/* $NetBSD: isic_l1.h,v 1.21 2012/10/27 17:18:21 chs Exp $ */ /* * Copyright (c) 1997, 2000 Hellmuth Michaelis. All rights reserved. * * Redistribution and use in source and binary forms, with or without * modification, are permitted provided that the following conditions * are met: * 1. Redistributions of source code must retain the above copyright * notice, this list of conditions and the following disclaimer. * 2. Redistributions in binary form must reproduce the above copyright * notice, this list of conditions and the following disclaimer in the * documentation and/or other materials provided with the distribution. * * THIS SOFTWARE IS PROVIDED BY THE AUTHOR AND CONTRIBUTORS ``AS IS'' AND * ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE * IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE * ARE DISCLAIMED. IN NO EVENT SHALL THE AUTHOR OR CONTRIBUTORS BE LIABLE * FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL * DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS * OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) * HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT * LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY * OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF * SUCH DAMAGE. * */ #ifndef _ISIC_L1_H #define _ISIC_L1_H #include /*--------------------------------------------------------------------------- * kernel config file flags definition *---------------------------------------------------------------------------*/ #define FLAG_TELES_S0_8 1 #define FLAG_TELES_S0_16 2 #define FLAG_TELES_S0_163 3 #define FLAG_AVM_A1 4 #define FLAG_TELES_S0_163_PnP 5 #define FLAG_CREATIX_S0_PnP 6 #define FLAG_USR_ISDN_TA_INT 7 #define FLAG_DRN_NGO 8 #define FLAG_SWS 9 #define FLAG_AVM_A1_PCMCIA 10 #define FLAG_DYNALINK 11 #define FLAG_BLMASTER 12 #define FLAG_ELSA_QS1P_ISA 13 #define FLAG_ELSA_QS1P_PCI 14 #define FLAG_SIEMENS_ITALK 15 #define FLAG_ELSA_MLIMC 16 #define FLAG_ELSA_MLMCALL 17 #define FLAG_ITK_IX1 18 #define FLAG_AVMA1PCI 19 #define FLAG_ELSA_PCC16 20 #define FLAG_AVM_PNP 21 #define FLAG_SIEMENS_ISURF2 22 #define FLAG_ASUSCOM_IPAC 23 #define SEC_DELAY 1000000 /* one second DELAY for DELAY*/ #define MAX_DFRAME_LEN 264 /* max length of a D frame */ #ifndef __bsdi__ #define min(a,b) ((a)<(b)?(a):(b)) #endif /* We try to map as few as possible as small as possible io and/or memory regions. Each card defines its own interpretation of this mapping array. At probe time we have a fixed size array, later (when the card type is known) we allocate a minimal array dynamically. */ #define ISIC_MAX_IO_MAPS 49 /* no cardtype needs more yet */ /* one entry in mapping array */ struct isic_io_map { bus_space_tag_t t; /* which bus-space is this? */ bus_space_handle_t h; /* handle of mapped bus space region */ bus_size_t offset; /* offset into region */ bus_size_t size; /* size of region, zero if not ours (i.e.: don't ever unmap it!) */ }; /* this is passed around at probe time (no struct isic_softc yet) */ struct isic_attach_args { int ia_flags; /* flags from config file */ int ia_num_mappings; /* number of io mappings provided */ struct isic_io_map ia_maps[ISIC_MAX_IO_MAPS]; }; /*---------------------------------------------------------------------------* * isic_Bchan: the state of one B channel *---------------------------------------------------------------------------*/ typedef struct { int channel; /* which channel is this*/ u_char hscx_mask; /* HSCX interrupt mask */ int bprot; /* B channel protocol */ int state; /* this channels state */ #define HSCX_IDLE 0x00 /* channel idle */ #define HSCX_TX_ACTIVE 0x01 /* tx running */ /* receive data from ISDN */ struct ifqueue rx_queue; /* receiver queue */ int rxcount; /* rx statistics counter*/ struct mbuf *in_mbuf; /* rx input buffer */ u_char *in_cbptr; /* curr buffer pointer */ int in_len; /* rx input buffer len */ /* transmit data to ISDN */ struct ifqueue tx_queue; /* transmitter queue */ int txcount; /* tx statistics counter*/ struct mbuf *out_mbuf_head; /* first mbuf in possible chain */ struct mbuf *out_mbuf_cur; /* current mbuf in possbl chain */ unsigned char *out_mbuf_cur_ptr; /* data pointer into mbuf */ int out_mbuf_cur_len; /* remaining bytes in mbuf */ /* link between b channel and driver */ isdn_link_t isdn_linktab; /* b channel driver data */ const struct isdn_l4_driver_functions *l4_driver; /* layer 4 driver */ void *l4_driver_softc; /* layer 4 driver instance */ /* statistics */ /* RSTA */ int stat_VFR; /* HSCX RSTA Valid FRame */ int stat_RDO; /* HSCX RSTA Rx Data Overflow */ int stat_CRC; /* HSCX RSTA CRC */ int stat_RAB; /* HSCX RSTA Rx message ABorted */ /* EXIR */ int stat_XDU; /* HSCX EXIR tx data underrun */ int stat_RFO; /* HSCX EXIR rx frame overflow */ } l1_bchan_state_t; /*---------------------------------------------------------------------------* * isic_softc: the state of the layer 1 of the D channel *---------------------------------------------------------------------------*/ struct isic_softc { device_t sc_dev; void *sc_l3token; /* pointer to registered L3 instance */ struct l2_softc sc_l2; /* D-channel variables */ int sc_irq; /* interrupt vector */ int sc_intr_valid; /* set when card is detached or disable */ #define ISIC_INTR_VALID 0 /* normal operation */ #define ISIC_INTR_DISABLED 1 /* ISDN subsystem not opened */ #define ISIC_INTR_DYING 2 /* card is detaching */ int sc_num_mappings; /* number of io mappings provided */ struct isic_io_map *sc_maps; #define MALLOC_MAPS(sc) \ (sc)->sc_maps = (struct isic_io_map*)malloc(sizeof((sc)->sc_maps[0])*(sc)->sc_num_mappings, M_DEVBUF, 0) int sc_cardtyp; /* only needed for some cards */ #define CARD_TYPEP_UNK 0 /* unknown */ #define CARD_TYPEP_8 1 /* Teles, S0/8 */ #define CARD_TYPEP_16 2 /* Teles, S0/16 */ #define CARD_TYPEP_16_3 3 /* Teles, S0/16.3 */ #define CARD_TYPEP_AVMA1 4 /* AVM A1 or AVM Fritz!Card */ #define CARD_TYPEP_163P 5 /* Teles, S0/16.3 PnP */ #define CARD_TYPEP_CS0P 6 /* Creatix, S0 PnP */ #define CARD_TYPEP_USRTA 7 /* US Robotics ISDN TA internal */ #define CARD_TYPEP_DRNNGO 8 /* Dr. Neuhaus Niccy GO@ */ #define CARD_TYPEP_SWS 9 /* Sedlbauer Win Speed */ #define CARD_TYPEP_DYNALINK 10 /* Dynalink IS64PH */ #define CARD_TYPEP_BLMASTER 11 /* ISDN Blaster / ISDN Master */ #define CARD_TYPEP_PCFRITZ 12 /* AVM PCMCIA Fritz!Card */ #define CARD_TYPEP_ELSAQS1ISA 13 /* ELSA QuickStep 1000pro ISA */ #define CARD_TYPEP_ELSAQS1PCI 14 /* ELSA QuickStep 1000pro PCI */ #define CARD_TYPEP_SIEMENSITALK 15 /* Siemens I-Talk */ #define CARD_TYPEP_ELSAMLIMC 16 /* ELSA MicroLink ISDN/MC */ #define CARD_TYPEP_ELSAMLMCALL 17 /* ELSA MicroLink MCall */ #define CARD_TYPEP_ITKIX1 18 /* ITK ix1 micro */ #define CARD_TYPEP_AVMA1PCI 19 /* AVM FRITZ!CARD PCI */ #define CARD_TYPEP_PCC16 20 /* ELSA PCC-16 */ #define CARD_TYPEP_AVM_PNP 21 /* AVM FRITZ!CARD PnP */ #define CARD_TYPEP_SIE_ISURF2 22 /* Siemens I-Surf 2 PnP */ #define CARD_TYPEP_ASUSCOMIPAC 23 /* Asuscom ISDNlink 128 K PnP */ #define CARD_TYPEP_AVMA1PCIV2 24 /* AVM FRITZ!CARD V2 PCI */ int sc_bustyp; /* IOM1 or IOM2 */ #define BUS_TYPE_IOM1 0x01 #define BUS_TYPE_IOM2 0x02 int sc_trace; /* output protocol data for tracing */ unsigned int sc_trace_dcount;/* d channel trace frame counter */ unsigned int sc_trace_bcount;/* b channel trace frame counter */ int sc_state; /* ISAC state flag */ #define ISAC_IDLE 0x00 /* state = idle */ #define ISAC_TX_ACTIVE 0x01 /* state = transmitter active */ int sc_init_tries; /* no of out tries to access S0 */ int sc_maddr; /* some stupid ISA cards need this */ u_char sc_isac_mask; /* ISAC IRQ mask */ #define ISAC_IMASK (sc->sc_isac_mask) l1_bchan_state_t sc_chan[2]; /* B-channel state */ #define HSCX_A_BASE (sc->sc_chan[0].hscx) #define HSCX_A_IMASK (sc->sc_chan[0].hscx_mask) #define HSCX_B_BASE (sc->sc_chan[1].hscx) #define HSCX_B_IMASK (sc->sc_chan[1].hscx_mask) struct mbuf *sc_ibuf; /* input buffer mgmt */ u_short sc_ilen; u_char *sc_ib; /* this is for the irq TX routine */ struct mbuf *sc_obuf; /* pointer to an mbuf with TX frame */ u_char *sc_op; /* ptr to next chunk of frame to tx */ int sc_ol; /* length of remaining frame to tx */ int sc_freeflag; /* m_freem mbuf if set */ struct mbuf *sc_obuf2; /* pointer to an mbuf with TX frame */ int sc_freeflag2; /* m_freem mbuf if set */ int sc_isac_version; /* version number of ISAC */ int sc_hscx_version; /* version number of HSCX */ int sc_ipac_version; /* version number of IPAC */ int sc_I430state; /* I.430 state F3 .... F8 */ int sc_I430T3; /* I.430 Timer T3 running */ struct callout sc_T3_callout; int sc_I430T4; /* Timer T4 running */ struct callout sc_T4_callout; int sc_driver_specific; /* used for LED values */ struct callout sc_driver_callout; /* used for LED timer */ /* * byte fields for the AVM Fritz!Card PCI. These are packed into * a u_int in the driver. */ u_char avma1pp_cmd; u_char avma1pp_txl; u_char avma1pp_prot; int sc_ipac; /* flag, running on ipac */ int sc_bfifolen; /* length of b channel fifos */ #define ISIC_WHAT_ISAC 0 #define ISIC_WHAT_HSCXA 1 #define ISIC_WHAT_HSCXB 2 #define ISIC_WHAT_IPAC 3 u_int8_t (*readreg)(struct isic_softc *, int, bus_size_t); void (*writereg)(struct isic_softc *, int, bus_size_t, u_int8_t); void (*readfifo)(struct isic_softc *, int, void *, size_t); void (*writefifo)(struct isic_softc *, int what, const void *, size_t); void (*clearirq)(struct isic_softc *); void (*drv_command)(struct isic_softc *, int, void *); #define ISAC_READ(r) (*sc->readreg)(sc, ISIC_WHAT_ISAC, (r)) #define ISAC_WRITE(r,v) (*sc->writereg)(sc, ISIC_WHAT_ISAC, (r), (v)) #define ISAC_RDFIFO(b,s) (*sc->readfifo)(sc, ISIC_WHAT_ISAC, (b), (s)) #define ISAC_WRFIFO(b,s) (*sc->writefifo)(sc, ISIC_WHAT_ISAC, (b), (s)) #define HSCX_READ(n,r) (*sc->readreg)(sc, ISIC_WHAT_HSCXA+(n), (r)) #define HSCX_WRITE(n,r,v) (*sc->writereg)(sc, ISIC_WHAT_HSCXA+(n), (r), (v)) #define HSCX_RDFIFO(n,b,s) (*sc->readfifo)(sc, ISIC_WHAT_HSCXA+(n), (b), (s)) #define HSCX_WRFIFO(n,b,s) (*sc->writefifo)(sc, ISIC_WHAT_HSCXA+(n), (b), (s)) #define IPAC_READ(r) (*sc->readreg)(sc, ISIC_WHAT_IPAC, (r)) #define IPAC_WRITE(r, v) (*sc->writereg)(sc, ISIC_WHAT_IPAC, (r), (v)) }; /*---------------------------------------------------------------------------* * possible I.430/ISAC states *---------------------------------------------------------------------------*/ enum I430states { ST_F3, /* F3 Deactivated */ ST_F4, /* F4 Awaiting Signal */ ST_F5, /* F5 Identifying Input */ ST_F6, /* F6 Synchronized */ ST_F7, /* F7 Activated */ ST_F8, /* F8 Lost Framing */ ST_ILL, /* Illegal State */ N_STATES }; /*---------------------------------------------------------------------------* * possible I.430/ISAC events *---------------------------------------------------------------------------*/ enum I430events { EV_PHAR, /* PH ACTIVATE REQUEST */ EV_T3, /* Timer 3 expired */ EV_INFO0, /* receiving INFO0 */ EV_RSY, /* receiving any signal */ EV_INFO2, /* receiving INFO2 */ EV_INFO48, /* receiving INFO4 pri 8/9 */ EV_INFO410, /* receiving INFO4 pri 10/11 */ EV_DR, /* Deactivate Request */ EV_PU, /* Power UP */ EV_DIS, /* Disconnected (only 2085) */ EV_EI, /* Error Indication */ EV_ILL, /* Illegal Event */ N_EVENTS }; enum I430commands { CMD_TIM, /* Timing */ CMD_RS, /* Reset */ CMD_AR8, /* Activation request pri 8 */ CMD_AR10, /* Activation request pri 10 */ CMD_DIU, /* Deactivate Indication Upstream */ CMD_ILL /* Illegal command */ }; #define N_COMMANDS CMD_ILL extern void isic_recover(struct isic_softc *); extern int isicintr(void *); extern int isicprobe(struct isic_attach_args *); extern int isic_attach_avma1(struct isic_softc *); extern int isic_attach_s016(struct isic_softc *); extern int isic_attach_s0163(struct isic_softc *); extern int isic_attach_s08(struct isic_softc *); extern int isic_attach_usrtai(struct isic_softc *); extern int isic_attach_itkix1(struct isic_softc *); extern void isic_bchannel_setup(void *, int, int, int); extern void isic_hscx_init(struct isic_softc *, int, int); extern void isic_hscx_irq(struct isic_softc *, u_char ista, int, u_char); extern void isic_hscx_cmd( struct isic_softc *, int, unsigned char); extern void isic_hscx_waitxfw( struct isic_softc *, int); extern void isic_init_linktab(struct isic_softc *); extern int isic_isac_init(struct isic_softc *); extern void isic_isac_irq(struct isic_softc *, int); extern void isic_isac_l1_cmd(struct isic_softc *, int); extern void isic_next_state(struct isic_softc *, int); extern const char * isic_printstate(struct isic_softc *); extern int isic_probe_avma1(struct isic_attach_args *); extern int isic_probe_s016(struct isic_attach_args *); extern int isic_probe_s0163(struct isic_attach_args *); extern int isic_probe_s08(struct isic_attach_args *ia); extern int isic_probe_usrtai(struct isic_attach_args *ia); extern int isic_probe_itkix1(struct isic_attach_args *ia); extern int isic_attach_bri(struct isic_softc *sc, const char *cardname, const struct isdn_layer1_isdnif_driver *dchan_driver); extern int isic_detach_bri(struct isic_softc *sc); extern void isic_isacsx_disable_intr(struct isic_softc *sc); extern void isic_isacsx_recover(struct isic_softc *sc); extern void isic_isacsx_irq(struct isic_softc *sc, int r); extern void isic_isacsx_l1_cmd(struct isic_softc *sc, int command); extern int isic_isacsx_init(struct isic_softc *sc); #endif /* !_ISIC_L1_H */