}, + {"R_CHIP_ID", 0x16}, + {"R_BERT_STA", 0x17}, + {"R_F0_CNTL", 0x18}, + {"R_F0_CNTH", 0x19}, + {"R_BERT_ECL", 0x1A}, + {"R_BERT_ECH", 0x1B}, + {"R_STATUS", 0x1C}, + {"R_CHIP_RV", 0x1F}, + {"R_STATE", 0x20}, + {"R_SYNC_STA", 0x24}, + {"R_RX_SL0_0", 0x25}, + {"R_RX_SL0_1", 0x26}, + {"R_RX_SL0_2", 0x27}, + {"R_JATT_DIR", 0x2b}, + {"R_SLIP", 0x2c}, + {"A_ST_RD_STA", 0x30}, + {"R_FAS_ECL", 0x30}, + {"R_FAS_ECH", 0x31}, + {"R_VIO_ECL", 0x32}, + {"R_VIO_ECH", 0x33}, + {"R_CRC_ECL / A_ST_SQ_RD", 0x34}, + {"R_CRC_ECH", 0x35}, + {"R_E_ECL", 0x36}, + {"R_E_ECH", 0x37}, + {"R_SA6_SA13_ECL", 0x38}, + {"R_SA6_SA13_ECH", 0x39}, + {"R_SA6_SA23_ECL", 0x3A}, + {"R_SA6_SA23_ECH", 0x3B}, + {"A_ST_B1_RX", 0x3C}, + {"A_ST_B2_RX", 0x3D}, + {"A_ST_D_RX", 0x3E}, + {"A_ST_E_RX", 0x3F}, + {"R_GPIO_IN0", 0x40}, + {"R_GPIO_IN1", 0x41}, + {"R_GPI_IN0", 0x44}, + {"R_GPI_IN1", 0x45}, + {"R_GPI_IN2", 0x46}, + {"R_GPI_IN3", 0x47}, + {"A_FIFO_DATA0-2", 0x80}, + {"A_FIFO_DATA0-2_NOINC", 0x84}, + {"R_INT_DATA", 0x88}, + {"R_RAM_DATA", 0xC0}, + {"R_IRQ_FIFO_BL0", 0xC8}, + {"R_IRQ_FIFO_BL1", 0xC9}, + {"R_IRQ_FIFO_BL2", 0xCA}, + {"R_IRQ_FIFO_BL3", 0xCB}, + {"R_IRQ_FIFO_BL4", 0xCC}, + {"R_IRQ_FIFO_BL5", 0xCD}, + {"R_IRQ_FIFO_BL6", 0xCE}, + {"R_IRQ_FIFO_BL7", 0xCF}, +}; +#endif /* HFC_REGISTER_DEBUG */ + diff --git a/drivers/isdn/hardware/mISDN/hfcmulti.c b/drivers/isdn/hardware/mISDN/hfcmulti.c new file mode 100644 index 000000000000..2649ea55a9e8 --- /dev/null +++ b/drivers/isdn/hardware/mISDN/hfcmulti.c @@ -0,0 +1,5320 @@ +/* + * hfcmulti.c low level driver for hfc-4s/hfc-8s/hfc-e1 based cards + * + * Author Andreas Eversberg (jolly@eversberg.eu) + * ported to mqueue mechanism: + * Peter Sprenger (sprengermoving-bytes.de) + * + * inspired by existing hfc-pci driver: + * Copyright 1999 by Werner Cornelius (werner@isdn-development.de) + * Copyright 2008 by Karsten Keil (kkeil@suse.de) + * Copyright 2008 by Andreas Eversberg (jolly@eversberg.eu) + * + * 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, or (at your option) + * any later version. + * + * This program is distributed in the hope that it will be useful, + * but WITHOUT ANY WARRANTY; without even the implied warranty of + * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the + * GNU General Public License for more details. + * + * You should have received a copy of the GNU General Public License + * along with this program; if not, write to the Free Software + * Foundation, Inc., 675 Mass Ave, Cambridge, MA 02139, USA. + * + * + * Thanks to Cologne Chip AG for this great controller! + */ + +/* + * module parameters: + * type: + * By default (0), the card is automatically detected. + * Or use the following combinations: + * Bit 0-7 = 0x00001 = HFC-E1 (1 port) + * or Bit 0-7 = 0x00004 = HFC-4S (4 ports) + * or Bit 0-7 = 0x00008 = HFC-8S (8 ports) + * Bit 8 = 0x00100 = uLaw (instead of aLaw) + * Bit 9 = 0x00200 = Disable DTMF detect on all B-channels via hardware + * Bit 10 = spare + * Bit 11 = 0x00800 = Force PCM bus into slave mode. (otherwhise auto) + * or Bit 12 = 0x01000 = Force PCM bus into master mode. (otherwhise auto) + * Bit 13 = spare + * Bit 14 = 0x04000 = Use external ram (128K) + * Bit 15 = 0x08000 = Use external ram (512K) + * Bit 16 = 0x10000 = Use 64 timeslots instead of 32 + * or Bit 17 = 0x20000 = Use 128 timeslots instead of anything else + * Bit 18 = spare + * Bit 19 = 0x80000 = Send the Watchdog a Signal (Dual E1 with Watchdog) + * (all other bits are reserved and shall be 0) + * example: 0x20204 one HFC-4S with dtmf detection and 128 timeslots on PCM + * bus (PCM master) + * + * port: (optional or required for all ports on all installed cards) + * HFC-4S/HFC-8S only bits: + * Bit 0 = 0x001 = Use master clock for this S/T interface + * (ony once per chip). + * Bit 1 = 0x002 = transmitter line setup (non capacitive mode) + * Don't use this unless you know what you are doing! + * Bit 2 = 0x004 = Disable E-channel. (No E-channel processing) + * example: 0x0001,0x0000,0x0000,0x0000 one HFC-4S with master clock + * received from port 1 + * + * HFC-E1 only bits: + * Bit 0 = 0x0001 = interface: 0=copper, 1=optical + * Bit 1 = 0x0002 = reserved (later for 32 B-channels transparent mode) + * Bit 2 = 0x0004 = Report LOS + * Bit 3 = 0x0008 = Report AIS + * Bit 4 = 0x0010 = Report SLIP + * Bit 5 = 0x0020 = Report RDI + * Bit 8 = 0x0100 = Turn off CRC-4 Multiframe Mode, use double frame + * mode instead. + * Bit 9 = 0x0200 = Force get clock from interface, even in NT mode. + * or Bit 10 = 0x0400 = Force put clock to interface, even in TE mode. + * Bit 11 = 0x0800 = Use direct RX clock for PCM sync rather than PLL. + * (E1 only) + * Bit 12-13 = 0xX000 = elastic jitter buffer (1-3), Set both bits to 0 + * for default. + * (all other bits are reserved and shall be 0) + * + * debug: + * NOTE: only one debug value must be given for all cards + * enable debugging (see hfc_multi.h for debug options) + * + * poll: + * NOTE: only one poll value must be given for all cards + * Give the number of samples for each fifo process. + * By default 128 is used. Decrease to reduce delay, increase to + * reduce cpu load. If unsure, don't mess with it! + * Valid is 8, 16, 32, 64, 128, 256. + * + * pcm: + * NOTE: only one pcm value must be given for every card. + * The PCM bus id tells the mISDNdsp module about the connected PCM bus. + * By default (0), the PCM bus id is 100 for the card that is PCM master. + * If multiple cards are PCM master (because they are not interconnected), + * each card with PCM master will have increasing PCM id. + * All PCM busses with the same ID are expected to be connected and have + * common time slots slots. + * Only one chip of the PCM bus must be master, the others slave. + * -1 means no support of PCM bus not even. + * Omit this value, if all cards are interconnected or none is connected. + * If unsure, don't give this parameter. + * + * dslot: + * NOTE: only one poll value must be given for every card. + * Also this value must be given for non-E1 cards. If omitted, the E1 + * card has D-channel on time slot 16, which is default. + * If 1..15 or 17..31, an alternate time slot is used for D-channel. + * In this case, the application must be able to handle this. + * If -1 is given, the D-channel is disabled and all 31 slots can be used + * for B-channel. (only for specific applications) + * If you don't know how to use it, you don't need it! + * + * iomode: + * NOTE: only one mode value must be given for every card. + * -> See hfc_multi.h for HFC_IO_MODE_* values + * By default, the IO mode is pci memory IO (MEMIO). + * Some cards requre specific IO mode, so it cannot be changed. + * It may be usefull to set IO mode to register io (REGIO) to solve + * PCI bridge problems. + * If unsure, don't give this parameter. + * + * clockdelay_nt: + * NOTE: only one clockdelay_nt value must be given once for all cards. + * Give the value of the clock control register (A_ST_CLK_DLY) + * of the S/T interfaces in NT mode. + * This register is needed for the TBR3 certification, so don't change it. + * + * clockdelay_te: + * NOTE: only one clockdelay_te value must be given once + * Give the value of the clock control register (A_ST_CLK_DLY) + * of the S/T interfaces in TE mode. + * This register is needed for the TBR3 certification, so don't change it. + */ + +/* + * debug register access (never use this, it will flood your system log) + * #define HFC_REGISTER_DEBUG + */ + +static const char *hfcmulti_revision = "2.00"; + +#include +#include +#include +#include +#include + +/* +#define IRQCOUNT_DEBUG +#define IRQ_DEBUG +*/ + +#include "hfc_multi.h" +#ifdef ECHOPREP +#include "gaintab.h" +#endif + +#define MAX_CARDS 8 +#define MAX_PORTS (8 * MAX_CARDS) + +static LIST_HEAD(HFClist); +static spinlock_t HFClock; /* global hfc list lock */ + +static void ph_state_change(struct dchannel *); +static void (*hfc_interrupt)(void); +static void (*register_interrupt)(void); +static int (*unregister_interrupt)(void); +static int interrupt_registered; + +static struct hfc_multi *syncmaster; +int plxsd_master; /* if we have a master card (yet) */ +static spinlock_t plx_lock; /* may not acquire other lock inside */ +EXPORT_SYMBOL(plx_lock); + +#define TYP_E1 1 +#define TYP_4S 4 +#define TYP_8S 8 + +static int poll_timer = 6; /* default = 128 samples = 16ms */ +/* number of POLL_TIMER interrupts for G2 timeout (ca 1s) */ +static int nt_t1_count[] = { 3840, 1920, 960, 480, 240, 120, 60, 30 }; +#define CLKDEL_TE 0x0f /* CLKDEL in TE mode */ +#define CLKDEL_NT 0x6c /* CLKDEL in NT mode + (0x60 MUST be included!) */ +static u_char silence = 0xff; /* silence by LAW */ + +#define DIP_4S 0x1 /* DIP Switches for Beronet 1S/2S/4S cards */ +#define DIP_8S 0x2 /* DIP Switches for Beronet 8S+ cards */ +#define DIP_E1 0x3 /* DIP Switches for Beronet E1 cards */ + +/* + * module stuff + */ + +static uint type[MAX_CARDS]; +static uint pcm[MAX_CARDS]; +static uint dslot[MAX_CARDS]; +static uint iomode[MAX_CARDS]; +static uint port[MAX_PORTS]; +static uint debug; +static uint poll; +static uint timer; +static uint clockdelay_te = CLKDEL_TE; +static uint clockdelay_nt = CLKDEL_NT; + +static int HFC_cnt, Port_cnt, PCM_cnt = 99; + +MODULE_AUTHOR("Andreas Eversberg"); +MODULE_LICENSE("GPL"); +module_param(debug, uint, S_IRUGO | S_IWUSR); +module_param(poll, uint, S_IRUGO | S_IWUSR); +module_param(timer, uint, S_IRUGO | S_IWUSR); +module_param(clockdelay_te, uint, S_IRUGO | S_IWUSR); +module_param(clockdelay_nt, uint, S_IRUGO | S_IWUSR); +module_param_array(type, uint, NULL, S_IRUGO | S_IWUSR); +module_param_array(pcm, uint, NULL, S_IRUGO | S_IWUSR); +module_param_array(dslot, uint, NULL, S_IRUGO | S_IWUSR); +module_param_array(iomode, uint, NULL, S_IRUGO | S_IWUSR); +module_param_array(port, uint, NULL, S_IRUGO | S_IWUSR); + +#ifdef HFC_REGISTER_DEBUG +#define HFC_outb(hc, reg, val) \ + (hc->HFC_outb(hc, reg, val, __func__, __LINE__)) +#define HFC_outb_nodebug(hc, reg, val) \ + (hc->HFC_outb_nodebug(hc, reg, val, __func__, __LINE__)) +#define HFC_inb(hc, reg) \ + (hc->HFC_inb(hc, reg, __func__, __LINE__)) +#define HFC_inb_nodebug(hc, reg) \ + (hc->HFC_inb_nodebug(hc, reg, __func__, __LINE__)) +#define HFC_inw(hc, reg) \ + (hc->HFC_inw(hc, reg, __func__, __LINE__)) +#define HFC_inw_nodebug(hc, reg) \ + (hc->HFC_inw_nodebug(hc, reg, __func__, __LINE__)) +#define HFC_wait(hc) \ + (hc->HFC_wait(hc, __func__, __LINE__)) +#define HFC_wait_nodebug(hc) \ + (hc->HFC_wait_nodebug(hc, __func__, __LINE__)) +#else +#define HFC_outb(hc, reg, val) (hc->HFC_outb(hc, reg, val)) +#define HFC_outb_nodebug(hc, reg, val) (hc->HFC_outb_nodebug(hc, reg, val)) +#define HFC_inb(hc, reg) (hc->HFC_inb(hc, reg)) +#define HFC_inb_nodebug(hc, reg) (hc->HFC_inb_nodebug(hc, reg)) +#define HFC_inw(hc, reg) (hc->HFC_inw(hc, reg)) +#define HFC_inw_nodebug(hc, reg) (hc->HFC_inw_nodebug(hc, reg)) +#define HFC_wait(hc) (hc->HFC_wait(hc)) +#define HFC_wait_nodebug(hc) (hc->HFC_wait_nodebug(hc)) +#endif + +/* HFC_IO_MODE_PCIMEM */ +static void +#ifdef HFC_REGISTER_DEBUG +HFC_outb_pcimem(struct hfc_multi *hc, u_char reg, u_char val, + const char *function, int line) +#else +HFC_outb_pcimem(struct hfc_multi *hc, u_char reg, u_char val) +#endif +{ + writeb(val, (hc->pci_membase)+reg); +} +static u_char +#ifdef HFC_REGISTER_DEBUG +HFC_inb_pcimem(struct hfc_multi *hc, u_char reg, const char *function, int line) +#else +HFC_inb_pcimem(struct hfc_multi *hc, u_char reg) +#endif +{ + return readb((hc->pci_membase)+reg); +} +static u_short +#ifdef HFC_REGISTER_DEBUG +HFC_inw_pcimem(struct hfc_multi *hc, u_char reg, const char *function, int line) +#else +HFC_inw_pcimem(struct hfc_multi *hc, u_char reg) +#endif +{ + return readw((hc->pci_membase)+reg); +} +static void +#ifdef HFC_REGISTER_DEBUG +HFC_wait_pcimem(struct hfc_multi *hc, const char *function, int line) +#else +HFC_wait_pcimem(struct hfc_multi *hc) +#endif +{ + while (readb((hc->pci_membase)+R_STATUS) & V_BUSY); +} + +/* HFC_IO_MODE_REGIO */ +static void +#ifdef HFC_REGISTER_DEBUG +HFC_outb_regio(struct hfc_multi *hc, u_char reg, u_char val, + const char *function, int line) +#else +HFC_outb_regio(struct hfc_multi *hc, u_char reg, u_char val) +#endif +{ + outb(reg, (hc->pci_iobase)+4); + outb(val, hc->pci_iobase); +} +static u_char +#ifdef HFC_REGISTER_DEBUG +HFC_inb_regio(struct hfc_multi *hc, u_char reg, const char *function, int line) +#else +HFC_inb_regio(struct hfc_multi *hc, u_char reg) +#endif +{ + outb(reg, (hc->pci_iobase)+4); + return inb(hc->pci_iobase); +} +static u_short +#ifdef HFC_REGISTER_DEBUG +HFC_inw_regio(struct hfc_multi *hc, u_char reg, const char *function, int line) +#else +HFC_inw_regio(struct hfc_multi *hc, u_char reg) +#endif +{ + outb(reg, (hc->pci_iobase)+4); + return inw(hc->pci_iobase); +} +static void +#ifdef HFC_REGISTER_DEBUG +HFC_wait_regio(struct hfc_multi *hc, const char *function, int line) +#else +HFC_wait_regio(struct hfc_multi *hc) +#endif +{ + outb(R_STATUS, (hc->pci_iobase)+4); + while (inb(hc->pci_iobase) & V_BUSY); +} + +#ifdef HFC_REGISTER_DEBUG +static void +HFC_outb_debug(struct hfc_multi *hc, u_char reg, u_char val, + const char *function, int line) +{ + char regname[256] = "", bits[9] = "xxxxxxxx"; + int i; + + i = -1; + while (hfc_register_names[++i].name) { + if (hfc_register_names[i].reg == reg) + strcat(regname, hfc_register_names[i].name); + } + if (regname[0] == '\0') + strcpy(regname, "register"); + + bits[7] = '0'+(!!(val&1)); + bits[6] = '0'+(!!(val&2)); + bits[5] = '0'+(!!(val&4)); + bits[4] = '0'+(!!(val&8)); + bits[3] = '0'+(!!(val&16)); + bits[2] = '0'+(!!(val&32)); + bits[1] = '0'+(!!(val&64)); + bits[0] = '0'+(!!(val&128)); + printk(KERN_DEBUG + "HFC_outb(chip %d, %02x=%s, 0x%02x=%s); in %s() line %d\n", + hc->id, reg, regname, val, bits, function, line); + HFC_outb_nodebug(hc, reg, val); +} +static u_char +HFC_inb_debug(struct hfc_multi *hc, u_char reg, const char *function, int line) +{ + char regname[256] = "", bits[9] = "xxxxxxxx"; + u_char val = HFC_inb_nodebug(hc, reg); + int i; + + i = 0; + while (hfc_register_names[i++].name) + ; + while (hfc_register_names[++i].name) { + if (hfc_register_names[i].reg == reg) + strcat(regname, hfc_register_names[i].name); + } + if (regname[0] == '\0') + strcpy(regname, "register"); + + bits[7] = '0'+(!!(val&1)); + bits[6] = '0'+(!!(val&2)); + bits[5] = '0'+(!!(val&4)); + bits[4] = '0'+(!!(val&8)); + bits[3] = '0'+(!!(val&16)); + bits[2] = '0'+(!!(val&32)); + bits[1] = '0'+(!!(val&64)); + bits[0] = '0'+(!!(val&128)); + printk(KERN_DEBUG + "HFC_inb(chip %d, %02x=%s) = 0x%02x=%s; in %s() line %d\n", + hc->id, reg, regname, val, bits, function, line); + return val; +} +static u_short +HFC_inw_debug(struct hfc_multi *hc, u_char reg, const char *function, int line) +{ + char regname[256] = ""; + u_short val = HFC_inw_nodebug(hc, reg); + int i; + + i = 0; + while (hfc_register_names[i++].name) + ; + while (hfc_register_names[++i].name) { + if (hfc_register_names[i].reg == reg) + strcat(regname, hfc_register_names[i].name); + } + if (regname[0] == '\0') + strcpy(regname, "register"); + + printk(KERN_DEBUG + "HFC_inw(chip %d, %02x=%s) = 0x%04x; in %s() line %d\n", + hc->id, reg, regname, val, function, line); + return val; +} +static void +HFC_wait_debug(struct hfc_multi *hc, const char *function, int line) +{ + printk(KERN_DEBUG "HFC_wait(chip %d); in %s() line %d\n", + hc->id, function, line); + HFC_wait_nodebug(hc); +} +#endif + +/* write fifo data (REGIO) */ +void +write_fifo_regio(struct hfc_multi *hc, u_char *data, int len) +{ + outb(A_FIFO_DATA0, (hc->pci_iobase)+4); + while (len>>2) { + outl(*(u32 *)data, hc->pci_iobase); + data += 4; + len -= 4; + } + while (len>>1) { + outw(*(u16 *)data, hc->pci_iobase); + data += 2; + len -= 2; + } + while (len) { + outb(*data, hc->pci_iobase); + data++; + len--; + } +} +/* write fifo data (PCIMEM) */ +void +write_fifo_pcimem(struct hfc_multi *hc, u_char *data, int len) +{ + while (len>>2) { + writel(*(u32 *)data, (hc->pci_membase)+A_FIFO_DATA0); + data += 4; + len -= 4; + } + while (len>>1) { + writew(*(u16 *)data, (hc->pci_membase)+A_FIFO_DATA0); + data += 2; + len -= 2; + } + while (len) { + writeb(*data, (hc->pci_membase)+A_FIFO_DATA0); + data++; + len--; + } +} +/* read fifo data (REGIO) */ +void +read_fifo_regio(struct hfc_multi *hc, u_char *data, int len) +{ + outb(A_FIFO_DATA0, (hc->pci_iobase)+4); + while (len>>2) { + *(u32 *)data = inl(hc->pci_iobase); + data += 4; + len -= 4; + } + while (len>>1) { + *(u16 *)data = inw(hc->pci_iobase); + data += 2; + len -= 2; + } + while (len) { + *data = inb(hc->pci_iobase); + data++; + len--; + } +} + +/* read fifo data (PCIMEM) */ +void +read_fifo_pcimem(struct hfc_multi *hc, u_char *data, int len) +{ + while (len>>2) { + *(u32 *)data = + readl((hc->pci_membase)+A_FIFO_DATA0); + data += 4; + len -= 4; + } + while (len>>1) { + *(u16 *)data = + readw((hc->pci_membase)+A_FIFO_DATA0); + data += 2; + len -= 2; + } + while (len) { + *data = readb((hc->pci_membase)+A_FIFO_DATA0); + data++; + len--; + } +} + + +static void +enable_hwirq(struct hfc_multi *hc) +{ + hc->hw.r_irq_ctrl |= V_GLOB_IRQ_EN; + HFC_outb(hc, R_IRQ_CTRL, hc->hw.r_irq_ctrl); +} + +static void +disable_hwirq(struct hfc_multi *hc) +{ + hc->hw.r_irq_ctrl &= ~((u_char)V_GLOB_IRQ_EN); + HFC_outb(hc, R_IRQ_CTRL, hc->hw.r_irq_ctrl); +} + +#define NUM_EC 2 +#define MAX_TDM_CHAN 32 + + +inline void +enablepcibridge(struct hfc_multi *c) +{ + HFC_outb(c, R_BRG_PCM_CFG, (0x0 << 6) | 0x3); /* was _io before */ +} + +inline void +disablepcibridge(struct hfc_multi *c) +{ + HFC_outb(c, R_BRG_PCM_CFG, (0x0 << 6) | 0x2); /* was _io before */ +} + +inline unsigned char +readpcibridge(struct hfc_multi *hc, unsigned char address) +{ + unsigned short cipv; + unsigned char data; + + if (!hc->pci_iobase) + return 0; + + /* slow down a PCI read access by 1 PCI clock cycle */ + HFC_outb(hc, R_CTRL, 0x4); /*was _io before*/ + + if (address == 0) + cipv = 0x4000; + else + cipv = 0x5800; + + /* select local bridge port address by writing to CIP port */ + /* data = HFC_inb(c, cipv); * was _io before */ + outw(cipv, hc->pci_iobase + 4); + data = inb(hc->pci_iobase); + + /* restore R_CTRL for normal PCI read cycle speed */ + HFC_outb(hc, R_CTRL, 0x0); /* was _io before */ + + return data; +} + +inline void +writepcibridge(struct hfc_multi *hc, unsigned char address, unsigned char data) +{ + unsigned short cipv; + unsigned int datav; + + if (!hc->pci_iobase) + return; + + if (address == 0) + cipv = 0x4000; + else + cipv = 0x5800; + + /* select local bridge port address by writing to CIP port */ + outw(cipv, hc->pci_iobase + 4); + /* define a 32 bit dword with 4 identical bytes for write sequence */ + datav = data | ((__u32) data << 8) | ((__u32) data << 16) | + ((__u32) data << 24); + + /* + * write this 32 bit dword to the bridge data port + * this will initiate a write sequence of up to 4 writes to the same + * address on the local bus interface the number of write accesses + * is undefined but >=1 and depends on the next PCI transaction + * during write sequence on the local bus + */ + outl(datav, hc->pci_iobase); +} + +inline void +cpld_set_reg(struct hfc_multi *hc, unsigned char reg) +{ + /* Do data pin read low byte */ + HFC_outb(hc, R_GPIO_OUT1, reg); +} + +inline void +cpld_write_reg(struct hfc_multi *hc, unsigned char reg, unsigned char val) +{ + cpld_set_reg(hc, reg); + + enablepcibridge(hc); + writepcibridge(hc, 1, val); + disablepcibridge(hc); + + return; +} + +inline unsigned char +cpld_read_reg(struct hfc_multi *hc, unsigned char reg) +{ + unsigned char bytein; + + cpld_set_reg(hc, reg); + + /* Do data pin read low byte */ + HFC_outb(hc, R_GPIO_OUT1, reg); + + enablepcibridge(hc); + bytein = readpcibridge(hc, 1); + disablepcibridge(hc); + + return bytein; +} + +inline void +vpm_write_address(struct hfc_multi *hc, unsigned short addr) +{ + cpld_write_reg(hc, 0, 0xff & addr); + cpld_write_reg(hc, 1, 0x01 & (addr >> 8)); +} + +inline unsigned short +vpm_read_address(struct hfc_multi *c) +{ + unsigned short addr; + unsigned short highbit; + + addr = cpld_read_reg(c, 0); + highbit = cpld_read_reg(c, 1); + + addr = addr | (highbit << 8); + + return addr & 0x1ff; +} + +inline unsigned char +vpm_in(struct hfc_multi *c, int which, unsigned short addr) +{ + unsigned char res; + + vpm_write_address(c, addr); + + if (!which) + cpld_set_reg(c, 2); + else + cpld_set_reg(c, 3); + + enablepcibridge(c); + res = readpcibridge(c, 1); + disablepcibridge(c); + + cpld_set_reg(c, 0); + + return res; +} + +inline void +vpm_out(struct hfc_multi *c, int which, unsigned short addr, + unsigned char data) +{ + vpm_write_address(c, addr); + + enablepcibridge(c); + + if (!which) + cpld_set_reg(c, 2); + else + cpld_set_reg(c, 3); + + writepcibridge(c, 1, data); + + cpld_set_reg(c, 0); + + disablepcibridge(c); + + { + unsigned char regin; + regin = vpm_in(c, which, addr); + if (regin != data) + printk(KERN_DEBUG "Wrote 0x%x to register 0x%x but got back " + "0x%x\n", data, addr, regin); + } + +} + + +void +vpm_init(struct hfc_multi *wc) +{ + unsigned char reg; + unsigned int mask; + unsigned int i, x, y; + unsigned int ver; + + for (x = 0; x < NUM_EC; x++) { + /* Setup GPIO's */ + if (!x) { + ver = vpm_in(wc, x, 0x1a0); + printk(KERN_DEBUG "VPM: Chip %d: ver %02x\n", x, ver); + } + + for (y = 0; y < 4; y++) { + vpm_out(wc, x, 0x1a8 + y, 0x00); /* GPIO out */ + vpm_out(wc, x, 0x1ac + y, 0x00); /* GPIO dir */ + vpm_out(wc, x, 0x1b0 + y, 0x00); /* GPIO sel */ + } + + /* Setup TDM path - sets fsync and tdm_clk as inputs */ + reg = vpm_in(wc, x, 0x1a3); /* misc_con */ + vpm_out(wc, x, 0x1a3, reg & ~2); + + /* Setup Echo length (256 taps) */ + vpm_out(wc, x, 0x022, 1); + vpm_out(wc, x, 0x023, 0xff); + + /* Setup timeslots */ + vpm_out(wc, x, 0x02f, 0x00); + mask = 0x02020202 << (x * 4); + + /* Setup the tdm channel masks for all chips */ + for (i = 0; i < 4; i++) + vpm_out(wc, x, 0x33 - i, (mask >> (i << 3)) & 0xff); + + /* Setup convergence rate */ + printk(KERN_DEBUG "VPM: A-law mode\n"); + reg = 0x00 | 0x10 | 0x01; + vpm_out(wc, x, 0x20, reg); + printk(KERN_DEBUG "VPM reg 0x20 is %x\n", reg); + /*vpm_out(wc, x, 0x20, (0x00 | 0x08 | 0x20 | 0x10)); */ + + vpm_out(wc, x, 0x24, 0x02); + reg = vpm_in(wc, x, 0x24); + printk(KERN_DEBUG "NLP Thresh is set to %d (0x%x)\n", reg, reg); + + /* Initialize echo cans */ + for (i = 0; i < MAX_TDM_CHAN; i++) { + if (mask & (0x00000001 << i)) + vpm_out(wc, x, i, 0x00); + } + + /* + * ARM arch at least disallows a udelay of + * more than 2ms... it gives a fake "__bad_udelay" + * reference at link-time. + * long delays in kernel code are pretty sucky anyway + * for now work around it using 5 x 2ms instead of 1 x 10ms + */ + + udelay(2000); + udelay(2000); + udelay(2000); + udelay(2000); + udelay(2000); + + /* Put in bypass mode */ + for (i = 0; i < MAX_TDM_CHAN; i++) { + if (mask & (0x00000001 << i)) + vpm_out(wc, x, i, 0x01); + } + + /* Enable bypass */ + for (i = 0; i < MAX_TDM_CHAN; i++) { + if (mask & (0x00000001 << i)) + vpm_out(wc, x, 0x78 + i, 0x01); + } + + } +} + +void +vpm_check(struct hfc_multi *hctmp) +{ + unsigned char gpi2; + + gpi2 = HFC_inb(hctmp, R_GPI_IN2); + + if ((gpi2 & 0x3) != 0x3) + printk(KERN_DEBUG "Got interrupt 0x%x from VPM!\n", gpi2); +} + + +/* + * Interface to enable/disable the HW Echocan + * + * these functions are called within a spin_lock_irqsave on + * the channel instance lock, so we are not disturbed by irqs + * + * we can later easily change the interface to make other + * things configurable, for now we configure the taps + * + */ + +void +vpm_echocan_on(struct hfc_multi *hc, int ch, int taps) +{ + unsigned int timeslot; + unsigned int unit; + struct bchannel *bch = hc->chan[ch].bch; +#ifdef TXADJ + int txadj = -4; + struct sk_buff *skb; +#endif + if (hc->chan[ch].protocol != ISDN_P_B_RAW) + return; + + if (!bch) + return; + +#ifdef TXADJ + skb = _alloc_mISDN_skb(PH_CONTROL_IND, HFC_VOL_CHANGE_TX, + sizeof(int), &txadj, GFP_ATOMIC); + if (skb) + recv_Bchannel_skb(bch, skb); +#endif + + timeslot = ((ch/4)*8) + ((ch%4)*4) + 1; + unit = ch % 4; + + printk(KERN_NOTICE "vpm_echocan_on called taps [%d] on timeslot %d\n", + taps, timeslot); + + vpm_out(hc, unit, timeslot, 0x7e); +} + +void +vpm_echocan_off(struct hfc_multi *hc, int ch) +{ + unsigned int timeslot; + unsigned int unit; + struct bchannel *bch = hc->chan[ch].bch; +#ifdef TXADJ + int txadj = 0; + struct sk_buff *skb; +#endif + + if (hc->chan[ch].protocol != ISDN_P_B_RAW) + return; + + if (!bch) + return; + +#ifdef TXADJ + skb = _alloc_mISDN_skb(PH_CONTROL_IND, HFC_VOL_CHANGE_TX, + sizeof(int), &txadj, GFP_ATOMIC); + if (skb) + recv_Bchannel_skb(bch, skb); +#endif + + timeslot = ((ch/4)*8) + ((ch%4)*4) + 1; + unit = ch % 4; + + printk(KERN_NOTICE "vpm_echocan_off called on timeslot %d\n", + timeslot); + /* FILLME */ + vpm_out(hc, unit, timeslot, 0x01); +} + + +/* + * Speech Design resync feature + * NOTE: This is called sometimes outside interrupt handler. + * We must lock irqsave, so no other interrupt (other card) will occurr! + * Also multiple interrupts may nest, so must lock each access (lists, card)! + */ +static inline void +hfcmulti_resync(struct hfc_multi *locked, struct hfc_multi *newmaster, int rm) +{ + struct hfc_multi *hc, *next, *pcmmaster = 0; + u_int *plx_acc_32, pv; + u_long flags; + + spin_lock_irqsave(&HFClock, flags); + spin_lock(&plx_lock); /* must be locked inside other locks */ + + if (debug & DEBUG_HFCMULTI_PLXSD) + printk(KERN_DEBUG "%s: RESYNC(syncmaster=0x%p)\n", + __func__, syncmaster); + + /* select new master */ + if (newmaster) { + if (debug & DEBUG_HFCMULTI_PLXSD) + printk(KERN_DEBUG "using provided controller\n"); + } else { + list_for_each_entry_safe(hc, next, &HFClist, list) { + if (test_bit(HFC_CHIP_PLXSD, &hc->chip)) { + if (hc->syncronized) { + newmaster = hc; + break; + } + } + } + } + + /* Disable sync of all cards */ + list_for_each_entry_safe(hc, next, &HFClist, list) { + if (test_bit(HFC_CHIP_PLXSD, &hc->chip)) { + plx_acc_32 = (u_int *)(hc->plx_membase+PLX_GPIOC); + pv = readl(plx_acc_32); + pv &= ~PLX_SYNC_O_EN; + writel(pv, plx_acc_32); + if (test_bit(HFC_CHIP_PCM_MASTER, &hc->chip)) { + pcmmaster = hc; + if (hc->type == 1) { + if (debug & DEBUG_HFCMULTI_PLXSD) + printk(KERN_DEBUG + "Schedule SYNC_I\n"); + hc->e1_resync |= 1; /* get SYNC_I */ + } + } + } + } + + if (newmaster) { + hc = newmaster; + if (debug & DEBUG_HFCMULTI_PLXSD) + printk(KERN_DEBUG "id=%d (0x%p) = syncronized with " + "interface.\n", hc->id, hc); + /* Enable new sync master */ + plx_acc_32 = (u_int *)(hc->plx_membase+PLX_GPIOC); + pv = readl(plx_acc_32); + pv |= PLX_SYNC_O_EN; + writel(pv, plx_acc_32); + /* switch to jatt PLL, if not disabled by RX_SYNC */ + if (hc->type == 1 && !test_bit(HFC_CHIP_RX_SYNC, &hc->chip)) { + if (debug & DEBUG_HFCMULTI_PLXSD) + printk(KERN_DEBUG "Schedule jatt PLL\n"); + hc->e1_resync |= 2; /* switch to jatt */ + } + } else { + if (pcmmaster) { + hc = pcmmaster; + if (debug & DEBUG_HFCMULTI_PLXSD) + printk(KERN_DEBUG + "id=%d (0x%p) = PCM master syncronized " + "with QUARTZ\n", hc->id, hc); + if (hc->type == 1) { + /* Use the crystal clock for the PCM + master card */ + if (debug & DEBUG_HFCMULTI_PLXSD) + printk(KERN_DEBUG + "Schedule QUARTZ for HFC-E1\n"); + hc->e1_resync |= 4; /* switch quartz */ + } else { + if (debug & DEBUG_HFCMULTI_PLXSD) + printk(KERN_DEBUG + "QUARTZ is automatically " + "enabled by HFC-%dS\n", hc->type); + } + plx_acc_32 = (u_int *)(hc->plx_membase+PLX_GPIOC); + pv = readl(plx_acc_32); + pv |= PLX_SYNC_O_EN; + writel(pv, plx_acc_32); + } else + if (!rm) + printk(KERN_ERR "%s no pcm master, this MUST " + "not happen!\n", __func__); + } + syncmaster = newmaster; + + spin_unlock(&plx_lock); + spin_unlock_irqrestore(&HFClock, flags); +} + +/* This must be called AND hc must be locked irqsave!!! */ +inline void +plxsd_checksync(struct hfc_multi *hc, int rm) +{ + if (hc->syncronized) { + if (syncmaster == NULL) { + if (debug & DEBUG_HFCMULTI_PLXSD) + printk(KERN_WARNING "%s: GOT sync on card %d" + " (id=%d)\n", __func__, hc->id + 1, + hc->id); + hfcmulti_resync(hc, hc, rm); + } + } else { + if (syncmaster == hc) { + if (debug & DEBUG_HFCMULTI_PLXSD) + printk(KERN_WARNING "%s: LOST sync on card %d" + " (id=%d)\n", __func__, hc->id + 1, + hc->id); + hfcmulti_resync(hc, NULL, rm); + } + } +} + + +/* + * free hardware resources used by driver + */ +static void +release_io_hfcmulti(struct hfc_multi *hc) +{ + u_int *plx_acc_32, pv; + u_long plx_flags; + + if (debug & DEBUG_HFCMULTI_INIT) + printk(KERN_DEBUG "%s: entered\n", __func__); + + /* soft reset also masks all interrupts */ + hc->hw.r_cirm |= V_SRES; + HFC_outb(hc, R_CIRM, hc->hw.r_cirm); + udelay(1000); + hc->hw.r_cirm &= ~V_SRES; + HFC_outb(hc, R_CIRM, hc->hw.r_cirm); + udelay(1000); /* instead of 'wait' that may cause locking */ + + /* release Speech Design card, if PLX was initialized */ + if (test_bit(HFC_CHIP_PLXSD, &hc->chip) && hc->plx_membase) { + if (debug & DEBUG_HFCMULTI_PLXSD) + printk(KERN_DEBUG "%s: release PLXSD card %d\n", + __func__, hc->id + 1); + spin_lock_irqsave(&plx_lock, plx_flags); + plx_acc_32 = (u_int *)(hc->plx_membase+PLX_GPIOC); + writel(PLX_GPIOC_INIT, plx_acc_32); + pv = readl(plx_acc_32); + /* Termination off */ + pv &= ~PLX_TERM_ON; + /* Disconnect the PCM */ + pv |= PLX_SLAVE_EN_N; + pv &= ~PLX_MASTER_EN; + pv &= ~PLX_SYNC_O_EN; + /* Put the DSP in Reset */ + pv &= ~PLX_DSP_RES_N; + writel(pv, plx_acc_32); + if (debug & DEBUG_HFCMULTI_INIT) + printk(KERN_WARNING "%s: PCM off: PLX_GPIO=%x\n", + __func__, pv); + spin_unlock_irqrestore(&plx_lock, plx_flags); + } + + /* disable memory mapped ports / io ports */ + test_and_clear_bit(HFC_CHIP_PLXSD, &hc->chip); /* prevent resync */ + pci_write_config_word(hc->pci_dev, PCI_COMMAND, 0); + if (hc->pci_membase) + iounmap((void *)hc->pci_membase); + if (hc->plx_membase) + iounmap((void *)hc->plx_membase); + if (hc->pci_iobase) + release_region(hc->pci_iobase, 8); + + if (hc->pci_dev) { + pci_disable_device(hc->pci_dev); + pci_set_drvdata(hc->pci_dev, NULL); + } + if (debug & DEBUG_HFCMULTI_INIT) + printk(KERN_DEBUG "%s: done\n", __func__); +} + +/* + * function called to reset the HFC chip. A complete software reset of chip + * and fifos is done. All configuration of the chip is done. + */ + +static int +init_chip(struct hfc_multi *hc) +{ + u_long flags, val, val2 = 0, rev; + int i, err = 0; + u_char r_conf_en, rval; + u_int *plx_acc_32, pv; + u_long plx_flags, hfc_flags; + int plx_count; + struct hfc_multi *pos, *next, *plx_last_hc; + + spin_lock_irqsave(&hc->lock, flags); + /* reset all registers */ + memset(&hc->hw, 0, sizeof(struct hfcm_hw)); + + /* revision check */ + if (debug & DEBUG_HFCMULTI_INIT) + printk(KERN_DEBUG "%s: entered\n", __func__); + val = HFC_inb(hc, R_CHIP_ID)>>4; + if (val != 0x8 && val != 0xc && val != 0xe) { + printk(KERN_INFO "HFC_multi: unknown CHIP_ID:%x\n", (u_int)val); + err = -EIO; + goto out; + } + rev = HFC_inb(hc, R_CHIP_RV); + printk(KERN_INFO + "HFC_multi: