/*---------------------------------------------------------------------------* * L0 -> L1 trace information to trace driver *---------------------------------------------------------------------------*/ int i4b_l1_trace_ind(i4b_trace_hdr_t *hdr, int len, u_char *data) { int *tab; if((tab = getl1tab(L0DRVR(hdr->unit))) == NULL) panic("i4b_l1_trace_ind: unknown driver type %d\n", L0DRVR(hdr->unit)); NDBGL1(L1_PRIM, "(drv %d / drvunit %d) -> unit %d", L0DRVR(hdr->unit), L0UNIT(hdr->unit), tab[L0UNIT(hdr->unit)]); hdr->unit = tab[L0UNIT(hdr->unit)]; return(MPH_Trace_Ind(hdr, len, data)); }
/* * this is the real interrupt routine */ static void avm_pnp_hscx_intr(int h_chan, int stat, int cnt, struct isic_softc *sc) { register isic_Bchan_t *chan = &sc->sc_chan[h_chan]; int activity = -1; DBGL1(L1_H_IRQ, "avm_pnp_hscx_intr", ("%#x\n", stat)); if((stat & HSCX_INT_XDU) && (chan->bprot != BPROT_NONE))/* xmit data underrun */ { chan->stat_XDU++; DBGL1(L1_H_XFRERR, "avm_pnp_hscx_intr", ("xmit data underrun\n")); /* abort the transmission */ sc->avma1pp_txl = 0; sc->avma1pp_cmd |= HSCX_CMD_XRS; hscx_write_reg(h_chan, HSCX_STAT, sc, 1); sc->avma1pp_cmd &= ~HSCX_CMD_XRS; hscx_write_reg(h_chan, HSCX_STAT, sc, 1); if (chan->out_mbuf_head != NULL) /* don't continue to transmit this buffer */ { i4b_Bfreembuf(chan->out_mbuf_head); chan->out_mbuf_cur = chan->out_mbuf_head = NULL; } } /* * The following is based on examination of the Linux driver. * * The logic here is different than with a "real" HSCX; all kinds * of information (interrupt/status bits) are in stat. * HSCX_INT_RPR indicates a receive interrupt * HSCX_STAT_RDO indicates an overrun condition, abort - * otherwise read the bytes ((stat & HSCX_STZT_RML_MASK) >> 8) * HSCX_STAT_RME indicates end-of-frame and apparently any * CRC/framing errors are only reported in this state. * if ((stat & HSCX_STAT_CRCVFRRAB) != HSCX_STAT_CRCVFR) * CRC/framing error */ if(stat & HSCX_INT_RPR) { register int fifo_data_len; int error = 0; /* always have to read the FIFO, so use a scratch buffer */ u_char scrbuf[HSCX_FIFO_LEN]; if(stat & HSCX_STAT_RDO) { chan->stat_RDO++; DBGL1(L1_H_XFRERR, "avm_pnp_hscx_intr", ("receive data overflow\n")); error++; } fifo_data_len = cnt; if(fifo_data_len == 0) fifo_data_len = sc->sc_bfifolen; /* ALWAYS read data from HSCX fifo */ HSCX_RDFIFO(h_chan, scrbuf, fifo_data_len); chan->rxcount += fifo_data_len; /* all error conditions checked, now decide and take action */ if(error == 0) { if(chan->in_mbuf == NULL) { if((chan->in_mbuf = i4b_Bgetmbuf(BCH_MAX_DATALEN)) == NULL) panic("L1 avm_pnp_hscx_intr: RME, cannot allocate mbuf!\n"); chan->in_cbptr = chan->in_mbuf->m_data; chan->in_len = 0; } if((chan->in_len + fifo_data_len) <= BCH_MAX_DATALEN) { /* OK to copy the data */ bcopy(scrbuf, chan->in_cbptr, fifo_data_len); chan->in_cbptr += fifo_data_len; chan->in_len += fifo_data_len; /* setup mbuf data length */ chan->in_mbuf->m_len = chan->in_len; chan->in_mbuf->m_pkthdr.len = chan->in_len; if(sc->sc_trace & TRACE_B_RX) { i4b_trace_hdr_t hdr; hdr.unit = sc->sc_unit; hdr.type = (h_chan == HSCX_CH_A ? TRC_CH_B1 : TRC_CH_B2); hdr.dir = FROM_NT; hdr.count = ++sc->sc_trace_bcount; MICROTIME(hdr.time); MPH_Trace_Ind(&hdr, chan->in_mbuf->m_len, chan->in_mbuf->m_data); } if (stat & HSCX_STAT_RME) { if((stat & HSCX_STAT_CRCVFRRAB) == HSCX_STAT_CRCVFR) { (*chan->drvr_linktab->bch_rx_data_ready)(chan->drvr_linktab->unit); activity = ACT_RX; /* mark buffer ptr as unused */ chan->in_mbuf = NULL; chan->in_cbptr = NULL; chan->in_len = 0; } else { chan->stat_CRC++; DBGL1(L1_H_XFRERR, "avm_pnp_hscx_intr", ("CRC/RAB\n")); if (chan->in_mbuf != NULL) { i4b_Bfreembuf(chan->in_mbuf); chan->in_mbuf = NULL; chan->in_cbptr = NULL; chan->in_len = 0; } } } } /* END enough space in mbuf */ else { if(chan->bprot == BPROT_NONE) { /* setup mbuf data length */ chan->in_mbuf->m_len = chan->in_len; chan->in_mbuf->m_pkthdr.len = chan->in_len; if(sc->sc_trace & TRACE_B_RX) { i4b_trace_hdr_t hdr; hdr.unit = sc->sc_unit; hdr.type = (h_chan == HSCX_CH_A ? TRC_CH_B1 : TRC_CH_B2); hdr.dir = FROM_NT; hdr.count = ++sc->sc_trace_bcount; MICROTIME(hdr.time); MPH_Trace_Ind(&hdr, chan->in_mbuf->m_len, chan->in_mbuf->m_data); } /* move rx'd data to rx queue */ IF_ENQUEUE(&chan->rx_queue, chan->in_mbuf); (*chan->drvr_linktab->bch_rx_data_ready)(chan->drvr_linktab->unit); if(!(isic_hscx_silence(chan->in_mbuf->m_data, chan->in_mbuf->m_len))) activity = ACT_RX; /* alloc new buffer */ if((chan->in_mbuf = i4b_Bgetmbuf(BCH_MAX_DATALEN)) == NULL) panic("L1 avm_pnp_hscx_intr: RPF, cannot allocate new mbuf!\n"); /* setup new data ptr */ chan->in_cbptr = chan->in_mbuf->m_data; /* OK to copy the data */ bcopy(scrbuf, chan->in_cbptr, fifo_data_len); chan->in_cbptr += fifo_data_len; chan->in_len = fifo_data_len; chan->rxcount += fifo_data_len; } else { DBGL1(L1_H_XFRERR, "avm_pnp_hscx_intr", ("RAWHDLC rx buffer overflow in RPF, in_len=%d\n", chan->in_len)); chan->in_cbptr = chan->in_mbuf->m_data; chan->in_len = 0; } } } /* if(error == 0) */ else { /* land here for RDO */ if (chan->in_mbuf != NULL) { i4b_Bfreembuf(chan->in_mbuf); chan->in_mbuf = NULL; chan->in_cbptr = NULL; chan->in_len = 0; } sc->avma1pp_txl = 0; sc->avma1pp_cmd |= HSCX_CMD_RRS; hscx_write_reg(h_chan, HSCX_STAT, sc, 1); sc->avma1pp_cmd &= ~HSCX_CMD_RRS; hscx_write_reg(h_chan, HSCX_STAT, sc, 1); } } /* transmit fifo empty, new data can be written to fifo */ if(stat & HSCX_INT_XPR) { /* * for a description what is going on here, please have * a look at isic_bchannel_start() in i4b_bchan.c ! */ DBGL1(L1_H_IRQ, "avm_pnp_hscx_intr", ("unit %d, chan %d - XPR, Tx Fifo Empty!\n", sc->sc_unit, h_chan)); if(chan->out_mbuf_cur == NULL || chan->out_mbuf_head == NULL) /* last frame is transmitted */ { IF_DEQUEUE(&chan->tx_queue, chan->out_mbuf_head); if(chan->out_mbuf_head == NULL) { chan->state &= ~HSCX_TX_ACTIVE; (*chan->drvr_linktab->bch_tx_queue_empty)(chan->drvr_linktab->unit); } else { chan->state |= HSCX_TX_ACTIVE; chan->out_mbuf_cur = chan->out_mbuf_head; chan->out_mbuf_cur_ptr = chan->out_mbuf_cur->m_data; chan->out_mbuf_cur_len = chan->out_mbuf_cur->m_len; if(sc->sc_trace & TRACE_B_TX) { i4b_trace_hdr_t hdr; hdr.unit = sc->sc_unit; hdr.type = (h_chan == HSCX_CH_A ? TRC_CH_B1 : TRC_CH_B2); hdr.dir = FROM_TE; hdr.count = ++sc->sc_trace_bcount; MICROTIME(hdr.time); MPH_Trace_Ind(&hdr, chan->out_mbuf_cur->m_len, chan->out_mbuf_cur->m_data); } if(chan->bprot == BPROT_NONE) { if(!(isic_hscx_silence(chan->out_mbuf_cur->m_data, chan->out_mbuf_cur->m_len))) activity = ACT_TX; } else { activity = ACT_TX; } } } isic_hscx_fifo(chan, sc); } /* call timeout handling routine */ if(activity == ACT_RX || activity == ACT_TX) (*chan->drvr_linktab->bch_activity)(chan->drvr_linktab->unit, activity); }
static void avm_pnp_bchannel_start(int unit, int h_chan) { struct isic_softc *sc = &isic_sc[unit]; register isic_Bchan_t *chan = &sc->sc_chan[h_chan]; int s; int activity = -1; s = SPLI4B(); /* enter critical section */ if(chan->state & HSCX_TX_ACTIVE) /* already running ? */ { splx(s); return; /* yes, leave */ } /* get next mbuf from queue */ IF_DEQUEUE(&chan->tx_queue, chan->out_mbuf_head); if(chan->out_mbuf_head == NULL) /* queue empty ? */ { splx(s); /* leave critical section */ return; /* yes, exit */ } /* init current mbuf values */ chan->out_mbuf_cur = chan->out_mbuf_head; chan->out_mbuf_cur_len = chan->out_mbuf_cur->m_len; chan->out_mbuf_cur_ptr = chan->out_mbuf_cur->m_data; /* activity indicator for timeout handling */ if(chan->bprot == BPROT_NONE) { if(!(isic_hscx_silence(chan->out_mbuf_cur->m_data, chan->out_mbuf_cur->m_len))) activity = ACT_TX; } else { activity = ACT_TX; } chan->state |= HSCX_TX_ACTIVE; /* we start transmitting */ if(sc->sc_trace & TRACE_B_TX) /* if trace, send mbuf to trace dev */ { i4b_trace_hdr_t hdr; hdr.unit = unit; hdr.type = (h_chan == HSCX_CH_A ? TRC_CH_B1 : TRC_CH_B2); hdr.dir = FROM_TE; hdr.count = ++sc->sc_trace_bcount; MICROTIME(hdr.time); MPH_Trace_Ind(&hdr, chan->out_mbuf_cur->m_len, chan->out_mbuf_cur->m_data); } isic_hscx_fifo(chan, sc); /* call timeout handling routine */ if(activity == ACT_RX || activity == ACT_TX) (*chan->drvr_linktab->bch_activity)(chan->drvr_linktab->unit, activity); splx(s); }
/*---------------------------------------------------------------------------* * fill HSCX fifo with data from the current mbuf * Put this here until it can go into i4b_hscx.c *---------------------------------------------------------------------------*/ static int isic_hscx_fifo(isic_Bchan_t *chan, struct isic_softc *sc) { int len; int nextlen; int i; /* using a scratch buffer simplifies writing to the FIFO */ u_char scrbuf[HSCX_FIFO_LEN]; len = 0; /* * fill the HSCX tx fifo with data from the current mbuf. if * current mbuf holds less data than HSCX fifo length, try to * get the next mbuf from (a possible) mbuf chain. if there is * not enough data in a single mbuf or in a chain, then this * is the last mbuf and we tell the HSCX that it has to send * CRC and closing flag */ while(chan->out_mbuf_cur && len != sc->sc_bfifolen) { nextlen = min(chan->out_mbuf_cur_len, sc->sc_bfifolen - len); #ifdef NOTDEF printf("i:mh=%p, mc=%p, mcp=%p, mcl=%d l=%d nl=%d # ", chan->out_mbuf_head, chan->out_mbuf_cur, chan->out_mbuf_cur_ptr, chan->out_mbuf_cur_len, len, nextlen); #endif /* collect the data in the scratch buffer */ for (i = 0; i < nextlen; i++) scrbuf[i + len] = chan->out_mbuf_cur_ptr[i]; len += nextlen; chan->txcount += nextlen; chan->out_mbuf_cur_ptr += nextlen; chan->out_mbuf_cur_len -= nextlen; if(chan->out_mbuf_cur_len == 0) { if((chan->out_mbuf_cur = chan->out_mbuf_cur->m_next) != NULL) { chan->out_mbuf_cur_ptr = chan->out_mbuf_cur->m_data; chan->out_mbuf_cur_len = chan->out_mbuf_cur->m_len; if(sc->sc_trace & TRACE_B_TX) { i4b_trace_hdr_t hdr; hdr.unit = sc->sc_unit; hdr.type = (chan->channel == HSCX_CH_A ? TRC_CH_B1 : TRC_CH_B2); hdr.dir = FROM_TE; hdr.count = ++sc->sc_trace_bcount; MICROTIME(hdr.time); MPH_Trace_Ind(&hdr, chan->out_mbuf_cur->m_len, chan->out_mbuf_cur->m_data); } } else { i4b_Bfreembuf(chan->out_mbuf_head); chan->out_mbuf_head = NULL; } } } /* write what we have from the scratch buf to the HSCX fifo */ if (len != 0) HSCX_WRFIFO(chan->channel, scrbuf, len); return(0); }